CN115802230A - Earphone charging box and intelligent control system - Google Patents

Abstract

Translated fromChinese

本申请提供一种耳机充电盒及智能控制系统，包括：耳机充电盒主体、以及安装在所述耳机充电盒主体上的通讯模块以及处理模块；所述通讯模块，用于接收耳机采集的语音指令，并将所述语音指令传输给所述处理模块；所述处理模块，与所述通讯模块连接，用于根据所述语音指令，生成与所述语音指令对应的智能设备的通信协议相匹配的控制指令，并将所述控制指令通过所述通讯模块发送至所述智能设备，以指示所述智能设备执行相应处理。本申请的方案提供的耳机充电盒，丰富和扩展了耳机充电盒的功能，能够实现对智能设备实时有效的控制。

The application provides an earphone charging box and an intelligent control system, including: a main body of the earphone charging box, a communication module and a processing module installed on the main body of the earphone charging box; the communication module is used to receive voice commands collected by the earphone , and transmit the voice command to the processing module; the processing module is connected to the communication module, and is used to generate a communication protocol that matches the communication protocol of the smart device corresponding to the voice command according to the voice command. control instructions, and send the control instructions to the smart device through the communication module, so as to instruct the smart device to execute corresponding processing. The earphone charging box provided by the solution of the present application enriches and expands the functions of the earphone charging box, and can realize real-time and effective control of smart devices.

Description

Translated fromChinese

耳机充电盒及智能控制系统Headphone charging box and intelligent control system

技术领域technical field

本申请涉及通信领域，尤其涉及一种耳机充电盒及智能控制系统。The present application relates to the communication field, in particular to an earphone charging box and an intelligent control system.

背景技术Background technique

随着生活水平的不断提高，无线耳机因其便携和易使用的特性，受到越来越多的人青睐。耳机充电盒作为无线耳机的配套设备，具有电量续航长、性能稳定以及便于携带的特性。With the continuous improvement of living standards, wireless earphones are favored by more and more people because of their portability and ease of use. As a supporting device for wireless headphones, the earphone charging box has the characteristics of long battery life, stable performance and easy portability.

目前，耳机充电盒功能较单一，主要用于无线耳机收纳和充电。因此，如何丰富和扩展耳机充电盒的功能，实现对智能设备实时有效的控制，成为当前亟待解决的问题。At present, the function of the earphone charging box is relatively single, mainly used for wireless earphone storage and charging. Therefore, how to enrich and expand the functions of the earphone charging box to realize real-time and effective control of smart devices has become an urgent problem to be solved.

发明内容Contents of the invention

本申请提供一种耳机充电盒及智能控制系统，旨在解决耳机充电盒功能单一，无法实现对智能设备实时有效的控制问题。The present application provides an earphone charging box and an intelligent control system, aiming at solving the problem that the earphone charging box has a single function and cannot realize real-time and effective control of smart devices.

第一方面，本申请提供一种耳机充电盒，包括：耳机充电盒主体、以及安装在所述耳机充电盒主体上的通讯模块以及处理模块；所述通讯模块，用于接收耳机采集的语音指令，并将所述语音指令传输给所述处理模块；所述处理模块，与所述通讯模块连接，用于根据所述语音指令，生成与所述语音指令对应的智能设备的通信协议相匹配的控制指令，并将所述控制指令通过所述通讯模块发送至所述智能设备，以指示所述智能设备执行相应处理。In a first aspect, the present application provides an earphone charging box, including: a main body of the earphone charging box, a communication module and a processing module installed on the main body of the earphone charging box; the communication module is used to receive voice commands collected by the earphone , and transmit the voice command to the processing module; the processing module is connected to the communication module, and is used to generate a communication protocol that matches the communication protocol of the smart device corresponding to the voice command according to the voice command. control instructions, and send the control instructions to the smart device through the communication module, so as to instruct the smart device to execute corresponding processing.

在一种可能的实施方式中，所述处理模块包括：语音识别模块以及智能控制模块；所述语音识别模块，与所述通讯模块连接，用于将所述语音指令转化为文本指令；所述智能控制模块，与所述语音识别模块以及所述通讯模块连接，用于识别所述文本指令，依照所述智能设备对应的协议，生成所述控制指令；将所述控制指令传输给所述通讯模块；所述通讯模块，还用于向所述智能设备发送所述控制指令。In a possible implementation manner, the processing module includes: a speech recognition module and an intelligent control module; the speech recognition module is connected to the communication module, and is used to convert the speech instruction into a text instruction; the The intelligent control module is connected with the voice recognition module and the communication module, and is used to recognize the text instruction, generate the control instruction according to the protocol corresponding to the smart device, and transmit the control instruction to the communication module. module; the communication module is further configured to send the control instruction to the smart device.

在一种可能的实施方式中，所述语音识别模块包括：检测单元，用于基于关键词以及语义环境，判断所述语音指令是否为用于控制智能设备的指令；若是，则向转换单元发送转换指示；转换单元，用于若接收到所述转换指示，则将所述语音指令转化为所述文本指令。In a possible implementation manner, the voice recognition module includes: a detection unit, configured to judge whether the voice command is an command for controlling a smart device based on keywords and semantic environment; if so, send the voice command to the conversion unit A conversion instruction; a conversion unit configured to convert the voice instruction into the text instruction if the conversion instruction is received.

在一种可能的实施方式中，所述通讯模块，还用于在所述检测单元判断所述语音指令为用于控制智能设备的指令之后，向所述耳机发送第一反馈信息，以使所述耳机将所述第一反馈信息推送给用户；所述通讯模块，还用于若接收到耳机发送的确认指令，则将所述确认指令传输给所述转换单元；所述确认指令为用户根据所述第一反馈信息发出的；所述检测单元，具体用于若接收到所述通讯模块传输的所述确认指令之后，向所述转换单元发送所述转换指示。In a possible implementation manner, the communication module is further configured to send first feedback information to the earphone after the detection unit judges that the voice instruction is an instruction for controlling a smart device, so that the The earphone pushes the first feedback information to the user; the communication module is further configured to transmit the confirmation instruction to the conversion unit if the confirmation instruction sent by the earphone is received; the confirmation instruction is provided by the user according to The first feedback information is sent; the detection unit is specifically configured to send the conversion instruction to the conversion unit after receiving the confirmation instruction transmitted by the communication module.

在一种可能的实施方式中，所述通讯模块，还用于接收所述智能设备发送的第二反馈信息，并将所述第二反馈信息传输给所述处理模块；所述第二反馈信息为所述智能设备依照所述控制指令完成相应处理后发送的；所述处理模块，还用于根据所述第二反馈信息，生成对应的语音反馈信号传输至所述通讯模块；所述通讯模块，还用于将所述语音反馈信号发送给所述耳机，以使所述耳机将所述语音反馈信号推送给用户。In a possible implementation manner, the communication module is further configured to receive second feedback information sent by the smart device, and transmit the second feedback information to the processing module; the second feedback information It is sent by the smart device after completing corresponding processing according to the control instruction; the processing module is also used to generate a corresponding voice feedback signal and transmit it to the communication module according to the second feedback information; the communication module is further configured to send the voice feedback signal to the earphone, so that the earphone pushes the voice feedback signal to the user.

在一种可能的实施方式中，所述通讯模块包括远端通讯单元和近端通信单元，所述远端通讯单元用于在远端通讯模式下通信，所述近端通信单元用于在近端通讯模式下通信；所述处理模块，还用于检测所述耳机充电盒与所述智能设备之间的距离，若所述距离大于第一阈值，则指示所述通讯模块的传输模式切换为远端通信模式；否则，指示所述通讯模块的传输模式切换为近端通信模式。In a possible implementation manner, the communication module includes a remote communication unit and a near-end communication unit, the remote communication unit is used for communicating in the remote communication mode, and the near-end communication unit is used for Communication in the terminal communication mode; the processing module is also used to detect the distance between the earphone charging box and the smart device, and if the distance is greater than the first threshold, then instruct the communication module to switch the transmission mode to The remote communication mode; otherwise, instruct the communication module to switch the transmission mode to the near-end communication mode.

