CN115038347A - Suction device, information processing method and program - Google Patents

Abstract

Translated fromChinese

提供能够进一步提高用户的吸取体验的质量的结构。一种吸取装置，通过加热基材而生成被用户吸取的气溶胶，具备：加热部，其插入于所述基材的内部，并加热所述基材，所述基材插入于在所述吸取装置形成的内部空间；压缩部，其从外周向所述加热部的方向压缩所述基材中的被所述加热部加热的部分即被加热部分；以及控制部，其基于所述加热部的加热以及所述压缩部的压缩的一方的开始使另一方开始。

Provides a structure that can further improve the quality of the user's ingestion experience. A suction device for generating an aerosol sucked by a user by heating a base material, comprising: a heating part inserted into the base material to heat the base material, the base material being inserted in the suction an inner space formed by the device; a compressing portion that compresses a portion of the base material heated by the heating portion, that is, a heated portion, from the outer periphery toward the heating portion; and a control portion that is based on the heating portion of the heating portion The start of one of the heating and the compression of the compression unit starts the other.

Description

Translated fromChinese

吸取装置、信息处理方法以及程序Suction device, information processing method and program

技术领域technical field

本发明涉及吸取装置、信息处理方法以及程序。The present invention relates to a suction device, an information processing method and a program.

背景技术Background technique

电子烟以及雾化器等生成被用户吸取的物质的吸取装置正在广泛普及。例如吸取装置使用基材，生成被赋予了香味成分的气溶胶，该基材包含用于生成气溶胶的气溶胶源以及用于对生成的气溶胶赋予香味成分的香味源等。用户通过吸取由吸取装置生成的被赋予了香味成分的气溶胶，能够品尝香味。Inhalation devices that generate substances to be inhaled by users, such as electronic cigarettes and atomizers, are widely used. For example, the inhalation device uses a base material to generate an aerosol to which a flavor component is applied, and the base material includes an aerosol source for generating the aerosol, a flavor source for imparting the flavor component to the generated aerosol, and the like. The user can taste the fragrance by inhaling the aerosol to which the fragrance component is given, which is generated by the suction device.

以提高用户的吸取体验的质量为目的，研究了吸取装置的各种构造。例如在下述专利文献1中，关于加热从设于吸取装置的插入孔插入于内部空间的棒状的基材来生成气溶胶的吸取装置，公开了缩窄插入孔而紧固棒状的基材的构造。In order to improve the quality of the user's suction experience, various configurations of suction devices have been studied. For example, Patent Document 1 below discloses a suction device for generating aerosol by heating a rod-shaped base material inserted into an internal space through an insertion hole provided in the suction device, and discloses a structure in which the insertion hole is narrowed and the rod-shaped base material is fastened. .

现有技术文献prior art literature

专利文献Patent Literature

专利文献1：国际公开第2019/081602号Patent Document 1: International Publication No. 2019/081602

发明内容SUMMARY OF THE INVENTION

发明将要解决的课题The problem to be solved by the invention

但是，上述专利文献1所记载的技术的目的在于使从插入孔插入于吸取装置的内部空间的棒状的基材的位置合理化，因此很难说该技术直接关系到用户的吸取体验的质量的提高。However, the technique described in the above-mentioned Patent Document 1 aims to rationalize the position of the rod-shaped base material inserted into the internal space of the suction device from the insertion hole, so it is difficult to say that the technique directly affects the improvement of the quality of the suction experience of the user.

因此，本发明鉴于上述问题而完成，本发明的目的在于提供能够进一步提高用户的吸取体验的质量的结构。Therefore, the present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a configuration that can further improve the quality of the user's absorbing experience.

用于解决课题的手段means of solving problems

为了解决上述课题，根据本发明的某一观点，提供一种吸取装置，通过加热基材而生成被用户吸取的气溶胶，其中，所述吸取装置具备：加热部，其插入于所述基材的内部，并加热所述基材，所述基材插入于在所述吸取装置形成的内部空间；压缩部，其从外周向所述加热部的方向压缩被加热部分，该被加热部分是所述基材中的被所述加热部加热的部分；以及控制部，其基于所述加热部的加热以及所述压缩部的压缩的中一方的开始而使另一方开始。In order to solve the above-mentioned problems, according to an aspect of the present invention, there is provided a suction device that generates an aerosol sucked by a user by heating a base material, wherein the suction device includes a heating part inserted into the base material inside, and heat the base material, the base material is inserted into the inner space formed in the suction device; the compression part, which compresses the heated part from the outer periphery to the direction of the heating part, the heated part is the a portion of the base material heated by the heating unit; and a control unit that starts the heating of the heating unit and the compression of the compression unit based on the start of the other.

也可以是，所述控制部使所述加热部的加热的开始定时与所述压缩部的压缩的开始定时一致或者大致一致。The control unit may match or substantially match the start timing of heating by the heating unit and the start timing of compression by the compression unit.

也可以是，所述压缩部通过沿所述加热部的方向移动而压缩所述基材。The compression part may compress the base material by moving in the direction of the heating part.

也可以是，所述压缩部中的所述加热部的方向的前端面的剖面形状为凸型。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part may be convex.

也可以是，所述压缩部中的所述加热部的方向的前端面的剖面形状为凸型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part may be a convex arc shape.

