CN110292686B - Atomization system and device with single authentication mechanism - Google Patents

Abstract

The invention discloses an atomization system and device with a single authentication mechanism. The atomization system with the single authentication mechanism comprises at least one atomized medicine container and an atomization device, wherein the at least one atomized medicine container is associated with the authentication code carrier and contains atomized medicines. The atomization device with the single authentication mechanism comprises an atomization module, a first power supply module, a control unit, an antenna module and an authentication module. The control unit controls the first power module to output a first driving voltage so as to directly drive the atomization module. The antenna module is used for receiving and transmitting signals, and the authentication module is configured to perform authentication operation related to the authentication code carrier so as to judge the authenticity of at least one atomized medicine container or atomized medicine and correspondingly generate an authentication result signal. The control unit determines whether to control the first power module to output the first driving voltage according to the authentication result signal. The atomization system and the atomization device provided by the invention can greatly improve the counterfeiting difficulty of the authentication code carrier and ensure the safety of data transmission.

Description

Translated fromChinese

具有单认证机制的雾化系统及装置Atomization system and device with single authentication mechanism

技术领域technical field

本发明涉及一种雾化系统及装置，特别是涉及一种具有单认证机制的雾化系统及装置。The invention relates to an atomization system and device, in particular to an atomization system and device with a single authentication mechanism.

背景技术Background technique

医疗用雾化器主要用于经呼吸系统给药。雾化器将药液雾化成具有一定粒径下的微小颗粒，可将药剂从患者口鼻递送，以通过呼吸方式进入患者体内呼吸系统并经循环系统达到治疗目的。Medical nebulizers are mainly used for drug delivery through the respiratory system. The nebulizer atomizes the liquid medicine into tiny particles with a certain particle size, which can deliver the medicine from the patient's mouth and nose to enter the patient's respiratory system through breathing and achieve the purpose of treatment through the circulatory system.

然而，由于市售药品价格不斐，常吸引一些不良商家对这些药品进行仿冒。由于产品造假容易且不法所得高，此等药品的伪造情形包括国内、外不曾间断。However, due to the high prices of commercially available drugs, some unscrupulous merchants are often attracted to counterfeit these drugs. Due to the ease of product counterfeiting and the high illegal gains, the counterfeiting of these drugs has been uninterrupted at home and abroad.

举例来说，国内外药厂主要的防伪方法是在药品包装或药品外侧标签上着手，以增加仿冒的困难度，通过提高仿冒成本，试图防堵假药情形，包括一维/二维条形码卷标、激光卷标、防伪瓶盖、防伪油墨印刷等等，但由于这些防伪技术的仿造难度不高，造假者很快能掌握破解方法，因此都无法完全根除此等药品的伪造情形。For example, the main anti-counterfeiting method of domestic and foreign pharmaceutical companies is to start on the drug packaging or the outer label of the drug to increase the difficulty of counterfeiting, and try to prevent the situation of counterfeit drugs by increasing the cost of counterfeiting, including 1D/2D barcode rolls. Labels, laser labels, anti-counterfeiting bottle caps, anti-counterfeiting ink printing, etc., but because these anti-counterfeiting technologies are not difficult to counterfeit, counterfeiters can quickly master the cracking method, so they cannot completely eradicate the counterfeiting of these drugs.

其中，伪造药品亦可能对消费者造成身体上的危害，而造成生命财产的损失。因此，亟需一种能改善现有防伪机制，并能确保消费者不会使用到伪造药品的雾化系统及装置。Among them, counterfeit drugs may also cause physical harm to consumers, resulting in loss of life and property. Therefore, there is an urgent need for an atomization system and device that can improve the existing anti-counterfeiting mechanism and ensure that consumers will not use counterfeit medicines.

发明内容SUMMARY OF THE INVENTION

本发明所要解决的技术问题在于，针对现有技术的不足提供一种具有单认证机制的雾化系统及装置。The technical problem to be solved by the present invention is to provide an atomization system and device with a single authentication mechanism aiming at the deficiencies of the prior art.

为了解决上述的技术问题，本发明所采用的其中一技术方案是，提供一种具有单认证机制的雾化系统，所述具有单认证机制的雾化系统包括至少一雾化药品容器以及一雾化装置。至少一雾化药品容器关联于认证码载体，所述至少一雾化药品容器中容置有雾化药品。所述雾化装置包括雾化模块、第一电源模块、控制单元、天线模块及认证模块。雾化模块具有容置部及雾化组件，所述容置部用于容置所述雾化药品，且所述雾化组件用于在所述雾化药品置于所述容置部中时进行雾化。第一电源模块用以输出第一驱动电压以直接驱动所述雾化模块。控制单元连接于所述第一电源模块，所述控制单元用以控制所述第一电源模块输出所述第一驱动电压。天线模块用于收发信号。认证模块分别连接于所述控制单元及所述天线模块，并被配置为用以进行与所述认证码载体相关的认证操作，以判定所述至少一雾化药品容器或所述雾化药品的真伪，并对应产生认证结果信号。其中，所述控制单元被配置为用以根据所述认证结果信号决定是否控制所述第一电源模块输出所述第一驱动电压。In order to solve the above technical problems, one of the technical solutions adopted by the present invention is to provide an atomization system with a single authentication mechanism, and the atomization system with a single authentication mechanism includes at least one atomized medicine container and an atomization system. chemical device. At least one atomized medicine container is associated with the authentication code carrier, and the at least one atomized medicine container accommodates the atomized medicine. The atomization device includes an atomization module, a first power supply module, a control unit, an antenna module and an authentication module. The atomization module has an accommodating part and an atomizing component, the accommodating part is used for accommodating the atomized medicine, and the atomizing component is used for when the atomized medicine is placed in the accommodating part Atomize. The first power module is used for outputting a first driving voltage to directly drive the atomizing module. The control unit is connected to the first power supply module, and the control unit is used for controlling the first power supply module to output the first driving voltage. The antenna module is used to send and receive signals. The authentication module is respectively connected to the control unit and the antenna module, and is configured to perform an authentication operation related to the authentication code carrier to determine the at least one aerosolized medicine container or the aerosolized medicine. Authenticity, and correspondingly generate the authentication result signal. The control unit is configured to determine whether to control the first power module to output the first driving voltage according to the authentication result signal.

优选地，所述认证模块包括无线辨识器(无线识别器)，且所述认证码载体包括无线辨识芯片，所述无线辨识器被配置为用以针对所述无线辨识芯片进行所述认证操作。Preferably, the authentication module includes a wireless identifier (wireless identifier), and the authentication code carrier includes a wireless identification chip, and the wireless identifier is configured to perform the authentication operation with respect to the wireless identification chip.

优选地，所述具有单认证机制的雾化系统还包括连接于所述控制单元的一第二电源模块，用以输出一第二驱动电压，其中所述无线辨识芯片为可发送无线射频辨识信号的一主动式无线射频辨识芯片、可发送蓝牙识别信号的一蓝牙辨识芯片或包括ISM(Industrial Scientific Medical)频段无线射频辨识芯片，所述第二电源模块被配置为用以在电性耦合于所述认证码载体时，输出所述第二驱动电压以致能(驱动)所述无线辨识芯片。Preferably, the atomization system with a single authentication mechanism further includes a second power module connected to the control unit for outputting a second driving voltage, wherein the wireless identification chip is capable of sending radio frequency identification signals an active radio frequency identification chip, a Bluetooth identification chip that can send a Bluetooth identification signal, or an ISM (Industrial Scientific Medical) frequency band radio frequency identification chip, the second power module is configured to be electrically coupled to the When the authentication code carrier is used, the second driving voltage is output to enable (drive) the wireless identification chip.

优选地，所述雾化装置还包括耦接于所述第二电源模块的一供电部，且所述认证码载体进一步包含与所述无线辨识芯片耦接的一受电部，所述第二电源模块被配置为用以在所述供电部电性连接于所述受电部时，输出所述第二驱动电压以致能所述无线辨识芯片。Preferably, the atomizing device further includes a power supply portion coupled to the second power module, and the authentication code carrier further includes a power receiving portion coupled to the wireless identification chip, the second power supply portion The power module is configured to output the second driving voltage to enable the wireless identification chip when the power supply unit is electrically connected to the power receiving unit.

优选地，所述雾化装置还包括一认证码载体容置部，用以容纳所述认证码载体。Preferably, the atomizing device further includes an authentication code carrier accommodating portion for accommodating the authentication code carrier.

优选地，所述雾化装置还包括与所述认证模块连接的一认证码输入接口，其被配置以供用户输入所述认证码载体的一认证信息，且所述认证模块还被配置为用以根据所述认证信息判定所述至少一雾化药品容器或所述雾化药品的真伪，并对应产生所述认证结果信号。Preferably, the atomizing device further comprises an authentication code input interface connected to the authentication module, which is configured for a user to input an authentication information of the authentication code carrier, and the authentication module is further configured to use The authenticity of the at least one atomized medicine container or the atomized medicine is determined according to the authentication information, and the authentication result signal is correspondingly generated.

优选地，所述雾化装置还包括与所述认证模块连接的一结构锁模块，且所述认证码载体还包括一结构钥匙，当所述结构锁模块藉由所述结构钥匙开启时，所述结构锁模块传送一启动信号以致能(启动)所述认证模块进行所述认证操作。Preferably, the atomizing device further includes a structural lock module connected to the authentication module, and the authentication code carrier further includes a structural key, when the structural lock module is opened by the structural key, the The fabric lock module transmits an activation signal to enable (start) the authentication module to perform the authentication operation.

优选地，所述至少一雾化药品容器的数量为多个，且所述多个雾化药品容器关联于所述认证码载体。Preferably, the number of the at least one atomized medicine container is multiple, and the multiple atomized medicine containers are associated with the authentication code carrier.

优选地，所述认证码载体还包括一用量限制信息，所述认证操作包括配置所述认证模块以判定所述用量限制信息是否到达一预定限制用量。Preferably, the authentication code carrier further includes usage restriction information, and the authentication operation includes configuring the authentication module to determine whether the usage restriction information reaches a predetermined restricted usage.

优选地，所述认证操作包括在判定所述至少一雾化药品容器或所述雾化药品为真之后，还配置所述认证模块以更新所述用量限制信息。Preferably, the authentication operation includes configuring the authentication module to update the usage limit information after determining that the at least one atomized drug container or the aerosolized drug is true.

优选地，所述具有单认证机制的雾化系统还包括一储值装置，其被配置为用以更新所述认证码载体的所述用量限制信息。Preferably, the atomization system with a single authentication mechanism further includes a stored value device configured to update the usage limit information of the authentication code carrier.

为了解决上述的技术问题，本发明所采用的另外一技术方案是，提供一种具有单认证机制的雾化装置，所述具有单认证机制的雾化装置适用于至少一雾化药品容器，所述至少一雾化药品容器关联于一认证码载体，且所述至少一雾化药品容器容置有一雾化药品，所述具有单认证机制的雾化装置包括雾化模块、第一电源模块、控制单元、天线模块以及认证模块。雾化模块具有一容置部及一雾化组件，所述容置部用于容置所述雾化药品，且所述雾化组件用于在所述雾化药品置于所述容置部中时进行雾化。第一电源模块用以输出一第一驱动电压以直接驱动所述雾化模块。控制单元连接所述第一电源模块，所述控制单元用以控制所述第一电源模块输出所述第一驱动电压。天线模块用于收发信号。认证模块分别连接于所述控制单元及所述天线模块，所述认证模块被配置为用以进行与所述认证码载体相关的一认证操作，以判定所述至少一雾化药品容器或所述雾化药品的真伪，并对应产生一认证结果信号。其中，所述控制单元被配置为用以根据所述认证结果信号决定是否控制所述第一电源模块输出所述第一驱动电压。In order to solve the above technical problems, another technical solution adopted by the present invention is to provide an atomizing device with a single authentication mechanism, and the atomizing device with a single authentication mechanism is suitable for at least one atomized medicine container, so The at least one atomized medicine container is associated with an authentication code carrier, and the at least one atomized medicine container accommodates an atomized medicine, and the atomization device with a single authentication mechanism includes an atomization module, a first power supply module, Control unit, antenna module and authentication module. The atomization module has an accommodating part and an atomizing component, the accommodating part is used for accommodating the atomized medicine, and the atomizing component is used for placing the atomized medicine in the accommodating part Atomize in the middle. The first power module is used for outputting a first driving voltage to directly drive the atomizing module. The control unit is connected to the first power supply module, and the control unit is used for controlling the first power supply module to output the first driving voltage. The antenna module is used to send and receive signals. The authentication module is respectively connected to the control unit and the antenna module, and the authentication module is configured to perform an authentication operation related to the authentication code carrier to determine the at least one atomized medicine container or the The authenticity of the aerosolized medicine, and correspondingly generate a certification result signal. The control unit is configured to determine whether to control the first power module to output the first driving voltage according to the authentication result signal.

优选地，所述认证模块包括一无线辨识器，且所述认证码载体包括一无线辨识芯片，所述无线辨识器被配置为用以针对所述无线辨识芯片进行所述认证操作。Preferably, the authentication module includes a wireless identification device, and the authentication code carrier includes a wireless identification chip, and the wireless identification device is configured to perform the authentication operation for the wireless identification chip.

优选地，所述具有单认证机制的雾化装置还包括连接于所述控制单元的一第二电源模块，用以输出一第二驱动电压。其中所述无线辨识芯片为可发送无线射频辨识信号的一主动式无线射频辨识芯片、可发送蓝牙识别信号的一蓝牙辨识芯片或包括ISM(Industrial Scientific Medical)频段无线射频辨识芯片，所述第二电源模块被配置为用以在电性耦合于所述认证码载体时，输出所述第二驱动电压以致能所述无线辨识芯片。Preferably, the atomizing device with a single authentication mechanism further includes a second power module connected to the control unit for outputting a second driving voltage. The RFID chip is an active RFID chip that can send RFID signals, a Bluetooth recognition chip that can send RFID signals, or a RFID chip including an ISM (Industrial Scientific Medical) frequency band. The power module is configured to output the second driving voltage to enable the wireless identification chip when electrically coupled to the authentication code carrier.

优选地，所述具有单认证机制的雾化装置还包括耦接于所述第二电源模块的一供电部，且所述认证码载体还包含与所述无线辨识芯片耦接的一受电部，所述第二电源模块被配置为用以在所述供电部电性连接于所述受电部时，输出所述第二驱动电压以致能所述无线辨识芯片。Preferably, the atomizing device with a single authentication mechanism further includes a power supply unit coupled to the second power module, and the authentication code carrier further includes a power receiving unit coupled to the wireless identification chip , the second power module is configured to output the second driving voltage to enable the wireless identification chip when the power supply part is electrically connected to the power receiving part.

优选地，所述具有单认证机制的雾化装置还包括一认证码载体容置部，用以容纳所述认证码载体。Preferably, the atomizing device with a single authentication mechanism further includes an authentication code carrier accommodating portion for accommodating the authentication code carrier.

优选地，所述具有单认证机制的雾化装置还包括与所述认证模块连接的一认证码输入接口，其被配置以供用户输入所述认证码载体的一认证信息，且所述认证模块还被配置为用以根据所述认证信息判定所述至少一雾化药品容器或所述雾化药品的真伪，并对应产生所述认证结果信号。Preferably, the atomizing device with a single authentication mechanism further comprises an authentication code input interface connected to the authentication module, which is configured for a user to input an authentication information of the authentication code carrier, and the authentication module It is also configured to determine the authenticity of the at least one atomized medicine container or the atomized medicine according to the authentication information, and generate the authentication result signal correspondingly.

优选地，所述具有单认证机制的雾化装置还包括与所述认证模块连接的一结构锁模块，且所述认证码载体还包括一结构钥匙，当所述结构锁模块借助所述结构钥匙开启时，所述结构锁模块传送一启动信号以致能所述认证模块进行所述认证操作。Preferably, the atomizing device with a single authentication mechanism further includes a structural lock module connected to the authentication module, and the authentication code carrier further includes a structural key, when the structural lock module uses the structural key When turned on, the structural lock module transmits an activation signal to enable the authentication module to perform the authentication operation.

优选地，所述至少一雾化药品容器的数量为多个，且所述多个雾化药品容器关联于所述认证码载体。Preferably, the number of the at least one atomized medicine container is multiple, and the multiple atomized medicine containers are associated with the authentication code carrier.

优选地，所述认证码载体还包括一用量限制信息，所述认证操作包括配置所述认证模块以判定所述用量限制信息是否到达一预定限制用量。Preferably, the authentication code carrier further includes usage restriction information, and the authentication operation includes configuring the authentication module to determine whether the usage restriction information reaches a predetermined restricted usage.

优选地，所述认证操作包括在判定所述至少一雾化药品容器或所述雾化药品为真之后，还配置所述认证模块以更新所述用量限制信息。Preferably, the authentication operation includes configuring the authentication module to update the usage limit information after determining that the at least one atomized drug container or the aerosolized drug is true.

本发明的其中一有益效果在于，本发明所提供的具有单认证机制的雾化系统及装置，其能通过“无线辨识器”以及“无线辨识芯片”的技术方案，以达到提高防伪标识符与产品履历数据的防伪效果。One of the beneficial effects of the present invention is that the atomization system and device with a single authentication mechanism provided by the present invention can improve the anti-counterfeiting identifier and the Anti-counterfeiting effect of product history data.

本发明的其中另一有益效果在于，本发明所提供的具有单认证机制的雾化系统及装置，其能通过以“第二电源模块的供电端”与“无线辨识芯片的受电端”的连接，进一步提升其安全性及防伪造能力。Another beneficial effect of the present invention is that the atomization system and device with a single authentication mechanism provided by the present invention can pass the connection between "the power supply end of the second power module" and "the power receiving end of the wireless identification chip". connection to further enhance its security and anti-counterfeiting capabilities.

本发明的其中又一有益效果在于，本发明所提供的具有单认证机制的雾化系统及装置，其能通过“认证码输入接口”与“影像撷取模块(图像获取模块)”取得“认证信息”的技术方案，提升认证的方便性。Another beneficial effect of the present invention is that the atomization system and device with a single authentication mechanism provided by the present invention can obtain "authentication" through the "authentication code input interface" and the "image capture module (image capture module)" Information" technical solution to improve the convenience of certification.

本发明的其中再一有益效果在于，本发明所提供的具有单认证机制的雾化系统及装置，其能通过“结构锁模块”与“结构钥匙”的特定配置，搭配“无线辨识器”以及“无线辨识芯片”的技术方案，增加了双重安全性，更提升了伪造雾化药品容器的难度。Another beneficial effect of the present invention is that the atomization system and device with a single authentication mechanism provided by the present invention can be matched with a "wireless identifier" and The technical solution of "wireless identification chip" increases double security and makes it more difficult to counterfeit aerosolized medicine containers.

为使能更进一步了解本发明的特征及技术内容，请参阅以下有关本发明的详细说明与附图，然而所提供的附图仅用于提供参考与说明，并非用来对本发明加以限制。For further understanding of the features and technical content of the present invention, please refer to the following detailed description and accompanying drawings of the present invention. However, the accompanying drawings are only for reference and description, not for limiting the present invention.

附图说明Description of drawings

图1为本发明第一实施例的具有单认证机制的雾化系统的方块图(框图)。FIG. 1 is a block diagram (block diagram) of an atomization system with a single authentication mechanism according to the first embodiment of the present invention.

图2A为本发明第一实施例的认证模块、天线模块及认证码载体的方块图。2A is a block diagram of an authentication module, an antenna module and an authentication code carrier according to the first embodiment of the present invention.

图2B为本发明第一实施例的具有单认证机制的雾化系统的其中一功能示意图。FIG. 2B is a functional schematic diagram of the atomization system with a single authentication mechanism according to the first embodiment of the present invention.

图2C为本发明第一实施例的具有单认证机制的雾化系统的其中另一功能示意图。2C is a schematic diagram of another function of the atomization system with a single authentication mechanism according to the first embodiment of the present invention.

图2D为本发明第一实施例的储值装置及认证码载体的方块图。2D is a block diagram of a stored value device and an authentication code carrier according to the first embodiment of the present invention.

图3为本发明第二实施例的具有单认证机制的雾化系统的方块图。3 is a block diagram of an atomization system with a single authentication mechanism according to a second embodiment of the present invention.

图4为本发明第二实施例的第二电源模块、认证模块、天线模块及认证码载体的方块图。4 is a block diagram of a second power supply module, an authentication module, an antenna module, and an authentication code carrier according to a second embodiment of the present invention.

图5为本发明第二实施例的具有单认证机制的雾化系统的功能示意图。FIG. 5 is a functional schematic diagram of an atomization system with a single authentication mechanism according to a second embodiment of the present invention.

图6为本发明第三实施例的具有单认证机制的雾化系统的方块图。FIG. 6 is a block diagram of an atomization system with a single authentication mechanism according to a third embodiment of the present invention.

图7为本发明第三实施例的具有单认证机制的雾化系统的立体图。FIG. 7 is a perspective view of an atomization system with a single authentication mechanism according to a third embodiment of the present invention.

图8为本发明第四实施例的具有单认证机制的雾化系统的方块图。FIG. 8 is a block diagram of an atomization system with a single authentication mechanism according to a fourth embodiment of the present invention.

图9为本发明第四实施例的具有单认证机制的雾化系统的立体图。9 is a perspective view of an atomization system with a single authentication mechanism according to a fourth embodiment of the present invention.

图10为本发明第五实施例的具有双认证机制的雾化系统的方块图。FIG. 10 is a block diagram of an atomization system with a dual authentication mechanism according to a fifth embodiment of the present invention.

图11A为本发明第五实施例的用户装置、云端服务器及认证码载体的方块图。11A is a block diagram of a user device, a cloud server, and an authentication code carrier according to a fifth embodiment of the present invention.

图11B为本发明第五实施例的用户装置、云端服务器、认证码载体及储值装置的方块图。11B is a block diagram of a user device, a cloud server, an authentication code carrier, and a stored value device according to a fifth embodiment of the present invention.

图12为本发明第六实施例的具有双认证机制的雾化系统的方块图。FIG. 12 is a block diagram of an atomization system with a dual authentication mechanism according to a sixth embodiment of the present invention.

图13为本发明第七实施例的具有双认证机制的雾化系统的方块图。FIG. 13 is a block diagram of an atomization system with a dual authentication mechanism according to a seventh embodiment of the present invention.

图14为本发明第八实施例的具有双认证机制的雾化系统的方块图。FIG. 14 is a block diagram of an atomization system with a dual authentication mechanism according to an eighth embodiment of the present invention.

图15为本发明第八实施例的第一认证模块、天线模块、用户装置、云端服务器及认证码载体的方块图。15 is a block diagram of a first authentication module, an antenna module, a user device, a cloud server, and an authentication code carrier according to an eighth embodiment of the present invention.

图16为本发明第九实施例的具有双认证机制的雾化系统的方块图。FIG. 16 is a block diagram of an atomization system with a dual authentication mechanism according to a ninth embodiment of the present invention.

图17为本发明第九实施例的具有双认证机制的雾化系统的立体图。17 is a perspective view of an atomization system with a dual authentication mechanism according to a ninth embodiment of the present invention.

图18为本发明第十实施例的具有双认证机制的雾化系统的方块图。FIG. 18 is a block diagram of an atomization system with a dual authentication mechanism according to a tenth embodiment of the present invention.

图19为本发明的第十一实施例的具有认证机制的雾化方法的流程图。FIG. 19 is a flowchart of an atomization method with an authentication mechanism according to an eleventh embodiment of the present invention.

图20A为本发明的第十二实施例的具有认证机制的雾化方法的流程图。FIG. 20A is a flowchart of an atomization method with an authentication mechanism according to the twelfth embodiment of the present invention.

图20B为本发明的第十二实施例的具有认证机制的雾化方法的另一流程图。FIG. 20B is another flowchart of the atomization method with an authentication mechanism according to the twelfth embodiment of the present invention.

图21为本发明的第十三实施例的具有认证机制的雾化方法的流程图。FIG. 21 is a flowchart of an atomization method with an authentication mechanism according to the thirteenth embodiment of the present invention.

图22为本发明的第十四实施例的具有认证机制的雾化方法的流程图。FIG. 22 is a flowchart of an atomization method with an authentication mechanism according to the fourteenth embodiment of the present invention.

图23为本发明的第十五实施例的具有认证机制的雾化方法的流程图。FIG. 23 is a flowchart of an atomization method with an authentication mechanism according to the fifteenth embodiment of the present invention.

图24A为本发明的第十六实施例的具有认证机制的雾化方法的流程图。FIG. 24A is a flowchart of an atomization method with an authentication mechanism according to the sixteenth embodiment of the present invention.

图24B为本发明的第十六实施例的具有认证机制的雾化方法的另一流程图。FIG. 24B is another flowchart of the atomization method with an authentication mechanism according to the sixteenth embodiment of the present invention.

图25为本发明的第十七实施例的认证操作的流程图。FIG. 25 is a flowchart of the authentication operation of the seventeenth embodiment of the present invention.

图26为本发明的第十八实施例的认证操作的流程图。FIG. 26 is a flowchart of the authentication operation of the eighteenth embodiment of the present invention.

图27为本发明的第十九实施例的认证操作的流程图。FIG. 27 is a flowchart of the authentication operation of the nineteenth embodiment of the present invention.

图28为本发明的第二十实施例的认证操作的流程图。FIG. 28 is a flowchart of the authentication operation of the twentieth embodiment of the present invention.

图29为本发明的第二十一实施例的具有认证机制的雾化方法的流程图。FIG. 29 is a flowchart of an atomization method with an authentication mechanism according to the twenty-first embodiment of the present invention.

图30为本发明的第二十二实施例的认证操作的流程图。FIG. 30 is a flowchart of the authentication operation of the twenty-second embodiment of the present invention.

图31为本发明的第二十三实施例的认证操作的流程图。FIG. 31 is a flowchart of the authentication operation of the twenty-third embodiment of the present invention.

具体实施方式Detailed ways

以下是通过特定的具体实施例来说明本发明所公开有关“雾化系统及方法”的实施方式，本领域技术人员可由本说明书所公开的内容了解本发明的优点与效果。本发明可通过其它不同的具体实施例加以施行或应用，本说明书中的各项细节也可基于不同观点与应用，在不悖离本发明的构思下进行各种修改与变更。另外，本发明的附图仅为简单示意说明，并非依实际尺寸的描绘，事先声明。以下的实施方式将进一步详细说明本发明的相关技术内容，但所公开的内容并非用以限制本发明的保护范围。The following are specific specific examples to illustrate the implementation of the "atomization system and method" disclosed in the present invention, and those skilled in the art can understand the advantages and effects of the present invention from the content disclosed in this specification. The present invention can be implemented or applied through other different specific embodiments, and various details in this specification can also be modified and changed based on different viewpoints and applications without departing from the concept of the present invention. In addition, the drawings of the present invention are merely schematic illustrations, and are not drawn according to the actual size, and are stated in advance. The following embodiments will further describe the related technical contents of the present invention in detail, but the disclosed contents are not intended to limit the protection scope of the present invention.

应理解，虽然本文中可能使用术语第一、第二、第三等来描述各种组件或者信号，但这些组件或者信号不应受这些术语的限制。这些术语主要是用以区分一组件与另一组件，或者一信号与另一信号。另外，本文中所使用的术语“或”，应视实际情况可能包括相关联的列出项目中的任一个或者多个的组合。It will be understood that, although the terms first, second, third, etc. may be used herein to describe various components or signals, these components or signals should not be limited by these terms. These terms are primarily used to distinguish one component from another component, or one signal from another. In addition, the term "or", as used herein, should include any one or a combination of more of the associated listed items, as the case may be.

为了解释清楚，在一些情况下，本技术可被呈现为包括包含功能块的独立功能块，其包含装置、装置组件、软件中实施的方法中的步骤或路由，或硬件及软件的组合。For clarity of explanation, in some cases, the technology may be presented as comprising separate functional blocks comprising functional blocks, which comprise a device, a component of a device, a step or route in a method implemented in software, or a combination of hardware and software.