在一种可能的实施方式中，所述近端通信单元包括以下至少一项：无线通信单元、蓝牙单元以及紫蜂单元。In a possible implementation manner, the near-end communication unit includes at least one of the following: a wireless communication unit, a Bluetooth unit, and a Zigbee unit.

在一种可能的实施方式中，所述远端通讯单元包括：5G单元。In a possible implementation manner, the remote communication unit includes: a 5G unit.

在一种可能的实施方式中，所述语音指令对应的智能设备为多个；所述处理模块，具体用于针对所述语音指令对应的每个智能设备，根据所述语音指令，生成与该智能设备的通信协议相匹配的控制指令；所述通讯模块，具体用于将每个控制指令分别发送至对应的智能设备。In a possible implementation manner, there are multiple smart devices corresponding to the voice command; the processing module is specifically configured to, for each smart device corresponding to the voice command, generate an A control command matching the communication protocol of the smart device; the communication module is specifically used to send each control command to the corresponding smart device.

在一种可能的实施方式中，所述耳机充电盒设备还包括：智能控制开关；所述智能控制开关，用于响应于用户操作，切换至智能控制模式或者常规模式；所述通讯模块，用于在所述智能控制模式下开启，以及在所述常规模式下关闭。In a possible implementation manner, the earphone charging box device further includes: an intelligent control switch; the intelligent control switch is used to switch to the intelligent control mode or the normal mode in response to a user operation; the communication module is used to On in the smart control mode, and off in the normal mode.

第二方面，本申请提供一种智能控制系统，包括：智能设备、耳机以及如前所述的耳机充电盒。In a second aspect, the present application provides an intelligent control system, including: an intelligent device, an earphone, and the aforementioned earphone charging box.

本申请提供的耳机充电盒及智能控制系统中，通讯模块接收耳机采集的语音指令，并将语音指令传输给处理模块；处理模块与通讯模块连接，用于根据语音指令，生成与语音指令对应的智能设备的通信协议相匹配的控制指令，并将控制指令通过通讯模块发送至智能设备，以指示智能设备执行相应处理。本申请的方案提供的耳机充电盒，在接收到耳机采集的语音指令之后，根据语音指令生成了与语音指令对应的智能设备的通信协议相匹配的控制指令，将控制指令发送至语音指令对应的智能设备，智能设备接收到控制指令后执行相应处理，丰富和扩展了耳机充电盒的功能，实现了对智能设备实时有效的控制。In the earphone charging box and the intelligent control system provided by this application, the communication module receives the voice command collected by the headset, and transmits the voice command to the processing module; The communication protocol of the smart device matches the control command, and the control command is sent to the smart device through the communication module to instruct the smart device to perform corresponding processing. The earphone charging box provided by the solution of the present application, after receiving the voice command collected by the headset, generates a control command matching the communication protocol of the smart device corresponding to the voice command according to the voice command, and sends the control command to the device corresponding to the voice command. Smart devices, smart devices execute corresponding processing after receiving control instructions, which enriches and expands the functions of the earphone charging box, and realizes real-time and effective control of smart devices.

附图说明Description of drawings

此处的附图被并入说明书中并构成本说明书的一部分，示出了符合本申请的实施例，并与说明书一起用于解释本申请的原理。The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description serve to explain the principles of the application.

图1为本申请实施例一提供的耳机充电盒的结构示意图；FIG. 1 is a schematic structural diagram of the earphone charging box provided inEmbodiment 1 of the present application;

图2为本申请实施例二提供的一种耳机充电盒的结构示意图；FIG. 2 is a schematic structural diagram of an earphone charging box provided in Embodiment 2 of the present application;

图3为本申请实施例三提供的一种耳机充电盒的结构示意图；FIG. 3 is a schematic structural diagram of an earphone charging box provided in Embodiment 3 of the present application;

图4为本申请实施例四提供的智能控制系统的智能控制流程示意图。FIG. 4 is a schematic diagram of an intelligent control process of the intelligent control system provided in Embodiment 4 of the present application.

通过上述附图，已示出本申请明确的实施例，后文中将有更详细的描述。这些附图和文字描述并不是为了通过任何方式限制本申请构思的范围，而是通过参考特定实施例为本领域技术人员说明本申请的概念。By means of the above drawings, specific embodiments of the present application have been shown, which will be described in more detail hereinafter. These drawings and text descriptions are not intended to limit the scope of the concept of the application in any way, but to illustrate the concept of the application for those skilled in the art by referring to specific embodiments.

具体实施方式Detailed ways

这里将详细地对示例性实施例进行说明，其示例表示在附图中。下面的描述涉及附图时，除非另有表示，不同附图中的相同数字表示相同或相似的要素。以下示例性实施例中所描述的实施方式并不代表与本申请相一致的所有实施方式。相反，它们仅是与如所附权利要求书中所详述的、本申请的一些方面相一致的装置和方法的例子。Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numerals in different drawings refer to the same or similar elements unless otherwise indicated. The implementations described in the following exemplary embodiments do not represent all implementations consistent with this application. Rather, they are merely examples of apparatuses and methods consistent with aspects of the present application as recited in the appended claims.

需要说明的是，本申请中对于术语的简要说明，仅是为了方便理解接下来描述的实施方式，而不是意图限定本申请的实施方式。除非另有说明，这些术语应当按照其普通和通常的含义理解。It should be noted that the brief description of the terms in this application is only for the convenience of understanding the implementations described below, and is not intended to limit the implementations of this application. These terms are to be understood according to their ordinary and usual meaning unless otherwise stated.

本申请中说明书和权利要求书及上述附图中的术语“第一”、“第二”等是用于区别类似或同类的对象或实体，而并不必然意味着限定特定的顺序或先后次序，除非另外注明(Unless otherwise indicated)。应该理解这样使用的用语在适当情况下可以互换，例如能够根据本申请实施例图示或描述中给出那些以外的顺序实施。The terms "first", "second" and the like in the description and claims of this application and the above drawings are used to distinguish similar or similar objects or entities, and do not necessarily mean limiting a specific order or sequence , unless otherwise indicated (Unless otherwise indicated). It should be understood that the terms used in this way can be interchanged under appropriate circumstances, for example, they can be implemented in a sequence other than those shown in the illustrations or descriptions of the embodiments of the present application.

此外，术语“包括”和“具有”以及他们的任何变形，意图在于覆盖但不排他的包含，例如，包含了一系列组件的产品或设备不必限于清楚地列出的那些组件，而是可包括没有清楚地列出的或对于这些产品或设备固有的其它组件。本申请中使用的术语“模块”，是指任何已知或后来开发的硬件、软件、固件、人工智能、模糊逻辑或硬件或/和软件代码的组合，能够执行与该元件相关的功能。Furthermore, the terms "comprising" and "having" and any variations thereof, are intended to cover but not exclusively include, for example, a product or device comprising a series of components need not be limited to those components explicitly listed, but may include other components not expressly listed or inherent in these products or equipment. The term "module" as used in this application refers to any known or later developed hardware, software, firmware, artificial intelligence, fuzzy logic or combination of hardware and/or software codes capable of performing the functions associated with the element.