也可以是，所述压缩部中的所述加热部的方向的前端面的剖面形状是半径为1mm、宽度为2mm的凸型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part may be a convex arc shape with a radius of 1 mm and a width of 2 mm.

也可以是，所述压缩部中的所述加热部的方向的前端面的剖面形状为凹型。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part may be a concave shape.

也可以是，所述压缩部中的所述加热部的方向的前端面的剖面形状为凹型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part may be a concave arc shape.

也可以是，所述压缩部中的所述加热部的方向的前端面的剖面形状是半径为3mm、宽度为5mm的凹型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part may be a concave arc shape with a radius of 3 mm and a width of 5 mm.

也可以是，所述压缩部中的所述加热部的方向的前端面的剖面形状是半径为2.5mm、宽度为5mm的凹型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part may be a concave arc shape with a radius of 2.5 mm and a width of 5 mm.

也可以是，所述基材的卷绕直径为7.1mm，在所述压缩部进行压缩时，所述压缩部的前端面接触所述基材的外周然后移动的长度为1mm以内。The winding diameter of the base material may be 7.1 mm, and when the compression section compresses, the front end surface of the compression section may contact the outer periphery of the base material and then move within a length of 1 mm.

也可以是，所述吸取装置具有三个所述压缩部，三个所述压缩部分别从不同的三个方向压缩所述基材。The suction device may have three compression parts, and the three compression parts compress the base material from three different directions, respectively.

也可以是，所述压缩部由耐热原材料形成。The compression portion may be formed of a heat-resistant material.

也可以是，所述控制部使所述压缩部开始压缩到停止为止的时间为70秒以下。The time required for the control unit to start the compression and stop the compression may be 70 seconds or less.

也可以是，所述控制部使所述压缩部开始压缩到停止为止的时间为10秒以下。The time required for the control unit to start the compression and stop the compression may be 10 seconds or less.

也可以是，所述控制部基于用户吸取了气溶胶的次数来控制使所述压缩部的压缩停止的定时。The control unit may control the timing to stop the compression of the compression unit based on the number of times the user has inhaled the aerosol.

另外，为了解决上述课题，根据本发明的另一观点，提供一种信息处理方法，其中，其包含在吸取装置中基于加热部的加热以及压缩部的压缩中的一方的开始而使另一方开始的步骤，所述吸取装置通过加热基材而生成被用户吸取的气溶胶，且具备：所述加热部，其插入于所述基材的内部，并加热所述基材，所述基材插入于在所述吸取装置形成的内部空间；以及所述压缩部，其从外周向所述加热部的方向压缩被加热部分，该被加热部分是所述基材中的被所述加热部加热的部分。Further, in order to solve the above-mentioned problems, according to another aspect of the present invention, there is provided an information processing method including starting one of the heating by the heating unit and the compression by the compressing unit in the suction device and starting the other one step, the suction device generates aerosol sucked by the user by heating the base material, and includes: the heating part, which is inserted into the interior of the base material, and heats the base material, and the base material is inserted into the base material. in the inner space formed in the suction device; and the compressing part which compresses the heated part from the outer periphery toward the heating part, the heated part of the base material heated by the heating part part.

另外，为了解决上述课题，根据本发明的另一观点，提供一种程序，其中，其使控制吸取装置的计算机作为控制部发挥功能，所述吸取装置通过加热基材而生成被用户吸取的气溶胶，且具备：加热部，其插入于所述基材的内部，且加热所述基材，所述基材插入于在所述吸取装置形成的内部空间；以及压缩部，其从外周向所述加热部的方向压缩被加热部分，该被加热部分是所述基材中的被所述加热部加热的部分，所述控制部基于所述加热部的加热以及所述压缩部的压缩中的一方的开始而使另一方开始。In order to solve the above-mentioned problems, according to another aspect of the present invention, there is provided a program in which a computer for controlling a suction device that generates air sucked by a user by heating a base material functions as a control unit The sol is provided with: a heating part inserted into the interior of the base material and heating the base material, the base material being inserted into the inner space formed in the suction device; and a compression part extending from the outer circumference to the outside The direction of the heating part compresses a heated part, the heated part is a part of the base material heated by the heating part, and the control part is based on the heating of the heating part and the compression of the compression part. The beginning of one makes the beginning of the other.

发明效果Invention effect

如以上说明那样，根据本发明，可提供能够进一步提高用户的吸取体验的质量的结构。As described above, according to the present invention, it is possible to provide a configuration capable of further improving the quality of the user's absorbing experience.

附图说明Description of drawings

图1是示意地表示吸取装置的构成例的示意图。FIG. 1 is a schematic diagram schematically showing a configuration example of a suction device.

图2是本实施方式的吸取装置的分解立体图。FIG. 2 is an exploded perspective view of the suction device of the present embodiment.

图3是表示本实施方式的吸取装置的与插拔方向平行的剖面的一个例子的剖面图。3 is a cross-sectional view showing an example of a cross-section parallel to the insertion/extraction direction of the suction device of the present embodiment.

图4是表示本实施方式的吸取装置的开放状态下的与插拔方向正交的剖面的一个例子的剖面图。FIG. 4 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction in the open state of the suction device of the present embodiment.