在一些实施方式中，计算机可读储存装置、介质和内存可以包括电缆或含有比特流等的无线信号。然而，当提及时，非临时性计算机可读储存介质明确地排除诸如能量、载波信号、电磁波及信号本身的介质。In some embodiments, computer readable storage, media, and memory may include cables or wireless signals containing bitstreams or the like. However, when mentioned, non-transitory computer-readable storage media expressly exclude media such as energy, carrier signals, electromagnetic waves, and the signals themselves.

使用储存或以其它方式可从计算机可读介质取得的计算机执行指令来实现根据上述实施例的方法。这样的指令例如可包括导致或以其它方式配置通用目标计算机、专用目标计算机，或专用目的处理装置执行某一功能或功能组的指令和数据。所使用计算机资源的部分可以通过网络进行存取。该计算机可执行指令可以是，例如二进制，中间格式指令，诸如汇编语言(assembly language)、固件、或源代码(source code)。可用来储存根据所描述实施例中的方法期间的指令、所使用的信息、及/或所创造的信息的计算机可读介质的实例包括磁盘或光盘、闪存、设置有非易失性内存的USB装置、联网的储存装置等等。Methods according to the above-described embodiments are implemented using computer-executable instructions stored or otherwise fetchable from a computer-readable medium. Such instructions may include, for example, instructions and data that cause or otherwise configure a general purpose object computer, special purpose object computer, or special purpose processing apparatus to perform a certain function or group of functions. Portions of the computer resources used can be accessed over the network. The computer-executable instructions may be, for example, binary, intermediate format instructions such as assembly language, firmware, or source code. Examples of computer readable media that may be used to store instructions, information used, and/or information created during methods in accordance with the described embodiments include magnetic or optical disks, flash memory, USB provided with non-volatile memory devices, networked storage devices, etc.

实施根据这些所披露的方法的装置可以包括硬件、固件及/或软件，且可以采取任何各种形体。这种形体的典型例子包括笔记本电脑、智能电话、小型个人计算机、个人数字助理等等。本文描述的功能也可以实施于外围设备或内置卡。通过进一步举例，这种功能也可以实施在不同芯片或在单个装置上执行的不同程序的电路板。Apparatuses implementing methods in accordance with these disclosures may comprise hardware, firmware and/or software, and may take any of a variety of forms. Typical examples of such forms include notebook computers, smart phones, small personal computers, personal digital assistants, and the like. The functions described herein can also be implemented on peripheral devices or built-in cards. By way of further example, such functionality may also be implemented on different chips or circuit boards with different programs executing on a single device.

该指令、用于传送这样的指令的介质、用于执行其的计算资源或用于支持这样的计算资源的其它结构，为用于提供在这些公开中所述的功能的手段。The instructions, a medium for conveying such instructions, a computing resource for executing the same, or other structure for supporting such a computing resource, are means for providing the functionality described in these disclosures.

【第一实施例】[First Embodiment]

请参阅图1所示，图1为本发明第一实施例的具有单认证机制的雾化系统的方块图。如图所示，雾化系统1包括雾化药品容器10及雾化装置12。雾化药品容器10具有认证码载体100，雾化药品容器10中容置有雾化药品102。一般而言，雾化药品容器10可为具有瓶口的瓶装容器，而认证码载体100可为设置于瓶盖上的电子卷标，以与瓶装容器分离使用，但本发明不限与此，认证码载体100亦可为可分离的设置于瓶装容器外侧的电子卷标。Please refer to FIG. 1 , which is a block diagram of an atomization system with a single authentication mechanism according to a first embodiment of the present invention. As shown in the figure, theatomizing system 1 includes anatomizing medicine container 10 and anatomizing device 12 . The atomizedmedicine container 10 has anauthentication code carrier 100, and the atomizedmedicine container 10 accommodates the atomizedmedicine 102 therein. Generally speaking, the atomizedmedicine container 10 can be a bottled container with a bottle mouth, and theauthentication code carrier 100 can be an electronic label provided on the bottle cap to be used separately from the bottled container, but the present invention is not limited thereto. Theauthentication code carrier 100 can also be a detachable electronic label provided outside the bottle container.

继续参阅图1说明，雾化装置12包括雾化模块120、第一电源模块122、控制单元124、天线模块126及认证模块128。雾化模块120具有容置部130及雾化组件132，容置部130可用于装载前述的雾化药品102，且雾化组件132用于在雾化药品102置于容置部130中时进行雾化。此外，控制单元124电性连接第一电源模块122，第一电源模块122电性连接雾化模块120。Continuing to describe with reference to FIG. 1 , theatomizing device 12 includes anatomizing module 120 , a firstpower supply module 122 , acontrol unit 124 , anantenna module 126 and anauthentication module 128 . Theatomization module 120 has anaccommodating portion 130 and anatomizing component 132 . Theaccommodating portion 130 can be used to load the aforementionednebulized medicine 102 , and thenebulizing component 132 is used for carrying out the atomization when thenebulizing medicine 102 is placed in theaccommodating portion 130 . Atomize. In addition, thecontrol unit 124 is electrically connected to the firstpower supply module 122 , and the firstpower supply module 122 is electrically connected to theatomization module 120 .

在实务上，控制单元124用以控制第一电源模块122以输出第一驱动电压V11。第一电源模块122输出的第一驱动电压V11主要用以直接驱动雾化模块120。详细来说，控制单元124例如为控制芯片、微控制芯片或PWM控制芯片，本实施例不限制控制单元124的样式。其中，控制单元124内建多个可输出脉冲调变信号的端口，可提供不同频率与责任周期的控制信号。频率调整范围例如为10Hz～1MHz，而责任周期(Duty Cycle)调整范围例如为10％～90％。在实务上，控制单元124可输出一个或多个控制信号。其中控制信号用以控制第一电源模块122的运作。In practice, thecontrol unit 124 is used to control thefirst power module 122 to output the first driving voltage V11. The first driving voltage V11 output by thefirst power module 122 is mainly used to directly drive theatomizing module 120 . In detail, thecontrol unit 124 is, for example, a control chip, a micro-control chip or a PWM control chip, and this embodiment does not limit the style of thecontrol unit 124 . Among them, thecontrol unit 124 has built-in multiple ports capable of outputting pulse modulation signals, and can provide control signals with different frequencies and duty cycles. The frequency adjustment range is, for example, 10 Hz to 1 MHz, and the duty cycle adjustment range is, for example, 10% to 90%. In practice, thecontrol unit 124 may output one or more control signals. The control signal is used to control the operation of thefirst power module 122 .

第一电源模块122例如为驱动电路，其包括一个或多个开关、一个或多个电感、一个或多个电容与二极管。本实施例不限制第一电源模块122的样式。其中，第一电源模块122用以接收控制单元124所输出的控制信号。在实务上，第一电源模块122根据控制信号以输出频率振动的第一驱动电压V11给雾化模块120。其中，第一驱动电压V11例如为脉动直流电压。第一驱动电压V11的波形例如为一弦波、一三角波或一方波。Thefirst power module 122 is, for example, a driving circuit, which includes one or more switches, one or more inductors, one or more capacitors and diodes. This embodiment does not limit the style of thefirst power module 122 . Thefirst power module 122 is used for receiving the control signal output by thecontrol unit 124 . In practice, thefirst power module 122 outputs the first driving voltage V11 vibrating at the frequency to theatomizing module 120 according to the control signal. The first driving voltage V11 is, for example, a pulsating DC voltage. The waveform of the first driving voltage V11 is, for example, a sine wave, a triangular wave or a square wave.

在本发明中，为了实现无线认证，雾化装置12还具有天线模块126，用于收发信号。同时，雾化装置12还具有认证模块128，其分别连接于控制单元124及天线模块126，并被配置为用以进行与认证码载体100相关的一认证操作，以判定雾化药品容器10或雾化药品102的真伪，并对应产生认证结果信号S11，其中，控制单元124被配置为用以根据认证结果信号S11控制第一电源模块122输出第一驱动电压V11。In the present invention, in order to realize wireless authentication, theatomizing device 12 also has anantenna module 126 for sending and receiving signals. Meanwhile, theatomizing device 12 also has anauthentication module 128, which is respectively connected to thecontrol unit 124 and theantenna module 126, and is configured to perform an authentication operation related to theauthentication code carrier 100 to determine whether the atomizedmedicine container 10 or the The authenticity of theaerosolized medicine 102 is correspondingly generated, and the authentication result signal S11 is generated, wherein thecontrol unit 124 is configured to control thefirst power module 122 to output the first driving voltage V11 according to the authentication result signal S11.

具体而言，认证模块128与认证码载体100之间的认证操作可采用无线射频辨识技术(Radio Frequency Identification,RFID)，其是一种非接触式、自动辨识技术的射频辨识系统，主要是由无线射频电子卷标(RFID Tag)、读取器或读码器(Reader)及其相关应用系统(Application System)所组成。Specifically, the authentication operation between theauthentication module 128 and theauthentication code carrier 100 may use radio frequency identification technology (Radio Frequency Identification, RFID), which is a non-contact, automatic identification technology radio frequency identification system, mainly composed of It consists of a radio frequency electronic label (RFID Tag), a reader or a code reader (Reader) and its related application system (Application System).

RFID的卷标(Tag)结构，是在底材(housing)上面加上线圈(coil)，以及芯片(chip)所组成，而无线射频电子卷标(RFID Tag)通过线圈的金属绕线或是所形成的天线(antenna)接收到读取器的能量或是通过线圈自身的电力，来接受或是传出芯片里面的信息，以达到无线射频电子卷标(RFID Tag)和读取器之间的沟通。The RFID tag structure is composed of a coil and a chip on the substrate (housing), and the radio frequency electronic tag (RFID Tag) passes through the metal winding of the coil or The formed antenna receives the energy of the reader or the power of the coil itself to receive or transmit the information in the chip, so as to achieve the connection between the RFID Tag and the reader. communication.

无线射频辨识标签又可大致分成主动式及被动式。主动式可通过一外部供电装置(例如：电池)供电至无线射频辨识标签本身，而被动式则直接由外部读取/写入装置传输的无线电波供电至无线射频辨识标签本身。Radio frequency identification tags can be roughly divided into active and passive. The active type can supply power to the RFID tag itself through an external power supply device (such as a battery), while the passive type can directly supply power to the RFID tag itself by radio waves transmitted by an external reading/writing device.

请进一步参阅图2A至图2D所示，图2A为本发明第一实施例的认证模块、天线模块及认证码载体的方块图，图2B为本发明第一实施例的具有单认证机制的雾化系统的其中一功能示意图，图2C为本发明第一实施例的具有单认证机制的雾化系统的其中另一功能示意图。如图所示，认证模块128包括无线辨识器1280、认证单元1282及内存1284，认证码载体100包括无线辨识芯片1000及与之连接的天线1002。在此范例中，认证模块128与认证码载体100之间的认证操作以被动式无线射频辨识技术为主，直接由无线辨识器1280，通过天线模块126传输的无线电波供电至无线射频辨识标签，亦即无线辨识芯片1000本身，无线辨识芯片1000还具有事先写入的认证信息1004。此处，认证信息1004可为具有特定编码序列的防伪识别编码与产品履历数据，在实务上，利用无线辨识器1280，读取事先写入无线辨识芯片1000的认证信息1004，以达到提高防伪标识符与产品履历数据的防伪效果。Please refer to FIGS. 2A to 2D. FIG. 2A is a block diagram of an authentication module, an antenna module and an authentication code carrier according to a first embodiment of the present invention, and FIG. 2B is a fog with a single authentication mechanism according to the first embodiment of the present invention. FIG. 2C is a schematic diagram of another function of the atomization system with a single authentication mechanism according to the first embodiment of the present invention. As shown in the figure, theauthentication module 128 includes awireless identifier 1280, anauthentication unit 1282 and amemory 1284, and theauthentication code carrier 100 includes awireless identification chip 1000 and anantenna 1002 connected thereto. In this example, the authentication operation between theauthentication module 128 and theauthentication code carrier 100 is mainly based on passive radio frequency identification technology. That is, thewireless identification chip 1000 itself, thewireless identification chip 1000 also has theauthentication information 1004 written in advance. Here, theauthentication information 1004 can be an anti-counterfeiting identification code with a specific code sequence and product history data. In practice, thewireless identification device 1280 is used to read theauthentication information 1004 written in thewireless identification chip 1000 in advance, so as to improve the anti-counterfeiting mark. The anti-counterfeiting effect that matches the product history data.

另外，认证单元1282可进一步处理所读取具有特定编码序列的防伪识别编码，并执行内存1284中储存的特定认证算法进行解密，以确认具有认证信息1004的认证码载体100的真伪。认证单元1282进行处理运作的另一示例可将认证信息1004的一部分或全部，与内存1284中储存的数据进行比对，以确认认证码载体100的真伪。若经认证单元1282判定认证码载体100为真，则可得知对应的雾化药品容器10并非伪造的，用户可安心使用。In addition, theauthentication unit 1282 can further process the read anti-counterfeiting identification code with a specific code sequence, and execute a specific authentication algorithm stored in thememory 1284 to decrypt to confirm the authenticity of theauthentication code carrier 100 with theauthentication information 1004 . Another example of the processing operation performed by theauthentication unit 1282 may compare a part or all of theauthentication information 1004 with the data stored in thememory 1284 to confirm the authenticity of theauthentication code carrier 100 . If theauthentication unit 1282 determines that theauthentication code carrier 100 is true, it can be known that the corresponding atomizedmedicine container 10 is not counterfeit, and the user can use it with peace of mind.

经过上述认证操作，认证模块128可被配置为用以对应产生认证结果信号S11，控制单元124可进一步被配置为用以根据认证结果信号S11决定是否控制第一电源模块122输出第一驱动电压V11。具体来说，若经认证单元1282判定认证码载体100为真，则对应输出的认证结果信号S11可致能(启动)控制单元124控制第一电源模块122输出第一驱动电压V11来驱动雾化模块120的雾化组件132，进而对雾化药品102进行雾化。另一方面，若经认证单元1282判定认证码载体100为假，或认证单元1282无法辨识认证信息1004，则对应输出的认证结果信号S11可禁能(阻止使用)控制单元124。After the above authentication operation, theauthentication module 128 can be configured to generate the authentication result signal S11 correspondingly, and thecontrol unit 124 can be further configured to determine whether to control thefirst power module 122 to output the first driving voltage V11 according to the authentication result signal S11 . Specifically, if theauthentication code carrier 100 is determined to be true by theauthentication unit 1282, the corresponding output authentication result signal S11 may enable (start) thecontrol unit 124 to control thefirst power module 122 to output the first driving voltage V11 to drive the atomization Theatomization assembly 132 of themodule 120 further atomizes the atomizedmedicine 102 . On the other hand, if theauthentication unit 1282 determines that theauthentication code carrier 100 is false, or theauthentication unit 1282 cannot identify theauthentication information 1004, the corresponding output authentication result signal S11 may disable (prevent the use of) thecontrol unit 124.

以实际应用来说，可参照图2B，认证码载体100可置于雾化装置12内部，以通过天线模块126进行认证。另一方面，可参照图2C，认证码载体100亦可在雾化装置12外部通过天线模块126进行认证，且不限于此二种配置，本领域一般技术人员可在本发明的范畴内对雾化装置12的外壳进行各种可能的修改，此无线感应机制亦提升了应用的灵活性。For practical application, referring to FIG. 2B , theauthentication code carrier 100 can be placed inside theatomizing device 12 for authentication through theantenna module 126 . On the other hand, referring to FIG. 2C , theauthentication code carrier 100 can also be authenticated by theantenna module 126 outside theatomizing device 12 , and is not limited to these two configurations. Those skilled in the art can perform the authentication on the fog within the scope of the present invention. Various possible modifications can be made to the housing of thechemical device 12, and this wireless sensing mechanism also increases the flexibility of the application.

此外，在本实施例中，雾化药品容器10的数量可为多个，且多个雾化药品容器10以多对一的方式关联于认证码载体100。具体来说，认证码载体100可以卡片的形式附加于装有多个雾化药品容器10的盒体内，而此认证码载体100进一步包括用量限制信息1005。In addition, in this embodiment, the number of the atomizedmedicine containers 10 may be multiple, and the multiple atomizedmedicine containers 10 are associated with theauthentication code carrier 100 in a many-to-one manner. Specifically, theauthentication code carrier 100 can be attached to a box containing a plurality of atomizedmedicine containers 10 in the form of a card, and theauthentication code carrier 100 further includesusage restriction information 1005 .

因此，在前述认证操作中，可进一步配置认证模块128的认证单元1282来判定用量限制信息1005是否到达预定限制用量。举例而言，若经认证单元1282判定认证码载体100为真，认证单元1282可进一步取得用量限制信息1005，此用量限制信息1005定义了认证码载体100的使用次数限制，且使用次数对应于多个雾化药品容器10的数量，并随着使用次数增加而递减。在本实施例中，预定限制用量可定义为0次，亦即，认证模块128的认证单元1282来判定用量限制信息1005是否到达0次，若是，则代表用户超出了次数限制，进而产生对应的认证结果信号S11来禁能控制单元124。Therefore, in the aforementioned authentication operation, theauthentication unit 1282 of theauthentication module 128 may be further configured to determine whether theusage restriction information 1005 reaches the predetermined restricted usage. For example, if theauthentication unit 1282 determines that theauthentication code carrier 100 is true, theauthentication unit 1282 can further obtain theusage restriction information 1005, which defines the usage limit of theauthentication code carrier 100, and the usage number corresponds to the number of times of usage. The number ofaerosolized medicine containers 10 decreases as the number of uses increases. In this embodiment, the predetermined limited usage can be defined as 0 times, that is, theauthentication unit 1282 of theauthentication module 128 determines whether theusage limit information 1005 reaches 0 times. The authentication result signal S11 disables thecontrol unit 124 .

续言之，若认证模块128的认证单元1282判定用量限制信息1005尚未到达0次，则配置认证模块128更新此用量限制信息1005，例如，将认证码载体100的使用次数减少1，并对应产生认证结果信号S11来致能控制单元124。Continuing, if theauthentication unit 1282 of theauthentication module 128 determines that theusage limit information 1005 has not reached 0 times, configure theauthentication module 128 to update theusage restriction information 1005, for example, reduce the usage times of theauthentication code carrier 100 by 1, and generate a corresponding The authentication result signal S11 enables thecontrol unit 124 .

还参考图2D所示，图2D为本发明第一实施例的储值装置及认证码载体的方块图。如图所示，具有单认证机制的雾化系统1还进一步包括储值装置15。储值装置15包括无线储值模块151、储值处理器152、数据库154及储值接口156。Referring also to FIG. 2D, FIG. 2D is a block diagram of a stored value device and an authentication code carrier according to the first embodiment of the present invention. As shown in the figure, theatomization system 1 with a single authentication mechanism further includes a storedvalue device 15 . The storedvalue device 15 includes a wireless stored value module 151 , a storedvalue processor 152 , adatabase 154 and a stored value interface 156 .

详细而言，在用户购买雾化药品时，可取得对应一或多个雾化药品容器10的认证码载体100。此认证码载体100的用量限制信息1005可默认为0，当用户在药店柜台完成购买手续后，药店可通过此储值接口156进行操作，通过无线储值模块151对用量限制信息1005进行更新，例如，配置储值处理器152根据所购买的条形码在数据库154中查询或更新，并将预设为0的用量限制信息1005更新为所购买的雾化药品容器10的数量。In detail, when a user purchases aerosolized medicine, theauthentication code carrier 100 corresponding to one or moreatomized medicine containers 10 can be obtained. Theusage limit information 1005 of theauthentication code carrier 100 can be 0 by default. After the user completes the purchase procedure at the counter of the pharmacy, the pharmacy can operate through the stored value interface 156 and update theusage limit information 1005 through the wireless stored value module 151. For example, the storedvalue processor 152 is configured to query or update thedatabase 154 according to the purchased barcode, and update theusage limit information 1005 preset as 0 to the purchased quantity of theaerosolized medicine container 10 .

值得一提的是，此认证码载体100可为抛弃式或重复使用的，用户可在用量限制信息1005的使用次数用罄后，直接以相同的认证码载体100至药店进行购买新的雾化药品容器10并同时更新用量限制信息1005。It is worth mentioning that theauthentication code carrier 100 can be disposable or reusable, and the user can directly use the sameauthentication code carrier 100 to the pharmacy to purchase a new atomizer after theusage limit information 1005 is used up. Themedicine container 10 also updates thedosage limit information 1005 at the same time.

通过上述配置，用户在购买特定数量的雾化药品容器时，能确保用量限制信息是对应于雾化药品容器的数量的，进一步提升认证的可靠度。Through the above configuration, when a user purchases a specific number of aerosolized drug containers, it can be ensured that the dosage restriction information corresponds to the number of aerosolized drug containers, which further improves the reliability of authentication.

【第二实施例】[Second Embodiment]

请进一步参阅图3所示，图3为本发明第二实施例的具有单认证机制的雾化系统的方块图。在此实施例中，类似于第一实施例，类似的组件符号代表类似的组件，并不再赘述。如图所示，第二实施例与第一实施例不同的处在于，雾化系统1还包括电性连接于控制单元124的第二电源模块134。用以输出第二驱动电压V12。控制单元124可输出一个或多个控制信号，用以控制第二电源模块134的运作。Please refer to FIG. 3 , which is a block diagram of an atomization system with a single authentication mechanism according to a second embodiment of the present invention. In this embodiment, similar to the first embodiment, similar component symbols represent similar components and will not be repeated. As shown in the figure, the difference between the second embodiment and the first embodiment is that theatomization system 1 further includes asecond power module 134 electrically connected to thecontrol unit 124 . Used to output the second driving voltage V12. Thecontrol unit 124 can output one or more control signals for controlling the operation of thesecond power module 134 .

此外，雾化装置12进一步包括连接于第二电源模块134的供电部VOUT，且认证码载体100进一步包含与无线辨识芯片1000连接的受电部VIN，第二电源模块134被配置为用以在供电部VOUT电性连接于受电部VIN时，输出第二驱动电压V12以致能无线辨识芯片1000。In addition, theatomizing device 12 further includes a power supply unit VOUT connected to the secondpower supply module 134, and theauthentication code carrier 100 further includes a power receiving unit VIN connected to thewireless identification chip 1000. The secondpower supply module 134 is configured to When the power supply part VOUT is electrically connected to the power reception part VIN, the second driving voltage V12 is output to enable thewireless identification chip 1000 .

具体来说，本实施例主要采用了主动式的无线辨识技术。除了上文中提到的主动式无线射频辨识技术外，还可采用无线蓝牙辨识技术等ISM(Industrial ScientificMedical)频段无线射频辨识技术，而在如2.4GHz的工业科学医学频带(ISM Band)中进行无线射频辨识。两者的共同点在于都需要针对无线辨识芯片进行供电，以通过天线传输相应的无线信号，因此均适用于本发明。Specifically, this embodiment mainly adopts an active wireless identification technology. In addition to the active RFID technology mentioned above, ISM (Industrial Scientific Medical) band RFID technology such as wireless Bluetooth identification technology can also be used, and wireless RFID technology in the Industrial Scientific Medical Band (ISM Band) such as 2.4GHz can be used. Radio Frequency Identification. The common point of the two is that both need to supply power to the wireless identification chip to transmit the corresponding wireless signal through the antenna, so both are applicable to the present invention.

请进一步参阅图4所示，图4为本发明第二实施例的第二电源模块、认证模块、天线模块及认证码载体的方块图。Please refer to FIG. 4 , which is a block diagram of a second power supply module, an authentication module, an antenna module, and an authentication code carrier according to a second embodiment of the present invention.

如图所示，认证模块128包括无线辨识器1280、认证单元1282及内存1284，认证码载体100包括无线辨识芯片1000、连接于无线辨识芯片1000的天线1002及供电单元1006。在此范例中，认证模块128与认证码载体100之间的认证操作以主动式无线辨识技术为主，其可采用主动式无线射频辨识技术或无线蓝牙辨识技术等ISM(Industrial ScientificMedical)频段无线射频辨识技术，而在如2.4GHz的工业科学医学频带(ISM Band)中进行无线射频辨识。其中，供电单元1006具有受电端VIN，其接收来自第二电源模块134的供电端VOUT所供给的第二驱动电压V12，供电单元1006具有多个导线、电阻或电容，以适当的方式将电力分配给天线1002与无线辨识芯片1000。As shown in the figure, theauthentication module 128 includes awireless identifier 1280 , anauthentication unit 1282 and amemory 1284 , and theauthentication code carrier 100 includes awireless identification chip 1000 , anantenna 1002 connected to thewireless identification chip 1000 , and apower supply unit 1006 . In this example, the authentication operation between theauthentication module 128 and theauthentication code carrier 100 is mainly based on the active wireless identification technology, which can adopt the ISM (Industrial Scientific Medical) frequency band radio frequency such as the active wireless radio frequency identification technology or the wireless Bluetooth identification technology. Identification technology, and radio frequency identification is performed in the Industrial Scientific Medical Band (ISM Band) such as 2.4GHz. Thepower supply unit 1006 has a power receiving terminal VIN, which receives the second driving voltage V12 supplied from the power supply terminal VOUT of thesecond power module 134, and thepower supply unit 1006 has a plurality of wires, resistors or capacitors to transmit the power in an appropriate manner. Assigned to theantenna 1002 and thewireless identification chip 1000 .

无线辨识芯片1000具有事先写入的认证信息1004。此处，认证信息1004可为具有特定编码序列的防伪识别编码与产品履历数据，在实务上，利用无线辨识芯片1000，通过无线射频信号或蓝牙辨识信号，将事先写入无线辨识芯片1000的认证信息1004传输至无线辨识器1280，以达到提高防伪标识符与产品履历数据的防伪效果。Thewireless identification chip 1000 haspre-written authentication information 1004 . Here, theauthentication information 1004 may be an anti-counterfeiting identification code with a specific code sequence and product history data. In practice, thewireless identification chip 1000 is used to write the authentication of thewireless identification chip 1000 in advance through a radio frequency signal or a Bluetooth identification signal. Theinformation 1004 is transmitted to thewireless identifier 1280 to improve the anti-counterfeiting effect of the anti-counterfeiting identifier and product history data.

认证模块128及认证单元1282的功能可通过使用一或多个处理器而实施。处理器可为可程序化单元，诸如微处理器、微控制器、数字信号处理器(digital signalprocessor；DSP)芯片、场可程序化门阵列(field-programmable gate array；FPGA)等。处理器的功能亦可通过一个或若干个电子装置或IC实施。换言之，通过处理器执行的功能可实施于硬件域或软件域或硬件域与软件域的组合内。The functions ofauthentication module 128 andauthentication unit 1282 may be implemented using one or more processors. The processor may be a programmable unit such as a microprocessor, microcontroller, digital signal processor (DSP) chip, field-programmable gate array (FPGA), or the like. The functions of the processor may also be implemented by one or several electronic devices or ICs. In other words, the functions performed by a processor may be implemented within a hardware domain or a software domain or a combination of hardware and software domains.

另外，认证单元1282可进一步处理所接收的具有特定编码序列的防伪识别编码，并执行内存1284中储存的特定认证算法进行解密，以确认具有认证信息1004的认证码载体100的真伪。认证单元1282进行处理运作的另一示例可将认证信息1004的一部分或全部，与内存1284中储存的数据进行比对，以确认认证码载体100的真伪。若经认证单元1282判定认证码载体100为真，则可得知对应的雾化药品容器10并非伪造的，用户可安心使用。In addition, theauthentication unit 1282 can further process the received anti-counterfeiting identification code with a specific code sequence, and execute a specific authentication algorithm stored in thememory 1284 to decrypt to confirm the authenticity of theauthentication code carrier 100 with theauthentication information 1004 . Another example of the processing operation performed by theauthentication unit 1282 may compare a part or all of theauthentication information 1004 with the data stored in thememory 1284 to confirm the authenticity of theauthentication code carrier 100 . If theauthentication unit 1282 determines that theauthentication code carrier 100 is true, it can be known that the corresponding atomizedmedicine container 10 is not counterfeit, and the user can use it with peace of mind.