本申请各实施例中使用的术语“智能设备(Intelligent Device)”，是指通过网络连接的具有计算处理能力的设备、器械或者机器。示例性的，智能设备可以是智能家居设备。例如，智能洗衣机、智能空调、智能电饭煲、智能音箱、智能电视、智能窗帘等。示例性的，智能设备也可以是智能办公设备。例如，智能打印机、智能办公桌、智能考勤机、门禁系统、远程会议设备等。示例性的，智能设备也可以是智能交通设备。例如，智能照明、智能路灯等。The term "intelligent device (Intelligent Device)" used in various embodiments of the present application refers to a device, device or machine connected through a network and having computing processing capabilities. Exemplarily, the smart device may be a smart home device. For example, smart washing machines, smart air conditioners, smart rice cookers, smart speakers, smart TVs, smart curtains, etc. Exemplarily, the smart device may also be a smart office device. For example, smart printers, smart desks, smart attendance machines, access control systems, remote conference equipment, etc. Exemplarily, the smart device may also be an intelligent transportation device. For example, smart lighting, smart street lights, etc.

实际应用中，无线耳机因其便携和易使用的特性，受到越来越多的人青睐。耳机充电盒作为无线耳机的配套设备，具有电量续航长、性能稳定以及便于携带的特性。目前，耳机充电盒功能较单一，主要用于无线耳机收纳和充电。In practical applications, wireless earphones are favored by more and more people because of their portability and ease of use. As a supporting device for wireless headphones, the earphone charging box has the characteristics of long battery life, stable performance and easy portability. At present, the function of the earphone charging box is relatively single, mainly used for wireless earphone storage and charging.

本申请实施例中提供的耳机充电盒，处理模块在接收到耳机采集的语音指令之后，根据语音指令生成了与语音指令对应的智能设备的通信协议相匹配的控制指令，通讯模块将控制指令发送至语音指令对应的智能设备，智能设备接收到控制指令后执行相应处理，丰富和扩展了耳机充电盒的功能，实现了对智能设备实时有效的控制。In the earphone charging box provided in the embodiment of the present application, after receiving the voice command collected by the headset, the processing module generates a control command that matches the communication protocol of the smart device corresponding to the voice command according to the voice command, and the communication module sends the control command to To the smart device corresponding to the voice command, the smart device performs corresponding processing after receiving the control command, which enriches and expands the functions of the earphone charging box, and realizes real-time and effective control of the smart device.

下面以具体的实施例对本申请的技术方案以及本申请的技术方案进行详细说明。下面这几个具体的实施例可以相互结合，对于相同或相似的概念或过程可能在某些实施例中不再赘述。在本申请的描述中，除非另有明确的规定和限定，各术语应在本领域内做广义理解。下面将结合附图，对本申请的实施例进行描述。The technical solutions of the present application and the technical solutions of the present application will be described in detail below with specific embodiments. The following specific embodiments may be combined with each other, and the same or similar concepts or processes may not be repeated in some embodiments. In the description of the present application, unless otherwise clearly specified and limited, each term should be interpreted in a broad sense within the field. Embodiments of the present application will be described below in conjunction with the accompanying drawings.

实施例一Embodiment one

图1为本申请实施例一提供的耳机充电盒的结构示意图，如图1所示，本实施例提供一种耳机充电盒，包括：耳机充电盒主体10、以及安装在耳机充电盒主体10上的通讯模块11以及处理模块12。Fig. 1 is a schematic structural diagram of the earphone charging box provided byEmbodiment 1 of the present application. As shown in Fig. 1 , this embodiment provides an earphone charging box, including: the earphone charging boxmain body 10, and the earphone charging boxmain body 10communication module 11 andprocessing module 12.

本实施例中，通讯模块11，用于接收耳机采集的语音指令，并将语音指令传输给处理模块12；In this embodiment, thecommunication module 11 is used to receive the voice command collected by the earphone, and transmit the voice command to theprocessing module 12;

处理模块12，与通讯模块11连接，用于根据语音指令，生成与语音指令对应的智能设备的通信协议相匹配的控制指令，并将控制指令通过通讯模块11发送至智能设备，以指示智能设备执行相应处理。Theprocessing module 12 is connected with thecommunication module 11, and is used to generate a control command matching the communication protocol of the smart device corresponding to the voice command according to the voice command, and send the control command to the smart device through thecommunication module 11 to instruct the smart device Take appropriate action.

其中，语音指令为与耳机充电盒对应的耳机采集的，用于控制智能设备的指令。示例的，语音指令包括智能设备名称以及智能设备的待执行处理。Wherein, the voice instruction is an instruction collected by the earphone corresponding to the earphone charging box and used to control the smart device. Exemplarily, the voice instruction includes the name of the smart device and the processing to be executed by the smart device.

可以理解，相应处理为控制指令表征的智能设备的待执行处理。示例性的，相应处理可以为智能设备的模式转换处理。举例来说，智能设备的模式包括：开启模式、关闭模式、待机模式、工作模式以及省电模式。例如，控制指令为将智能设备的模式设置为待机模式，智能设备接收到控制指令后，将模式转换为待机模式。It can be understood that the corresponding processing is the processing to be executed by the smart device represented by the control instruction. Exemplarily, the corresponding processing may be mode conversion processing of the smart device. For example, the modes of the smart device include: on mode, off mode, standby mode, working mode and power saving mode. For example, the control instruction is to set the mode of the smart device to the standby mode, and the smart device switches the mode to the standby mode after receiving the control command.

实际应用中，控制指令用于指示智能设备依照控制指令执行相应处理。示例性的，控制指令可以为智能设备可以识别的编程语言，智能设备接收到控制指令后，识别控制指令，依照控制指令表征的待执行处理，执行相应处理。In practical applications, the control instruction is used to instruct the smart device to perform corresponding processing according to the control instruction. Exemplarily, the control instruction may be a programming language that can be recognized by the smart device. After receiving the control instruction, the smart device recognizes the control instruction, and executes corresponding processing according to the processing to be executed represented by the control instruction.

此外，智能设备依照控制指令，执行相应处理后，可以将执行结果反馈给用户，在一种可能的实施方式中，通讯模块11，还用于接收智能设备发送的第二反馈信息，并将第二反馈信息传输给处理模块12；处理模块12，还用于根据第二反馈信息，生成对应的语音反馈信号传输至通讯模块11；通讯模块11，还用于将语音反馈信号发送给耳机，以使耳机将语音反馈信号推送给用户。In addition, after the smart device executes corresponding processing according to the control instruction, it can feed back the execution result to the user. In a possible implementation, thecommunication module 11 is also used to receive the second feedback information sent by the smart device, and The second feedback information is transmitted to theprocessing module 12; theprocessing module 12 is also used to generate a corresponding voice feedback signal and transmits it to thecommunication module 11 according to the second feedback information; thecommunication module 11 is also used to send the voice feedback signal to the earphone to Make the headset push a voice feedback signal to the user.

其中，第二反馈信息为智能设备依照控制指令完成相应处理后发送的。可以理解，第二反馈信息与控制指令一一对应。示例的，第二反馈信息为智能设备依照控制指令进行相应处理的处理结果。举例来说，控制指令为将智能设备模式设为开启模式，智能设备接收到控制指令，依照控制指令将智能设备的模式转换为开启模式后，智能设备向通讯模块11发送第二反馈信息，第二反馈信息表征智能设备的开启模式设置成功。Wherein, the second feedback information is sent by the smart device after completing corresponding processing according to the control instruction. It can be understood that the second feedback information is in one-to-one correspondence with the control instructions. Exemplarily, the second feedback information is a processing result of corresponding processing performed by the smart device according to the control instruction. For example, the control command is to set the mode of the smart device to the on mode, the smart device receives the control command, and after converting the mode of the smart device to the on mode according to the control command, the smart device sends the second feedback information to thecommunication module 11, the second The second feedback information indicates that the opening mode of the smart device is set successfully.