图5是表示本实施方式的吸取装置的压缩状态下的与插拔方向正交的剖面的一个例子的剖面图。5 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction in the compressed state of the suction device of the present embodiment.

图6是表示本实施方式的压缩部的与插拔方向正交的剖面的一个例子的剖面图。FIG. 6 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction of the compression portion of the present embodiment.

图7是表示本实施方式的压缩部的与插拔方向正交的剖面的一个例子的剖面图。FIG. 7 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction of the compression portion of the present embodiment.

图8是表示与本实施方式的吸取装置相关的实验结果的图表。FIG. 8 is a graph showing the results of experiments related to the suction device of the present embodiment.

图9是表示与本实施方式的吸取装置相关的实验结果的图表。FIG. 9 is a graph showing the experimental results related to the suction device of the present embodiment.

图10是表示与本实施方式的吸取装置相关的实验结果的图表。FIG. 10 is a graph showing the results of experiments related to the suction device of the present embodiment.

图11是表示与本实施方式的吸取装置相关的实验结果的图表。FIG. 11 is a graph showing the results of experiments related to the suction device of the present embodiment.

图12是将表4图表化的图。FIG. 12 is a diagram illustrating Table 4 as a graph.

图13是表示在本实施方式的吸取装置中执行的处理的流程的一个例子的图。FIG. 13 is a diagram showing an example of the flow of processing executed in the suction device of the present embodiment.

具体实施方式Detailed ways

以下，一边参照添附的附图，一边详细地说明本发明的优选的实施方式。另外，在本说明书以及附图中，对于实质上具有相同的功能构成的构成要素标注标注相同的附图标记来省略重复的说明。Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. In addition, in this specification and the drawings, components having substantially the same functional configuration are denoted by the same reference numerals, and overlapping descriptions are omitted.

另外，在本说明书以及附图中，有时将实质上具有相同的功能构成的要素在相同的附图标记之后标注不同的字母来区别。例如根据需要，如压缩部160A以及160B那样区别实质上具有相同的功能构成的多个要素。但是，在无需特别区别实质上具有相同的功能构成的多个要素的每一个的情况下，仅标注同一附图标记。例如在无需特别区别压缩部160A以及160B的情况下，简称为压缩部160。In addition, in this specification and the drawings, elements having substantially the same functional configuration may be distinguished by adding different letters after the same reference numerals. For example, as necessary, a plurality of elements having substantially the same functional configuration are distinguished like thecompression units 160A and 160B. However, when there is no need to distinguish each of a plurality of elements having substantially the same functional configuration, only the same reference numerals are attached. For example, when thecompression units 160A and 160B do not need to be distinguished in particular, they are simply referred to as thecompression unit 160 .

＜1.吸取装置的构成例＞<1. Configuration example of suction device>

本实施方式的吸取装置通过加热基材所含的内容物，生成被用户吸取的物质。特别是，本实施方式的吸取装置通过将包含气溶胶源的基材从基材内部加热，从而生成气溶胶。气溶胶是被用户吸取的物质的一个例子。气溶胶源是基材所含的内容物的一个例子。除此之外，由吸取装置生成的物质也可以是气体。以下，也将用户吸取由吸取装置生成的物质简称为“吸取”或者“抽烟(puff)”。以下，对吸取装置的各构成例进行说明。以下，一边参照图1，一边对本实施方式的吸取装置的构成例进行说明。The suction device of the present embodiment generates a substance sucked by the user by heating the content contained in the base material. In particular, the suction device of the present embodiment generates an aerosol by heating the base material containing the aerosol source from the inside of the base material. Aerosols are an example of substances that are ingested by the user. An aerosol source is an example of the content contained in a substrate. In addition to this, the substance generated by the suction device can also be a gas. Hereinafter, the user's suction of the substance generated by the suction device is also referred to simply as "suction" or "puff". Hereinafter, each configuration example of the suction device will be described. Hereinafter, a configuration example of the suction device of the present embodiment will be described with reference to FIG. 1 .

图1是示意地表示吸取装置的构成例的示意图。如图1所示，本构成例的吸取装置100包含电源部111、传感器部112、通知部113、存储部114、通信部115、控制部116、加热部121、压缩部160以及保持部140。以在保持部140上保持棒状基材150的状态进行用户的吸取。以下，依次对各构成要素进行说明。FIG. 1 is a schematic diagram schematically showing a configuration example of a suction device. As shown in FIG. 1 , thesuction device 100 of this configuration example includes apower supply unit 111 , asensor unit 112 , anotification unit 113 , astorage unit 114 , acommunication unit 115 , acontrol unit 116 , aheating unit 121 , acompression unit 160 , and a holdingunit 140 . The suction of the user is performed in a state in which the rod-shapedbase material 150 is held by the holdingportion 140 . Hereinafter, each constituent element will be described in order.