经过上述认证操作，认证模块128可被配置为用以对应产生认证结果信号S11，控制单元124可进一步被配置为用以根据认证结果信号S11决定是否控制第一电源模块122输出第一驱动电压V11。具体来说，若经认证单元1282判定认证码载体100为真，则对应输出的认证结果信号S11可致能控制单元124控制第一电源模块122输出第一驱动电压V11来驱动雾化模块120的雾化组件132，进而对雾化药品102进行雾化。另一方面，若经认证单元1282判定认证码载体100为假，或认证单元1282无法辨识认证信息1004，则对应输出的认证结果信号S11可禁能控制单元124。After the above authentication operation, theauthentication module 128 can be configured to generate the authentication result signal S11 correspondingly, and thecontrol unit 124 can be further configured to determine whether to control thefirst power module 122 to output the first driving voltage V11 according to the authentication result signal S11 . Specifically, if theauthentication unit 1282 determines that theauthentication code carrier 100 is true, the corresponding output authentication result signal S11 may enable thecontrol unit 124 to control thefirst power module 122 to output the first driving voltage V11 to drive theatomization module 120 Theatomization assembly 132 further atomizes the atomizedmedicine 102 . On the other hand, if theauthentication unit 1282 determines that theauthentication code carrier 100 is false, or theauthentication unit 1282 cannot identify theauthentication information 1004, the corresponding output authentication result signal S11 may disable thecontrol unit 124.

通过本实施例中提供的第二电源模块134，并搭配具有特定认证信息1004的认证码载体100，可避免雾化药品容器10遭到伪造，进一步提升其安全性及防伪造能力。By using thesecond power module 134 provided in this embodiment and matching theauthentication code carrier 100 withspecific authentication information 1004, theaerosolized medicine container 10 can be prevented from being counterfeited, and its security and anti-forgery capability can be further improved.

请参阅图5所示，图5为本发明第二实施例的具有单认证机制的雾化系统的功能示意图。如图所示，认证码载体100的受电端VIN可为特定规格的接头，且雾化装置12可于设置供电端VOUT的位置进一步提供有认证码载体容置部150，以在供电端VOUT与受电端VIN连接后，提供适当的支撑力稳固认证码载体100，并且认证码载体容置部150亦可设置于雾化装置12外侧对应天线模块126的位置，除方便用户使用外，更确保无线辨识器1280可顺利与无线辨识芯片1000进行感应。Please refer to FIG. 5 , which is a functional schematic diagram of an atomization system with a single authentication mechanism according to a second embodiment of the present invention. As shown in the figure, the power receiving terminal VIN of theauthentication code carrier 100 may be a connector of a specific specification, and theatomizing device 12 may further be provided with an authentication codecarrier accommodating portion 150 at the position where the power supply terminal VOUT is set, so that the power supply terminal VOUT may be After being connected to the power receiving terminal VIN, an appropriate supporting force is provided to stabilize theauthentication code carrier 100, and the authentication codecarrier accommodating portion 150 can also be arranged on the outside of theatomizing device 12 at a position corresponding to theantenna module 126, which is not only convenient for users to use, but also more convenient for users. It is ensured that thewireless identification device 1280 can successfully conduct induction with thewireless identification chip 1000 .

【第三实施例】[Third Embodiment]

接着请参阅图6及图7，其分别为本发明第三实施例的具有单认证机制的雾化系统的方块图及立体图。如图所示，在本实施例的具有单认证机制的雾化系统1中，雾化装置12进一步包括与认证模块128连接的认证码输入接口136，其被配置以供用户输入该认证码载体100的认证信息1004。Next, please refer to FIG. 6 and FIG. 7 , which are a block diagram and a perspective view of an atomization system with a single authentication mechanism according to a third embodiment of the present invention, respectively. As shown in the figure, in theatomization system 1 with a single authentication mechanism of the present embodiment, theatomization device 12 further includes an authenticationcode input interface 136 connected to theauthentication module 128, which is configured for the user to input theauthentication code carrier 100 ofauthentication information 1004 .

具体来说，雾化装置12一般配置有用户接口14，用户接口14可包括上述认证码输入接口136及显示屏幕140。认证码输入接口136可采用实体按键或由显示屏幕140显示的虚拟按键，本实施例并不限定这些接口的实施(实现)方式。举例来说，雾化装置12可配置有电源键B1，以控制雾化装置12的启闭。而认证码输入接口136可包括标示有数字1～9的数字按键、取消、后退、确认或十字键等。用户可通过十字按键选取要输入的认证码，并经由确认键确认输入。Specifically, theatomizing device 12 is generally configured with auser interface 14 , and theuser interface 14 may include the above-mentioned authenticationcode input interface 136 and adisplay screen 140 . The authenticationcode input interface 136 may use physical keys or virtual keys displayed on thedisplay screen 140 , and this embodiment does not limit the implementation (implementation) of these interfaces. For example, theatomizing device 12 can be configured with a power button B1 to control the opening and closing of theatomizing device 12 . The authenticationcode input interface 136 may include numeric keys marked withnumbers 1 to 9, cancel, back, confirm or cross keys, and the like. The user can select the authentication code to be input through the cross key, and confirm the input through the confirmation key.

更具体而言，认证码载体100可将认证信息1004(例如具有特定序列编码的认证码)直接印刷于配置有认证码载体100的位置，例如，雾化药品容器10的瓶盖内侧或瓶体外侧，用户可直接将认证码通过认证码输入接口136输入，并可对应显示于显示屏幕140上方供用户确认。More specifically, theauthentication code carrier 100 can directly print the authentication information 1004 (eg, an authentication code with a specific serial code) on the position where theauthentication code carrier 100 is configured, for example, the inner side of the bottle cap or the bottle body of the atomizedmedicine container 10 On the outside, the user can directly input the authentication code through the authenticationcode input interface 136 , and the authentication code can be correspondingly displayed on the upper part of thedisplay screen 140 for the user to confirm.

在用户输入认证信息1004的后，认证模块128可进一步被配置为用以根据认证信息1004判定该雾化药品容器10或雾化药品102的真伪，并对应产生认证结果信号S11。详细而言，认证单元1282可进一步处理用户所输入具有特定编码序列的防伪识别编码，并执行内存1284中储存的特定算法进行解密，以确认具有认证信息1004的认证码载体100的真伪。认证单元1282进行处理运作的另一示例可将认证信息1004的一部分或全部，与内存1284中储存的数据进行比对，以确认认证码载体100的真伪。若经认证单元1282判定认证码载体100为真，则可得知对应的雾化药品容器10并非伪造的，用户可安心使用。After the user inputs theauthentication information 1004, theauthentication module 128 may be further configured to determine the authenticity of theaerosolized medicine container 10 or theaerosolized medicine 102 according to theauthentication information 1004, and generate an authentication result signal S11 accordingly. Specifically, theauthentication unit 1282 can further process the anti-counterfeiting identification code with a specific code sequence input by the user, and execute a specific algorithm stored in thememory 1284 to decrypt to confirm the authenticity of theauthentication code carrier 100 with theauthentication information 1004 . Another example of the processing operation performed by theauthentication unit 1282 may compare a part or all of theauthentication information 1004 with the data stored in thememory 1284 to confirm the authenticity of theauthentication code carrier 100 . If theauthentication unit 1282 determines that theauthentication code carrier 100 is true, it can be known that the corresponding atomizedmedicine container 10 is not counterfeit, and the user can use it with peace of mind.

经过上述认证操作，认证模块128可被配置为用以对应产生认证结果信号S11，控制单元124可进一步被配置为用以根据认证结果信号S11决定是否控制第一电源模块122输出第一驱动电压V11。具体来说，若经认证单元1282判定认证码载体100为真，则对应输出的认证结果信号S11可致能控制单元124控制第一电源模块122输出第一驱动电压V11来驱动雾化模块120的雾化组件132，进而对雾化药品102进行雾化。另一方面，若经认证单元1282判定认证码载体100为假，或认证单元1282无法辨识认证信息1004，则对应输出的认证结果信号S11可禁能控制单元124。After the above authentication operation, theauthentication module 128 can be configured to generate the authentication result signal S11 correspondingly, and thecontrol unit 124 can be further configured to determine whether to control thefirst power module 122 to output the first driving voltage V11 according to the authentication result signal S11 . Specifically, if theauthentication unit 1282 determines that theauthentication code carrier 100 is true, the corresponding output authentication result signal S11 may enable thecontrol unit 124 to control thefirst power module 122 to output the first driving voltage V11 to drive theatomization module 120 Theatomization assembly 132 further atomizes the atomizedmedicine 102 . On the other hand, if theauthentication unit 1282 determines that theauthentication code carrier 100 is false, or theauthentication unit 1282 cannot identify theauthentication information 1004, the corresponding output authentication result signal S11 may disable thecontrol unit 124.

【第四实施例】[Fourth Embodiment]

接着请参阅图8及图9，其分别为本发明第四实施例的具有单认证机制的雾化系统的方块图及立体图。如图所示，雾化装置进一步包括与认证模块128连接的结构锁模块16，且认证码载体进一步包括结构钥匙18。其中，结构锁模块16包括结构锁160与电子开关162。当结构锁模块16的结构锁160通过结构钥匙18成功开启时，结构锁模块16的电子开关162被配置为用以传送启动信号S12以致能认证模块128进行认证操作。Next, please refer to FIG. 8 and FIG. 9 , which are a block diagram and a perspective view of an atomization system with a single authentication mechanism according to a fourth embodiment of the present invention, respectively. As shown, the atomizing device further includes astructural lock module 16 connected to theauthentication module 128 , and the authentication code carrier further includes astructural key 18 . Thestructural lock module 16 includes astructural lock 160 and anelectronic switch 162 . When thestructural lock 160 of thestructural lock module 16 is successfully opened by thestructural key 18, theelectronic switch 162 of thestructural lock module 16 is configured to transmit the activation signal S12 to enable theauthentication module 128 to perform the authentication operation.

另一方面，结构锁模块16亦可为含数字方式或模拟方式的接触电子式或光学式认证锁，结构钥匙18具有解锁感应组件，结构锁模块16包括钥匙感测机构、判断机构以及锁体致动机构，通过将结构钥匙18的解锁感应组件置入钥匙感测机构，而使钥匙感测机构接触并感测解锁感应组件，并且在判断机构判断出解锁感应组件符合于默认的解锁条件时，由锁体致动机构致动锁体切换至解锁状态。On the other hand, thestructural lock module 16 can also be a digital or analog contact electronic or optical authentication lock, thestructural key 18 has an unlocking sensing component, and thestructural lock module 16 includes a key sensing mechanism, a judging mechanism and a lock body The actuating mechanism, by placing the unlocking induction assembly of the structural key 18 into the key sensing mechanism, makes the key sensing mechanism contact and sense the unlocking induction assembly, and when the judgment mechanism determines that the unlocking induction assembly meets the default unlocking condition , the lock body is actuated by the lock body actuating mechanism to switch to the unlocked state.

如图9所示，此实施例实务上具有双重安全机制，其一，当用户取得雾化药品容器10时，可获得具有特定结构的结构钥匙18，其可设置在作为认证码载体100的瓶盖内侧，就商用性质而言，由相同厂商提供的结构钥匙18与雾化装置12上的结构锁160可具有一致性，以提供第一重的安全性。As shown in FIG. 9 , this embodiment has a double safety mechanism in practice. First, when the user obtains the atomizedmedicine container 10 , a structural key 18 with a specific structure can be obtained, which can be set in the bottle serving as theauthentication code carrier 100 . On the inside of the lid, the structural key 18 provided by the same manufacturer and thestructural lock 160 on thenebulizer 12 may be identical in commercial nature to provide the first level of security.

其二，待用户以结构钥匙18成功开启结构锁160后，电子开关162将会传送启动信号S12以致能认证模块128。优选的，认证码载体100可具有供认证模块128辨识的无线辨识芯片1000，认证模块128可通过天线模块126进一步取得认证信息1004，并进行如第三实施例所述的认证操作，例如与内存1284中储存的数据进行比对，或取得的认证信息1004为具有特定编码序列的防伪识别编码，可进一步执行内存1284中储存的特定算法进行解密，来判别雾化药品容器10或雾化药品102的真伪。如此，可提供第二重的安全性。Second, after the user successfully unlocks thestructural lock 160 with thestructural key 18 , theelectronic switch 162 will transmit the activation signal S12 to enable theauthentication module 128 . Preferably, theauthentication code carrier 100 may have awireless identification chip 1000 for identification by theauthentication module 128, and theauthentication module 128 may further obtain theauthentication information 1004 through theantenna module 126, and perform the authentication operation as described in the third embodiment, for example, communicate with the memory The data stored in 1284 is compared, or the obtainedauthentication information 1004 is an anti-counterfeiting identification code with a specific code sequence, and the specific algorithm stored in thememory 1284 can be further decrypted to distinguish theaerosolized medicine container 10 or theaerosolized medicine 102. of authenticity. In this way, a second level of security can be provided.

因此，本实施例可提供结构锁匙以及无线辨识的双重保障，不仅确保了安全性，更提升了伪造雾化药品容器的难度。Therefore, the present embodiment can provide the double protection of the structural key and the wireless identification, which not only ensures the safety, but also increases the difficulty of counterfeiting the aerosolized medicine container.

【第五实施例】[Fifth Embodiment]

请参阅图10所示，图10为本发明第五实施例的具有双认证机制的雾化系统的方块图。如图所示，雾化系统2包括雾化药品容器20、雾化装置22、用户装置26及云端服务器29。雾化药品容器20具有认证码载体200，雾化药品容器20中容置有雾化药品202。类似的，雾化药品容器20可为具有瓶口的瓶装容器，而认证码载体200可为设置于瓶盖上的电子卷标，以与瓶装容器分离使用，但本发明不限与此，认证码载体200亦可为可分离的设置于瓶装容器外侧的电子卷标。Please refer to FIG. 10. FIG. 10 is a block diagram of an atomization system with a dual authentication mechanism according to a fifth embodiment of the present invention. As shown in the figure, theatomization system 2 includes an atomizedmedicine container 20 , anatomization device 22 , auser device 26 and acloud server 29 . The atomizedmedicine container 20 has anauthentication code carrier 200 , and the atomized medicine 202 is accommodated in the atomizedmedicine container 20 . Similarly, the atomizedmedicine container 20 can be a bottled container with a bottle mouth, and theauthentication code carrier 200 can be an electronic label provided on the bottle cap to be used separately from the bottled container, but the present invention is not limited to this. Thecode carrier 200 can also be an electronic label detachably disposed outside the bottle container.

继续参阅图10说明，雾化装置22包括雾化模块220、电源模块222、控制单元224及第一通信模块227。雾化模块220具有容置部230及雾化组件232，容置部230可用于装载前述的雾化药品202，且雾化组件232用于在雾化药品202置于容置部230中时进行雾化。此外，控制单元224电性连接电源模块222，电源模块222电性连接雾化模块220。10 , theatomizing device 22 includes anatomizing module 220 , a power module 222 , acontrol unit 224 and afirst communication module 227 . Theatomization module 220 has anaccommodating portion 230 and anatomizing component 232 . Theaccommodating portion 230 can be used to load the aforementioned aerosolized medicine 202 , and theatomizing component 232 is used to perform the atomization when the atomized medicine 202 is placed in theaccommodating portion 230 . Atomize. In addition, thecontrol unit 224 is electrically connected to the power module 222 , and the power module 222 is electrically connected to theatomization module 220 .

在实务上，控制单元224用以控制电源模块222以输出第一驱动电压V21。电源模块222输出的第一驱动电压V21主要用以直接驱动雾化模块220。详细来说，控制单元224例如为控制芯片、微控制芯片或PWM控制芯片，本实施例不限制控制单元224的样式。其中，控制单元224内建多个可输出脉冲调变信号的端口，可提供不同频率与责任周期的控制信号。频率调整范围例如为10Hz～1MHz，而责任周期(Duty Cycle)调整范围例如为10％～90％。在实务上，控制单元224可输出一个或多个控制信号。其中控制信号用以控制第一电源模块222的运作。In practice, thecontrol unit 224 is used to control the power module 222 to output the first driving voltage V21. The first driving voltage V21 output by the power module 222 is mainly used to directly drive theatomizing module 220 . In detail, thecontrol unit 224 is, for example, a control chip, a micro-control chip or a PWM control chip, and the form of thecontrol unit 224 is not limited in this embodiment. Among them, thecontrol unit 224 has built-in multiple ports capable of outputting pulse modulation signals, and can provide control signals with different frequencies and duty cycles. The frequency adjustment range is, for example, 10 Hz to 1 MHz, and the duty cycle adjustment range is, for example, 10% to 90%. In practice, thecontrol unit 224 may output one or more control signals. The control signal is used to control the operation of the first power module 222 .

电源模块222例如为驱动电路，包括一个或多个开关、一个或多个电感、一个或多个电容与二极管。本实施例不限制电源模块222的样式。其中，电源模块222用以接收控制单元224所输出的控制信号。在实务上，电源模块222根据控制信号以输出频率振动的第一驱动电压V21给雾化模块220。其中，第一驱动电压V21例如为脉动直流电压。第一驱动电压V21的波形例如为一弦波、一三角波或一方波。The power module 222 is, for example, a driving circuit, including one or more switches, one or more inductors, one or more capacitors and diodes. This embodiment does not limit the style of the power module 222 . The power module 222 is used for receiving the control signal output by thecontrol unit 224 . In practice, the power module 222 outputs the first driving voltage V21 vibrating at the frequency to theatomizing module 220 according to the control signal. The first driving voltage V21 is, for example, a pulsating DC voltage. The waveform of the first driving voltage V21 is, for example, a sine wave, a triangular wave or a square wave.

在本实施例中，认证操作主要在用户装置26及云端服务器29上进行，雾化装置22可无须设置有认证模块及其相关装置或系统，可节省制造成本。用户装置26包括处理器260、第二通信模块262及认证模块228。以本发明实施例为非受限实施例的前提下，各种例子可以进一步实施在广泛种类的操作环境，这在某些情况下可以包括可以用来运行任何数目应用程序的一个或多个服务器计算机、用户计算机或计算装置。用户装置26可以包含任何数目的运行标准操作系统的通用目的个人计算机，如桌面计算机或笔记本电脑，以及运行行动软件且能够支持大量的网络和传信通信协议的移动电话、无线及手持装置。这种系统还可以包括若干工作站，运行用于开发和数据库管理等目的的任何各种商业上可用的操作系统以及其它已知的应用程序。这些装置还可以包括能够通过网络进行通信的其它电子装置，如虚拟终端、受客户端、游戏系统和其它装置。In this embodiment, the authentication operation is mainly performed on theuser device 26 and thecloud server 29, and theatomizing device 22 does not need to be provided with an authentication module and related devices or systems, which can save manufacturing costs. Theuser device 26 includes aprocessor 260 , asecond communication module 262 and anauthentication module 228 . While the embodiments of the present invention are non-limiting examples, the various examples may further be implemented in a wide variety of operating environments, which in some cases may include one or more servers that may be used to run any number of applications. Computer, user computer or computing device.User devices 26 may include any number of general purpose personal computers, such as desktop computers or notebook computers, running standard operating systems, as well as mobile phones, wireless and handheld devices running mobile software and capable of supporting a number of networking and messaging communication protocols. Such a system may also include workstations running any of a variety of commercially available operating systems for development and database management purposes, as well as other known applications. These devices may also include other electronic devices capable of communicating over a network, such as virtual terminals, client clients, gaming systems, and other devices.

用户装置26所包括的处理器260的功能可通过使用一或多个处理单元而实施。处理器260可为可程序化单元，诸如微处理器、微控制器、数字信号处理器(digital signalprocessor；DSP)芯片、场可程序化门阵列(field-programmable gate array；FPGA)等。处理器的功能亦可通过一个或若干个电子装置或IC实施。换言之，通过处理器260执行的功能可实施于硬件域或软件域或硬件域与软件域的组合内。The functions of theprocessor 260 included in theuser device 26 may be implemented using one or more processing units. Theprocessor 260 may be a programmable unit, such as a microprocessor, a microcontroller, a digital signal processor (DSP) chip, a field-programmable gate array (FPGA), or the like. The functions of the processor may also be implemented by one or several electronic devices or ICs. In other words, the functions performed by theprocessor 260 may be implemented within a hardware domain or a software domain or a combination of hardware and software domains.

用户装置26还具有第二通信模块262，其连接于处理器260，可被配置为用以与第一通信模块227配对，并通过网络28与云端服务器29连接。其中，第一通信模块227与第二通信模块262的配对可通过近端网络传输，如WIFI、蓝牙等，更具体来说，用户装置26可通过此配对取得雾化装置22的管理权，进而实现无线控制与认证机制。Theuser device 26 also has asecond communication module 262 , which is connected to theprocessor 260 and can be configured to be paired with thefirst communication module 227 and connected to thecloud server 29 through thenetwork 28 . The pairing of thefirst communication module 227 and thesecond communication module 262 can be transmitted through a near-end network, such as WIFI, Bluetooth, etc. More specifically, theuser device 26 can obtain the management right of theatomizing device 22 through this pairing, and then Realize wireless control and authentication mechanism.

另外，在使用云端服务器29的例子中，云端服务器29可以运行任何各种服务器或中介层应用程序(mid-tier applications)，包括HTTP服务器、FTP服务器、CGI服务器、数据服务器、Java服务器和业务应用程序服务器。云端服务器29也能够执行程序或脚本(scripts)来响应来自用户装置的请求，如通过执行一个或多个Web应用程序，其可实现为依任何程序设计语言所编写的一个或多个脚本或程序，如Java、C、C#或C++或任何脚本语言，如Perl、Python或TCL以及其组合。云端服务器29还可以包括数据库服务器，其中包括但不限于商购自公开市场。Additionally, in the example usingcloud server 29,cloud server 29 may run any of a variety of servers or mid-tier applications, including HTTP servers, FTP servers, CGI servers, data servers, Java servers, and business applications program server. Thecloud server 29 is also capable of executing programs or scripts in response to requests from user devices, such as by executing one or more web applications, which may be implemented as one or more scripts or programs written in any programming language , such as Java, C, C# or C++ or any scripting language such as Perl, Python or TCL and combinations thereof. Thecloud server 29 may also include a database server, including, but not limited to, commercially available from the open market.

如上所述，云端服务器29可以包括各种数据储存和其它内存和储存介质。这些可以驻留在各种位置，例如本地(和/或驻留于)一个或多个计算机的储存介质或远离整个网络的所有计算机的任何或全部的储存介质。在一组特定的例子中，信息可以驻留在所属技术领域中一般技术人员所熟知的储存局域网络(SAN)。同样，用于执行归于计算机、服务器或其它网络装置的功能的任何必要档案在适当条件下可以在本地和/或远程储存。其中系统包括计算机化装置，每个这样的装置可以包括可经由总线被电连接的硬件组件，该组件包括，例如，至少一个中央处理单元(CPU)、至少一个输入设备(例如，鼠标、键盘、控制器、触摸灵敏性显示组件或小键盘)和至少一个输出装置(如显示设备、打印机或扬声器)。这种系统还可以包括一个或多个储存装置，如磁盘驱动机、光盘储存装置和固态储存装置，如随机存取内存(RAM)或只读存储器(ROM)，以及卸除式介质装置、记忆卡、闪存卡等。As mentioned above, thecloud server 29 may include various data stores and other memory and storage media. These may reside in various locations, such as storage media local to (and/or resident on) one or more computers or any or all storage media remote from all computers throughout the network. In a specific set of examples, the information may reside on a storage area network (SAN) well known to those of ordinary skill in the art. Likewise, any necessary files for performing the functions attributed to a computer, server or other network device may be stored locally and/or remotely, where appropriate. Where the system includes computerized devices, each such device may include hardware components that are electrically connectable via a bus, the components including, for example, at least one central processing unit (CPU), at least one input device (eg, mouse, keyboard, controller, touch-sensitive display assembly or keypad) and at least one output device (eg, display device, printer, or speaker). Such systems may also include one or more storage devices, such as magnetic disk drives, optical disk storage devices, and solid-state storage devices, such as random access memory (RAM) or read only memory (ROM), as well as removable media devices, memory card, flash memory card, etc.

这样的装置还可以包括计算机可读储存介质读取器、通信装置(例如，调制解调器、网卡(无线或有线)、红外计算装置)以及如上所述的工作内存。计算机可读储存介质读取器可以连接，或配置以接收计算机可读储存介质，计算机可读储存介质代表远程、本地、固定及/或可移动储存装置，以及用于临时及/或更永久的包含、储存、传输及检索计算机可读信息的储存介质。该系统和各种装置也通常将包括位于至少一个工作记忆装置中的许多软件应用程序、模块、服务器或其它组件，包括操作系统和应用程序，例如用户应用程序或Web浏览器。但是应当理解的是，替代实施例可以与上述具有许多差异变化。例如，定制的硬件也可被使用及/或特定的组件可以实施于硬件、软件(包括便携式软件，诸如小程序)或两者。此外，可采用连接到其它计算装置，例如网络输入/输出装置。Such a device may also include a computer-readable storage medium reader, a communication device (eg, a modem, a network card (wireless or wired), an infrared computing device), and working memory as described above. A computer-readable storage medium reader may be connected to, or configured to receive a computer-readable storage medium, representing remote, local, fixed and/or removable storage devices, and for temporary and/or permanent A storage medium that contains, stores, transmits, and retrieves computer-readable information. The system and various devices will also typically include a number of software applications, modules, servers or other components located in at least one working memory device, including operating systems and applications such as user applications or web browsers. It should be understood, however, that alternative embodiments are possible with many variations from the above. For example, custom hardware may also be used and/or certain components may be implemented in hardware, software (including portable software such as applets), or both. Additionally, connections to other computing devices, such as network input/output devices, may be employed.

用于包含代码或代码部分的储存介质及计算机可读介质可以包括所属技术领域中已知或所使用的在任何方法及技术中实施的任何适当介质，包括储存介质及计算介质，诸如但不限于易失性和非易失性、可移动和不可移动介质，以用于储存及/或传输信息，诸如计算机可读指令、数据结构、程序模块或其它数据，包括RAM、ROM、EPROM、EEPROM、闪存或其它记忆技术、CD-ROM、数字多功能光盘(DVD)或其它光学储存器、磁式卡带、磁带、磁盘储存或其它磁储存装置，或可以用来储存所需信息且可由系统装置所存取的任何其它介质。基于本文所提供的技术和教示，所属技术领域中一般技术人员将理解用以实现本技术的各种样式的其它方式及/或方法。Storage media and computer-readable media for containing code or portions of code may include any suitable media implemented in any method and technology known or used in the art, including storage media and computing media, such as but not limited to Volatile and nonvolatile, removable and non-removable media for storage and/or transmission of information, such as computer readable instructions, data structures, program modules or other data, including RAM, ROM, EPROM, EEPROM, Flash memory or other memory technology, CD-ROM, Digital Versatile Disc (DVD) or other optical storage, magnetic cassette, magnetic tape, magnetic disk storage or other magnetic storage device, or may be used to store required information and can be accessed by system devices. any other media accessed. Based on the techniques and teachings provided herein, one of ordinary skill in the art will appreciate other ways and/or methods to implement various forms of the present technology.

用户装置26还具有认证模块228，连接于处理器260，被配置为用以进行与认证码载体200相关的一认证操作，还通过云端服务器29判定雾化药品容器20或雾化药品202的真伪，并对应产生认证结果信号S21。Theuser device 26 also has anauthentication module 228, connected to theprocessor 260, configured to perform an authentication operation related to theauthentication code carrier 200, and to determine the authenticity of theaerosolized medicine container 20 or the aerosolized medicine 202 through thecloud server 29. false, and correspondingly generate the authentication result signal S21.

认证模块228被配置为用以根据认证结果信号S21决定是否通过处理器260控制第二通信模块262传输认证成功信号S22至第一通信模块227。当第一通信模块227接收到认证成功信号S22时，控制单元224控制电源模块222输出第一驱动电压V21。Theauthentication module 228 is configured to determine whether to control thesecond communication module 262 to transmit the authentication success signal S22 to thefirst communication module 227 through theprocessor 260 according to the authentication result signal S21 . When thefirst communication module 227 receives the authentication success signal S22, thecontrol unit 224 controls the power module 222 to output the first driving voltage V21.