实际应用中，处理模块12通过通讯模块11获得第二反馈信息后，生成与第二反馈信息对应的语音反馈信号并传输至通讯模块11。示例性的，语音反馈信号包括发送第二反馈信息的智能设备的名称以及第二反馈信息表征的处理结果。可以理解，通讯模块11将语音反馈信号发送给耳机，用户通过耳机可以获知智能设备依照控制指令进行相应处理的处理结果。In practical applications, after theprocessing module 12 obtains the second feedback information through thecommunication module 11 , it generates a voice feedback signal corresponding to the second feedback information and transmits it to thecommunication module 11 . Exemplarily, the voice feedback signal includes the name of the smart device sending the second feedback information and the processing result represented by the second feedback information. It can be understood that thecommunication module 11 sends the voice feedback signal to the earphone, and the user can know the processing result of the corresponding processing performed by the smart device according to the control instruction through the earphone.

可选的，预先设定响应时长，若通讯模块11将控制指令发送至智能设备后，经过响应时长，通讯模块11未接收到智能设备发送的第二反馈信息，则判定智能设备未依照控制指令完成相应处理，处理模块12生成第一语音信号并传输给通讯模块11，通讯模块11将第一语音信号发送给耳机，以使耳机将第一语音信号推送给用户。Optionally, the response time is preset. If thecommunication module 11 does not receive the second feedback information sent by the smart device after thecommunication module 11 sends the control command to the smart device, after the response time has elapsed, it is determined that the smart device does not follow the control command. After completing the corresponding processing, theprocessing module 12 generates the first voice signal and transmits it to thecommunication module 11, and thecommunication module 11 sends the first voice signal to the earphone, so that the earphone pushes the first voice signal to the user.

本实施方式中，智能设备依照控制指令，执行相应处理后，处理模块通过通讯模块获得智能设备发送的第二反馈信息，处理模块根据第二反馈信息生成语音反馈信号，并通过通讯模块发送给耳机，用户通过耳机获知智能设备的处理结果，实现了智能设备的闭环控制。In this embodiment, after the smart device performs corresponding processing according to the control instruction, the processing module obtains the second feedback information sent by the smart device through the communication module, and the processing module generates a voice feedback signal according to the second feedback information, and sends it to the earphone through the communication module , the user knows the processing result of the smart device through the earphone, realizing the closed-loop control of the smart device.

实际应用中，用户可以根据需求调整耳机充电盒是否用于智能设备的控制。在一种可能的实施方式中，耳机充电盒设备还包括：智能控制开关；智能控制开关，用于响应于用户操作，切换至智能控制模式或者常规模式；通讯模块11，用于在智能控制模式下开启，以及在常规模式下关闭。In practical applications, users can adjust whether the earphone charging box is used for the control of smart devices according to their needs. In a possible implementation manner, the earphone charging box device further includes: an intelligent control switch; the intelligent control switch is used to switch to the intelligent control mode or the normal mode in response to a user operation; thecommunication module 11 is used to switch to the intelligent control mode in normal mode and off in normal mode.

其中，智能控制模式下，耳机充电盒可以用于，智能设备的控制和无线耳机收纳和充电；常规模式下，耳机充电盒可以用于，无线耳机收纳和充电。可以理解，智能控制模式相比于常规模式，需要额外消耗电量。因此，在用户不需要对智能设备进行控制时，通过智能控制开关选择常规模式，可以节省由于智能控制功能的电量消耗。Among them, in the intelligent control mode, the earphone charging box can be used for smart device control and wireless earphone storage and charging; in the normal mode, the earphone charging box can be used for wireless earphone storage and charging. It can be understood that compared with the normal mode, the intelligent control mode requires additional power consumption. Therefore, when the user does not need to control the smart device, selecting the normal mode through the smart control switch can save power consumption due to the smart control function.

需要说明的是，智能控制开关可以是安装在耳机充电盒上的物理开关，用户通过手动拨动智能控制开关，切换耳机充电盒的智能控制模式或者常规模式。可选的，智能控制开关可以是耳机充电盒上的触摸屏上的开关，用户通过滑动开关，切换耳机充电盒的智能控制模式或者常规模式。It should be noted that the smart control switch can be a physical switch installed on the earphone charging box, and the user manually toggles the smart control switch to switch the smart control mode or the normal mode of the earphone charging box. Optionally, the smart control switch can be a switch on the touch screen on the earphone charging box, and the user can switch the smart control mode or the normal mode of the earphone charging box by sliding the switch.

可以理解，智能控制模式下，通讯模块开启，通讯模块与耳机和智能设备连接；常规模式下，通讯模块关闭，通讯模块与耳机和智能设备断开连接。It can be understood that in the intelligent control mode, the communication module is turned on, and the communication module is connected to the earphone and the smart device; in the normal mode, the communication module is turned off, and the communication module is disconnected from the earphone and the smart device.

本实施方式中，用户可以通过智能控制开关选择智能控制模式或者常规模式，可以在需要对智能设备进行控制时，通过智能控制开关选择智能控制模块，在不需要对智能设备进行控制时，通过智能控制开关选择常规模式，实现了耳机充电盒电量的合理利用。In this embodiment, the user can select the intelligent control mode or the normal mode through the intelligent control switch, and can select the intelligent control module through the intelligent control switch when it is necessary to control the intelligent device; The control switch selects the normal mode, which realizes the reasonable utilization of the power of the earphone charging box.

实际应用中，语音指令可能涉及多个智能家居设备，耳机充电盒需要和多个智能设备联动。在一种可能的实施方式中，语音指令对应的智能设备为多个；处理模块12，具体用于针对语音指令对应的每个智能设备，根据语音指令，生成与该智能设备的通信协议相匹配的控制指令；通讯模块11，具体用于将每个控制指令分别发送至对应的智能设备。In practical applications, voice commands may involve multiple smart home devices, and the earphone charging box needs to be linked with multiple smart devices. In a possible implementation, there are multiple smart devices corresponding to the voice command; theprocessing module 12 is specifically configured to, for each smart device corresponding to the voice command, generate a communication protocol matching the smart device according to the voice command control instructions; thecommunication module 11 is specifically used to send each control instruction to a corresponding smart device.

具体的，语音指令对应的智能设备为多个。举例来说，智能家居设备的控制场景下，语音指令为回家模式指令时，需要将回家模式下对应的多个智能家居设备开启。例如，回家模式下，需要开启智能空调、开启智能灯、开启智能窗帘、开启智能电饭煲以及开启智能电视。Specifically, there are multiple smart devices corresponding to the voice command. For example, in the control scenario of smart home devices, when the voice command is a home mode command, multiple corresponding smart home devices in the home mode need to be turned on. For example, in the home mode, you need to turn on the smart air conditioner, turn on the smart lights, turn on the smart curtains, turn on the smart rice cooker, and turn on the smart TV.

对应的，处理模块12，针对语音指令对应的每个智能设备，根据语音指令，生成与该智能设备的通信协议相匹配的控制指令。举例来说，语音指令为回家模式指令，语音指令涉及的智能设备为智能空调、智能灯、智能窗帘、智能电饭煲以及智能电视；处理模块12分别生成与智能空调、智能灯、智能窗帘、智能电饭煲以及智能电视，对应的通信协议匹配的，控制指令1、控制指令2、控制指令3、控制指令4以及控制指令5。Correspondingly, theprocessing module 12, for each smart device corresponding to the voice command, generates a control command matching the communication protocol of the smart device according to the voice command. For example, the voice command is a home mode command, and the smart devices involved in the voice command are smart air conditioners, smart lights, smart curtains, smart rice cookers, and smart TVs; Rice cooker and smart TV, if the corresponding communication protocol matches,control command 1, control command 2, control command 3, control command 4 and control command 5.