电源部111存储电力。而且，电源部111向吸取装置100的各构成要素供给电力。电源部111例如可由锂离子二次电池等充电式电池构成。电源部111也可以通过USB(Universal Serial Bus)线缆等连接于外部电源从而被充电。另外，电源部111也可以通过无线电力传送技术而以不与送电侧的器件连接的状态充电。除此之外，也可以仅将电源部111从吸取装置100取下，也可以更换新的电源部111。Thepower supply unit 111 stores electric power. Further, thepower supply unit 111 supplies electric power to each component of thesuction device 100 . Thepower supply unit 111 may be constituted by, for example, a rechargeable battery such as a lithium ion secondary battery. Thepower supply unit 111 may be charged by being connected to an external power supply through a USB (Universal Serial Bus) cable or the like. In addition, thepower supply unit 111 may be charged in a state not connected to a device on the power transmission side by wireless power transmission technology. In addition to this, only thepower supply unit 111 may be removed from thesuction device 100, or thepower supply unit 111 may be replaced with a new one.

传感器部112检测与吸取装置100相关的各种信息。然后，传感器部112将检测出的信息向控制部116输出。作为一个例子，传感器部112由麦克风电容器(microphonecapacitor)等压力传感器构成。而且，传感器部112在检测出伴随着用户的吸取的负压的情况下，向控制部116输出表示用户进行了吸取的信息。作为其他一个例子，传感器部112由按钮或者开关等受理来自用户的信息的输入的输入装置构成。特别是，传感器部112可包含指示气溶胶的生成开始/停止的按钮。而且，传感器部112将由用户输入的信息向控制部116输出。作为其他一个例子，传感器部112由检测加热部121的温度的温度传感器构成。该温度传感器例如基于加热部121的导电轨迹的电阻值检测加热部121的温度。传感器部112也可以基于加热部121的温度，检测由保持部140保持的棒状基材150的温度。Thesensor unit 112 detects various information related to thesuction device 100 . Then, thesensor unit 112 outputs the detected information to thecontrol unit 116 . As an example, thesensor unit 112 is constituted by a pressure sensor such as a microphone capacitor. Then, when thesensor unit 112 detects the negative pressure accompanying the suction of the user, it outputs information indicating that the user has suctioned to thecontrol unit 116 . As another example, thesensor unit 112 is constituted by an input device that accepts input of information from a user, such as a button or a switch. In particular, thesensor portion 112 may include a button for instructing the start/stop of aerosol generation. Then, thesensor unit 112 outputs the information input by the user to thecontrol unit 116 . As another example, thesensor unit 112 is constituted by a temperature sensor that detects the temperature of theheating unit 121 . This temperature sensor detects the temperature of theheating part 121 based on, for example, the resistance value of the conductive trace of theheating part 121 . Thesensor unit 112 may detect the temperature of the rod-shapedbase material 150 held by the holdingunit 140 based on the temperature of theheating unit 121 .

通知部113向用户通知信息。作为一个例子，通知部113由LED(Light EmittingDiode)等发光装置构成。在该情况下，通知部113在电源部111的状态为需要充电的情况下、电源部111为充电中的情况下以及吸取装置100中产生了异常的情况下等，分别以不同的发光模式发光。这里的发光模式是包含颜色以及点亮/熄灭的定时等的概念。通知部113也可以与发光装置一同或者代替其而由显示图像的显示装置、输出声音的声音输出装置以及振动的振动装置等构成。除此之外，通知部113也可以通知表示用户能够吸取的信息。在由加热部121加热的棒状基材150的温度达到规定的温度的情况下，通知表示用户能够吸取的信息。Thenotification unit 113 notifies the user of the information. As an example, thenotification unit 113 is constituted by a light-emitting device such as an LED (Light Emitting Diode). In this case, thenotification unit 113 emits light in different light emission patterns when the state of thepower supply unit 111 is that charging is required, when thepower supply unit 111 is being charged, and when an abnormality occurs in thesuction device 100 . . The light emission pattern here is a concept including color and timing of turning on/off. Thenotification unit 113 may be constituted by a display device for displaying an image, a sound output device for outputting a sound, a vibration device for vibration, or the like together with or instead of the light-emitting device. In addition to this, thenotification unit 113 may notify information indicating that the user can absorb. When the temperature of the rod-shapedbase material 150 heated by theheating unit 121 reaches a predetermined temperature, information indicating that the user can absorb it is notified.

存储部114存储用于吸取装置100的动作的各种信息。存储部114例如由闪存等非易失性的存储介质构成。存储于存储部114的信息的一个例子是控制部116对各种构成要素的控制内容等与吸取装置100的OS(Operating System)相关的信息。存储于存储部114的信息的另一个例子是吸取次数、吸取时刻、吸取时间累计等与用户的吸取相关的信息。Thestorage unit 114 stores various kinds of information for the operation of thesuction device 100 . Thestorage unit 114 is formed of, for example, a nonvolatile storage medium such as a flash memory. An example of the information stored in thestorage unit 114 is information related to the OS (Operating System) of thesuction device 100 , such as the control content of various components by thecontrol unit 116 . Another example of the information stored in thestorage unit 114 is information related to the suction of the user, such as the number of suctions, the suction time, and the total suction time.