具体而言，认证模块228与认证码载体200之间的认证操作可采用无线射频辨识技术(RFID)，主要是由无线射频电子卷标(RFID Tag)、读取器或读码器(Reader)及其相关应用系统(Application System)所组成。Specifically, the authentication operation between theauthentication module 228 and theauthentication code carrier 200 may use radio frequency identification technology (RFID), which is mainly composed of a radio frequency electronic label (RFID Tag), a reader or a code reader (Reader). and its related application system (Application System).

请进一步参阅图11A及11B所示，图11A为本发明第五实施例的用户装置、云端服务器及认证码载体的方块图。如图所示，认证模块228进一步包括无线辨识器2280、认证单元2282及内存2284，认证码载体200包括无线辨识芯片2000及与之连接的天线2002。在此范例中，认证模块228与认证码载体200之间的认证操作以被动式无线射频辨识技术为主，直接由认证模块228传输的无线电波供电至无线射频辨识标签，亦即无线辨识芯片2000本身，无线辨识芯片2000还具有事先写入的认证信息2004。此处，认证信息2004可为具有特定编码序列的防伪识别编码与产品履历数据，在实务上，利用无线辨识器2280，读取该事先写入无线辨识芯片2000的认证信息2004，以达到提高防伪标识符与产品履历数据的防伪效果。Please refer to FIGS. 11A and 11B further. FIG. 11A is a block diagram of a user device, a cloud server, and an authentication code carrier according to a fifth embodiment of the present invention. As shown in the figure, theauthentication module 228 further includes awireless identifier 2280, anauthentication unit 2282 and amemory 2284, and theauthentication code carrier 200 includes awireless identification chip 2000 and anantenna 2002 connected thereto. In this example, the authentication operation between theauthentication module 228 and theauthentication code carrier 200 is mainly based on passive radio frequency identification technology, and the radio waves transmitted by theauthentication module 228 are directly powered to the radio frequency identification tag, that is, theradio identification chip 2000 itself , thewireless identification chip 2000 also haspre-written authentication information 2004 . Here, theauthentication information 2004 can be an anti-counterfeiting identification code with a specific code sequence and product history data. In practice, thewireless identification device 2280 is used to read theauthentication information 2004 written in thewireless identification chip 2000 in advance, so as to improve the anti-counterfeiting performance. Anti-counterfeiting effect of identifiers and product history data.

然而与前述实施例不同的，判别认证信息2004的认证操作主要在云端服务器29进行。当认证单元2282读取无线辨识芯片2000后，可取得认证信息2004，其可为具有特定编码序列的防伪识别编码，并通过第二通信模块262传输至云端服务器29。云端服务器29内建的处理器可执行特定的解密算法以确认具有认证信息2004的认证码载体200的真伪。此外，云端服务器29进行认证操作的另一示例可将认证信息2004的一部分或全部，与密码数据库290中储存的数据进行比对，以确认认证码载体200的真伪。若经云端服务器29判定认证码载体200为真，则可得知对应的雾化药品容器20并非伪造的，用户可安心使用。However, different from the foregoing embodiments, the authentication operation of discriminating theauthentication information 2004 is mainly performed in thecloud server 29 . After theauthentication unit 2282 reads thewireless identification chip 2000 , theauthentication information 2004 can be obtained, which can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to thecloud server 29 through thesecond communication module 262 . The processor built in thecloud server 29 can execute a specific decryption algorithm to confirm the authenticity of theauthentication code carrier 200 with theauthentication information 2004 . In addition, another example of the authentication operation performed by thecloud server 29 may compare a part or all of theauthentication information 2004 with the data stored in thepassword database 290 to confirm the authenticity of theauthentication code carrier 200 . If it is determined by thecloud server 29 that theauthentication code carrier 200 is true, it can be known that the corresponding atomizedmedicine container 20 is not counterfeit, and the user can use it with peace of mind.

具体而言，密码数据库290可通过药品供货商所销售的产品列表预先建立，密码数据库290可具有多个独特的认证信息2004，以及对应这些认证信息2004的多个且唯一的密码信息，在云端服务器29接收到所读取的认证信息2004后，可根据认证信息2004在密码数据库290中进行一比对操作，以取得对应认证信息2004的密码信息。通过供货商于在线实时更新密码数据库290，可确保用户所购买的雾化药品容器20并未被使用过，亦并非经过伪造的。Specifically, thepassword database 290 can be pre-established by the list of products sold by the drug supplier, thepassword database 290 can have a plurality ofunique authentication information 2004, and a plurality of unique password information corresponding to theauthentication information 2004, in the After receiving theread authentication information 2004 , thecloud server 29 can perform a comparison operation in thepassword database 290 according to theauthentication information 2004 to obtain the password information corresponding to theauthentication information 2004 . By updating thepassword database 290 online in real time by the supplier, it can be ensured that theaerosolized medicine container 20 purchased by the user has not been used or counterfeited.

经过上述认证操作，若云端服务器29的比对操作成功取得密码信息，可将包括密码信息的认证结果信号S21回传至认证模块228。认证模块228的认证单元2282可处理认证结果信号S21，以通过处理器260控制第二通信模块262传输认证成功信号S22至第一通信模块227。详细而言，认证结果信号S21包括的密码信息可供认证单元2282进行解密，以确认认证结果信号S21确实来自云端服务器29，或用以辨识经加密的认证结果信号S21。此等安全机制亦可防止有心人士对这些信号进行拦截、分析与破解。经过认证单元2282处理后，便通过处理器260控制第二通信模块262传输认证成功信号S22至第一通信模块227。After the above authentication operation, if the comparison operation of thecloud server 29 successfully obtains the password information, the authentication result signal S21 including the password information can be returned to theauthentication module 228 . Theauthentication unit 2282 of theauthentication module 228 can process the authentication result signal S21 to control thesecond communication module 262 to transmit the authentication success signal S22 to thefirst communication module 227 through theprocessor 260 . Specifically, the password information included in the authentication result signal S21 can be decrypted by theauthentication unit 2282 to confirm that the authentication result signal S21 really comes from thecloud server 29, or to identify the encrypted authentication result signal S21. These security mechanisms also prevent malicious individuals from intercepting, analyzing, and deciphering these signals. After being processed by theauthentication unit 2282 , theprocessor 260 controls thesecond communication module 262 to transmit the authentication success signal S22 to thefirst communication module 227 .

当第一通信模块227接收到认证成功信号S22时，控制单元224被配置为用以根据认证成功信号S22控制电源模块222输出驱动电压V21。具体来说，若经云端服务器29判定认证码载体200为真，则对应获得的认证成功信号S22可致能控制单元224，进而控制电源模块222输出驱动电压V21来驱动雾化模块220的雾化组件232，对雾化药品202进行雾化。另一方面，若经云端服务器29判定认证码载体200为假，或认证单元2282无法辨识认证结果信号S21，则可对应输出认证失败信号来禁能控制单元224。When thefirst communication module 227 receives the authentication success signal S22, thecontrol unit 224 is configured to control the power module 222 to output the driving voltage V21 according to the authentication success signal S22. Specifically, if it is determined by thecloud server 29 that theauthentication code carrier 200 is true, the obtained authentication success signal S22 can enable thecontrol unit 224 to control the power module 222 to output the driving voltage V21 to drive the atomization of theatomization module 220 Thecomponent 232 atomizes the atomized medicine 202 . On the other hand, if thecloud server 29 determines that theauthentication code carrier 200 is false, or theauthentication unit 2282 cannot recognize the authentication result signal S21, thecontrol unit 224 can be disabled corresponding to outputting an authentication failure signal.

本实施例提供的双认证机制不仅大幅提高了认证码载体的伪造难度，还可确保数据传输上的安全性，使伪造商品即便在市面上贩卖，也无法通过雾化装置来使用，保全了消费者的生命财产。The dual authentication mechanism provided in this embodiment not only greatly improves the forgery difficulty of the authentication code carrier, but also ensures the security of data transmission, so that even if the counterfeit goods are sold in the market, they cannot be used by the atomizing device, thus preserving consumption. life and property of the person.

还参考图11B所示，图11B为本发明第五实施例的用户装置、云端服务器、认证码载体及储值装置的方块图。如图所示，具有双认证机制的雾化系统2还进一步包括储值装置25。储值装置25包括无线储值模块251、储值处理器252、数据库254及储值接口256。Referring also to FIG. 11B , FIG. 11B is a block diagram of a user device, a cloud server, an authentication code carrier, and a stored value device according to a fifth embodiment of the present invention. As shown in the figure, theatomization system 2 with the dual authentication mechanism further includes a storedvalue device 25 . The storedvalue device 25 includes a wireless storedvalue module 251 , a storedvalue processor 252 , adatabase 254 and a storedvalue interface 256 .

在本实施例中，雾化药品容器20的数量可为多个，且多个雾化药品容器20以多对一的方式关联于认证码载体200。具体来说，认证码载体200可以卡片的形式附加于装有多个雾化药品容器20的盒体内，而此认证码载体200进一步包括用量限制信息2005。In this embodiment, the number of the atomizedmedicine containers 20 may be multiple, and the multiple atomizedmedicine containers 20 are associated with theauthentication code carrier 200 in a many-to-one manner. Specifically, theauthentication code carrier 200 can be attached to a box containing a plurality of atomizedmedicine containers 20 in the form of a card, and theauthentication code carrier 200 further includesusage restriction information 2005 .

因此，在前述认证操作中，可进一步配置认证模块228的认证单元2282来判定用量限制信息2005是否到达预定限制用量。举例而言，若经云端服务器29判定认证码载体200为真，认证单元2282可进一步取得用量限制信息2005，此用量限制信息2005定义了认证码载体200的使用次数限制，且使用次数对应于多个雾化药品容器20的数量，并随着使用次数增加而递减。在本实施例中，预定限制用量可定义为0次，亦即，认证模块228的认证单元2282来判定用量限制信息是否到达0次，若是，则代表用户超出了次数限制，则可对应输出认证失败信号来禁能控制单元224。Therefore, in the aforementioned authentication operation, theauthentication unit 2282 of theauthentication module 228 can be further configured to determine whether theusage restriction information 2005 reaches the predetermined restricted usage. For example, if it is determined by thecloud server 29 that theauthentication code carrier 200 is true, theauthentication unit 2282 can further obtain theusage limit information 2005. Theusage limit information 2005 defines the limit of the number of times of use of theauthentication code carrier 200, and the number of times of use corresponds to the number of times of usage. The number ofaerosolized medicine containers 20 decreases with the increase of the number of uses. In this embodiment, the predetermined limited usage can be defined as 0 times, that is, theauthentication unit 2282 of theauthentication module 228 determines whether the usage limit information reaches 0 times. The fail signal disables thecontrol unit 224 .

续言之，若认证模块228的认证单元2282判定用量限制信息2005尚未到达0次，则配置认证模块228更新此用量限制信息2005，例如，将认证码载体200的使用次数减少1，并对应产生认证成功信号S22来致能控制单元224。Continuing, if theauthentication unit 2282 of theauthentication module 228 determines that theusage restriction information 2005 has not reached 0 times, theauthentication module 228 is configured to update theusage restriction information 2005, for example, the usage frequency of theauthentication code carrier 200 is decreased by 1, and correspondingly generated The authentication success signal S22 is used to enable thecontrol unit 224 .

另一方面，在用户购买雾化药品时，可取得对应一或多个雾化药品容器20的认证码载体200。此认证码载体200的用量限制信息2005可默认为0，当用户在药店柜台完成购买手续后，药店可通过此储值接口256进行操作，通过无线储值模块251对用量限制信息2005进行更新，例如，配置储值处理器252根据所购买的条形码于数据库254中查询或更新，并将预设为0的用量限制信息2005更新为所购买的雾化药品容器20的数量。需要说明的是，无线储值模块251可具有类似无线辨识器2280的配置，而可对用量限制信息2005进行更新。On the other hand, when the user purchases the nebulized medicine, theauthentication code carrier 200 corresponding to one or morenebulized medicine containers 20 can be obtained. Theusage limit information 2005 of theauthentication code carrier 200 can be 0 by default. After the user completes the purchase procedure at the counter of the pharmacy, the pharmacy can operate through the storedvalue interface 256 and update theusage limit information 2005 through the wireless storedvalue module 251. For example, the storedvalue processor 252 is configured to query or update thedatabase 254 according to the purchased barcode, and update theusage limit information 2005 preset as 0 to the purchased quantity of theaerosol medicine container 20 . It should be noted that the wireless storedvalue module 251 may have a configuration similar to thewireless identifier 2280 , and may update theusage limit information 2005 .

再者，可进一步配置储值装置25过网络28与云端服务器29，当用户在药店柜台完成购买手续后，药店可通过此储值装置25同时在云端服务器29上进行登记，以同步更新贩卖端及生产端之间的信息。Furthermore, the storedvalue device 25 can be further configured through thenetwork 28 and thecloud server 29. After the user completes the purchase procedure at the pharmacy counter, the pharmacy can simultaneously register on thecloud server 29 through the storedvalue device 25 to update the sales terminal synchronously. and the information between the production side.

值得一提的是，此认证码载体200可为抛弃式的或可重复使用的，用户可于用量限制信息2005的使用次数用罄后，直接以相同的认证码载体200至药店进行购买新的雾化药品容器20并同时更新用量限制信息2005。It is worth mentioning that theauthentication code carrier 200 can be disposable or reusable, and the user can directly use the sameauthentication code carrier 200 to go to the pharmacy to purchase a new one after the usage of theusage limit information 2005 is used up. Thedrug container 20 is nebulized and thedosage limit information 2005 is updated at the same time.

此外，在此实施例中，储值装置25可直接于用户在药店柜台完成购买手续后，通过无线储值模块251直接将用量限制信息2005储存于用户装置26。举例来说，用户装置26与无线储值模块25之间可通过无线射频辨识信号进行传输，用户装置26可为具备近场通信(Near Field Communication,NFC)模块的行动电子装置，以使用适当电子电路及相对应的天线来仿真RFID卷标的操作。用户装置26提供RFID功能，并可储存多个RFID标签，换言之储存仿真此种RFID卷标所需的数据，如上述的用量限制信息2005，或可通过网络28直接将用量限制信息2005传输至用户装置26。In addition, in this embodiment, the storedvalue device 25 can directly store theusage limit information 2005 in theuser device 26 through the wireless storedvalue module 251 after the user completes the purchase procedure at the pharmacy counter. For example, the transmission between theuser device 26 and the wireless storedvalue module 25 can be carried out through a radio frequency identification signal, and theuser device 26 can be a mobile electronic device with a Near Field Communication (NFC) module to use a suitable electronic The circuit and the corresponding antenna are used to simulate the operation of the RFID tag. Theuser device 26 provides the RFID function, and can store a plurality of RFID tags, in other words, store the data required to simulate such RFID tags, such as the above-mentionedusage limit information 2005, or can directly transmit theusage limit information 2005 to the user through thenetwork 28device 26.

因此，在前述认证操作中，可进一步配置认证模块228的认证单元2282来直接判定用户装置26中的用量限制信息2005是否到达预定限制用量。举例而言，若经云端服务器29判定认证码载体200为真，认证单元2282可直接读取用户装置26中的用量限制信息2005，此用量限制信息2005定义了认证码载体200的使用次数限制，且使用次数对应于多个雾化药品容器20的数量，并随着使用次数增加而递减。在本实施例中，预定限制用量可定义为0次，亦即，认证模块228的认证单元2282来判定用量限制信息是否到达0次，若是，则代表用户超出了次数限制，从而可对应输出认证失败信号来禁能控制单元224。Therefore, in the aforementioned authentication operation, theauthentication unit 2282 of theauthentication module 228 can be further configured to directly determine whether theusage restriction information 2005 in theuser device 26 reaches the predetermined restricted usage. For example, if it is determined by thecloud server 29 that theauthentication code carrier 200 is true, theauthentication unit 2282 can directly read theusage restriction information 2005 in theuser device 26, and theusage restriction information 2005 defines the usage limit of theauthentication code carrier 200, And the number of times of use corresponds to the number of the multiple atomizedmedicine containers 20 , and decreases as the number of times of use increases. In this embodiment, the predetermined limited usage can be defined as 0 times, that is, theauthentication unit 2282 of theauthentication module 228 determines whether the usage limit information reaches 0 times. The fail signal disables thecontrol unit 224 .

续言之，若认证模块228的认证单元2282判定用量限制信息2005尚未到达0次，则配置认证模块228更新此用量限制信息2005，例如，将用户装置26中的用量限制信息2005的次数减少1，并对应产生认证成功信号S22来致能控制单元224。Continuing, if theauthentication unit 2282 of theauthentication module 228 determines that theusage restriction information 2005 has not reached 0 times, theauthentication module 228 is configured to update theusage restriction information 2005, for example, the number of times of theusage restriction information 2005 in theuser device 26 is decreased by 1. , and correspondingly generate the authentication success signal S22 to enable thecontrol unit 224 .

通过上述配置，用户在购买特定数量的雾化药品容器时，能确保用量限制信息对应于雾化药品容器的数量，进一步提升认证的可靠度。Through the above configuration, when a user purchases a specific number of atomized drug containers, the user can ensure that the dosage limit information corresponds to the number of aerosolized drug containers, thereby further improving the reliability of authentication.

【第六实施例】[Sixth Embodiment]

请进一步参阅图12所示，图12为本发明第六实施例的具有双认证机制的雾化系统的方块图。在此实施例中，类似于第五实施例，类似的组件符号代表类似的组件，并不再赘述。如图所示，第六实施例与第五实施例不同的处在于，用户装置26进一步包括与认证单元2282连接的影像撷取模块2286，且认证码载体200进一步包括二维条形码2006。认证码载体的二维条形码2006可直接印刷于配置有认证码载体200的位置，例如，雾化药品容器20的瓶盖内侧或瓶体外侧。Please refer to FIG. 12 , which is a block diagram of an atomization system with a dual authentication mechanism according to a sixth embodiment of the present invention. In this embodiment, similar to the fifth embodiment, similar component symbols represent similar components and will not be repeated. As shown in the figure, the sixth embodiment is different from the fifth embodiment in that theuser device 26 further includes animage capturing module 2286 connected to theauthentication unit 2282 , and theauthentication code carrier 200 further includes a two-dimensional barcode 2006 . The two-dimensional barcode 2006 of the authentication code carrier can be directly printed on the position where theauthentication code carrier 200 is arranged, for example, the inner side of the bottle cap or the outer side of the bottle body of the atomizedmedicine container 20 .

其中，用户可通过影像撷取模块2286取得二维条形码2006的影像，并经由认证单元2282对二维条形码2006进行分析以取得认证信息2004。具体而言，此实施例提供另一方案来取得认证信息2004，其利用了现有智能型手机常备的相机或摄影机，亦提升了认证的方便性，并且相较于设置无线辨识芯片的先前实施例而言，还降低了制造成本。The user can obtain the image of the two-dimensional barcode 2006 through theimage capturing module 2286 , and analyze the two-dimensional barcode 2006 through theauthentication unit 2282 to obtain theauthentication information 2004 . Specifically, this embodiment provides another solution for obtaining theauthentication information 2004 , which utilizes the cameras or video cameras that are commonly used in existing smart phones, which also improves the convenience of authentication, and is compared with the previous implementation of setting up a wireless identification chip. For example, manufacturing costs are also reduced.

类似于第五实施例，认证信息2004可为具有特定编码序列的防伪识别编码，并通过第二通信模块262传输至云端服务器29。云端服务器29内建的处理器可执行特定的解密算法以确认具有二维条形码2006的认证码载体200的真伪。此外，云端服务器29进行认证操作的另一示例可将认证信息2004的一部分或全部，与密码数据库290中储存的数据进行比对，以确认认证码载体200的真伪。若经云端服务器29判定认证码载体200为真，则可得知对应的雾化药品容器20并非伪造的，用户可安心使用。Similar to the fifth embodiment, theauthentication information 2004 can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to thecloud server 29 through thesecond communication module 262 . The processor built in thecloud server 29 can execute a specific decryption algorithm to confirm the authenticity of theauthentication code carrier 200 with the two-dimensional barcode 2006 . In addition, another example of the authentication operation performed by thecloud server 29 may compare a part or all of theauthentication information 2004 with the data stored in thepassword database 290 to confirm the authenticity of theauthentication code carrier 200 . If it is determined by thecloud server 29 that theauthentication code carrier 200 is true, it can be known that the corresponding atomizedmedicine container 20 is not counterfeit, and the user can use it with peace of mind.

类似的，在云端服务器29接收到所读取的认证信息2004后，可根据认证信息2004在密码数据库290中进行一比对操作，以取得对应认证信息2004的密码信息。通过供货商在线实时更新密码数据库290，可确保用户所购买的雾化药品容器20并未被使用过，亦并非经过伪造的。Similarly, after thecloud server 29 receives the readauthentication information 2004 , a comparison operation can be performed in thepassword database 290 according to theauthentication information 2004 to obtain the password information corresponding to theauthentication information 2004 . Through the online real-time update of thepassword database 290 by the supplier, it can be ensured that theaerosolized medicine container 20 purchased by the user has not been used or counterfeited.

【第七实施例】[Seventh Embodiment]

请进一步参阅图13所示，图13为本发明第七实施例的具有双认证机制的雾化系统的方块图。在此实施例中，类似于第五实施例，类似的组件符号代表类似的组件，并不再赘述。如图所示，第七实施例与第五实施例不同的处在于，用户装置26进一步包括与认证单元2282连接的认证码输入接口236。Please refer to FIG. 13 , which is a block diagram of an atomization system with a dual authentication mechanism according to a seventh embodiment of the present invention. In this embodiment, similar to the fifth embodiment, similar component symbols represent similar components and will not be repeated. As shown in the figure, the seventh embodiment is different from the fifth embodiment in that theuser device 26 further includes an authenticationcode input interface 236 connected to theauthentication unit 2282 .

具体而言，用户装置26可包括上述认证码输入接口236，以及供用户对雾化模块220进行控制的控制接口。举例来说，在经过配对后，用户可在用户装置26上，通过控制接口控制雾化装置22的启闭以及使用雾化药品202时的流量。而认证码输入接口236可包括标示有数字1～9的数字按键以及取消、后退及确认按键等。Specifically, theuser device 26 may include the above-mentioned authenticationcode input interface 236 and a control interface for the user to control theatomization module 220 . For example, after pairing, the user can control the opening and closing of theatomizing device 22 and the flow rate of the atomized medicine 202 through the control interface on theuser device 26 . The authenticationcode input interface 236 may include numeric keys marked withnumbers 1 to 9, and cancel, back, and confirm keys.

另一方面，认证码载体200的认证信息2004可直接以具有特定序列编码的认证码，直接印刷于配置有认证码载体200的位置，例如，雾化药品容器20的瓶盖内侧或瓶体外侧，用户可直接将认证码(即，认证信息2004)通过认证码输入接口236输入，并可对应显示于用户装置26常备的显示屏幕上方供用户确认。On the other hand, theauthentication information 2004 of theauthentication code carrier 200 can be directly printed on the position where theauthentication code carrier 200 is configured with an authentication code having a specific serial code, for example, the inner side of the bottle cap or the outer side of the bottle body of the atomizedmedicine container 20 , the user can directly input the authentication code (ie, the authentication information 2004 ) through the authenticationcode input interface 236 , which can be correspondingly displayed on the top of the display screen of theuser device 26 for confirmation by the user.

在用户将认证码(即，认证信息2004)通过认证码输入接口236输入后，认证单元2282直接取得认证信息2004，或通过解密认证码而获得认证信息2004。具体而言，此实施例提供又一方案来取得认证信息2004，其利用了现有智能型手机常备的用户接口，亦提升了认证的方便性，并且相较于设置无线辨识芯片的先前实施例而言，还降低了制造成本。After the user inputs the authentication code (ie, the authentication information 2004 ) through the authenticationcode input interface 236 , theauthentication unit 2282 directly obtains theauthentication information 2004 , or obtains theauthentication information 2004 by decrypting the authentication code. Specifically, this embodiment provides yet another solution to obtain theauthentication information 2004, which utilizes the user interface of the existing smart phone, which also improves the convenience of authentication, and is compared with the previous embodiment in which the wireless identification chip is provided. Also, the manufacturing cost is reduced.

类似于第五实施例，认证信息2004可为具有特定编码序列的防伪识别编码，并通过第二通信模块262传输至云端服务器29。云端服务器29内建的处理器可执行特定的解密算法以确认具有认证信息2004的认证码载体200的真伪。此外，云端服务器29进行认证操作的另一示例可将认证信息2004的一部分或全部，与密码数据库290中储存的数据进行比对，以确认认证码载体200的真伪。若经云端服务器29判定认证码载体200为真，则可得知对应的雾化药品容器20并非伪造的，用户可安心使用。Similar to the fifth embodiment, theauthentication information 2004 can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to thecloud server 29 through thesecond communication module 262 . The processor built in thecloud server 29 can execute a specific decryption algorithm to confirm the authenticity of theauthentication code carrier 200 with theauthentication information 2004 . In addition, another example of the authentication operation performed by thecloud server 29 may compare a part or all of theauthentication information 2004 with the data stored in thepassword database 290 to confirm the authenticity of theauthentication code carrier 200 . If it is determined by thecloud server 29 that theauthentication code carrier 200 is true, it can be known that the corresponding atomizedmedicine container 20 is not counterfeit, and the user can use it with peace of mind.

类似的，在云端服务器29接收到所读取的认证信息2004后，可根据认证信息2004在密码数据库290中进行一比对操作，以取得对应认证信息2004的密码信息。通过供货商在线实时更新密码数据库290，可确保用户所购买的雾化药品容器20并未被使用过，亦并非经过伪造的。Similarly, after thecloud server 29 receives the readauthentication information 2004 , a comparison operation can be performed in thepassword database 290 according to theauthentication information 2004 to obtain the password information corresponding to theauthentication information 2004 . Through the online real-time update of thepassword database 290 by the supplier, it can be ensured that theaerosolized medicine container 20 purchased by the user has not been used or counterfeited.

【第八实施例】[Eighth Embodiment]

请参阅图14所示，图14为本发明第八实施例的具有双认证机制的雾化系统的方块图。在此实施例中，类似于第五实施例，类似的组件符号代表类似的组件，并不再赘述。如图所示，第八实施例与第五实施例不同的处在于，雾化装置22配置有第一认证模块237，以及连接于第一认证模块237的天线模块226，而用户装置26配置有第二认证模块238及通信模块239。Please refer to FIG. 14. FIG. 14 is a block diagram of an atomization system with a dual authentication mechanism according to an eighth embodiment of the present invention. In this embodiment, similar to the fifth embodiment, similar component symbols represent similar components and will not be repeated. As shown in the figure, the difference between the eighth embodiment and the fifth embodiment is that theatomizing device 22 is configured with afirst authentication module 237 and anantenna module 226 connected to thefirst authentication module 237, while theuser device 26 is configured with a Thesecond authentication module 238 and thecommunication module 239 .

在本实施例中，认证操作除了在用户装置26及云端服务器29上进行外，还在雾化装置22上进行另一认证操作。In this embodiment, in addition to the authentication operation performed on theuser device 26 and thecloud server 29 , another authentication operation is also performed on theatomizing device 22 .

需要说明的是，第二认证模块238所具备的功能及特性基本上与第五实施例中的认证模块228类似，其所进行的第一认证操作在与认证码载体200之间的互动方式，以及通过云端服务器29判断认证码载体200真伪的认证操作亦相同，因此省略重复叙述。其差异性将参考图15进行详细说明。It should be noted that the functions and characteristics of thesecond authentication module 238 are basically similar to those of theauthentication module 228 in the fifth embodiment. And the authentication operation for judging the authenticity of theauthentication code carrier 200 by thecloud server 29 is also the same, so the repeated description is omitted. The difference will be explained in detail with reference to FIG. 15 .