对应的，通讯模块11，将每个控制指令分别发送至对应的智能设备。举例来说，通讯模块11将控制指令1发送给智能空调，通讯模块11将控制指令2发送给智能灯，通讯模块11将控制指令3发送给智能窗帘，通讯模块11将控制指令4发送给智能电饭煲，通讯模块11将控制指令5发送给智能电视。Correspondingly, thecommunication module 11 sends each control command to the corresponding smart device. For example, thecommunication module 11 sends thecontrol command 1 to the smart air conditioner, thecommunication module 11 sends the control command 2 to the smart lamp, thecommunication module 11 sends the control command 3 to the smart curtain, and thecommunication module 11 sends the control command 4 to the smart For the rice cooker, thecommunication module 11 sends the control command 5 to the smart TV.

本实施方式中，处理单元针对语音指令对应的每个智能设备，生成与智能设备的通信协议相匹配的控制指令，并通过通讯模块将每个控制指令分别发送至对应的智能设备，实现了对多个智能设备实时有效的控制。In this embodiment, for each smart device corresponding to the voice command, the processing unit generates a control command that matches the communication protocol of the smart device, and sends each control command to the corresponding smart device through the communication module. Real-time and effective control of multiple smart devices.

本实施例提供的耳机充电盒中，通讯模块接收耳机采集的语音指令，并将语音指令传输给处理模块；处理模块与通讯模块连接，用于根据语音指令，生成与语音指令对应的智能设备的通信协议相匹配的控制指令，并将控制指令通过通讯模块发送至智能设备，以指示智能设备执行相应处理。本实施例的耳机充电盒，在接收到耳机采集的语音指令之后，根据语音指令生成了与语音指令对应的智能设备的通信协议相匹配的控制指令，将控制指令发送至语音指令对应的智能设备，智能设备接收到控制指令后执行相应处理，丰富和扩展了耳机充电盒的功能，实现了对智能设备实时有效的控制。In the earphone charging box provided in this embodiment, the communication module receives the voice command collected by the headset, and transmits the voice command to the processing module; the processing module is connected to the communication module, and is used to generate the corresponding smart device according to the voice command Control instructions matching the communication protocol, and send the control instructions to the smart device through the communication module to instruct the smart device to perform corresponding processing. The earphone charging box of this embodiment, after receiving the voice command collected by the headset, generates a control command that matches the communication protocol of the smart device corresponding to the voice command according to the voice command, and sends the control command to the smart device corresponding to the voice command , the smart device performs corresponding processing after receiving the control command, enriches and expands the functions of the earphone charging box, and realizes real-time and effective control of the smart device.

实施例二Embodiment two

图2为本申请实施例二提供的一种耳机充电盒的结构示意图，如图2所示，本实施例的耳机充电盒，处理模块12包括：语音识别模块21以及智能控制模块22。FIG. 2 is a schematic structural diagram of an earphone charging box provided in Embodiment 2 of the present application. As shown in FIG. 2 , theprocessing module 12 of the earphone charging box in this embodiment includes: avoice recognition module 21 and anintelligent control module 22 .

其中，语音识别模块21，与通讯模块11连接，用于将语音指令转化为文本指令。Wherein, thespeech recognition module 21 is connected with thecommunication module 11, and is used for converting speech instructions into text instructions.

智能控制模块22，与语音识别模块21以及通讯模块11连接，用于识别文本指令，依照智能设备对应的协议，生成控制指令；将控制指令传输给通讯模块。Theintelligent control module 22 is connected with thespeech recognition module 21 and thecommunication module 11, and is used to recognize text commands, generate control commands according to the protocol corresponding to the smart device, and transmit the control commands to the communication module.

通讯模块11，还用于向智能设备发送控制指令。Thecommunication module 11 is also used to send control instructions to the smart device.

其中，文本指令为智能控制模块可以识别的语言，与语音指令一一对应。实际应用中，语音识别模块21基于自动语音识别技术(Automatic Speech Recognition，简称ASR)将语音指令转化为文本指令。Among them, the text instruction is a language that can be recognized by the intelligent control module, and corresponds to the voice instruction one by one. In practical applications, thespeech recognition module 21 converts speech instructions into text instructions based on automatic speech recognition technology (Automatic Speech Recognition, ASR for short).

示例性的，语音识别方法可以是模型匹配法、概率统计法或辨别器分类法中任一种，举例来说，模型匹配法可以为失量量化(Vector Quantization，简称VQ)方法或动态时间规整(Dynamic Time Warping，简称DTW)方法；概率统计法可以为高斯混合模型(Gaussian Mixture Model，简称GMM)方法或隐马尔科夫模型(Hidden Markov Model，简称HMM)方法；辨别器分类法可以为支持向量机(Support Vector Machine,简称SVM)方法、人工神经网络(Artificial Neural Network，简称ANN)方法或深度神经网络(Deep NeuralNetworks，简称DNN)方法。在一些示例中，语音识别方法还可以是上述方法的结合，在此不作具体限定。Exemplarily, the speech recognition method can be any one of model matching method, probability statistics method or discriminator classification method, for example, the model matching method can be vector quantization (Vector Quantization, be called for short VQ) method or dynamic time warping (Dynamic Time Warping, referred to as DTW) method; probability statistics method can be Gaussian Mixture Model (Gaussian Mixture Model, referred to as GMM) method or hidden Markov model (Hidden Markov Model, referred to as HMM) method; discriminator classification method can be supported Vector machine (Support Vector Machine, referred to as SVM) method, artificial neural network (Artificial Neural Network, referred to as ANN) method or deep neural network (Deep Neural Networks, referred to as DNN) method. In some examples, the voice recognition method may also be a combination of the above methods, which is not specifically limited here.

需要说明的是，不同智能设备对应的通信协议不同，智能设备只能识别与智能设备对应的通信协议相匹配的控制指令。举例来说，智能设备1对应的通信协议1，智能设备2对应通信协议2，控制指令1与通信协议1匹配，智能设备1可以识别控制指令1，智能设备2不能识别控制指令1。It should be noted that different smart devices correspond to different communication protocols, and the smart device can only recognize control instructions that match the communication protocol corresponding to the smart device. For example,smart device 1 corresponds tocommunication protocol 1, smart device 2 corresponds to communication protocol 2,control command 1matches communication protocol 1,smart device 1 can recognizecontrol command 1, and smart device 2 cannot recognizecontrol command 1.

具体的，智能控制模块22，与语音识别模块21以及通讯模块11连接，用于识别文本指令，依照智能设备对应的协议，生成控制指令。举例来说，文本指令1对应智能设备1，智能控制模块识别文本指令1，依照智能设备1对应的通信协议1，生成与通信协议1匹配的控制指令1。Specifically, theintelligent control module 22 is connected with thespeech recognition module 21 and thecommunication module 11, and is used to recognize text commands and generate control commands according to the protocol corresponding to the smart device. For example, thetext instruction 1 corresponds to thesmart device 1, and the intelligent control module recognizes thetext instruction 1, and generates thecontrol instruction 1 matching thecommunication protocol 1 according to thecommunication protocol 1 corresponding to thesmart device 1.

实际应用中，语音识别模块21将语音指令转换为文本指令之前，可以判断语音指令是否为用于控制智能设备的指令，当语音指令为控制智能设备的指令，再将语音指令转换为文本指令。在一种可能的实施方式中，语音识别模块21包括：检测单元，用于基于关键词以及语义环境，判断语音指令是否为用于控制智能设备的指令；若是，则向转换单元发送转换指示；转换单元，用于若接收到转换指示，则将语音指令转化为文本指令。In practical applications, before thevoice recognition module 21 converts the voice command into a text command, it can determine whether the voice command is an command for controlling the smart device, and then convert the voice command into a text command when the voice command is an command for controlling the smart device. In a possible implementation manner, thespeech recognition module 21 includes: a detection unit, configured to judge whether the speech instruction is an instruction for controlling the smart device based on keywords and semantic environment; if so, send a conversion instruction to the conversion unit; The conversion unit is configured to convert the voice instruction into a text instruction if the conversion instruction is received.