通信部115是用于在吸取装置100与其他装置之间收发信息的通信接口。通信部115进行基于有线或者无线的任意的通信标准的通信。作为该通信标准，例如可采用无线LAN(Local Area Network)，有线LAN、Wi－Fi(注册商标)、或者Bluetooth(注册商标)等。作为一个例子，通信部115为了使智能手机显示与用户的吸取相关的信息，向智能手机发送与用户的吸取相关的信息。作为其他一个例子，通信部115为了更新存储于存储部114的OS的信息，从服务器接收新的OS的信息。Thecommunication unit 115 is a communication interface for sending and receiving information between thesuction device 100 and other devices. Thecommunication unit 115 performs communication based on an arbitrary communication standard, wired or wireless. As the communication standard, for example, a wireless LAN (Local Area Network), a wired LAN, Wi-Fi (registered trademark), or Bluetooth (registered trademark) can be used. As an example, thecommunication unit 115 transmits the information related to the user's intake to the smartphone in order to cause the smartphone to display the information related to the user's intake. As another example, thecommunication unit 115 receives new OS information from the server in order to update the OS information stored in thestorage unit 114 .

控制部116作为运算处理装置以及控制装置发挥功能，按照各种程序控制吸取装置100内的整体动作。控制部116例如由CPU(Central Processing Unit)以及微处理器等电子电路实现。除此之外，控制部116也可以包含存储所使用的程序以及运算参数等的ROM(Read Only Memory)以及暂时存储适当变化的参数等的RAM(Random Access Memory)。吸取装置100基于控制部116的控制，执行各种处理。从电源部111向其他各构成要素的供电、电源部111的充电、传感器部112对信息的检测、通知部113对信息的通知、存储部114对信息的存储以及读出以及通信部115对信息的收发是由控制部116控制的处理的一个例子。压缩部160的压缩以及开放(压缩停止)也是由控制部116控制的处理的一个例子。信息向各构成要素的输入以及基于从各构成要素输出的信息的处理等由吸取装置100执行的其他处理也由控制部116控制。Thecontrol unit 116 functions as an arithmetic processing device and a control device, and controls the overall operation in thesuction device 100 according to various programs. Thecontrol unit 116 is realized by, for example, an electronic circuit such as a CPU (Central Processing Unit) and a microprocessor. In addition to this, thecontrol unit 116 may include a ROM (Read Only Memory) that stores used programs, operation parameters, and the like, and a RAM (Random Access Memory) that temporarily stores appropriately changed parameters and the like. Thesuction device 100 executes various processes under the control of thecontrol unit 116 . Power supply from thepower supply unit 111 to other components, charging of thepower supply unit 111 , detection of information by thesensor unit 112 , notification of information by thenotification unit 113 , storage and reading of information by thestorage unit 114 , and information by thecommunication unit 115 The transmission and reception of is an example of processing controlled by thecontrol unit 116 . The compression and release (compression stop) of thecompression unit 160 is also an example of processing controlled by thecontrol unit 116 . Other processing performed by thesuction device 100 , such as input of information to each component and processing based on information output from each component, is also controlled by thecontrol unit 116 .

保持部140形成内部空间141，在内部空间141收容棒状基材150的一部分的同时保持棒状基材150。保持部140具有将内部空间141连通于外部的开口142，保持从开口142插入于内部空间141的棒状基材150。例如保持部140是以开口142以及底部143为底面的筒状体，划分柱状的内部空间141。保持部140也具有划分向棒状基材150供给的空气的流路的功能。作为空气向该流路内的入口的空气流入孔例如配置于底部143。另一方面，作为来自该流路的空气的出口的空气流出孔是开口142。The holdingpart 140 forms aninner space 141 and holds the rod-shapedbase material 150 while accommodating a part of the rod-shapedbase material 150 in theinner space 141 . The holdingpart 140 has anopening 142 that communicates theinternal space 141 with the outside, and holds the rod-shapedbase material 150 inserted into theinternal space 141 from theopening 142 . For example, the holdingportion 140 is a cylindrical body having theopening 142 and thebottom portion 143 as bottom surfaces, and defines a columnarinternal space 141 . The holdingpart 140 also has a function of dividing the flow path of the air supplied to the rod-shapedbase material 150 . An air inflow hole serving as an inlet of the air into the flow path is arranged, for example, in thebottom portion 143 . On the other hand, the air outflow hole which is the outlet of the air from this flow path is theopening 142 .

棒状基材150是棒状的部件。棒状基材150的外周通过由片状的部件卷绕来形成。片状的部件的一个例子是卷纸。棒状基材150包含基材部151以及吸口部152。The rod-shapedbase material 150 is a rod-shaped member. The outer periphery of the rod-shapedbase material 150 is formed by winding a sheet-shaped member. An example of a sheet-like member is roll paper. The rod-shapedbase material 150 includes abase material portion 151 and asuction port portion 152 .

基材部151包含气溶胶源。气溶胶源被加热从而雾化，生成气溶胶。气溶胶源例如是甘油以及丙二醇等多元醇和水等液体。气溶胶源也可以还包含被加热从而释放香味成分的烟草原料或者出自于烟草原料的提取物。在吸取装置100是医疗用吸入器的情况下，气溶胶源也可以包含患者吸入用的药剂。另外，气溶胶源并不限定于液体，也可以是固体。基材部151的至少一部分在棒状基材150保持于保持部140的状态下，收容于保持部140的内部空间141。Thebase material portion 151 contains an aerosol source. The aerosol source is heated to atomize, generating an aerosol. The aerosol source is, for example, a polyhydric alcohol such as glycerin and propylene glycol, and a liquid such as water. The aerosol source may also comprise tobacco material or extracts from tobacco material that are heated to release flavor components. In the case where theinhalation device 100 is a medical inhaler, the aerosol source may also contain a medicament for inhalation by the patient. In addition, the aerosol source is not limited to a liquid, and may be a solid. At least a part of thebase material portion 151 is accommodated in theinner space 141 of the holdingportion 140 in a state where the rod-shapedbase material 150 is held by the holdingportion 140 .