图15为本发明第八实施例的第一认证模块、天线模块、用户装置、云端服务器及认证码载体的方块图。如图所示，第一认证模块237进一步包括第一认证单元2370、第一无线辨识器2372及第一内存2374。第二认证模块238进一步包括第二认证单元2380、第二无线辨识器2382及第二内存2384，认证码载体200包括无线辨识芯片2000及与之连接的天线2002。在此范例中，第二认证模块238与认证码载体200之间的第一认证操作以被动式无线射频辨识技术为主，直接由第二认证模块238，通过第二无线辨识器2382传输的无线电波供电至无线射频辨识标签，亦即无线辨识芯片2000本身，无线辨识芯片2000还具有事先写入的认证信息2004。此处，认证信息2004可为具有特定编码序列的防伪识别编码与产品履历数据，在实务上，利用第二无线辨识器2382，读取该事先写入无线辨识芯片2000的认证信息2004，以达到提高防伪标识符与产品履历数据的防伪效果。15 is a block diagram of a first authentication module, an antenna module, a user device, a cloud server, and an authentication code carrier according to an eighth embodiment of the present invention. As shown in the figure, thefirst authentication module 237 further includes afirst authentication unit 2370 , afirst wireless identifier 2372 and afirst memory 2374 . Thesecond authentication module 238 further includes asecond authentication unit 2380, asecond wireless identifier 2382 and asecond memory 2384. Theauthentication code carrier 200 includes awireless identification chip 2000 and anantenna 2002 connected thereto. In this example, the first authentication operation between thesecond authentication module 238 and theauthentication code carrier 200 is mainly based on passive radio frequency identification technology. The power is supplied to the radio frequency identification tag, that is, theradio identification chip 2000 itself, and theradio identification chip 2000 also haspre-written authentication information 2004 . Here, theauthentication information 2004 can be an anti-counterfeiting identification code with a specific code sequence and product history data. In practice, thesecond wireless identifier 2382 is used to read theauthentication information 2004 written in thewireless identification chip 2000 in advance to achieve Improve the anti-counterfeiting effect of anti-counterfeiting identifiers and product history data.

当第二认证单元2380读取无线辨识芯片2000后，可取得认证信息2004，其可为具有特定编码序列的防伪识别编码，并通过第二通信模块262传输至云端服务器29。云端服务器29内建的处理器可执行特定的解密算法以确认具有认证信息2004的认证码载体200的真伪。此外，云端服务器29进行第一认证操作的另一示例可将认证信息2004的一部分或全部，与密码数据库290中储存的数据进行比对，以确认认证码载体200的真伪。若经云端服务器29判定认证码载体200为真，则可得知对应的雾化药品容器20并非伪造的，用户可安心使用。After thesecond authentication unit 2380 reads thewireless identification chip 2000 , theauthentication information 2004 can be obtained, which can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to thecloud server 29 through thesecond communication module 262 . The processor built in thecloud server 29 can execute a specific decryption algorithm to confirm the authenticity of theauthentication code carrier 200 with theauthentication information 2004 . In addition, another example in which thecloud server 29 performs the first authentication operation may compare a part or all of theauthentication information 2004 with the data stored in thepassword database 290 to confirm the authenticity of theauthentication code carrier 200 . If it is determined by thecloud server 29 that theauthentication code carrier 200 is true, it can be known that the corresponding atomizedmedicine container 20 is not counterfeit, and the user can use it with peace of mind.

此处，经过上述第一认证操作，若云端服务器29的比对操作成功取得密码信息，可将包括密码信息的认证结果信号S21回传至第二认证模块238，第二认证模块238的第二认证单元2380可处理认证结果信号S21，决定是否产生一无线辨识信号S23。详细而言，认证结果信号S21包括的密码信息可供第二认证单元2380进行解密，以确认认证结果信号S21确实来自云端服务器29，或用以辨识经加密的认证结果信号S21。此等安全机制亦可防止有心人士对这些信号进行拦截、分析与破解。经过第二认证单元2380处理后，需要进行与雾化装置22之间的第二认证操作。Here, after the above-mentioned first authentication operation, if the comparison operation of thecloud server 29 successfully obtains the password information, the authentication result signal S21 including the password information can be sent back to thesecond authentication module 238. Theauthentication unit 2380 can process the authentication result signal S21 to determine whether to generate a wireless identification signal S23. Specifically, the password information included in the authentication result signal S21 can be decrypted by thesecond authentication unit 2380 to confirm that the authentication result signal S21 is indeed from thecloud server 29, or to identify the encrypted authentication result signal S21. These security mechanisms also prevent malicious individuals from intercepting, analyzing, and deciphering these signals. After being processed by thesecond authentication unit 2380, a second authentication operation with theatomizing device 22 needs to be performed.

具体来说，用户装置26与雾化装置22之间的第二认证操作可通过无线射频辨识信号进行传输，用户装置26可为具备近场通信(Near Field Communication,NFC)模块的行动电子装置，此等行动电子装置可使用适当电子电路及相对应的天线来仿真RFID卷标的操作。此种电子电路可整合入行动装置本身的电路或构成该电路的一部分。于此等情况下，行动装置的电路提供RFID功能。行动电子装置可储存多个RFID标签，换言之储存仿真此种RFID卷标所需的数据。仿真数据报含定义空气接口性质的数据，例如操作频率、调变、协议等，以及包含定义该RFID卷标的实际数据酬载的数据。然后描述RFID卷标的数据通过RFID电路及相对应的天线为RFID卷标查询装置可得，因此即使当行动电子装置被蓄意关闭电源，或当能量供应来源耗尽例如由于长时间通电话而电源耗尽时，仍然可取得NFC模块最终配置的RFID卷标。Specifically, the second authentication operation between theuser device 26 and theatomizing device 22 may be transmitted through a radio frequency identification signal, and theuser device 26 may be a mobile electronic device with a Near Field Communication (NFC) module, Such mobile electronic devices can use appropriate electronic circuits and corresponding antennas to simulate the operation of RFID tags. Such electronic circuits can be integrated into the circuits of the mobile device itself or form part of the circuits. In such cases, the circuitry of the mobile device provides RFID functionality. The mobile electronic device can store multiple RFID tags, in other words, store the data required to emulate such RFID tags. The simulated datagram contains data defining the properties of the air interface, such as operating frequency, modulation, protocol, etc., as well as data defining the actual data payload of the RFID tag. The data describing the RFID tag is then available to the RFID tag inquiring device through the RFID circuit and the corresponding antenna, so even when the mobile electronic device is deliberately powered off, or when the power supply source is exhausted such as due to prolonged phone calls At the end of the day, the RFID tag of the final configuration of the NFC module can still be obtained.

因此，在本实施例中，第二认证模块238可作为认证码载体200的读取器，亦可产生第一认证模块237可读取的无线射频辨识信号。此外，当用户有需要连续使用多种雾化药品202时，用户装置26可预先对多个认证码载体200进行第一认证操作，并在取得多个对应的认证结果信号S21后，配置第二认证单元2380分别将用于产生多种无线辨识信号的配置储存在第二内存2384中，用户通过用户装置26即可快速在不同雾化药品202之间进行切换、选择，还提供用户在用药需求上的灵活性。Therefore, in this embodiment, thesecond authentication module 238 can be used as a reader of theauthentication code carrier 200 , and can also generate a radio frequency identification signal that can be read by thefirst authentication module 237 . In addition, when the user needs to use multiple types of aerosolized medicines 202 continuously, theuser device 26 can perform the first authentication operation on the multipleauthentication code carriers 200 in advance, and configure the secondauthentication code carrier 200 after obtaining multiple corresponding authentication result signals S21. Theauthentication unit 2380 stores the configurations used to generate various wireless identification signals in thesecond memory 2384 respectively, and the user can quickly switch and select between different aerosolized medicines 202 through theuser device 26, and also provides the user's medication requirements. flexibility.

续言之，当天线模块226接收到无线辨识信号S23时，第一认证模块237被配置为用以进行与无线辨识信号S23相关的第二认证操作，进而判断是否致能控制单元224以控制电源模块222输出驱动电压V21。举例而言，当天线模块226接收到第二认证模块238产生的无线射频辨识信号，第一无线辨识器2372分析无线射频辨识信号并经过第一认证单元2370处理，以确认该无线射频辨识信号的正确性，若判断为正确，则通过控制单元224控制电源模块222输出驱动电压V21，以直接驱动雾化模块220的雾化组件232对容置部230中的雾化药品202进行雾化。Continuing, when theantenna module 226 receives the wireless identification signal S23, thefirst authentication module 237 is configured to perform a second authentication operation related to the wireless identification signal S23, and then determine whether to enable thecontrol unit 224 to control the power The module 222 outputs the driving voltage V21. For example, when theantenna module 226 receives the radio frequency identification signal generated by thesecond authentication module 238, the firstradio identification device 2372 analyzes the radio frequency identification signal and processes it by thefirst authentication unit 2370 to confirm the radio frequency identification signal. If it is correct, thecontrol unit 224 controls the power supply module 222 to output the driving voltage V21 to directly drive theatomization component 232 of theatomization module 220 to atomize the atomized medicine 202 in theaccommodating portion 230 .

此外，除了上述以无线射频辨识信号进行第二认证操作的外，第一认证模块237与第二认证模块238之间亦可采用蓝牙辨识信号进行传输。当第二认证模块238产生的无线辨识信号S23为蓝牙辨识信号时，天线模块226接收该蓝牙辨识信号，第一无线辨识器2372分析蓝牙辨识信号并经过第一认证单元2370处理，以确认该蓝牙辨识信号的正确性，若判断为正确，则通过控制单元224控制电源模块222输出驱动电压V21，以直接驱动雾化模块220的雾化组件232对容置部230中的雾化药品202进行雾化。In addition, in addition to the above-mentioned second authentication operation using the radio frequency identification signal, thefirst authentication module 237 and thesecond authentication module 238 can also use the Bluetooth identification signal for transmission. When the wireless identification signal S23 generated by thesecond authentication module 238 is a Bluetooth identification signal, theantenna module 226 receives the Bluetooth identification signal, and the firstwireless identification device 2372 analyzes the Bluetooth identification signal and processes it by thefirst authentication unit 2370 to confirm the Bluetooth identification signal. The correctness of the identification signal, if it is judged to be correct, thecontrol unit 224 controls the power supply module 222 to output the driving voltage V21, so as to directly drive theatomization component 232 of theatomization module 220 to atomize the atomized medicine 202 in theaccommodating portion 230 change.

另一方面，若经第一认证单元2370判定无线辨识信号S23不正确，例如，第一认证单元2370无法辨识作为无线辨识信号S23的无线射频辨识信号或蓝牙辨识信号，则可对应输出认证失败信号来禁能控制单元224。On the other hand, if thefirst authentication unit 2370 determines that the wireless identification signal S23 is incorrect, for example, thefirst authentication unit 2370 cannot identify the radio frequency identification signal or the Bluetooth identification signal as the wireless identification signal S23, it can output a corresponding authentication failure signal to disable thecontrol unit 224.

在特定情况下，第一认证模块237亦可具有对认证码载体200进行直接认证的能力。举例来说，用户装置26可在经过与云端服务器29进行过第一认证操作的后，进而改写无线辨识芯片2000的认证信息2004，而使得第一无线辨识器2372可直接对无线辨识芯片2000的认证信息2004进行第二认证操作，以省去每次用户有雾化药品202使用需求时，均需要通过用户装置26与云端服务器29进行第一认证操作的时间。另一方面，当用户装置26处在无网络联机能力的状况下，或用户装置26的电能耗尽的状况下，只要认证码载体200曾经进行过第一认证操作，用户仍可直接通过雾化装置22使用雾化药品202。Under certain circumstances, thefirst authentication module 237 may also have the capability of directly authenticating theauthentication code carrier 200 . For example, theuser device 26 can rewrite theauthentication information 2004 of thewireless identification chip 2000 after the first authentication operation with thecloud server 29 , so that the firstwireless identification device 2372 can directly verify the authentication information of thewireless identification chip 2000 Theauthentication information 2004 performs the second authentication operation, so as to save the time required to perform the first authentication operation through theuser device 26 and thecloud server 29 every time the user has the need to use the aerosolized medicine 202 . On the other hand, when theuser device 26 has no network connection capability, or the power of theuser device 26 is exhausted, as long as theauthentication code carrier 200 has performed the first authentication operation, the user can still directly use the atomizer.Device 22 uses an aerosolized drug 202 .

本实施例除了在用户装置26端提供了双认证机制，还在雾化装置22端提供了独立的认证机制，与先前实施例相比，不仅大幅提高了认证码载体的伪造难度，还可确保数据传输上的安全性，使伪造商品即便在市面上贩卖，亦无法通过雾化装置使用，保全了消费者的生命财产。This embodiment not only provides a dual authentication mechanism on theuser device 26 side, but also provides an independent authentication mechanism on theatomizing device 22 side. Compared with the previous embodiment, it not only greatly improves the forgery difficulty of the authentication code carrier, but also ensures that The security of data transmission makes it impossible for counterfeit goods to be used through atomizing devices even if they are sold in the market, which preserves the life and property of consumers.

【第九实施例】[Ninth Embodiment]

请进一步参阅图16及图17所示，图16及图17其分别为本发明第九实施例的具有双认证机制的雾化系统的方块图及立体图。在此实施例中，类似于第八实施例，类似的组件符号代表类似的组件，并不再赘述。如图所示，第九实施例与第八实施例不同的处在于，用户装置26进一步包括与第二认证单元2380连接的影像撷取模块2286，且认证码载体200进一步包括二维条形码2006。Please refer to FIG. 16 and FIG. 17 . FIG. 16 and FIG. 17 are respectively a block diagram and a three-dimensional view of an atomization system with a dual authentication mechanism according to a ninth embodiment of the present invention. In this embodiment, similar to the eighth embodiment, similar component symbols represent similar components and will not be repeated. As shown in the figure, the difference between the ninth embodiment and the eighth embodiment is that theuser device 26 further includes animage capturing module 2286 connected to thesecond authentication unit 2380 , and theauthentication code carrier 200 further includes a two-dimensional barcode 2006 .

其中，用户可通过影像撷取模块2286取得二维条形码2006的影像，并经由第二认证单元2380对二维条形码2006进行分析以取得认证信息2004。具体而言，此实施例提供另一方案来取得认证信息2004，其利用了现有智能型手机常备的相机或摄影机，亦提升了认证的方便性，并且相较于设置无线辨识芯片的先前实施例而言，还降低了制造成本。The user can obtain the image of the two-dimensional barcode 2006 through theimage capturing module 2286 , and analyze the two-dimensional barcode 2006 through thesecond authentication unit 2380 to obtain theauthentication information 2004 . Specifically, this embodiment provides another solution for obtaining theauthentication information 2004 , which utilizes the cameras or video cameras that are commonly used in existing smart phones, which also improves the convenience of authentication, and is compared with the previous implementation of setting up a wireless identification chip. For example, manufacturing costs are also reduced.

类似于第八实施例，认证信息2004可为具有特定编码序列的防伪识别编码，并通过第二通信模块262传输至云端服务器29。云端服务器29内建的处理器可执行特定的解密算法以确认具有认证信息2004的认证码载体200的真伪。此外，云端服务器29进行认证操作的另一示例可将认证信息2004的一部分或全部，与密码数据库290中储存的数据进行比对，以确认认证码载体200的真伪。若经云端服务器29判定认证码载体200为真，则可得知对应的雾化药品容器20并非伪造的，用户可安心使用。Similar to the eighth embodiment, theauthentication information 2004 can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to thecloud server 29 through thesecond communication module 262 . The processor built in thecloud server 29 can execute a specific decryption algorithm to confirm the authenticity of theauthentication code carrier 200 with theauthentication information 2004 . In addition, another example of the authentication operation performed by thecloud server 29 may compare a part or all of theauthentication information 2004 with the data stored in thepassword database 290 to confirm the authenticity of theauthentication code carrier 200 . If it is determined by thecloud server 29 that theauthentication code carrier 200 is true, it can be known that the corresponding atomizedmedicine container 20 is not counterfeit, and the user can use it with peace of mind.

类似的，在云端服务器29接收到所读取的认证信息2004后，可根据认证信息2004在密码数据库290中进行一比对操作，以取得对应认证信息2004的密码信息。通过供货商在线实时更新密码数据库290，可确保用户所购买的雾化药品容器20并未被使用过，亦并非经过伪造的。Similarly, after thecloud server 29 receives the readauthentication information 2004 , a comparison operation can be performed in thepassword database 290 according to theauthentication information 2004 to obtain the password information corresponding to theauthentication information 2004 . Through the online real-time update of thepassword database 290 by the supplier, it can be ensured that theaerosolized medicine container 20 purchased by the user has not been used or counterfeited.

类似于图14，经过上述第一认证操作，若云端服务器29的比对操作成功取得密码信息，可将包括密码信息的认证结果信号S21回传至第二认证模块238，第二认证模块238的第二认证单元2380可处理认证结果信号S21，决定是否产生一无线辨识信号S23，并进行前述的第二认证操作。Similar to FIG. 14 , after the above-mentioned first authentication operation, if the comparison operation of thecloud server 29 successfully obtains the password information, the authentication result signal S21 including the password information can be sent back to thesecond authentication module 238. Thesecond authentication unit 2380 can process the authentication result signal S21, determine whether to generate a wireless identification signal S23, and perform the aforementioned second authentication operation.

第一认证模块237与第二认证模块238之间亦可采用无线射频辨识信号或蓝牙辨识信号进行传输。当第二认证模块238产生的无线辨识信号S23为无线射频辨识信号或蓝牙辨识信号时，天线模块226接收无线射频辨识信号或蓝牙辨识信号，第一无线辨识器2372分析无线射频辨识信号或蓝牙辨识信号并经过第一认证单元2370处理，以确认无线射频辨识信号或蓝牙辨识信号的正确性，若判断为正确，则通过控制单元224控制电源模块222输出驱动电压V21，以直接驱动雾化模块220的雾化组件232对容置部230中的雾化药品202进行雾化。Radio frequency identification signals or Bluetooth identification signals can also be used for transmission between thefirst authentication module 237 and thesecond authentication module 238 . When the RFID signal S23 generated by thesecond authentication module 238 is a RFID signal or a Bluetooth identification signal, theantenna module 226 receives the RFID signal or the Bluetooth identification signal, and thefirst wireless identifier 2372 analyzes the RFID signal or the Bluetooth identification signal The signal is processed by thefirst authentication unit 2370 to confirm the correctness of the radio frequency identification signal or the Bluetooth identification signal. If it is judged to be correct, thecontrol unit 224 controls the power supply module 222 to output the driving voltage V21 to directly drive theatomization module 220. Theatomizing assembly 232 of theatomization unit 232 atomizes the atomized medicine 202 in theaccommodating part 230 .

另一方面，若经第一认证单元2370判定无线辨识信号S23不正确，例如，第一认证单元2370无法辨识作为无线辨识信号S23的无线射频辨识信号或蓝牙辨识信号，则可对应输出认证失败信号来禁能控制单元224。On the other hand, if thefirst authentication unit 2370 determines that the wireless identification signal S23 is incorrect, for example, thefirst authentication unit 2370 cannot identify the radio frequency identification signal or the Bluetooth identification signal as the wireless identification signal S23, it can output a corresponding authentication failure signal to disable thecontrol unit 224.

【第十实施例】[Tenth Embodiment]

请进一步参阅图18所示，图18为本发明第十实施例的具有双认证机制的雾化系统的方块图。在此实施例中，类似于第八实施例，类似的组件符号代表类似的组件，并不再赘述。如图所示，第十实施例与第八实施例不同的处在于，用户装置26进一步包括与第二认证单元2380连接的认证码输入接口236。Please refer to FIG. 18 , which is a block diagram of an atomization system with a dual authentication mechanism according to a tenth embodiment of the present invention. In this embodiment, similar to the eighth embodiment, similar component symbols represent similar components and will not be repeated. As shown in the figure, the tenth embodiment is different from the eighth embodiment in that theuser device 26 further includes an authenticationcode input interface 236 connected to thesecond authentication unit 2380 .

具体而言，用户装置26可包括上述认证码输入接口236，以及供用户对雾化模块220进行控制的控制接口。举例来说，在经过配对后，用户可在用户装置26上，通过控制接口控制雾化装置22的启闭以及使用雾化药品202时的流量。而认证码输入接口236可包括标示有数字1～9的数字按键以及取消、后退及确认按键等。Specifically, theuser device 26 may include the above-mentioned authenticationcode input interface 236 and a control interface for the user to control theatomization module 220 . For example, after pairing, the user can control the opening and closing of theatomizing device 22 and the flow rate of the atomized medicine 202 through the control interface on theuser device 26 . The authenticationcode input interface 236 may include numeric keys marked withnumbers 1 to 9, and cancel, back, and confirm keys.

另一方面，认证码载体200的认证信息2004可直接以具有特定序列编码的认证码，直接印刷于配置有认证码载体200的位置，例如，雾化药品容器20的瓶盖内侧或瓶体外侧，用户可直接将认证码(即，认证信息2004)通过认证码输入接口236输入，并可对应显示于用户装置26常备的显示屏幕上方供用户确认。On the other hand, theauthentication information 2004 of theauthentication code carrier 200 can be directly printed on the position where theauthentication code carrier 200 is configured with an authentication code having a specific serial code, for example, the inner side of the bottle cap or the outer side of the bottle body of the atomizedmedicine container 20 , the user can directly input the authentication code (ie, the authentication information 2004 ) through the authenticationcode input interface 236 , which can be correspondingly displayed on the top of the display screen of theuser device 26 for confirmation by the user.

在用户将认证码(即，认证信息2004)通过认证码输入接口236输入后，第二认证单元2380直接取得认证信息2004，或通过解密认证码而获得认证信息2004。具体而言，此实施例提供又一方案来取得认证信息2004，其利用了现有智能型手机常备的用户接口，亦提升了认证的方便性。After the user inputs the authentication code (ie, the authentication information 2004 ) through the authenticationcode input interface 236 , thesecond authentication unit 2380 directly obtains theauthentication information 2004 , or obtains theauthentication information 2004 by decrypting the authentication code. Specifically, this embodiment provides yet another solution to obtain theauthentication information 2004, which utilizes the user interface of the existing smart phone and also improves the convenience of authentication.

类似于第八实施例，认证信息2004可为具有特定编码序列的防伪识别编码，并通过通信模块239传输至云端服务器29。云端服务器29内建的处理器可执行特定的解密算法以确认具有认证信息2004的认证码载体200的真伪。此外，云端服务器29进行认证操作的另一示例可将认证信息2004的一部分或全部，与密码数据库290中储存的数据进行比对，以确认认证码载体200的真伪。若经云端服务器29判定认证码载体200为真，则可得知对应的雾化药品容器20并非伪造的，用户可安心使用。Similar to the eighth embodiment, theauthentication information 2004 can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to thecloud server 29 through thecommunication module 239 . The processor built in thecloud server 29 can execute a specific decryption algorithm to confirm the authenticity of theauthentication code carrier 200 with theauthentication information 2004 . In addition, another example of the authentication operation performed by thecloud server 29 may compare a part or all of theauthentication information 2004 with the data stored in thepassword database 290 to confirm the authenticity of theauthentication code carrier 200 . If it is determined by thecloud server 29 that theauthentication code carrier 200 is true, it can be known that the corresponding atomizedmedicine container 20 is not counterfeit, and the user can use it with peace of mind.

类似的，在云端服务器29接收到所读取的认证信息2004后，可根据认证信息2004在密码数据库290中进行一比对操作，以取得对应认证信息2004的密码信息。通过供货商在线实时更新密码数据库290，可确保用户所购买的雾化药品容器20并未被使用过，亦并非经过伪造的。Similarly, after thecloud server 29 receives the readauthentication information 2004 , a comparison operation can be performed in thepassword database 290 according to theauthentication information 2004 to obtain the password information corresponding to theauthentication information 2004 . Through the online real-time update of thepassword database 290 by the supplier, it can be ensured that theaerosolized medicine container 20 purchased by the user has not been used or counterfeited.

类似的，经过上述第一认证操作，若云端服务器29的比对操作成功取得密码信息，可将包括密码信息的认证结果信号S21回传至第二认证模块238，第二认证模块238的第二认证单元2380可处理认证结果信号S21，决定是否产生一无线辨识信号S23。Similarly, after the above-mentioned first authentication operation, if the comparison operation of thecloud server 29 successfully obtains the password information, the authentication result signal S21 including the password information can be sent back to thesecond authentication module 238. Theauthentication unit 2380 can process the authentication result signal S21 to determine whether to generate a wireless identification signal S23.

需要说明的是，用户装置26与雾化装置22之间的第二认证操作其与第八实施例中所述的第二认证操作相同，为了避免模糊本发明的重点，在此不再赘述。It should be noted that the second authentication operation between theuser device 26 and theatomizing device 22 is the same as the second authentication operation described in the eighth embodiment, and is not repeated here in order to avoid obscuring the key points of the present invention.

【第十一实施例】[Eleventh embodiment]

以下将根据附图详细说明本发明的具有认证机制的雾化方法。在本实施例中，具有认证机制的雾化方法主要适用于第一实施例至第四实施例，但不限于此，在所属领域的一般技术人员能设想的方式或各种可能性下，本实施例提供的方法亦可适用于上文中所描述的任何实施方式。The atomization method with authentication mechanism of the present invention will be described in detail below according to the accompanying drawings. In this embodiment, the atomization method with an authentication mechanism is mainly applicable to the first embodiment to the fourth embodiment, but is not limited to this. In the manner or various possibilities that can be imagined by those skilled in the art, this The methods provided by the examples are also applicable to any of the embodiments described above.

使用储存或以其它方式可从计算机可读介质取得的计算机执行指令来实现根据上述实施例的方法。这样的指令例如可包括导致或以其它方式配置通用目标计算机、专用目标计算机，或专用目的处理装置执行某一功能或功能组的指令和数据。所使用计算机资源的部分可以通过网络进行存取。该计算机可执行指令例如可以是二进制，中间格式指令，诸如汇编语言(assembly language)、固件、或源代码(source code)。可用来储存根据所描述实施例中的方法期间的指令、所使用的信息、及/或所创造的信息的计算机可读介质的实例包括磁盘或光盘、闪存、设置有非易失性内存的USB装置、联网的储存装置等等。Methods according to the above-described embodiments are implemented using computer-executable instructions stored or otherwise fetchable from a computer-readable medium. Such instructions may include, for example, instructions and data that cause or otherwise configure a general purpose object computer, special purpose object computer, or special purpose processing apparatus to perform a certain function or group of functions. Portions of the computer resources used can be accessed over the network. The computer-executable instructions may be, for example, binary, intermediate format instructions such as assembly language, firmware, or source code. Examples of computer readable media that may be used to store instructions, information used, and/or information created during methods in accordance with the described embodiments include magnetic or optical disks, flash memory, USB provided with non-volatile memory devices, networked storage devices, etc.

此外，实施根据这些所披露的方法的装置可以包括硬件、固件及/或软件，且可以采取任何各种形体。这种形体的典型例子包括笔记本电脑、智能电话、小型个人计算机、个人数字助理等等。本文描述的功能也可以实施于外围设备或内置卡。通过进一步举例，这种功能也可以实施在不同芯片或在单个装置上执行的不同程序的电路板。Furthermore, means for implementing methods according to these disclosed methods may include hardware, firmware and/or software, and may take any of a variety of forms. Typical examples of such forms include notebook computers, smart phones, small personal computers, personal digital assistants, and the like. The functions described herein can also be implemented on peripheral devices or built-in cards. By way of further example, such functionality may also be implemented on different chips or circuit boards with different programs executing on a single device.

请参考图19，其为本发明的第十一实施例的具有认证机制的雾化方法的流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please refer to FIG. 19 , which is a flowchart of an atomization method with an authentication mechanism according to an eleventh embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S100：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可先进行步骤S101，预先取得雾化药品容器的认证码载体。雾化药品容器可为具有瓶口的瓶装容器，而认证码载体可为设置于瓶盖上的电子卷标，以与瓶装容器分离使用，但本发明不限与此，认证码载体亦可为可分离的设置于瓶装容器外侧的电子卷标。Step S100: Put the atomized medicine contained in the atomized medicine container into the accommodating part of the atomization device. Optionally, the user may first perform step S101 to obtain the authentication code carrier of the atomized medicine container in advance. The atomized medicine container can be a bottled container with a bottle mouth, and the authentication code carrier can be an electronic label set on the bottle cap to be used separately from the bottled container, but the invention is not limited to this, and the authentication code carrier can also be Detachable electronic label on the outside of the bottled container.