其中，关键词用于判别语音指令的含义。可以理解，语音指令的关键词为与智能设备相关的词语时，语音指令为与智能设备相关的指令。示例性的，与智能设备相关的指令中包括智能设备的名称以及智能设备相应的处理。例如，语音指令为将空调温度设置为28度，其中空调为语音指令的关键词。Among them, the keywords are used to distinguish the meaning of the voice command. It can be understood that when the keyword of the voice command is a word related to the smart device, the voice command is an command related to the smart device. Exemplarily, the instruction related to the smart device includes the name of the smart device and the corresponding processing of the smart device. For example, the voice command is to set the temperature of the air conditioner to 28 degrees, where the air conditioner is a keyword of the voice command.

其中，语义环境为语音指令生成的时间、地点、场景以及语音指令前后的语音数据。实际应用中，在不同的语义环境下，耳机采集到的语音指令含义不同。举例来说，语音指令为打开空调，语音指令的场景是语音通话，当前语音指令不是用于对空调的控制，而是要求语音通话对端用户打开空调。Wherein, the semantic environment refers to the time, place, scene, and voice data before and after the voice command is generated. In practical applications, in different semantic environments, the voice commands collected by the headset have different meanings. For example, the voice command is to turn on the air conditioner, and the scene of the voice command is a voice call. The current voice command is not used to control the air conditioner, but to request the end user of the voice call to turn on the air conditioner.

本实施方式中，检测单元基于关键词和语义环境，综合判断语音指令是否为用于控制智能设备的指令，若为用于控制智能设备的指令，向转换单元发送转换指示；转换单元接收到转换指示之后，再将语音指令转换为文本指令，以便智能控制模块生成用于控制智能设备的指令，提高了对智能设备控制的准确性。In this embodiment, the detection unit comprehensively judges whether the voice instruction is an instruction for controlling the smart device based on keywords and semantic environment, and if it is an instruction for controlling the smart device, sends a conversion instruction to the conversion unit; After the instruction, the voice instruction is converted into a text instruction, so that the intelligent control module can generate an instruction for controlling the intelligent device, and the accuracy of controlling the intelligent device is improved.

此外，检测单元判断语音指令为用于控制智能设备的指令之后，可以向用户反馈语音指令的判断结果。在一种可能的实施方式中，通讯模块11，还用于在检测单元判断语音指令为用于控制智能设备的指令之后，向耳机发送第一反馈信息，以使耳机将第一反馈信息推送给用户；通讯模块11，还用于若接收到耳机发送的确认指令，则将确认指令传输给转换单元；检测单元，具体用于若接收到通讯模块传输的确认指令之后，向转换单元发送转换指示。In addition, after the detection unit judges that the voice command is an command for controlling the smart device, it may feed back the judgment result of the voice command to the user. In a possible implementation manner, thecommunication module 11 is further configured to send the first feedback information to the earphone after the detection unit determines that the voice instruction is an instruction for controlling the smart device, so that the earphone pushes the first feedback information to the The user; thecommunication module 11 is also used to transmit the confirmation instruction to the conversion unit if the confirmation instruction sent by the earphone is received; the detection unit is specifically used to send the conversion instruction to the conversion unit after receiving the confirmation instruction transmitted by the communication module .

其中，第一反馈信息表征检测单元的检测结果，耳机将第一反馈信息推送给用户之后，用户确定是否要控制智能设备执行相应处理，用户确定要控制智能设备执行相应处理，通过耳机向通讯模块发送第一反馈信息。Wherein, the first feedback information represents the detection result of the detection unit. After the earphone pushes the first feedback information to the user, the user determines whether to control the smart device to perform corresponding processing. Send the first feedback information.

本实施方式中，检测单元判断语音指令为用于控制智能设备的指令之后，向耳机发送第一反馈信息，用户接收到第一反馈信息确定要控制智能设备执行相应处理，检测单元接收到通讯模块传输的确认指令之后，向转换单元发送转换指示；转换单元接收到转换指示之后，再将语音指令转换为文本指令，以便智能控制模块生成用于控制智能设备的指令，提高了对智能设备控制的准确性。In this embodiment, after the detection unit judges that the voice instruction is an instruction for controlling the smart device, it sends the first feedback information to the earphone. After receiving the first feedback information, the user determines to control the smart device to perform corresponding processing, and the detection unit receives After the transmission confirms the instruction, it sends the conversion instruction to the conversion unit; after the conversion unit receives the conversion instruction, it converts the voice instruction into a text instruction, so that the intelligent control module can generate an instruction for controlling the smart device, which improves the control of the smart device. accuracy.

本实施例提供的耳机充电盒中，语音识别模块将语音指令转化为文本指令；智能控制模块识别文本指令，依照智能设备对应的协议，生成控制指令，将控制指令传输给通讯模块；通讯模块向智能设备发送控制指令。本实施例的耳机充电盒，在接收到耳机采集的语音指令之后，通过语音识别将语音指令转化为文本指令，依照智能设备对应的协议，生成控制指令，将控制指令发送至语音指令对应的智能设备，智能设备接收到控制指令后执行相应处理，丰富和扩展了耳机充电盒的功能，实现了对智能设备实时有效的控制。In the earphone charging box provided in this embodiment, the voice recognition module converts the voice command into a text command; the intelligent control module recognizes the text command, generates a control command according to the protocol corresponding to the smart device, and transmits the control command to the communication module; Smart devices send control commands. The earphone charging box of this embodiment, after receiving the voice command collected by the headset, converts the voice command into a text command through voice recognition, generates a control command according to the protocol corresponding to the smart device, and sends the control command to the corresponding smart device for the voice command. After receiving the control command, the smart device performs corresponding processing, enriches and expands the functions of the earphone charging box, and realizes real-time and effective control of the smart device.

实施例三Embodiment three

图3为本申请实施例三提供的一种耳机充电盒的结构示意图，如图3所示，本实施例的耳机充电盒，通讯模块11包括远端通讯单元31和近端通信单元32。FIG. 3 is a schematic structural diagram of an earphone charging box provided in Embodiment 3 of the present application. As shown in FIG. 3 , in the earphone charging box of this embodiment, thecommunication module 11 includes a remote communication unit 31 and a near-end communication unit 32 .

本实施例中，远端通讯单元31用于在远端通讯模式下通信，近端通信单元32用于在近端通讯模式下通信；In this embodiment, the remote communication unit 31 is used for communicating in the remote communication mode, and the near-end communication unit 32 is used for communicating in the near-end communication mode;

处理模块12，还用于检测耳机充电盒与智能设备之间的距离，若距离大于第一阈值，则指示通讯模块的传输模式切换为远端通信模式；否则，指示通讯模块的传输模式切换为近端通信模式。Theprocessing module 12 is also used to detect the distance between the earphone charging box and the smart device. If the distance is greater than the first threshold, it indicates that the transmission mode of the communication module is switched to the remote communication mode; otherwise, it indicates that the transmission mode of the communication module is switched to Near-end communication mode.

应理解，保证耳机充电盒与智能设备之间通信良好，是实现对智能设备实时有效的控制的重要前提。因此，通过检测耳机充电盒与智能设备之间的距离，并通过与第一阈值比较，动态选择通信模式，可以实现耳机充电盒与智能设备之间实时有效的通信。It should be understood that ensuring good communication between the earphone charging box and the smart device is an important prerequisite for realizing real-time and effective control of the smart device. Therefore, real-time and effective communication between the earphone charging box and the smart device can be realized by detecting the distance between the earphone charging box and the smart device and comparing it with the first threshold to dynamically select the communication mode.