特别是，气溶胶源包含在颗粒状或者片状等任意形状的物体中，填充于基材部151。以下也将含有气溶胶源的物体称为基材要素。基材要素以具有间隙的状态填充于基材部151，以不堵塞空气的流路。In particular, the aerosol source is contained in an object of any shape such as granular or sheet, and thebase material portion 151 is filled. Hereinafter, the object containing the aerosol source is also referred to as a substrate element. The base material element is filled in thebase material portion 151 with a gap so as not to block the air flow path.

吸口部152是在吸取时被用户衔住的部件。吸口部152的至少一部分在棒状基材150保持于保持部140的状态下从开口142突出。而且，若用户衔住从开口142突出的吸口部152并吸取，则空气从未图示的空气流入孔流入保持部140的内部。流入的空气通过保持部140的内部空间141，与从基材部151产生的气溶胶一同到达用户的口内。Thesuction port 152 is a member held by the user during suction. At least a part of thesuction port part 152 protrudes from theopening 142 in a state in which the rod-shapedbase material 150 is held by the holdingpart 140 . Then, when the user grasps thesuction port 152 protruding from theopening 142 and inhales, the air flows into the inside of the holdingportion 140 through the air inflow hole (not shown). The inflowing air passes through theinner space 141 of the holdingportion 140 and reaches the inside of the user's mouth together with the aerosol generated from thebase material portion 151 .

加热部121通过加热气溶胶源，使气溶胶源雾化而生成气溶胶。加热部121由金属或者聚酰亚胺等任意的原材料构成。例如加热部121构成为板状或者柱状(例如针状)等任意的形状，以从保持部140的底部143向保持部140的内部空间141突出的方式配置。因此，若棒状基材150插入于保持部140，则加热部121以刺入棒状基材150的基材部151的方式插入于棒状基材150的内部。而且，若加热部121发热，则棒状基材150所含的气溶胶源从棒状基材150的内部被加热而雾化，生成气溶胶。加热部121若被从电源部111供电则发热。作为一个例子，也可以在由传感器部112检测出进行了规定的用户输入的的情况下供电，生成气溶胶。在由加热部121加热的棒状基材150的温度达到规定的温度的情况下，用户能够吸取。之后，也可以在由传感器部112检测出进行了规定的用户输入的的情况下、或者经过了规定时间的情况下停止供电。作为其他一个例子，也可以在由传感器部112检测出用户进行了吸取的期间供电，生成气溶胶。Theheating unit 121 generates an aerosol by heating the aerosol source to atomize the aerosol source. Theheating unit 121 is made of an arbitrary material such as metal or polyimide. For example, theheating unit 121 is configured in an arbitrary shape such as a plate shape or a columnar shape (eg, needle shape), and is disposed so as to protrude from thebottom 143 of the holdingunit 140 into theinner space 141 of the holdingunit 140 . Therefore, when the rod-shapedbase material 150 is inserted into the holdingpart 140 , theheating part 121 is inserted into the inside of the rod-shapedbase material 150 so as to penetrate thebase material part 151 of the rod-shapedbase material 150 . Then, when theheating unit 121 generates heat, the aerosol source contained in the rod-shapedbase material 150 is heated from the inside of the rod-shapedbase material 150 to be atomized, and an aerosol is generated. Theheating unit 121 generates heat when power is supplied from thepower supply unit 111 . As an example, when thesensor unit 112 detects that a predetermined user input is made, power may be supplied to generate the aerosol. When the temperature of the rod-shapedbase material 150 heated by theheating unit 121 reaches a predetermined temperature, the user can suck it. After that, when thesensor unit 112 detects that a predetermined user input has been performed, or when a predetermined time has elapsed, the power supply may be stopped. As another example, the aerosol may be generated by supplying power while thesensor unit 112 detects that the user has sucked.

棒状基材150的温度达到规定的温度之前执行的加热也称为预备加热。另外，也将该规定的温度称为可吸取温度。以下，也将达到可吸取温度为止所花费的时间称为预备加热时间。在棒状基材150的温度通过预备加热达到可吸取温度之后也可以进行用于维持温度的加热。Heating performed before the temperature of the rod-shapedbase material 150 reaches a predetermined temperature is also referred to as preliminary heating. In addition, the predetermined temperature is also referred to as an absorbable temperature. Hereinafter, the time taken to reach the absorbable temperature is also referred to as the preliminary heating time. Heating for maintaining the temperature may be performed after the temperature of the rod-shapedbase material 150 reaches the absorbable temperature by preliminary heating.