步骤S102：配置该雾化装置的认证模块以进行与该雾化药品容器具有的认证码载体相关的认证操作。其中，雾化装置的具体配置可参阅图1，雾化装置包括雾化模块、第一电源模块、控制单元、天线模块及认证模块，其相关技术特征均已在前述实施例中描述过。Step S102: Configure the authentication module of the atomization device to perform authentication operations related to the authentication code carrier possessed by the atomized medicine container. 1, the atomization device includes an atomization module, a first power supply module, a control unit, an antenna module and an authentication module, and the relevant technical features thereof have been described in the foregoing embodiments.

步骤S103：配置认证模块判定雾化药品或雾化药品容器的真伪，并对应产生认证结果信号。更详细来说，认证模块通过进行与该雾化药品容器具有的认证码载体相关的认证操作，进而能判断雾化药品或雾化药品容器的真伪。认证操作包括通过无线辨识、二维条形码辨识、认证码辨识及结构锁机制，其应用方式将在下文中详细说明。Step S103: Configure the authentication module to determine the authenticity of the atomized medicine or the container of the atomized medicine, and generate an authentication result signal correspondingly. More specifically, the authentication module can determine the authenticity of the atomized drug or the atomized drug container by performing an authentication operation related to the authentication code carrier possessed by the atomized drug container. The authentication operation includes wireless identification, two-dimensional barcode identification, authentication code identification and structural locking mechanism, the application of which will be described in detail below.

若认证模块于认证操作中判定雾化药品容器为真，则执行步骤S104：控制单元根据认证结果信号控制第一电源模块输出第一驱动电压，以直接驱动雾化模块的雾化组件对雾化药品进行雾化。若认证模块于认证操作中判定雾化药品容器为伪，则执行步骤S105：产生对应的认证结果信号，控制单元根据认证结果信号禁能第一电源模块。If the authentication module determines that the atomized drug container is true in the authentication operation, step S104 is executed: the control unit controls the first power supply module to output the first driving voltage according to the authentication result signal, so as to directly drive the atomization component of the atomization module to atomize The medicine is nebulized. If the authentication module determines that the atomized medicine container is fake during the authentication operation, step S105 is executed: a corresponding authentication result signal is generated, and the control unit disables the first power module according to the authentication result signal.

【第十二实施例】[Twelfth Embodiment]

请参考图20A，其为本发明的第十二实施例的具有认证机制的雾化方法的流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please refer to FIG. 20A , which is a flowchart of an atomization method with an authentication mechanism according to a twelfth embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S110：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可先进行步骤S111，以雾化装置对认证码载体进行感应。Step S110: Put the atomized medicine contained in the atomized medicine container into the accommodating part of the atomization device. Optionally, the user may first perform step S111 to sense the authentication code carrier with the atomizing device.

步骤S112：配置认证模块的无线辨识器，以针对认证码载体的无线辨识芯片进行认证操作。其中，雾化装置的具体配置可进一步参阅图2A，认证模块包括无线辨识器、认证单元及内存，认证码载体包括无线辨识芯片及与之连接的天线，其相关技术特征均已在前述实施例中描述过。Step S112: Configure the wireless identifier of the authentication module to perform an authentication operation on the wireless identification chip of the authentication code carrier. The specific configuration of the atomizing device can be further referred to in FIG. 2A , the authentication module includes a wireless identifier, an authentication unit and a memory, and the authentication code carrier includes a wireless identification chip and an antenna connected to it, and its related technical features have been described in the foregoing embodiments. described in.

在此范例中，认证模块与认证码载体之间的认证操作可以被动式无线射频辨识技术为主，直接由无线辨识器通过天线模块传输的无线电波供电至无线射频辨识标签，亦即无线辨识芯片本身，无线辨识芯片还具有事先写入的认证信息。In this example, the authentication operation between the authentication module and the authentication code carrier can be based on passive radio frequency identification technology, and the radio frequency identification tag is directly powered by the radio wave transmitted by the radio identification device through the antenna module, that is, the radio identification chip itself. , the wireless identification chip also has pre-written authentication information.

步骤S113：配置认证模块判定雾化药品或雾化药品容器的真伪，并对应产生认证结果信号。更详细来说，认证模块通过无线辨识进行与雾化药品容器具有的认证码载体相关的认证操作，在实务上，利用无线辨识器，读取事先写入无线辨识芯片的认证信息，此处，认证信息可为具有特定编码序列的防伪识别编码与产品履历数据，通过认证单元进行辨识，可达到提高读取防伪标识符与产品履历数据的效果，进而能判断雾化药品或雾化药品容器的真伪。Step S113: Configure the authentication module to determine the authenticity of the atomized medicine or the container of the atomized medicine, and generate an authentication result signal correspondingly. In more detail, the authentication module performs the authentication operation related to the authentication code carrier possessed by the atomized medicine container through wireless identification. In practice, the wireless identification device is used to read the authentication information written in the wireless identification chip in advance. Here, The authentication information can be the anti-counterfeiting identification code and the product history data with a specific coding sequence, which can be identified by the authentication unit, which can improve the effect of reading the anti-counterfeiting identifier and the product history data, and then can judge the quality of the aerosolized medicine or the aerosolized medicine container. Authenticity.

若认证模块于认证操作中，判定雾化药品容器为真，则执行步骤S114：控制单元根据认证结果信号控制第一电源模块输出第一驱动电压，以直接驱动雾化模块的雾化组件对雾化药品进行雾化。若认证模块于认证操作中判定雾化药品容器为伪，则执行步骤S115：产生对应的认证结果信号，控制单元根据认证结果信号禁能第一电源模块。If the authentication module determines that the atomized drug container is true during the authentication operation, step S114 is executed: the control unit controls the first power supply module to output the first driving voltage according to the authentication result signal, so as to directly drive the atomization component of the atomization module to spray the mist. Chemicals are atomized. If the authentication module determines that the atomized medicine container is fake during the authentication operation, step S115 is executed: a corresponding authentication result signal is generated, and the control unit disables the first power module according to the authentication result signal.

另外，在步骤S113中，认证单元可进一步处理所读取具有特定编码序列的防伪识别编码，并执行内存中储存的特定认证算法进行解密，以确认具有认证信息的认证码载体的真伪。认证单元进行处理运作的另一示例可将认证信息的一部分或全部，与内存中储存的数据进行比对，以确认认证码载体的真伪。若经认证单元判定认证码载体为真，则可得知对应的雾化药品容器并非伪造的，用户可安心使用。In addition, in step S113, the authentication unit may further process the read anti-counterfeiting identification code with a specific code sequence, and execute a specific authentication algorithm stored in the memory to decrypt to confirm the authenticity of the authentication code carrier with authentication information. Another example of the processing operation performed by the authentication unit may compare a part or all of the authentication information with the data stored in the memory, so as to confirm the authenticity of the authentication code carrier. If the authentication unit determines that the authentication code carrier is true, it can be known that the corresponding atomized drug container is not counterfeit, and the user can use it with peace of mind.

还可参考图20B，其为本发明的第十二实施例的具有认证机制的雾化方法的另一流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Reference can also be made to FIG. 20B , which is another flowchart of the atomization method with an authentication mechanism according to the twelfth embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S110’：配置储值装置以更新用量限制信息。如先前在图2D中说明的，当用户在药店柜台完成购买手续后，药店可通过此储值接口进行操作，通过无线储值模块对认证码载体或用户装置中的用量限制信息进行更新，例如，配置储值处理器根据所购买的条形码在数据库中查询或更新，以将用量限制信息更新为所购买的雾化药品容器的数量。Step S110': Configure the stored value device to update the usage limit information. As previously described in FIG. 2D , after the user completes the purchase procedure at the pharmacy counter, the pharmacy can operate through the stored value interface, and update the usage limit information in the authentication code carrier or the user device through the wireless stored value module, such as , configure the stored value processor to query or update the database according to the purchased barcode, so as to update the usage limit information to the purchased quantity of the atomized medicine container.

步骤S111’：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可先进行步骤S112’，以雾化装置对认证码载体进行感应。Step S111': Put the atomized drug contained in the atomized drug container into the accommodating portion of the atomizing device. Optionally, the user may first perform step S112' to sense the authentication code carrier with the atomizing device.

步骤S113’：配置认证模块的无线辨识器，以针对认证码载体的无线辨识芯片进行认证操作。Step S113': configure the wireless identifier of the authentication module to perform an authentication operation on the wireless identification chip of the authentication code carrier.

在此范例中，认证模块与认证码载体之间的认证操作可以被动式无线射频辨识技术为主，直接由无线辨识器，通过天线模块传输的无线电波供电至无线射频辨识标签，亦即无线辨识芯片本身，无线辨识芯片还具有事先写入的认证信息及用量限制信息。In this example, the authentication operation between the authentication module and the authentication code carrier can be mainly based on passive radio frequency identification technology, which is directly powered by the radio frequency identification device and the radio waves transmitted by the antenna module to the radio frequency identification tag, that is, the radio identification chip. In itself, the wireless identification chip also has pre-written authentication information and usage limit information.

步骤S114’：配置认证模块判定雾化药品或雾化药品容器的真伪，并对应产生认证结果信号。更详细来说，认证模块通过无线辨识进行与雾化药品容器具有的认证码载体相关的认证操作，在实务上，利用无线辨识器，读取事先写入无线辨识芯片的认证信息，此处，认证信息可为具有特定编码序列的防伪识别编码与产品履历数据，通过认证单元进行辨识，可达到提高读取防伪标识符与产品履历数据的效果，进而能判断雾化药品或雾化药品容器的真伪。Step S114': configure the authentication module to determine the authenticity of the atomized medicine or the container of the atomized medicine, and generate a corresponding authentication result signal. In more detail, the authentication module performs the authentication operation related to the authentication code carrier possessed by the atomized medicine container through wireless identification. In practice, the wireless identification device is used to read the authentication information written in the wireless identification chip in advance. Here, The authentication information can be the anti-counterfeiting identification code and the product history data with a specific coding sequence, which can be identified by the authentication unit, which can improve the effect of reading the anti-counterfeiting identifier and the product history data, and then can judge the quality of the aerosolized medicine or the aerosolized medicine container. Authenticity.

若认证模块在认证操作中，判定雾化药品容器为真，则执行步骤S115’：配置认证模块判定用量限制信息是否到达预定限制用量。举例而言，认证模块的认证单元判定用量限制信息是否到达0次，若是，则代表用户超出了次数限制，执行步骤S116’，进而产生对应的认证结果信号来禁能控制单元。If the authentication module determines that the atomized medicine container is true during the authentication operation, step S115' is executed: configure the authentication module to determine whether the dosage limit information reaches the predetermined limit dosage. For example, the authentication unit of the authentication module determines whether the usage limit information reaches 0 times, and if so, it means that the user has exceeded the times limit, and step S116' is executed, and then a corresponding authentication result signal is generated to disable the control unit.

若在步骤S115’中，认证模块的认证单元判定用量限制信息尚未到达预定限制用量，例如，大于0次，则进入步骤S117’，配置认证模块更新用量限制信息。例如，将认证码载体的使用次数减少1，并对应产生认证结果信号来致能控制单元。If in step S115', the authentication unit of the authentication module determines that the usage restriction information has not reached the predetermined restricted usage, for example, more than 0 times, then proceed to step S117', and configure the authentication module to update the usage restriction information. For example, the number of times of use of the authentication code carrier is reduced by 1, and the control unit is enabled correspondingly by generating an authentication result signal.

步骤S118’：控制单元根据认证结果信号控制第一电源模块输出第一驱动电压，以直接驱动雾化模块的雾化组件对雾化药品进行雾化。Step S118': the control unit controls the first power supply module to output the first driving voltage according to the authentication result signal, so as to directly drive the atomization assembly of the atomization module to atomize the atomized medicine.

另外，若在步骤S114’中，认证模块判定雾化药品容器为伪，则同样进入步骤S116’，产生对应的认证结果信号来禁能控制单元。In addition, if in step S114', the authentication module determines that the aerosolized medicine container is fake, then the same goes to step S116', and a corresponding authentication result signal is generated to disable the control unit.

通过上述配置，用户在购买特定数量的雾化药品容器时，能确保用量限制信息对应于雾化药品容器的数量，进一步提升认证的可靠度。Through the above configuration, when a user purchases a specific number of atomized drug containers, the user can ensure that the dosage limit information corresponds to the number of aerosolized drug containers, thereby further improving the reliability of authentication.

【第十三实施例】[Thirteenth embodiment]

请参考图21，其为本发明的第十三实施例的具有认证机制的雾化方法的流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please refer to FIG. 21 , which is a flowchart of an atomization method with an authentication mechanism according to the thirteenth embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S120：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可先进行步骤S121，将认证码载体置入认证码载体容置部，可提供适当的支撑力稳固(保持)认证码载体。Step S120: Put the atomized medicine contained in the atomized medicine container into the accommodating part of the atomization device. Optionally, the user may first perform step S121 to place the authentication code carrier into the authentication code carrier accommodating portion, which can provide an appropriate supporting force to stabilize (hold) the authentication code carrier.

在此实施例中，可进一步参考图3、图4及图5的雾化系统，其还包括电性连接于控制单元的第二电源模块，用以输出第二驱动电压。控制单元可输出一个或多个控制信号，用以控制第二电源模块的运作。还如图所示，雾化装置进一步包括连接于第二电源模块的供电部，且认证码载体进一步包含与无线辨识芯片连接的受电部。In this embodiment, further reference may be made to the atomizing system of FIG. 3 , FIG. 4 and FIG. 5 , which further includes a second power supply module electrically connected to the control unit for outputting a second driving voltage. The control unit can output one or more control signals for controlling the operation of the second power module. As also shown in the figure, the atomizing device further includes a power supply part connected to the second power module, and the authentication code carrier further includes a power receiving part connected to the wireless identification chip.

步骤S122：将连接于第二电源模块的供电部连接于认证码载体的受电部。如先前实施例所说明的，第二电源模块被配置为用以在供电部电性连接于受电部时，输出第二驱动电压以致能无线辨识芯片。Step S122: Connect the power supply part connected to the second power module to the power receiving part of the authentication code carrier. As described in the previous embodiments, the second power module is configured to output the second driving voltage to enable the wireless identification chip when the power supply unit is electrically connected to the power receiving unit.

具体来说，本实施例主要采用了主动式的无线辨识技术。除了上文中提到的主动式无线射频辨识技术外，还可采用无线蓝牙辨识技术等ISM(Industrial ScientificMedical)频段无线射频辨识技术，而在如2.4GHz的工业科学医学频带(ISM Band)中进行无线射频辨识。Specifically, this embodiment mainly adopts an active wireless identification technology. In addition to the active RFID technology mentioned above, ISM (Industrial Scientific Medical) band RFID technology such as wireless Bluetooth identification technology can also be used, and wireless RFID technology in the Industrial Scientific Medical Band (ISM Band) such as 2.4GHz can be used. Radio Frequency Identification.

此外，认证码载体的受电端可为特定规格的接头，且雾化装置可于设置供电端的位置进一步提供有认证码载体容置部，以在供电端与受电端连接后，提供适当的支撑力稳固认证码载体，并且认证码载体容置部亦可设置于雾化装置外侧对应天线模块的位置，除方便用户使用外，还确保无线辨识器可顺利与无线辨识芯片进行感应。In addition, the power receiving end of the authentication code carrier can be a connector of a specific specification, and the atomizing device can further be provided with an authentication code carrier accommodating part at the position where the power supply end is arranged, so as to provide a suitable The supporting force stabilizes the authentication code carrier, and the accommodating part of the authentication code carrier can also be arranged on the outside of the atomizing device at the position corresponding to the antenna module, which is not only convenient for the user to use, but also ensures that the wireless identification device can smoothly sense with the wireless identification chip.

步骤S123：配置第二电源模块输出第二驱动电压以致能无线辨识芯片，传送无线辨识信号。在此范例中，认证模块128与认证码载体100之间的认证操作是以主动式无线辨识技术为主，其可采用主动式无线射频辨识技术或无线蓝牙辨识技术等ISM(IndustrialScientific Medical)频段无线射频辨识技术，而在如2.4GHz的工业科学医学频带(ISMBand)中进行无线射频辨识。用户可依需求或传输距离，来选择适当的认证操作。例如，可执行步骤S124，配置无线辨识芯片向认证模块传输蓝牙辨识信号，或可执行步骤S125，配置无线辨识芯片向认证模块传输无线射频辨识信号。在实务上，利用无线辨识芯片，通过无线射频辨识信号或蓝牙辨识信号，将事先写入无线辨识芯片的认证信息传输至无线辨识器，可达到提高读取防伪标识符与产品履历数据的效果。Step S123: Configure the second power module to output the second driving voltage to enable the wireless identification chip to transmit the wireless identification signal. In this example, the authentication operation between theauthentication module 128 and theauthentication code carrier 100 is mainly based on the active wireless identification technology, which can adopt the ISM (Industrial Scientific Medical) band wireless technology such as active wireless radio frequency identification technology or wireless Bluetooth identification technology. Radio frequency identification technology, and radio frequency identification is performed in the Industrial Scientific Medical Band (ISMBand) such as 2.4GHz. The user can choose the appropriate authentication operation according to the requirement or the transmission distance. For example, step S124 can be executed to configure the wireless identification chip to transmit the Bluetooth identification signal to the authentication module, or step S125 can be executed to configure the wireless identification chip to transmit the radio frequency identification signal to the authentication module. In practice, using the wireless identification chip to transmit the authentication information written in the wireless identification chip in advance to the wireless identification device through the radio frequency identification signal or the Bluetooth identification signal, the effect of reading the anti-counterfeiting identifier and the product history data can be improved.

步骤S126：配置认证模块的无线辨识器接收无线辨识信号，并针对认证码载体的无线辨识芯片进行认证操作。如先前实施例所描述的，无线辨识器可将无线射频辨识信号或蓝牙辨识信号进行分析后，配置认证单元对其中的认证信息进行判别，可选的，认证单元可进一步处理所接收的具有特定编码序列的防伪识别编码，并执行步骤S127，以内存中储存的特定认证算法进行解密，以确认具有认证信息的认证码载体的真伪。另外亦可执行步骤S128，配置认证单元将认证信息的一部分或全部，与内存中储存的数据进行比对，以确认认证码载体的真伪。Step S126: The wireless identification device of the configuration authentication module receives the wireless identification signal, and performs an authentication operation on the wireless identification chip of the authentication code carrier. As described in the previous embodiment, the wireless identifier may analyze the radio frequency identification signal or the Bluetooth identification signal, and configure the authentication unit to discriminate the authentication information therein. Optionally, the authentication unit may further process the received data with specific The anti-counterfeiting identification code of the coding sequence is performed, and step S127 is executed to decrypt with a specific authentication algorithm stored in the memory, so as to confirm the authenticity of the authentication code carrier with the authentication information. In addition, step S128 may also be executed to configure the authentication unit to compare a part or all of the authentication information with the data stored in the memory to confirm the authenticity of the authentication code carrier.

步骤S129：配置认证模块判定雾化药品或雾化药品容器的真伪，并对应产生认证结果信号。此步骤主要为依据步骤S126、S127或S128的认证步骤产生对应的认证结果信号。Step S129: Configure the authentication module to determine the authenticity of the atomized medicine or the container of the atomized medicine, and generate an authentication result signal correspondingly. This step is mainly to generate a corresponding authentication result signal according to the authentication step of step S126, S127 or S128.

若认证模块于认证操作中，判定雾化药品容器为真，则执行步骤S129-1：控制单元根据认证结果信号控制第一电源模块输出第一驱动电压，以直接驱动雾化模块的雾化组件对雾化药品进行雾化。若认证模块于认证操作中判定雾化药品容器为伪，则执行步骤S129-2：产生对应的认证结果信号，控制单元根据认证结果信号禁能第一电源模块。If the authentication module determines that the atomized medicine container is true during the authentication operation, step S129-1 is executed: the control unit controls the first power supply module to output the first driving voltage according to the authentication result signal, so as to directly drive the atomization component of the atomization module Nebulize nebulized medicines. If the authentication module determines that the atomized medicine container is fake during the authentication operation, step S129-2 is executed: a corresponding authentication result signal is generated, and the control unit disables the first power module according to the authentication result signal.

【第十四实施例】[The fourteenth embodiment]

请参考图22，其为本发明的第十四实施例的具有认证机制的雾化方法的流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please refer to FIG. 22 , which is a flowchart of an atomization method with an authentication mechanism according to the fourteenth embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S130：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可先进行步骤S131，预先取得雾化药品容器的认证码载体。认证码载体可将认证信息，例如具有特定序列编码的认证码，直接印刷于配置有认证码载体的位置，例如，雾化药品容器的瓶盖内侧或瓶体外侧。Step S130: Put the atomized medicine contained in the atomized medicine container into the accommodating part of the atomization device. Optionally, the user may first perform step S131 to obtain the authentication code carrier of the atomized medicine container in advance. The authentication code carrier can directly print authentication information, such as an authentication code with a specific serial code, on the position where the authentication code carrier is configured, for example, the inner side of the bottle cap or the outer side of the bottle body of the atomized medicine container.

另一方面，本实施例使用的雾化装置可参考图6及图7及其相关实施例。雾化装置一般配置有用户接口，用户接口14可包括认证码输入接口，以及供用户对雾化模块进行控制的控制接口。认证码输入接口及控制接口可配置有显示屏幕，并可采用实体按键或由显示屏幕显示的虚拟按键，本实施例并不限定这些接口的实施方式。On the other hand, for the atomizing device used in this embodiment, reference may be made to FIG. 6 and FIG. 7 and related embodiments. The atomization device is generally configured with a user interface, and theuser interface 14 may include an authentication code input interface and a control interface for the user to control the atomization module. The authentication code input interface and the control interface may be configured with a display screen, and may use physical buttons or virtual buttons displayed on the display screen. This embodiment does not limit the implementation of these interfaces.

步骤S132：用户通过认证码输入接口输入认证码载体的认证信息。举例来说，用户可直接将印刷于瓶盖内侧的认证码通过认证码输入接口输入，并可对应显示于显示屏幕上方供用户确认。Step S132: The user inputs the authentication information of the authentication code carrier through the authentication code input interface. For example, the user can directly input the authentication code printed on the inner side of the bottle cap through the authentication code input interface, and it can be displayed on the top of the display screen for the user to confirm.

步骤S133，配置认证模块处理认证信息。在用户输入认证信息的后，认证单元可进一步处理用户所输入的认证信息，例如，认证码。可选的，可执行步骤S134，以认证单元进一步处理用户所输入具有特定编码序列的防伪识别编码，并执行内存中储存的特定认证算法进行解密，以确认具有认证信息1004的认证码载体的真伪。认证单元进行处理运作的另一示例可执行步骤S135，将认证信息的一部分或全部，与内存中储存的数据进行比对，以确认认证码载体的真伪。Step S133, configure the authentication module to process the authentication information. After the user inputs the authentication information, the authentication unit may further process the authentication information input by the user, for example, an authentication code. Optionally, step S134 can be executed to further process the anti-counterfeiting identification code with a specific code sequence input by the authentication unit, and execute the specific authentication algorithm stored in the memory to decrypt to confirm the authenticity of the authentication code carrier with theauthentication information 1004. pseudo. Another example of the processing operation performed by the authentication unit may execute step S135 to compare a part or all of the authentication information with the data stored in the memory to confirm the authenticity of the authentication code carrier.

步骤S136：配置认证模块判定雾化药品或雾化药品容器的真伪，并对应产生认证结果信号。此步骤主要为依据步骤S133、S134或S135的认证步骤产生对应的认证结果信号。Step S136: Configure the authentication module to determine the authenticity of the atomized medicine or the container of the atomized medicine, and generate an authentication result signal correspondingly. This step is mainly to generate a corresponding authentication result signal according to the authentication step of step S133, S134 or S135.

若认证模块于认证操作中，判定雾化药品容器为真，则执行步骤S137：控制单元根据认证结果信号控制第一电源模块输出第一驱动电压，以直接驱动雾化模块的雾化组件对雾化药品进行雾化。若认证模块于认证操作中判定雾化药品容器为伪，则执行步骤S138：产生对应的认证结果信号，控制单元根据认证结果信号禁能第一电源模块。If the authentication module determines that the atomized medicine container is true during the authentication operation, step S137 is executed: the control unit controls the first power supply module to output the first driving voltage according to the authentication result signal, so as to directly drive the atomization component of the atomization module to spray the mist. Chemicals are atomized. If the authentication module determines that the atomized medicine container is fake during the authentication operation, step S138 is executed: a corresponding authentication result signal is generated, and the control unit disables the first power module according to the authentication result signal.

【第十五实施例】[The fifteenth embodiment]

请参考图23，其为本发明的第十五实施例的具有认证机制的雾化方法的流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please refer to FIG. 23 , which is a flowchart of an atomization method with an authentication mechanism according to the fifteenth embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S140：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。雾化装置的具体配置可参阅图8及图9，其进一步包括与认证模块连接的结构锁模块，且认证码载体进一步包括结构钥匙。其中，结构锁模块包括结构锁与电子开关。Step S140: Put the atomized medicine contained in the atomized medicine container into the accommodating part of the atomization device. The specific configuration of the atomizing device can be seen in FIG. 8 and FIG. 9 , which further includes a structural lock module connected to the authentication module, and the authentication code carrier further includes a structural key. The structural lock module includes a structural lock and an electronic switch.

可选的，用户可先进行步骤S141，预先取得认证码载体上的结构钥匙。结构钥匙可设置在作为认证码载体的瓶盖内侧，就商用性质而言，由相同厂商提供的结构钥匙与雾化装置上的结构锁可具有一致性，以提供第一重的安全性。Optionally, the user may first perform step S141 to obtain the structure key on the authentication code carrier in advance. The structural key can be arranged on the inside of the bottle cap as the carrier of the authentication code. In terms of commercial nature, the structural key provided by the same manufacturer can be consistent with the structural lock on the atomizing device to provide the first security.

步骤S142：以认证码载体的结构钥匙开启结构锁模块。Step S142: Open the structural lock module with the structural key of the authentication code carrier.

步骤S143：判别是否可成功开启，若无法开启，则进入步骤S144，配置电子开关或认证模块，通过控制模块禁能第一电源模块。若成功开启，则进入步骤S145，配置电子开关致能认证模块，以确认成功开启。详细而言，待用户以结构钥匙成功开启结构锁后，电子开关将会传送启动信号以致能认证模块。Step S143: Determine whether it can be turned on successfully. If it cannot be turned on, go to Step S144, configure an electronic switch or an authentication module, and disable the first power module through the control module. If it is successfully turned on, go to step S145, configure the electronic switch to enable the authentication module to confirm the successful turning on. Specifically, after the user successfully unlocks the structural lock with the structural key, the electronic switch will transmit an activation signal to enable the authentication module.

在认证模块接收到启动信号后，可进一步通过控制单元执行步骤S146：控制第一电源模块输出第一驱动电压，以直接驱动雾化模块的雾化组件，对雾化药品进行雾化。After the authentication module receives the activation signal, the control unit may further execute step S146: control the first power supply module to output the first driving voltage to directly drive the atomization component of the atomization module to atomize the atomized medicine.

另一方面，认证码载体可具有供认证模块辨识的无线辨识芯片，认证模块可通过天线模块进一步取得认证信息，并进行如先前实施例所述的认证操作，例如，与内存中储存的数据进行比对，或取得的认证信息为具有特定编码序列的防伪识别编码，可进一步执行内存中储存的特定算法进行解密，来判别雾化药品或雾化药品容器的真伪。如此，可提供第二重的安全性。On the other hand, the authentication code carrier may have a wireless identification chip for identification by the authentication module, and the authentication module may further obtain the authentication information through the antenna module, and perform the authentication operation as described in the previous embodiment, for example, perform the authentication operation with the data stored in the memory The comparison or the obtained authentication information is an anti-counterfeiting identification code with a specific code sequence, and a specific algorithm stored in the memory can be further decrypted to determine the authenticity of the aerosolized medicine or the aerosolized medicine container. In this way, a second level of security can be provided.