关于近端通信单元32，在一种可能的实施方式中，近端通信单元32包括以下至少一项：无线通信(Wireless Fidelity,简称WIFI)单元、蓝牙(Bluetooth)单元以及紫蜂(ZigBee)单元。Regarding the near-end communication unit 32, in a possible implementation manner, the near-end communication unit 32 includes at least one of the following: a wireless communication (Wireless Fidelity, WIFI for short) unit, a Bluetooth (Bluetooth) unit and a ZigBee (ZigBee) unit .

其中，无线通信单元用于通过无线网络与智能设备通信。实际应用中，智能设备和耳机充电盒都在无线网络的覆盖范围内，且都连接无线网络。需要说明的是，无线通信单元只能与已经连接过无线网络的智能设备通信。可选的，智能设备首次连接无线网络时，耳机充电盒可以选择是否将智能设备添加到通信名单中。Wherein, the wireless communication unit is used for communicating with the smart device through the wireless network. In practical applications, both the smart device and the earphone charging box are within the coverage of the wireless network, and both are connected to the wireless network. It should be noted that the wireless communication unit can only communicate with smart devices that have been connected to the wireless network. Optionally, when the smart device connects to the wireless network for the first time, the earphone charging box can choose whether to add the smart device to the communication list.

其中，蓝牙单元用于通过蓝牙连接与智能设备通信。实际应用中，将耳机充电盒作为主设备，将包含蓝牙模块的智能设备作为从设备，一个主设备可以对应多个从设备，将智能设备和耳机充电盒进行配对，蓝牙单元与和耳机充电盒完成配对的智能设备通信。Wherein, the bluetooth unit is used to communicate with the smart device through the bluetooth connection. In practical applications, the earphone charging box is used as the main device, and the smart device containing the Bluetooth module is used as the slave device. One master device can correspond to multiple slave devices, and the smart device and the earphone charging box are paired. The Bluetooth unit and the earphone charging box Complete paired smart device communication.

其中，紫蜂单元用于通过紫蜂无线网络与智能设备通信。实际应用中，紫蜂无线网络设备包括：协调器(Coordinator)、路由器(Router)和终端节点(End Device)。举例来说，智能设备作为终端节点，可以实现将多个智能设备和耳机充电盒组成一个紫蜂无线网络，紫蜂单元通过紫蜂无线网络与智能设备通信。Among them, the Zigbee unit is used to communicate with smart devices through the Zigbee wireless network. In practical applications, Zigbee wireless network equipment includes: Coordinator, Router and End Device. For example, with a smart device as a terminal node, multiple smart devices and earphone charging boxes can be formed into a Zigbee wireless network, and the Zigbee unit communicates with the smart device through the Zigbee wireless network.

本实施方式中，通过无线通信单元、蓝牙单元以及紫蜂单元中的至少一项，可以实现与智能设备之间的近端通信，进而实现了对智能设备实时有效的控制。In this embodiment, at least one of the wireless communication unit, the Bluetooth unit and the Zigbee unit can realize near-end communication with the smart device, thereby realizing real-time and effective control of the smart device.

关于远端通信单元31，在一种可能的实施方式中，远端通讯单元31包括：5G单元。Regarding the remote communication unit 31, in a possible implementation manner, the remote communication unit 31 includes: a 5G unit.

其中，5G单元用于通过5G网络与智能设备通信。可选的，5G单元和智能设备通过5G网络连接智能云平台，5G单元通过智能云平台与连接智能云平台的智能设备通信。举例来说，智能家居控制场景下，5G单元和智能家居设备通过5G网络连接智能家居云平台，5G单元通过智能家居云平台与连接智能云平台的智能设备通信。Among them, the 5G unit is used to communicate with smart devices through the 5G network. Optionally, the 5G unit and the smart device are connected to the smart cloud platform through the 5G network, and the 5G unit communicates with the smart device connected to the smart cloud platform through the smart cloud platform. For example, in the smart home control scenario, the 5G unit and the smart home device are connected to the smart home cloud platform through the 5G network, and the 5G unit communicates with the smart device connected to the smart cloud platform through the smart home cloud platform.

本实施方式中，通过5G单元，可以实现与智能设备之间的远端通信，进而实现了对智能设备实时有效的控制。In this embodiment, the remote communication with the smart device can be realized through the 5G unit, thereby realizing real-time and effective control of the smart device.

本实施例提供的耳机充电盒中，处理模块通过检测耳机充电盒与智能设备之间的距离，并通过与第一阈值比较，动态选择通信模式。本实施例提供的耳机充电盒，实现了与智能设备之间的实时有效的通信，进而实现了对智能设备实时有效的控制。In the earphone charging box provided in this embodiment, the processing module dynamically selects the communication mode by detecting the distance between the earphone charging box and the smart device, and comparing with the first threshold. The earphone charging box provided in this embodiment realizes real-time and effective communication with the smart device, and further realizes real-time and effective control of the smart device.

实施例四Embodiment Four

本申请实施例四提供一种智能控制系统，包括如前述实施例的智能设备、耳机以及耳机充电盒。Embodiment 4 of the present application provides an intelligent control system, including the intelligent device, earphone, and earphone charging box as in the foregoing embodiment.

为了更好的理解智能控制系统中耳机充电盒对智能设备的控制流程，示例性的，图4为本申请实施例四提供的智能控制系统的智能控制流程示意图。如图4所示，以耳机充电设备对智能设备的一次控制流程为例进行描述：In order to better understand the control process of the earphone charging box on the smart device in the intelligent control system, for example, FIG. 4 is a schematic diagram of the intelligent control process of the intelligent control system provided in Embodiment 4 of the present application. As shown in Figure 4, the first-time control process of the smart device by the earphone charging device is described as an example:

步骤1：耳机41将采集的语音指令，发送给通讯模块11；Step 1: theearphone 41 sends the collected voice command to thecommunication module 11;

步骤2：通讯模块11将语音指令传输给处理模块12；Step 2: thecommunication module 11 transmits the voice command to theprocessing module 12;

步骤3：处理模块12生成与语音指令对应的智能设备的通信协议相匹配的控制指令，并将控制指令传输给通讯模块11；Step 3: The processingmodule 12 generates a control command matching the communication protocol of the smart device corresponding to the voice command, and transmits the control command to thecommunication module 11;

步骤4：通讯模块11将控制指令发送至智能设备42，以指示智能设备42执行相应处理。Step 4: Thecommunication module 11 sends a control command to the smart device 42 to instruct the smart device 42 to execute corresponding processing.

本实施例提供的智能控制系统，包括智能设备、耳机以及耳机充电盒，本实施例提供的智能控制系统能够实现对智能设备实时有效的控制。The intelligent control system provided in this embodiment includes a smart device, an earphone, and a charging box for the earphone. The intelligent control system provided in this embodiment can realize real-time and effective control of the smart device.

本领域技术人员在考虑说明书及实践这里公开的发明后，将容易想到本申请的其它实施方案。本申请旨在涵盖本申请的任何变型、用途或者适应性变化，这些变型、用途或者适应性变化遵循本申请的一般性原理并包括本申请未公开的本技术领域中的公知常识或惯用技术手段。说明书和实施例仅被视为示例性的，本申请的真正范围和精神由下面的权利要求书指出。Other embodiments of the present application will be readily apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any modification, use or adaptation of the application, these modifications, uses or adaptations follow the general principles of the application and include common knowledge or conventional technical means in the technical field not disclosed in the application . The specification and examples are to be considered exemplary only, with a true scope and spirit of the application indicated by the following claims.