压缩部160压缩由保持部140保持的棒状基材150。特别是，压缩部160将由保持部140保持的棒状基材150中的、由加热部121加热的部分即被加热部分从外周向加热部121的方向190压缩。基材部151是被加热部分的一个例子。以下，也将该方向称为压缩方向190。也将压缩部160压缩棒状基材150的状态称为压缩状态。也将压缩部160未压缩棒状基材150的状态称为开放状态。接着详细地说明与压缩部160相关的详细构成。Thecompression part 160 compresses the rod-shapedbase material 150 held by the holdingpart 140 . In particular, the compressingpart 160 compresses the heated part, which is the part heated by theheating part 121 , of the rod-shapedbase material 150 held by the holdingpart 140 from the outer periphery in thedirection 190 of theheating part 121 . Thebase material portion 151 is an example of a heated portion. Hereinafter, this direction is also referred to as thecompression direction 190 . The state in which thecompression part 160 compresses the rod-shapedbase material 150 is also called a compressed state. The state in which thecompression part 160 does not compress the rod-shapedbase material 150 is also called an open state. Next, the detailed configuration of thecompression unit 160 will be described in detail.

＜2.压缩机构的构成＞<2. Configuration of compression mechanism>

(1)整体构成(1) Overall composition

以下，一边参照图2～图5，一边对压缩部160压缩棒状基材150的机构的一个例子进行说明。Hereinafter, an example of a mechanism for compressing the rod-shapedbase material 150 by thecompression unit 160 will be described with reference to FIGS. 2 to 5 .

图2是本实施方式的吸取装置100的分解立体图。图3是表示本实施方式的吸取装置100的与插拔方向191平行的剖面的一个例子的剖面图。图4是表示本实施方式的吸取装置100的开放状态下的与插拔方向191正交的剖面的一个例子的剖面图。图5是表示本实施方式的吸取装置100的压缩状态下的与插拔方向191正交的剖面的一个例子的剖面图。FIG. 2 is an exploded perspective view of thesuction device 100 of the present embodiment. FIG. 3 is a cross-sectional view showing an example of a cross-section parallel to the insertion/extraction direction 191 of thesuction device 100 of the present embodiment. FIG. 4 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction 191 in the open state of thesuction device 100 of the present embodiment. FIG. 5 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction 191 in the compressed state of thesuction device 100 of the present embodiment.

如图2～图5所示，吸取装置100包含压缩部160(160A～160C)、加热部121、缘部171、内壁部172、第一旋转部174、第二旋转部175、第一底部177、第二底部178。另外，在这些附图中，图示了与保持部140、加热部121以及压缩部160相关的构成要素，省略了其他构成要素。As shown in FIGS. 2 to 5 , thesuction device 100 includes a compression part 160 ( 160A to 160C), aheating part 121 , anedge part 171 , aninner wall part 172 , a firstrotating part 174 , a secondrotating part 175 , and a firstbottom part 177 , thesecond bottom 178 . In addition, in these drawings, the components related to the holdingpart 140, theheating part 121, and thecompression part 160 are illustrated, and other components are abbreviate|omitted.

压缩方向190针对吸取装置100所具有的多个压缩部160(160A～160C)的各个而设定。例如压缩方向190A是从压缩部160A向加热部121的方向。压缩方向190B是从压缩部160B向加热部121的方向。压缩方向190C是从压缩部160C向加热部121的方向。Thecompression direction 190 is set for each of the plurality of compression parts 160 ( 160A to 160C) included in thesuction device 100 . For example, thecompression direction 190A is the direction from thecompression part 160A to theheating part 121 . Thecompression direction 190B is the direction from thecompression part 160B to theheating part 121 . Thecompression direction 190C is the direction from thecompression part 160C to theheating part 121 .

插拔方向191是向吸取装置100插入棒状基材150或抽出棒状基材150的方向。也将插拔方向191中的插入棒状基材150的方向称为插入方向191A。也将插拔方向191中的抽出棒状基材150的方向称为抽出方向191B。插拔方向191与多个压缩方向190A～190C正交。棒状基材150以棒状基材150的长度方向与插拔方向191一致的方式插入于吸取装置100。The insertion and extraction direction 191 is the direction in which the rod-shapedbase material 150 is inserted into thesuction device 100 or the rod-shapedbase material 150 is withdrawn. The direction in which the rod-shapedbase material 150 is inserted in the insertion and extraction direction 191 is also referred to as theinsertion direction 191A. The direction in which the rod-shapedbase material 150 is pulled out in the insertion/extraction direction 191 is also referred to as the pull-outdirection 191B. The insertion and extraction direction 191 is orthogonal to the plurality ofcompression directions 190A to 190C. The rod-shapedbase material 150 is inserted into thesuction device 100 such that the longitudinal direction of the rod-shapedbase material 150 coincides with the insertion and extraction direction 191 .

也将以插拔方向191为旋转轴旋转的方向称为旋转方向192。也将旋转方向192中的、朝向插入方向191A的状态下的顺时针的方向称为右旋转方向192A。也将旋转方向192中的、朝向插入方向191A的状态下的逆时针的方向称为左旋转方向192B。The direction of rotation about the insertion and extraction direction 191 as the rotation axis is also referred to as the rotation direction 192 . Among the rotation directions 192, the clockwise direction in the state facing theinsertion direction 191A is also referred to as theright rotation direction 192A. Among the rotation directions 192 , the counterclockwise direction in the state facing theinsertion direction 191A is also referred to as theleft rotation direction 192B.