因此，本实施例可提供结构锁匙以及无线辨识的双重保障，不仅确保了安全性，还提升了伪造雾化药品容器的难度。Therefore, the present embodiment can provide double protection of structural key and wireless identification, which not only ensures safety, but also increases the difficulty of forging aerosolized medicine containers.

【第十六实施例】[Sixteenth embodiment]

以下将根据附图详细说明本发明的具有认证机制的雾化方法的另一样式。在本实施例中，具有认证机制的雾化方法主要适用于第五实施例至第七实施例，但不限于此，在所属领域一般技术人员能设想的方式或各种可能性下，本实施例提供的方法亦可适用于上文中所描述的任何实施方式。Another mode of the atomization method with an authentication mechanism of the present invention will be described in detail below with reference to the accompanying drawings. In this embodiment, the atomization method with an authentication mechanism is mainly applicable to the fifth embodiment to the seventh embodiment, but is not limited to this. In the manner or various possibilities that can be imagined by those of ordinary skill in the art, this embodiment The methods provided in the examples are also applicable to any of the embodiments described above.

请参考图24A，其为本发明的第十六实施例的具有认证机制的雾化方法的流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please refer to FIG. 24A , which is a flowchart of an atomization method with an authentication mechanism according to the sixteenth embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S200：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可预先取得雾化药品容器的认证码载体。其中，雾化装置、云端服务器、用户装置及雾化药品容器的具体配置可参阅图10，雾化装置包括雾化模块、电源模块、控制单元及第一通信模块；用户装置包括处理器、第二通信模块及认证模块，其相关技术特征均已在前述实施例中描述过，故在此省略重复叙述。Step S200: Put the atomized medicine contained in the atomized medicine container into the accommodating part of the atomization device. Optionally, the user may obtain the authentication code carrier of the aerosolized medicine container in advance. The specific configuration of the atomization device, cloud server, user device and atomized medicine container can be seen in Figure 10. The atomization device includes an atomization module, a power supply module, a control unit and a first communication module; the user device includes a processor, a first communication module, and a The related technical features of the two communication modules and the authentication module have been described in the foregoing embodiments, so repeated descriptions are omitted here.

步骤S201：将雾化装置的第一通信模块与用户装置的第二通信模块配对。其中，第一通信模块与第二通信模块的配对可通过近端网络传输，如WIFI、蓝牙等，更具体来说，用户装置可通过此配对取得雾化装置的管理权，进而实现无线控制与认证机制。Step S201 : pair the first communication module of the atomizing device with the second communication module of the user device. Among them, the pairing of the first communication module and the second communication module can be transmitted through the near-end network, such as WIFI, Bluetooth, etc. More specifically, the user device can obtain the management right of the atomizing device through this pairing, thereby realizing wireless control and communication. Authentication mechanism.

步骤S202：配置第二通信模块通过网络与云端服务器连接。在本实施例中，认证操作主要在用户装置及云端服务器上进行，因此，可省去通过雾化装置进行认证操作的步骤，雾化装置亦可无须设置有认证模块及其相关装置或系统，可节省制造成本。Step S202: Configure the second communication module to connect with the cloud server through the network. In this embodiment, the authentication operation is mainly performed on the user device and the cloud server. Therefore, the step of performing the authentication operation through the atomizing device can be omitted, and the atomizing device also does not need to be provided with an authentication module and its related devices or systems. Manufacturing cost can be saved.

步骤S203：配置用户装置的认证模块以进行与认证码载体相关的认证操作。具体而言，认证模块228与认证码载体200之间的认证操作可采用无线射频辨识技术(RFID)，主要是由无线射频电子卷标(RFID Tag)、读取器或读码器(Reader)及其相关应用系统(Application System)所组成。Step S203: Configure the authentication module of the user device to perform the authentication operation related to the authentication code carrier. Specifically, the authentication operation between theauthentication module 228 and theauthentication code carrier 200 may use radio frequency identification technology (RFID), which is mainly composed of a radio frequency electronic label (RFID Tag), a reader or a code reader (Reader). and its related application system (Application System).

步骤S204：通过云端服务器判定雾化药品或雾化药品容器的真伪，产生认证结果信号。若在云端服务器判定雾化药品容器为真，则产生对应的认证结果信号传输至用户装置，进入步骤S207，配置认证模块通过第二通信模块传输认证成功信号至第一通信模块，并进入步骤S208，控制单元根据认证成功信号，控制电源模块输出驱动电压，直接驱动雾化模块的雾化组件对雾化药品进行雾化。Step S204: Determine the authenticity of the atomized medicine or the container of the atomized medicine through the cloud server, and generate an authentication result signal. If the cloud server determines that the atomized drug container is true, a corresponding authentication result signal is generated and transmitted to the user device, and the process goes to step S207, where the authentication module is configured to transmit the authentication success signal to the first communication module through the second communication module, and the process goes to step S208 , the control unit controls the power module to output the driving voltage according to the authentication success signal, and directly drives the atomization component of the atomization module to atomize the atomized medicine.

若在步骤S204中，云端服务器判定雾化药品容器为伪，则产生对应的认证结果信号传输至用户装置，进入步骤S205，代表认证失败，可在用户装置上显示认证失败信息，进入步骤S206，流程结束。其中，关于认证操作的细节将于下文中进行更详细的说明。If in step S204, the cloud server determines that the aerosolized medicine container is false, it will generate a corresponding authentication result signal and transmit it to the user device, and proceed to step S205, which means that the authentication fails, and the authentication failure information can be displayed on the user device, and then proceed to step S206, Process ends. Among them, the details of the authentication operation will be described in more detail below.

请另参考图24B，其为本发明的第十六实施例的具有认证机制的雾化方法的另一流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please also refer to FIG. 24B , which is another flowchart of the atomization method with an authentication mechanism according to the sixteenth embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S200’：配置储值装置以更新用量限制信息。如先前在图11B中说明的，当用户在药店柜台完成购买手续后，药店可通过此储值接口进行操作，通过无线储值模块对用量限制信息进行更新，例如，配置储值处理器以根据所购买的条形码于数据库中查询或更新，以将用量限制信息更新为所购买的雾化药品容器的数量。储值装置可直接于用户在药店柜台完成购买手续后，通过无线储值模块更新认证码载体中的用量限制信息，或直接将用量限制信息储存于用户装置，或亦可通过网络直接将用量限制信息传输至用户装置。Step S200': Configure the stored value device to update the usage limit information. As previously described in FIG. 11B , after the user completes the purchase procedure at the pharmacy counter, the pharmacy can operate through this stored-value interface to update the usage limit information through the wireless stored-value module, for example, configure the stored-value processor to The purchased barcode is queried or updated in the database to update the dosage limit information to the number of aerosolized drug containers purchased. The stored value device can directly update the usage limit information in the authentication code carrier through the wireless stored value module after the user completes the purchase procedure at the pharmacy counter, or directly store the usage limit information in the user device, or directly limit the usage through the network. The information is transmitted to the user device.

步骤S201’：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可预先取得雾化药品容器的认证码载体。Step S201': Put the atomized drug contained in the atomized drug container into the accommodating portion of the atomizing device. Optionally, the user may obtain the authentication code carrier of the aerosolized medicine container in advance.

步骤S202’：将雾化装置的第一通信模块与用户装置的第二通信模块配对。Step S202': pair the first communication module of the atomizing device with the second communication module of the user device.

步骤S203’：配置第二通信模块以通过网络与云端服务器连接。在本实施例中，认证操作主要在用户装置及云端服务器上进行，因此，可省去通过雾化装置进行认证操作的步骤，雾化装置亦可无须设置有认证模块及其相关装置或系统，可节省制造成本。Step S203': configure the second communication module to connect with the cloud server through the network. In this embodiment, the authentication operation is mainly performed on the user device and the cloud server. Therefore, the step of performing the authentication operation through the atomizing device can be omitted, and the atomizing device also does not need to be provided with an authentication module and its related devices or systems. Manufacturing cost can be saved.

步骤S204’：配置用户装置的认证模块以进行与认证码载体相关的认证操作。Step S204': configure the authentication module of the user device to perform the authentication operation related to the authentication code carrier.

步骤S205’：通过云端服务器判定雾化药品或雾化药品容器的真伪，产生认证结果信号。若在云端服务器判定雾化药品容器为真，则产生对应的认证结果信号传输至用户装置，进入步骤S206’，配置认证模块以判定用量限制信息是否到达预定限制用量。举例而言，认证模块的认证单元判定用量限制信息是否到达0次，若是，则代表用户超出了次数限制，执行步骤S207’，进而产生对应的认证结果信号来禁能控制单元。Step S205': Determine the authenticity of the atomized medicine or the atomized medicine container through the cloud server, and generate an authentication result signal. If the cloud server determines that the atomized drug container is true, a corresponding authentication result signal is generated and transmitted to the user device, and the process proceeds to step S206', where the authentication module is configured to determine whether the dosage limit information reaches the predetermined limit dosage. For example, the authentication unit of the authentication module determines whether the usage limit information reaches 0 times, and if so, it means that the user has exceeded the times limit, and step S207' is executed, and then a corresponding authentication result signal is generated to disable the control unit.

若在步骤S206’中，认证模块判定用量限制信息尚未到达预定限制用量，例如，大于0次，则进入步骤S208’，配置认证模块以更新用量限制信息。例如，将认证码载体的使用次数减少1，并对应产生认证成功信号。If in step S206', the authentication module determines that the usage restriction information has not reached the predetermined restricted usage, for example, more than 0 times, then proceed to step S208', and configure the authentication module to update the usage restriction information. For example, the number of times of use of the authentication code carrier is decreased by 1, and an authentication success signal is generated correspondingly.

步骤S209’，配置认证模块通过第二通信模块传输认证成功信号至第一通信模块，并进入步骤S209’-1，控制单元根据认证成功信号，控制电源模块输出驱动电压，直接驱动雾化模块的雾化组件对雾化药品进行雾化。Step S209', configure the authentication module to transmit the authentication success signal to the first communication module through the second communication module, and enter step S209'-1, the control unit controls the power supply module to output the driving voltage according to the authentication success signal, and directly drives the atomization module. The atomizing component atomizes the atomized medicine.

若在步骤S205’中，云端服务器判定雾化药品容器为伪，则产生对应的认证结果信号传输至用户装置，进入步骤S207’，代表认证失败，可在用户装置上显示认证失败信息，进入步骤S207’-1，流程结束。If in step S205', the cloud server determines that the aerosolized medicine container is false, it generates a corresponding authentication result signal and transmits it to the user device, and then goes to step S207', which means that the authentication fails, and the authentication failure message can be displayed on the user device, and the process goes to step S207'. S207'-1, the process ends.

通过上述配置，用户在购买特定数量的雾化药品容器时，能确保用量限制信息对应于雾化药品容器的数量，进一步提升认证的可靠度。Through the above configuration, when a user purchases a specific number of atomized drug containers, the user can ensure that the dosage limit information corresponds to the number of aerosolized drug containers, thereby further improving the reliability of authentication.

【第十七实施例】[Seventeenth Embodiment]

请参考图25，其为本发明的第十七实施例的认证操作的流程图。本实施例主要在于举例说明前一实施例的雾化方法中，从步骤S203至步骤S204所描述的认证流程的细节，包括以下步骤：Please refer to FIG. 25 , which is a flowchart of an authentication operation according to the seventeenth embodiment of the present invention. This embodiment mainly exemplifies the details of the authentication process described from step S203 to step S204 in the atomization method of the previous embodiment, including the following steps:

步骤S210：配置认证模块的无线辨识器以取得无线辨识芯片的认证信息。在此范例中，认证模块与认证码载体之间的认证操作以被动式无线射频辨识技术为主，直接由无线辨识器，通过第二通信模块传输的无线电波供电至无线射频辨识标签，亦即无线辨识芯片本身，并取得无线辨识芯片事先写入认证信息。Step S210: Configure the wireless identifier of the authentication module to obtain the authentication information of the wireless identification chip. In this example, the authentication operation between the authentication module and the authentication code carrier is mainly based on passive radio frequency identification technology. Identify the chip itself, and obtain the authentication information written in advance by the wireless identification chip.

步骤S211：通过第二通信模块向云端服务器发送认证信息。此处，判别认证信息的认证操作主要在云端服务器进行。当认证单元读取无线辨识芯片后，可取得认证信息，其可为具有特定编码序列的防伪识别编码，并通过第二通信模块传输至云端服务器。Step S211: Send authentication information to the cloud server through the second communication module. Here, the authentication operation of discriminating the authentication information is mainly performed in the cloud server. After the authentication unit reads the wireless identification chip, the authentication information can be obtained, which can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to the cloud server through the second communication module.

步骤S212：配置云端服务器以根据认证信息判定雾化药品或雾化药品容器的真伪。云端服务器内建的处理器可执行特定的认证算法以确认具有认证信息的认证码载体的真伪。此外，云端服务器进行认证操作的另一示例可将认证信息的一部分或全部，与密码数据库中储存的数据进行比对，以确认认证码载体的真伪。Step S212: Configure the cloud server to determine the authenticity of the aerosolized medicine or the container of the aerosolized medicine according to the authentication information. The processor built in the cloud server can execute a specific authentication algorithm to confirm the authenticity of the authentication code carrier with the authentication information. In addition, another example of the authentication operation performed by the cloud server may compare a part or all of the authentication information with the data stored in the password database to confirm the authenticity of the authentication code carrier.

步骤S213：产生认证结果信号。Step S213: Generate an authentication result signal.

若经云端服务器判定认证码载体为真，则可得知对应的雾化药品容器并非伪造的，用户可安心使用。If the cloud server determines that the authentication code carrier is true, it can be known that the corresponding atomized drug container is not counterfeit, and the user can use it with peace of mind.

【第十八实施例】[Eighteenth Embodiment]

请参考图26，其为本发明的第十八实施例的认证操作的流程图。本实施例主要在于举例说明第十六实施例的雾化方法中，从步骤S204所描述的认证流程的细节，包括以下步骤：Please refer to FIG. 26 , which is a flowchart of an authentication operation according to the eighteenth embodiment of the present invention. This embodiment mainly exemplifies the details of the authentication process described in step S204 in the atomization method of the sixteenth embodiment, including the following steps:

步骤S220：配置云端服务器以根据认证信息判定雾化药品或雾化药品容器的真伪。Step S220: Configure the cloud server to determine the authenticity of the aerosolized medicine or the container of the aerosolized medicine according to the authentication information.

步骤S221：配置云端服务器在密码数据库中进行比对操作，以取得对应认证信息的密码信息。Step S221: Configure the cloud server to perform a comparison operation in the password database to obtain password information corresponding to the authentication information.

具体而言，密码数据库可通过药品供货商所销售的产品列表而预先建立，密码数据库可具有多个独特的认证信息，以及对应这些认证信息的多个且唯一的密码信息，在云端服务器接收到所读取的认证信息后，可根据认证信息在密码数据库中进行一比对操作，以取得对应认证信息的密码信息。通过供货商在线实时更新密码数据库，可确保用户所购买的雾化药品容器并未被使用过，亦并非经过伪造的。Specifically, the password database can be pre-established by the product list sold by the drug supplier, and the password database can have multiple unique authentication information, and multiple unique password information corresponding to these authentication information, received in the cloud server After the read authentication information is obtained, a comparison operation can be performed in the password database according to the authentication information to obtain the password information corresponding to the authentication information. The online real-time update of the password database by the supplier can ensure that the aerosolized medicine container purchased by the user has not been used or counterfeited.

经过上述认证操作，若云端服务器的比对操作成功取得密码信息，可执行步骤S225，将包括密码信息的认证结果信号回传至用户装置。在用户装置中，认证模块的认证单元可处理认证结果信号，以通过处理器控制第二通信模块传输认证成功信号至第一通信模块。After the above authentication operation, if the comparison operation of the cloud server successfully obtains the password information, step S225 can be executed to return the authentication result signal including the password information to the user device. In the user device, the authentication unit of the authentication module can process the authentication result signal, so as to control the second communication module to transmit the authentication success signal to the first communication module through the processor.

详细而言，认证结果信号包括的密码信息可供认证单元进行解密，以确认认证结果信号确实来自云端服务器，或用以辨识经加密的认证结果信号。此等安全机制亦可防止有心人士对这些信号进行拦截、分析与破解。经过认证单元处理后，便执行步骤S226，配置认证模块以根据认证结果信号产生认证成功信号。具体来说，认证模块可通过处理器控制第二通信模块传输认证成功信号至第一通信模块。Specifically, the cryptographic information included in the authentication result signal can be decrypted by the authentication unit to confirm that the authentication result signal really comes from the cloud server, or to identify the encrypted authentication result signal. These security mechanisms also prevent malicious individuals from intercepting, analyzing, and deciphering these signals. After being processed by the authentication unit, step S226 is executed to configure the authentication module to generate an authentication success signal according to the authentication result signal. Specifically, the authentication module can control the second communication module to transmit the authentication success signal to the first communication module through the processor.

若在步骤S221中，云端服务器判定雾化药品容器为伪，则产生对应的认证结果信号传输至用户装置，进入步骤S223，代表认证失败，可在用户装置上显示认证失败信息，进入步骤S224，流程结束。If in step S221, the cloud server determines that the aerosolized medicine container is false, it generates a corresponding authentication result signal and transmits it to the user device, and then proceeds to step S223, which means that the authentication fails, and the authentication failure information can be displayed on the user device, and then proceeds to step S224, Process ends.

本实施例提供的双认证机制不仅大幅提高了认证码载体的伪造难度，还可确保数据传输上的安全性，使伪造商品即便在市面上贩卖，亦无法通过雾化装置使用，保全了消费者的生命财产。The dual authentication mechanism provided by this embodiment not only greatly improves the forgery difficulty of the authentication code carrier, but also ensures the security of data transmission, so that even if the counterfeit goods are sold in the market, they cannot be used by the atomizing device, thus protecting consumers life and property.

【第十九实施例】[The nineteenth embodiment]

请参考图27，其为本发明的第十九实施例的认证操作的流程图。本实施例主要在于举例说明第十六实施例的雾化方法中，从步骤S203至步骤S204所描述的认证流程的细节，包括以下步骤：Please refer to FIG. 27 , which is a flowchart of an authentication operation according to the nineteenth embodiment of the present invention. This embodiment mainly exemplifies the details of the authentication process described from step S203 to step S204 in the atomization method of the sixteenth embodiment, including the following steps:

步骤S230：取得认证码载体的二维条形码。其中，用户装置及认证码载体的具体配置可参阅图12，用户装置进一步包括与认证单元连接的影像撷取模块，且认证码载体进一步包括二维条形码。认证码载体的二维条形码可直接印刷于配置有认证码载体的位置，例如，雾化药品容器的瓶盖内侧或瓶体外侧。Step S230: Obtain the two-dimensional barcode of the authentication code carrier. The specific configuration of the user device and the authentication code carrier can be seen in FIG. 12 . The user device further includes an image capture module connected to the authentication unit, and the authentication code carrier further includes a two-dimensional barcode. The two-dimensional barcode of the authentication code carrier can be directly printed on the position where the authentication code carrier is arranged, for example, the inner side of the bottle cap or the outer side of the bottle body of the atomized medicine container.

步骤S231：配置认证模块辨识二维条形码以产生认证信息。用户可通过认证模块的影像撷取模块取得二维条形码的影像，并经由认证单元对二维条形码进行分析以取得认证信息。具体而言，此实施例提供另一方案来取得认证信息，其利用了现有智能型手机常备的相机或摄影机，亦提升了认证的方便性，并且相较于设置无线辨识芯片的先前实施例而言，还降低了制造成本。Step S231: Configure the authentication module to recognize the two-dimensional barcode to generate authentication information. The user can obtain the image of the two-dimensional barcode through the image capture module of the authentication module, and analyze the two-dimensional barcode through the authentication unit to obtain the authentication information. Specifically, this embodiment provides another solution for obtaining authentication information, which utilizes the cameras or video cameras that are commonly used in existing smart phones, which also improves the convenience of authentication, and is compared with the previous embodiment in which a wireless identification chip is provided. Also, the manufacturing cost is reduced.

步骤S232：配置认证模块以通过第二通信模块向云端服务器发送认证信息。此处，判别认证信息的认证操作主要在云端服务器进行。当认证单元对二维条形码进行分析取得认证信息后，可通过第二通信模块传输至云端服务器。Step S232: Configure the authentication module to send authentication information to the cloud server through the second communication module. Here, the authentication operation of discriminating the authentication information is mainly performed in the cloud server. After the authentication unit analyzes the two-dimensional barcode to obtain the authentication information, the authentication information can be transmitted to the cloud server through the second communication module.

步骤S233：配置云端服务器以根据认证信息判定雾化药品或雾化药品容器的真伪，并产生认证结果信号。云端服务器内建的处理器可执行特定的认证算法以确认具有认证信息的二维条形码的真伪。此外，云端服务器进行认证操作的另一示例可将认证信息的一部分或全部，与密码数据库中储存的数据进行比对，以确认认证码载体的真伪。若经云端服务器判定认证码载体为真，则可得知对应的雾化药品容器并非伪造的，用户可安心使用。Step S233: Configure the cloud server to determine the authenticity of the aerosolized medicine or the container of the aerosolized medicine according to the authentication information, and generate an authentication result signal. The processor built in the cloud server can execute a specific authentication algorithm to confirm the authenticity of the two-dimensional barcode with authentication information. In addition, another example of the authentication operation performed by the cloud server may compare a part or all of the authentication information with the data stored in the password database to confirm the authenticity of the authentication code carrier. If the cloud server determines that the authentication code carrier is true, it can be known that the corresponding atomized drug container is not counterfeit, and the user can use it with peace of mind.

若在云端服务器判定雾化药品容器为真，则产生对应的认证结果信号传输至用户装置，进入步骤S236，配置认证模块通过第二通信模块传输认证成功信号至第一通信模块。If the cloud server determines that the aerosolized medicine container is true, a corresponding authentication result signal is generated and transmitted to the user device, and the process proceeds to step S236, where the authentication module is configured to transmit the authentication success signal to the first communication module through the second communication module.

若在步骤S233中，云端服务器判定雾化药品容器为伪，则产生对应的认证结果信号传输至用户装置，进入步骤S234，代表认证失败，可在用户装置上显示认证失败信息，进入步骤S235，流程结束。If in step S233, the cloud server determines that the aerosolized medicine container is false, it generates a corresponding authentication result signal and transmits it to the user device, and then proceeds to step S234, which means that the authentication fails, and the authentication failure information can be displayed on the user device, and then proceeds to step S235, Process ends.

【第二十实施例】[Twentieth Embodiment]

请参考图28，其为本发明的第二十实施例的认证操作的流程图。本实施例主要在于举例说明第十六实施例的雾化方法中，从步骤S203至步骤S204所描述的认证流程的细节，包括以下步骤：Please refer to FIG. 28 , which is a flowchart of an authentication operation according to the twentieth embodiment of the present invention. This embodiment mainly exemplifies the details of the authentication process described from step S203 to step S204 in the atomization method of the sixteenth embodiment, including the following steps:

步骤S240：取得认证码载体的认证信息。其中，用户装置及认证码载体的具体配置可参阅图13，用户装置进一步包括与认证单元连接的认证码输入接口。认证码载体的认证信息可直接以具有特定序列编码的认证码，直接印刷于配置有认证码载体的位置，例如雾化药品容器的瓶盖内侧或瓶体外侧。Step S240: Obtain the authentication information of the authentication code carrier. The specific configuration of the user device and the authentication code carrier can be seen in FIG. 13 , and the user device further includes an authentication code input interface connected to the authentication unit. The authentication information of the authentication code carrier can be directly printed on the position where the authentication code carrier is configured with an authentication code having a specific serial code, such as the inner side of the bottle cap or the outer side of the bottle body of the atomized medicine container.

步骤S241：用户通过认证码输入接口输入认证信息。用户可直接将认证码(即，认证信息)通过认证码输入接口输入，并可对应显示于用户装置常备的显示屏幕上方供用户确认。Step S241: The user inputs authentication information through the authentication code input interface. The user can directly input the authentication code (ie, authentication information) through the authentication code input interface, and the authentication code can be displayed on the top of the usual display screen of the user device for confirmation by the user.

在用户将认证码(即，认证信息)通过认证码输入接口输入后，认证单元直接取得认证信息，或通过解密认证码而获得认证信息。具体而言，此实施例提供又一方案来取得认证信息，其利用了现有智能型手机常备的用户接口，亦提升了认证的方便性，并且相较于设置无线辨识芯片的先前实施例而言，还降低了制造成本。After the user inputs the authentication code (ie, authentication information) through the authentication code input interface, the authentication unit directly obtains the authentication information, or obtains the authentication information by decrypting the authentication code. Specifically, this embodiment provides yet another solution for obtaining authentication information, which utilizes the user interface commonly available in existing smart phones, improves the convenience of authentication, and is more convenient than the previous embodiment in which a wireless identification chip is provided. It also reduces the manufacturing cost.

步骤S242：配置认证模块以通过第二通信模块向云端服务器发送认证信息。此处，判别认证信息的认证操作主要在云端服务器进行。当认证单元取得认证信息后，可通过第二通信模块传输至云端服务器。Step S242: Configure the authentication module to send authentication information to the cloud server through the second communication module. Here, the authentication operation of discriminating the authentication information is mainly performed in the cloud server. After the authentication unit obtains the authentication information, it can be transmitted to the cloud server through the second communication module.

步骤S243：配置云端服务器以根据认证信息判定雾化药品或雾化药品容器的真伪，并产生认证结果信号。云端服务器内建的处理器可执行特定的认证算法以确认具有认证信息的认证码载体的真伪。此外，云端服务器进行认证操作的另一示例可将认证信息的一部分或全部，与密码数据库中储存的数据进行比对，以确认认证码载体的真伪。若经云端服务器判定认证码载体为真，则可得知对应的雾化药品容器并非伪造的，用户可安心使用。Step S243: Configure the cloud server to determine the authenticity of the aerosolized medicine or the container of the aerosolized medicine according to the authentication information, and generate an authentication result signal. The processor built in the cloud server can execute a specific authentication algorithm to confirm the authenticity of the authentication code carrier with the authentication information. In addition, another example of the authentication operation performed by the cloud server may compare a part or all of the authentication information with the data stored in the password database to confirm the authenticity of the authentication code carrier. If the cloud server determines that the authentication code carrier is true, it can be known that the corresponding atomized drug container is not counterfeit, and the user can use it with peace of mind.

若在云端服务器判定雾化药品容器为真，则产生对应的认证结果信号传输至用户装置，进入步骤S246，配置认证模块通过第二通信模块传输认证成功信号至第一通信模块。If the cloud server determines that the aerosolized medicine container is true, a corresponding authentication result signal is generated and transmitted to the user device, and the process proceeds to step S246, where the authentication module is configured to transmit the authentication success signal to the first communication module through the second communication module.

若在步骤S243中，云端服务器判定雾化药品容器为伪，则产生对应的认证结果信号传输至用户装置，进入步骤S244，代表认证失败，可在用户装置上显示认证失败信息，进入步骤S245，流程结束。If in step S243, the cloud server determines that the aerosolized medicine container is false, it generates a corresponding authentication result signal and transmits it to the user device, and then proceeds to step S244, which means that the authentication fails, and the authentication failure information can be displayed on the user device, and then proceeds to step S245, Process ends.

类似的，在云端服务器接收到所读取的认证信息后，可根据认证信息在密码数据库中进行一比对操作，以取得对应认证信息的密码信息。通过供货商在线实时更新密码数据库，可确保用户所购买的雾化药品容器并未被使用过，亦并非经过伪造的。Similarly, after the cloud server receives the read authentication information, a comparison operation can be performed in the password database according to the authentication information to obtain the password information corresponding to the authentication information. The online real-time update of the password database by the supplier can ensure that the aerosolized medicine container purchased by the user has not been used or counterfeited.