应当理解的是，本申请并不局限于上面已经描述并在附图中示出的精确结构，并且可以在不脱离其范围进行各种修改和改变。本申请的范围仅由所附的权利要求书来限制。It should be understood that the present application is not limited to the precise constructions which have been described above and shown in the accompanying drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (11)

Translated fromChinese

1.一种耳机充电盒，其特征在于，包括：耳机充电盒主体、以及安装在所述耳机充电盒主体上的通讯模块以及处理模块；1. An earphone charging box, comprising: a main body of the earphone charging box, and a communication module and a processing module installed on the main body of the earphone charging box;所述通讯模块，用于接收耳机采集的语音指令，并将所述语音指令传输给所述处理模块；The communication module is used to receive the voice command collected by the earphone, and transmit the voice command to the processing module;所述处理模块，与所述通讯模块连接，用于根据所述语音指令，生成与所述语音指令对应的智能设备的通信协议相匹配的控制指令，并将所述控制指令通过所述通讯模块发送至所述智能设备，以指示所述智能设备执行相应处理。The processing module is connected to the communication module, and is used to generate a control command matching the communication protocol of the smart device corresponding to the voice command according to the voice command, and pass the control command through the communication module sent to the smart device to instruct the smart device to perform corresponding processing.2.根据权利要求1所述的耳机充电盒，其特征在于，所述处理模块包括：语音识别模块以及智能控制模块；2. The earphone charging box according to claim 1, wherein the processing module comprises: a speech recognition module and an intelligent control module;所述语音识别模块，与所述通讯模块连接，用于将所述语音指令转化为文本指令；The voice recognition module is connected to the communication module and is used to convert the voice command into a text command;所述智能控制模块，与所述语音识别模块以及所述通讯模块连接，用于识别所述文本指令，依照所述智能设备对应的协议，生成所述控制指令；将所述控制指令传输给所述通讯模块；The intelligent control module is connected with the speech recognition module and the communication module, and is used to recognize the text command, generate the control command according to the protocol corresponding to the smart device, and transmit the control command to the the communication module;所述通讯模块，还用于向所述智能设备发送所述控制指令。The communication module is further configured to send the control instruction to the smart device.3.根据权利要求2所述的耳机充电盒，其特征在于，所述语音识别模块包括：3. The earphone charging box according to claim 2, wherein the voice recognition module comprises:检测单元，用于基于关键词以及语义环境，判断所述语音指令是否为用于控制智能设备的指令；若是，则向转换单元发送转换指示；The detection unit is used to judge whether the voice instruction is an instruction for controlling the smart device based on keywords and semantic environment; if so, send a conversion instruction to the conversion unit;转换单元，用于若接收到所述转换指示，则将所述语音指令转化为所述文本指令。A conversion unit, configured to convert the voice instruction into the text instruction if the conversion instruction is received.4.根据权利要求3所述的耳机充电盒，其特征在于，4. The earphone charging box according to claim 3, characterized in that,所述通讯模块，还用于在所述检测单元判断所述语音指令为用于控制智能设备的指令之后，向所述耳机发送第一反馈信息，以使所述耳机将所述第一反馈信息推送给用户；The communication module is further configured to send first feedback information to the earphone after the detection unit judges that the voice instruction is an instruction for controlling the smart device, so that the earphone can transmit the first feedback information push to the user;所述通讯模块，还用于若接收到耳机发送的确认指令，则将所述确认指令传输给所述转换单元；所述确认指令为用户根据所述第一反馈信息发出的；The communication module is further configured to transmit the confirmation instruction to the conversion unit if the confirmation instruction sent by the earphone is received; the confirmation instruction is sent by the user according to the first feedback information;所述检测单元，具体用于若接收到所述通讯模块传输的所述确认指令之后，向所述转换单元发送所述转换指示。The detection unit is specifically configured to send the conversion instruction to the conversion unit after receiving the confirmation instruction transmitted by the communication module.5.根据权利要求1所述的耳机充电盒设备，其特征在于，5. The earphone charging box device according to claim 1, characterized in that,所述通讯模块，还用于接收所述智能设备发送的第二反馈信息，并将所述第二反馈信息传输给所述处理模块；所述第二反馈信息为所述智能设备依照所述控制指令完成相应处理后发送的；The communication module is further configured to receive second feedback information sent by the smart device, and transmit the second feedback information to the processing module; the second feedback information is the smart device according to the control Sent after the instruction completes the corresponding processing;所述处理模块，还用于根据所述第二反馈信息，生成对应的语音反馈信号传输至所述通讯模块；The processing module is further configured to generate a corresponding voice feedback signal and transmit it to the communication module according to the second feedback information;所述通讯模块，还用于将所述语音反馈信号发送给所述耳机，以使所述耳机将所述语音反馈信号推送给用户。The communication module is further configured to send the voice feedback signal to the earphone, so that the earphone pushes the voice feedback signal to the user.6.根据权利要求1所述的耳机充电盒，其特征在于，6. The earphone charging box according to claim 1, characterized in that,所述通讯模块包括远端通讯单元和近端通信单元，所述远端通讯单元用于在远端通讯模式下通信，所述近端通信单元用于在近端通讯模式下通信；The communication module includes a remote communication unit and a near-end communication unit, the remote communication unit is used for communication in the remote communication mode, and the near-end communication unit is used for communication in the near-end communication mode;所述处理模块，还用于检测所述耳机充电盒与所述智能设备之间的距离，若所述距离大于第一阈值，则指示所述通讯模块的传输模式切换为远端通信模式；否则，指示所述通讯模块的传输模式切换为近端通信模式。The processing module is also used to detect the distance between the earphone charging box and the smart device, if the distance is greater than a first threshold, instruct the communication module to switch the transmission mode to the remote communication mode; otherwise , indicating that the transmission mode of the communication module is switched to the near-end communication mode.7.根据权利要求6所述的耳机充电盒，其特征在于，所述近端通信单元包括以下至少一项：无线通信单元、蓝牙单元以及紫蜂单元。7. The earphone charging box according to claim 6, wherein the near-end communication unit comprises at least one of the following: a wireless communication unit, a Bluetooth unit, and a Zigbee unit.8.根据权利要求6所述的耳机充电盒，其特征在于，所述远端通讯单元包括：5G单元。8. The earphone charging box according to claim 6, wherein the remote communication unit comprises: a 5G unit.9.根据权利要求1所述的耳机充电盒，其特征在于，所述语音指令对应的智能设备为多个；9. The earphone charging box according to claim 1, wherein there are multiple smart devices corresponding to the voice command;所述处理模块，具体用于针对所述语音指令对应的每个智能设备，根据所述语音指令，生成与该智能设备的通信协议相匹配的控制指令；The processing module is specifically configured to, for each smart device corresponding to the voice command, generate a control command matching the communication protocol of the smart device according to the voice command;所述通讯模块，具体用于将每个控制指令分别发送至对应的智能设备。The communication module is specifically used to send each control command to a corresponding smart device.10.根据权利要求1所述的耳机充电盒设备，其特征在于，所述耳机充电盒设备还包括：智能控制开关；10. The earphone charging box device according to claim 1, characterized in that, the earphone charging box device further comprises: an intelligent control switch;所述智能控制开关，用于响应于用户操作，切换至智能控制模式或者常规模式；The intelligent control switch is used to switch to an intelligent control mode or a normal mode in response to a user operation;所述通讯模块，用于在所述智能控制模式下开启，以及在所述常规模式下关闭。The communication module is used to be turned on in the intelligent control mode and turned off in the normal mode.11.一种智能控制系统，其特征在于，包括：智能设备、耳机以及如权利要求1-10任一项所述的耳机充电盒。11. An intelligent control system, comprising: an intelligent device, an earphone, and an earphone charging box according to any one of claims 1-10.

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