【第二十一实施例】[Twenty-first embodiment]

以下将根据附图详细说明本发明的具有认证机制的雾化方法的又一样式。在本实施例中，具有认证机制的雾化方法主要适用于第八实施例至第十实施例，但不限于此，在所属领域一般技术人员能设想的方式或各种可能性下，本实施例提供的方法亦可适用于上文中所描述的任何实施方式。Another form of the atomization method with an authentication mechanism of the present invention will be described in detail below according to the accompanying drawings. In this embodiment, the atomization method with an authentication mechanism is mainly applicable to the eighth embodiment to the tenth embodiment, but is not limited thereto. In the manner or various possibilities that can be conceived by those skilled in the art, this embodiment The methods provided in the examples are also applicable to any of the embodiments described above.

请参考图29，其为本发明的第二十一实施例的具有认证机制的雾化方法的流程图。如图所示，本实施例的具有认证机制的雾化方法包括以下步骤：Please refer to FIG. 29 , which is a flowchart of an atomization method with an authentication mechanism according to the twenty-first embodiment of the present invention. As shown in the figure, the atomization method with an authentication mechanism of this embodiment includes the following steps:

步骤S250：将雾化药品容器所容置的雾化药品置入雾化装置的容置部中。可选的，用户可预先取得雾化药品容器的认证码载体。其中，雾化装置、云端服务器、用户装置及雾化药品容器的具体配置可参阅图14，雾化装置包括雾化模块、电源模块、控制单元、第一认证模块及天线模块；用户装置包括处理器、通信模块及第二认证模块，其相关技术特征均已在前述实施例中描述过，故在此省略重复叙述。Step S250: Put the atomized medicine contained in the atomized medicine container into the accommodating part of the atomization device. Optionally, the user may obtain the authentication code carrier of the aerosolized medicine container in advance. The specific configuration of the atomization device, cloud server, user device and atomized medicine container can be seen in Figure 14. The atomization device includes an atomization module, a power supply module, a control unit, a first authentication module and an antenna module; the user device includes a processing The related technical features of the device, the communication module, and the second authentication module have been described in the foregoing embodiments, so repeated descriptions are omitted here.

步骤S251：配置通信模块通过网络与云端服务器连接。在本实施例中，认证操作除了在用户装置及云端服务器上进行外，还在雾化装置上进行另一认证操作。Step S251: Configure the communication module to connect with the cloud server through the network. In this embodiment, in addition to performing the authentication operation on the user device and the cloud server, another authentication operation is performed on the atomizing device.

需要说明的是，第二认证模块所具备的功能及特性基本上与第十六实施例中的认证模块类似，其所进行的第一认证操作在与认证码载体之间的互动方式，以及通过云端服务器判断认证码载体真伪的认证操作亦相同，因此省略重复叙述。It should be noted that the functions and characteristics of the second authentication module are basically similar to those of the authentication module in the sixteenth embodiment. The authentication operation of the cloud server for judging the authenticity of the authentication code carrier is also the same, so the repeated description is omitted.

步骤S252：配置用户装置的第二认证模块以进行与认证码载体相关的认证操作。具体而言，第二认证模块与认证码载体之间的认证操作可采用无线射频辨识技术(RFID)，主要是由无线射频电子卷标(RFID Tag)、读取器或读码器(Reader)及其相关应用系统(Application System)所组成。可预先执行步骤S253：配置第二认证模块的第二无线辨识器取得无线辨识芯片的认证信息。在此范例中，第二认证模块与认证码载体之间的认证操作以被动式无线射频辨识技术为主，直接由无线辨识器，通过通信模块传输的无线电波供电至无线射频辨识标签，亦即无线辨识芯片本身，并取得无线辨识芯片事先写入认证信息。Step S252: Configure the second authentication module of the user device to perform the authentication operation related to the authentication code carrier. Specifically, the authentication operation between the second authentication module and the authentication code carrier can use radio frequency identification technology (RFID), which is mainly composed of a radio frequency electronic label (RFID Tag), a reader or a code reader (Reader). and its related application system (Application System). Step S253 may be performed in advance: the second wireless identifier configured with the second authentication module obtains the authentication information of the wireless identification chip. In this example, the authentication operation between the second authentication module and the authentication code carrier is mainly based on passive radio frequency identification technology, and the radio frequency identification tag is directly powered by the radio frequency identification device through the radio waves transmitted by the communication module, that is, the wireless radio frequency identification tag. Identify the chip itself, and obtain the authentication information written in advance by the wireless identification chip.

当第二认证单元读取无线辨识芯片后，可取得认证信息，其可为具有特定编码序列的防伪识别编码，并通过通信模块传输至云端服务器。云端服务器内建的处理器可执行特定的解密算法以确认具有认证信息的认证码载体的真伪。此外，云端服务器进行第一认证操作的另一示例可将认证信息的一部分或全部，与密码数据库中储存的数据进行比对，以确认认证码载体的真伪。若经云端服务器判定认证码载体为真，则可得知对应的雾化药品容器并非伪造的，用户可安心使用。After the second authentication unit reads the wireless identification chip, the authentication information can be obtained, which can be an anti-counterfeiting identification code with a specific code sequence, and transmitted to the cloud server through the communication module. The processor built in the cloud server can execute a specific decryption algorithm to confirm the authenticity of the authentication code carrier with the authentication information. In addition, another example in which the cloud server performs the first authentication operation may compare a part or all of the authentication information with the data stored in the password database to confirm the authenticity of the authentication code carrier. If the cloud server determines that the authentication code carrier is true, it can be known that the corresponding atomized drug container is not counterfeit, and the user can use it with peace of mind.

步骤S254：通过云端服务器判定雾化药品或雾化药品容器的真伪，产生认证结果信号。若在云端服务器判定雾化药品容器为真，则产生对应的认证结果信号传输至用户装置，配置认证模块以通过第二通信模块传输认证成功信号至天线模块。Step S254: Determine the authenticity of the atomized medicine or the container of the atomized medicine through the cloud server, and generate an authentication result signal. If the cloud server determines that the atomized medicine container is true, a corresponding authentication result signal is generated and transmitted to the user device, and the authentication module is configured to transmit the authentication success signal to the antenna module through the second communication module.

步骤S257：配置第二认证模块以产生无线辨识信号。在本实施例中，第二认证模块可作为认证码载体的读取媒介，亦可产生第一认证模块可读取的无线辨识信号。Step S257: Configure the second authentication module to generate a wireless identification signal. In this embodiment, the second authentication module can be used as a reading medium for the authentication code carrier, and can also generate a wireless identification signal that can be read by the first authentication module.

步骤S258：控制第二通信模块传输无线辨识信号至雾化装置的天线模块。当用户有需要连续使用多种雾化药品时，用户装置可预先对多个认证码载体进行第一认证操作，并在取得多个对应的认证结果信号后，配置第二认证单元以分别将用于产生多种无线辨识信号的配置储存在第二内存中，用户通过用户装置即可快速在不同雾化药品之间进行切换、选择，还提供用户在用药需求上的灵活性。Step S258: Control the second communication module to transmit the wireless identification signal to the antenna module of the atomizing device. When the user needs to use multiple aerosolized medicines continuously, the user device can perform the first authentication operation on the multiple authentication code carriers in advance, and after obtaining multiple corresponding authentication result signals, configure the second authentication unit to Since the configurations for generating a variety of wireless identification signals are stored in the second memory, the user can quickly switch and select between different aerosolized medicines through the user device, and also provides the user with flexibility in medication needs.

步骤S259：配置雾化装置的第一认证模块以进行与无线辨识信号相关的第二认证操作。举例而言，当天线模块接收到第二认证模块产生的无线射频辨识信号，第一无线辨识器分析无线射频辨识信号并经过第一认证单元处理，以确认该无线射频辨识信号的正确性。Step S259: Configure the first authentication module of the atomizing device to perform the second authentication operation related to the wireless identification signal. For example, when the antenna module receives the radio frequency identification signal generated by the second authentication module, the first radio identification device analyzes the radio frequency identification signal and processes the radio frequency identification signal through the first authentication unit to confirm the correctness of the radio frequency identification signal.

步骤S259-1：配置第一认证单元以确认无线信号是否正确。若判断为正确，则进入步骤S259-4，致能控制单元以控制电源模块输出驱动电压，以驱动雾化模块的雾化组件对雾化药品雾化。若判断为不正确，则进入步骤S259-2，认证失败，并进入步骤S259-3，认证流程结束。举例来说，若经第一认证单元判定无线辨识信号不正确，例如，第一认证单元无法辨识无线辨识信号，则可对应输出认证失败信号来禁能控制单元。Step S259-1: Configure the first authentication unit to confirm whether the wireless signal is correct. If it is judged to be correct, go to step S259-4 to enable the control unit to control the power module to output a driving voltage, so as to drive the atomization component of the atomization module to atomize the atomized medicine. If it is judged to be incorrect, the process proceeds to step S259-2, the authentication fails, and the process proceeds to step S259-3, and the authentication process ends. For example, if it is determined by the first authentication unit that the wireless identification signal is incorrect, for example, the first authentication unit cannot identify the wireless identification signal, the control unit can be disabled corresponding to an authentication failure signal output.

本实施例除了在用户装置端提供了双认证机制，还在雾化装置端提供了独立的认证机制，与先前实施例相比，不仅大幅提高了认证码载体的伪造难度，还可确保数据传输上的安全性，使伪造商品即便在市面上贩卖，亦无法通过雾化装置使用，保全了消费者的生命财产。This embodiment not only provides a dual authentication mechanism on the user device side, but also provides an independent authentication mechanism on the atomization device side. Compared with the previous embodiment, it not only greatly improves the forgery difficulty of the authentication code carrier, but also ensures data transmission. Therefore, even if counterfeit goods are sold in the market, they cannot be used through atomizing devices, which saves the life and property of consumers.

【第二十二实施例】[Twenty-second embodiment]

请参考图30，其为本发明的第二十二实施例的认证操作的流程图。本实施例主要在于举例说明第二十一实施例的雾化方法中，从步骤S257至步骤S259-4所描述的认证流程的细节，包括以下步骤：Please refer to FIG. 30 , which is a flowchart of an authentication operation according to the twenty-second embodiment of the present invention. This embodiment mainly exemplifies the details of the authentication process described in step S257 to step S259-4 in the atomization method of the twenty-first embodiment, including the following steps:

步骤S260：配置第二认证模块产生无线辨识信号。具体来说，用户装置与雾化装置之间的第二认证操作可通过无线射频辨识信号进行传输，用户装置可为具备近场通信(Near Field Communication,NFC)模块的行动电子装置。此外，除了上述以无线射频辨识信号进行第二认证操作的外，第一认证模块与第二认证模块之间亦可采用蓝牙辨识信号进行传输。Step S260: Configure the second authentication module to generate a wireless identification signal. Specifically, the second authentication operation between the user device and the atomizing device may be transmitted through a radio frequency identification signal, and the user device may be a mobile electronic device with a Near Field Communication (NFC) module. In addition, in addition to the above-mentioned second authentication operation using the radio frequency identification signal, the Bluetooth identification signal can also be used for transmission between the first authentication module and the second authentication module.

步骤S261：控制第二通信模块以传输无线辨识信号至雾化装置的天线模块。如上所述，用户可预先进行步骤S262，以第二通信模块传送蓝牙辨识信号，或可预先进行步骤S263，以第二通信模块传送无线射频辨识信号。Step S261 : Control the second communication module to transmit the wireless identification signal to the antenna module of the atomizing device. As described above, the user may perform step S262 in advance to transmit the Bluetooth identification signal through the second communication module, or may perform step S263 in advance to transmit the radio frequency identification signal through the second communication module.

步骤S264：配置雾化装置的第一认证模块以进行与无线辨识信号相关的第二认证操作。Step S264: Configure the first authentication module of the atomizing device to perform the second authentication operation related to the wireless identification signal.

步骤S265：配置第一认证模块的第一无线辨识器，以通过天线模块接收无线辨识信号。当天线模块接收到第二认证模块产生的无线射频辨识信号或蓝牙辨识信号，第一无线辨识器分析无线射频辨识信号或蓝牙辨识信号并经过第一认证单元处理，以确认无线射频辨识信号或蓝牙辨识信号的正确性。Step S265: Configure the first wireless identifier of the first authentication module to receive the wireless identification signal through the antenna module. When the antenna module receives the radio frequency identification signal or the Bluetooth identification signal generated by the second authentication module, the first radio identification device analyzes the radio frequency identification signal or the Bluetooth identification signal and processes it by the first authentication unit to confirm the radio frequency identification signal or the Bluetooth identification signal. Identify the correctness of the signal.

步骤S266：配置第一认证单元以确认无线信号是否正确。若判断为正确，则进入步骤S269，致能控制单元以控制电源模块输出驱动电压，以驱动雾化模块的雾化组件对雾化药品雾化。若判断为不正确，则进入步骤S267，认证失败，并进入步骤S268，认证流程结束。举例来说，若经第一认证单元判定无线辨识信号不正确，例如，第一认证单元无法辨识作为无线辨识信号的无线射频辨识信号或蓝牙辨识信号，则可对应输出认证失败信号来禁能控制单元。Step S266: Configure the first authentication unit to confirm whether the wireless signal is correct. If it is judged to be correct, then proceed to step S269 to enable the control unit to control the power module to output a driving voltage, so as to drive the atomization component of the atomization module to atomize the atomized medicine. If it is judged to be incorrect, the process goes to step S267, the authentication fails, and the process goes to step S268, and the authentication process ends. For example, if the first authentication unit determines that the wireless identification signal is incorrect, for example, the first authentication unit cannot identify the radio frequency identification signal or the Bluetooth identification signal as the wireless identification signal, it can correspondingly output an authentication failure signal to disable control. unit.

在特定情况下，第一认证模块亦可具有对认证码载体进行直接认证的能力。举例来说，用户装置可在经过与云端服务器进行过第一认证操作的后，进而改写无线辨识芯片的认证信息，而使得第一无线辨识器可直接对无线辨识芯片的认证信息进行第二认证操作，以省去每次用户有雾化药品使用需求时，均需要通过用户装置与云端服务器进行第一认证操作的时间。另一方面，当用户装置处在无网络联机能力的状况下，或用户装置的电能耗尽的状况下，只要认证码载体曾经进行过第一认证操作，用户仍可直接通过雾化装置使用雾化药品。Under certain circumstances, the first authentication module may also have the capability of directly authenticating the authentication code carrier. For example, the user device can rewrite the authentication information of the wireless identification chip after performing the first authentication operation with the cloud server, so that the first wireless identification device can directly perform the second authentication on the authentication information of the wireless identification chip operation, so as to save the time for performing the first authentication operation through the user device and the cloud server every time the user needs to use the atomized medicine. On the other hand, when the user device has no network connection capability, or the power of the user device is exhausted, as long as the authentication code carrier has performed the first authentication operation, the user can still use the atomizer directly through the atomizing device. chemical drugs.

【第二十三实施例】[Twenty-third embodiment]

请参考图31，其为本发明的第二十三实施例的认证操作的流程图。本实施例主要在于举例说明第二十一实施例的雾化方法中，从步骤S252至步骤S257所描述的认证流程的细节，包括以下步骤：Please refer to FIG. 31 , which is a flowchart of an authentication operation according to the twenty-third embodiment of the present invention. This embodiment mainly exemplifies the details of the authentication process described from step S252 to step S257 in the atomization method of the twenty-first embodiment, including the following steps:

步骤S270：配置用户装置的第二认证模块以进行与认证码载体相关的认证操作。诚如上文中所描述的，认证操作可包括以用户装置对认证码载体的二维条形码进行辨识，或用户可通过认证码输入接口输入认证码。用户装置的具体配置可分别参照图16、图17及图18。Step S270: Configure the second authentication module of the user device to perform the authentication operation related to the authentication code carrier. As described above, the authentication operation may include identifying the two-dimensional barcode of the authentication code carrier with the user device, or the user may input the authentication code through the authentication code input interface. For the specific configuration of the user equipment, please refer to FIG. 16 , FIG. 17 and FIG. 18 respectively.

可选的，用户可预先执行步骤S271，以第二认证模块的影像撷取模块辨识认证码载体的二维条形码，并经由第二认证单元对二维条形码进行分析以取得认证信息，或执行步骤S272，通过第二认证模块的认证码输入接口，输入认证码载体的认证信息。Optionally, the user can perform step S271 in advance, identify the two-dimensional barcode of the verification code carrier with the image capture module of the second verification module, and analyze the two-dimensional barcode through the second verification unit to obtain the verification information, or perform steps S272, input the authentication information of the authentication code carrier through the authentication code input interface of the second authentication module.

步骤S273：配置第二认证模块以通过第二通信模块向云端服务器传送认证信息。当取得认证信息后，其可为具有特定编码序列的防伪识别编码，并通过第二通信模块传输至云端服务器。Step S273: Configure the second authentication module to transmit authentication information to the cloud server through the second communication module. After the authentication information is obtained, it can be an anti-counterfeiting identification code with a specific code sequence, and is transmitted to the cloud server through the second communication module.

步骤S274：配置云端服务器在密码数据库中进行比对操作，以取得对应认证信息的密码信息。具体而言，密码数据库可通过药品供货商所销售的产品列表预先建立，密码数据库可具有多个独特的认证信息，以及对应这些认证信息的多个且唯一的密码信息，在云端服务器接收到所读取的认证信息后，可根据认证信息在密码数据库中进行一比对操作，以取得对应认证信息的密码信息。通过供货商在线实时更新密码数据库，可确保用户所购买的雾化药品容器并未被使用过，亦并非经过伪造的。Step S274: Configure the cloud server to perform a comparison operation in the password database to obtain password information corresponding to the authentication information. Specifically, the password database can be pre-established by the list of products sold by the drug supplier, the password database can have multiple unique authentication information, and the multiple and unique password information corresponding to these authentication information, received on the cloud server After the read authentication information, a comparison operation can be performed in the password database according to the authentication information to obtain the password information corresponding to the authentication information. The online real-time update of the password database by the supplier can ensure that the aerosolized medicine container purchased by the user has not been used or counterfeited.

步骤S275：通过云端服务器判定是否比对成功。经过上述认证操作，若云端服务器的比对操作成功取得密码信息，可执行步骤S278，将包括密码信息的认证结果信号回传至用户装置。若经云端服务器判定认证码载体为真，则可得知对应的雾化药品容器并非伪造的，用户可安心使用。Step S275: Determine whether the comparison is successful through the cloud server. After the above-mentioned authentication operation, if the comparison operation of the cloud server successfully obtains the password information, step S278 can be executed to return the authentication result signal including the password information to the user device. If the cloud server determines that the authentication code carrier is true, it can be known that the corresponding atomized drug container is not counterfeit, and the user can use it with peace of mind.

若在步骤S275中，云端服务器判定雾化药品容器为伪，则产生对应的认证结果信号传输至用户装置，进入步骤S276，代表认证失败，可在用户装置上显示认证失败信息，进入步骤S277，流程结束。If in step S275, the cloud server determines that the aerosolized medicine container is false, it generates a corresponding authentication result signal and transmits it to the user device, and then proceeds to step S276, which means that the authentication fails, and the authentication failure information can be displayed on the user device, and then proceeds to step S277, Process ends.

步骤S279：配置第二认证模块以产生无线辨识信号。具体来说，用户装置与雾化装置之间的第二认证操作可采用蓝牙辨识信号进行传输。Step S279: Configure the second authentication module to generate a wireless identification signal. Specifically, the second authentication operation between the user device and the atomizing device may be transmitted by using a Bluetooth identification signal.

此实施例利用了现有智能型手机常备的相机模块或用户接口，提升了认证的方便性。并且，双认证机制不仅大幅提高了认证码载体的伪造难度，还可确保数据传输上的安全性，使伪造商品即便在市面上贩卖，亦无法通过雾化装置使用，保全了消费者的生命财产。This embodiment utilizes a camera module or a user interface that is commonly available in existing smart phones, thereby improving the convenience of authentication. Moreover, the dual authentication mechanism not only greatly improves the forgery difficulty of the authentication code carrier, but also ensures the security of data transmission, so that even if the counterfeit goods are sold in the market, they cannot be used through the atomizing device, thus protecting the life and property of consumers. .

以上所公开的内容仅为本发明的优选可行实施例，并非因此局限本发明的权利要求书的保护范围，所以凡是运用本发明说明书及附图内容所做的等效技术变化，均包含于本发明的权利要求书的保护范围内。The content disclosed above is only a preferred feasible embodiment of the present invention, and is not intended to limit the protection scope of the claims of the present invention. Therefore, any equivalent technical changes made by using the contents of the description and the accompanying drawings of the present invention are included in the present invention. within the scope of protection of the claims of the invention.

Claims (16)

1. A nebulizing system having a single authentication mechanism, the nebulizing system having a single authentication mechanism comprising:

the system comprises at least one atomized medicine container and at least one atomization code device, wherein the atomized medicine container is associated with an authentication code carrier, and atomized medicine is contained in the atomized medicine container, the authentication code carrier is provided with a quantity limiting information, the authentication code carrier is reusable, and the quantity limiting information can be updated;

An atomization device, comprising:

the atomization module is provided with a containing part and an atomization assembly, the containing part is used for containing the atomized medicine, and the atomization assembly is used for atomizing the atomized medicine when the atomized medicine is placed in the containing part;

the first power supply module is used for outputting a first driving voltage to directly drive the atomization module;

the control unit is connected with the first power supply module and used for controlling the first power supply module to output the first driving voltage;

an antenna module for transmitting and receiving signals; and

the authentication module is respectively connected with the control unit and the antenna module and is configured to perform an authentication operation related to the authentication code carrier so as to judge the authenticity of the at least one atomized medicine container or the atomized medicine and correspondingly generate an authentication result signal; and

a stored value device configured to update the usage restriction information of the authentication code carrier; wherein the control unit is configured to determine whether to control the first power module to output the first driving voltage according to the authentication result signal, wherein the authentication operation includes configuring the authentication module to determine whether the usage limit information reaches a predetermined limit usage, wherein the authentication operation includes further configuring the authentication module to update the usage limit information after determining that the at least one nebulized medication container or the nebulized medication is authentic, wherein the stored value device includes:

A wireless value storage module;

a stored value processor;

a database; and

a stored value interface, wherein the stored value interface is operative to configure the stored value processor to query and update in the database and update the usage restriction information via the wireless stored value module to update and increase the usage restriction information preset to a predetermined usage restriction to the number of the at least one aerosolized drug container.

2. The aerosolization system of claim 1, wherein the authentication module comprises a wireless identifier and the authentication code carrier comprises a wireless identification chip, the wireless identifier configured to perform the authentication operation on the wireless identification chip.

3. The nebulizing system of claim 2 wherein the nebulizing system of claim 2 further comprises a second power module coupled to the control unit for outputting a second driving voltage,

wherein the wireless identification chip is an active wireless radio frequency identification chip capable of sending wireless radio frequency identification signals, a bluetooth identification chip capable of sending bluetooth identification signals or comprises an ISM frequency band wireless radio frequency identification chip, and the second power module is configured to output the second driving voltage to enable the wireless identification chip when electrically coupled to the authentication code carrier.

4. The fogging system according to claim 3, wherein the fogging device further comprises a power supply portion coupled to the second power module, and the authentication code carrier further comprises a power receiving portion coupled to the wireless identification chip, the second power module being configured to output the second driving voltage to enable the wireless identification chip when the power supply portion is electrically connected to the power receiving portion.

5. The aerosolization system with a single authentication mechanism of claim 1, wherein the aerosolization device further comprises an authentication code carrier receptacle to receive the authentication code carrier.

6. The aerosolization system with a single authentication mechanism of claim 1, wherein the aerosolization device further comprises an authentication code input interface coupled to the authentication module, the authentication code input interface configured to allow a user to input authentication information of the authentication code carrier, and the authentication module is further configured to determine authenticity of the at least one aerosolized drug container or the aerosolized drug based on the authentication information and generate the authentication result signal accordingly.

7. The aerosolization system with a single authentication mechanism of claim 1, wherein the aerosolization device further comprises a structural lock module coupled to the authentication module, and the authentication code carrier further comprises a structural key, wherein when the structural lock module is unlocked by the structural key, the structural lock module transmits an activation signal to enable the authentication module to perform the authentication operation.

8. The aerosolization system with a single authentication mechanism of claim 1, wherein the at least one aerosolized drug container is plural in number, and a plurality of the aerosolized drug containers are associated with the authentication code carrier.

9. An aerosolization apparatus with a single authentication mechanism, wherein the aerosolization apparatus with the single authentication mechanism is adapted to be used with at least one aerosolized drug container associated with an authentication code carrier, the at least one aerosolized drug container containing an aerosolized drug, the aerosolization apparatus with the single authentication mechanism comprising:

the atomization module is provided with a containing part and an atomization assembly, the containing part is used for containing the atomized medicine, and the atomization assembly is used for atomizing when the atomized medicine is placed in the containing part;

The first power supply module is used for outputting a first driving voltage to directly drive the atomization module;

the control unit is connected with the first power supply module and used for controlling the first power supply module to output the first driving voltage;

an antenna module for transmitting and receiving signals;

an authentication module respectively connected to the control unit and the antenna module, wherein the authentication module is configured to perform an authentication operation related to the authentication code carrier to determine authenticity of the at least one atomized medicine container or the atomized medicine, and to generate an authentication result signal, and the authentication code carrier further includes a quantity limiting information, and

a stored-value device configured to update the usage limit information of the authentication code carrier,

wherein the control unit is configured to determine whether to control the first power module to output the first driving voltage according to the authentication result signal, the authentication code carrier is reusable, the usage limit information is updatable, the authentication operation includes configuring the authentication module to determine whether the usage limit information reaches a predetermined limit usage, wherein the authentication operation includes further configuring the authentication module to update the usage limit information after determining that the at least one aerosolized drug container or the aerosolized drug is authentic, wherein the stored value device includes:

A wireless value storage module;

a stored value processor;

a database; and

a stored value interface, wherein the stored value interface is operative to configure the stored value processor to query and update in the database and to update the usage limit information via the wireless stored value module to update and increase the usage limit information preset to a predetermined usage limit to the number of the at least one aerosolized drug container.

10. The aerosolization device with a single authentication mechanism of claim 9, wherein the authentication module comprises a wireless identifier and the authentication code carrier comprises a wireless identification chip, the wireless identifier configured to perform the authentication operation with respect to the wireless identification chip.

11. The nebulizer device with single authentication mechanism of claim 10, further comprising a second power module connected to the control unit for outputting a second driving voltage,

wherein the wireless identification chip is an active wireless radio frequency identification chip capable of sending wireless radio frequency identification signals, a bluetooth identification chip capable of sending bluetooth identification signals or comprises an ISM frequency band wireless radio frequency identification chip, and the second power module is configured to output the second driving voltage to enable the wireless identification chip when electrically coupled to the authentication code carrier.

12. The aerosol apparatus with single authentication mechanism as claimed in claim 11, further comprising a power supply portion coupled to the second power module, wherein the authentication code carrier further comprises a power receiving portion coupled to the wireless identification chip, and the second power module is configured to output the second driving voltage to enable the wireless identification chip when the power supply portion is electrically connected to the power receiving portion.

13. The aerosol apparatus with single authentication mechanism as claimed in claim 10, further comprising an authentication code carrier receptacle for receiving the authentication code carrier.

14. The aerosolization apparatus of claim 10, wherein the aerosolization apparatus further comprises an authentication code input interface coupled to the authentication module, the authentication code input interface configured to allow a user to input authentication information of the authentication code carrier, and the authentication module is further configured to determine authenticity of the at least one aerosolized drug container or the aerosolized drug according to the authentication information and generate the authentication result signal accordingly.

15. The aerosolization apparatus with a single authentication mechanism of claim 10, wherein the aerosolization apparatus with a single authentication mechanism further comprises a structural lock module coupled to the authentication module, and the authentication code carrier further comprises a structural key, wherein when the structural lock module is unlocked by the structural key, the structural lock module transmits an activation signal to enable the authentication module to perform the authentication operation.

16. The aerosolization apparatus of claim 9, wherein the at least one aerosolized drug container is a plurality in number, and wherein the plurality of aerosolized drug containers are associated with the authentication code carrier.

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