以下，一边依次说明图2～图5所示的各构成要素，一边详细地说明与压缩部160相关的特征。但是，在说明时，有时以与压缩部160A相关的特征为代表进行说明。当然，压缩部160B以及压缩部160C具有与和压缩部160A相关的特征相同的特征。Hereinafter, the features related to thecompression unit 160 will be described in detail while each of the constituent elements shown in FIGS. 2 to 5 will be sequentially described. However, in the description, the features related to thecompression unit 160A may be representatively described. Of course, thecompression unit 160B and thecompression unit 160C have the same features as those related to thecompression unit 160A.

缘部171是覆盖保持部140的开口142的缘的部件。缘部171构成为圆筒筒状。而且，缘部171配置于内壁部172以及第二旋转部175的抽出方向191B侧的端部。Theedge portion 171 is a member that covers the edge of theopening 142 of the holdingportion 140 . Theedge part 171 is comprised in the cylindrical cylindrical shape. Moreover, theedge part 171 is arrange|positioned at the edge part of the drawing-outdirection 191B side of theinner wall part 172 and the 2ndrotating part 175. FIG.

内壁部172是构成保持部140的内部空间141的内壁的部件。内壁部172构成为圆筒状。在内壁部172设置第一开口部173(173A～173C)。第一开口部173具有压缩部160的爪部161能够通过的大小。内壁部172以收容于第二旋转部175中的抽出方向191B侧的构成为圆筒状的上部分175B的内侧的方式配置。特别是，内壁部172以第一开口部173的位置与设于第二旋转部175的上部分175B的第二开口部176的位置一致的方式配置。内壁部172内侧的空间相当于保持部140的内部空间141。Theinner wall portion 172 is a member that constitutes the inner wall of theinner space 141 of the holdingportion 140 . Theinner wall portion 172 is configured in a cylindrical shape. Theinner wall part 172 is provided with the 1st opening part 173 (173A-173C). The first opening portion 173 has a size through which the claw portion 161 of thecompression portion 160 can pass. Theinner wall part 172 is arrange|positioned so that it may be accommodated in the inside of theupper part 175B comprised in the cylindrical shape in theextraction direction 191B side in the 2ndrotating part 175. In particular, theinner wall part 172 is arranged so that the position of the first opening part 173 and the position of the second opening part 176 provided in theupper part 175B of the secondrotating part 175 are matched. The space inside theinner wall portion 172 corresponds to theinner space 141 of the holdingportion 140 .

第一旋转部174是能够向旋转方向192旋转的部件。第一旋转部174构成为圆筒状。第一旋转部174配置为覆盖第二旋转部175的上部分175B的外周。第一旋转部174的内壁面179形成为压缩方向190上的高度沿旋转方向192变化。The firstrotating part 174 is a member that can rotate in the rotating direction 192 . The firstrotating portion 174 is configured in a cylindrical shape. The firstrotating portion 174 is arranged to cover the outer circumference of theupper portion 175B of the secondrotating portion 175 . The inner wall surface 179 of the firstrotating portion 174 is formed so that the height in thecompression direction 190 changes along the rotation direction 192 .

第二旋转部175是能够向旋转方向192旋转的部件。第二旋转部175包含作为抽出方向191B侧的部分的上部分175B与作为插入方向191A侧的部分的下部分175A。上部分175B以及下部分175A分别构成为圆筒状。上部分175B的剖面外径比下部分175A的剖面外径小。特别是，上部分175B的剖面外径比第一旋转部174的剖面内径小。而且，第二旋转部175以上部分175B收容于第一旋转部174的内部的方式配置。另一方面，下部分175A的剖面外径典型来说构成为与第一旋转部174的剖面外径相同或者大致相同。由此，下部分175A的外周与第一旋转部174的外周与边界处的台阶被最小化。在上部分175B设置第二开口部176(176A～176C)。第二开口部176具有压缩部160的爪部161能够通过的大小。The secondrotating part 175 is a member that can rotate in the rotating direction 192 . The secondrotating part 175 includes anupper part 175B which is a part on the side of theextraction direction 191B and alower part 175A which is a part on the side of theinsertion direction 191A. Theupper part 175B and thelower part 175A are each formed in a cylindrical shape. The cross-sectional outer diameter of theupper portion 175B is smaller than the cross-sectional outer diameter of thelower portion 175A. In particular, the cross-sectional outer diameter of theupper portion 175B is smaller than the cross-sectional inner diameter of the firstrotating portion 174 . And theupper part 175B of the 2ndrotating part 175 is arrange|positioned so that the inside of the 1strotating part 174 may be accommodated. On the other hand, the cross-sectional outer diameter of thelower portion 175A is typically configured to be the same or substantially the same as the cross-sectional outer diameter of the firstrotating portion 174 . Thereby, the steps at the outer circumference of thelower portion 175A and the outer circumference and boundary of the firstrotating portion 174 are minimized. Second openings 176 (176A to 176C) are provided in theupper portion 175B. The second opening portion 176 has a size through which the claw portion 161 of thecompression portion 160 can pass.

第一旋转部174以及第二旋转部175相互向相反方向旋转。而且，第一旋转部174以及第二旋转部175旋转，使得压缩部160将棒状基材150压缩或开放。以下，设为将第二旋转部175固定而使第一旋转部174向右旋转方向192A或者左旋转方向192B旋转来进行说明。另外，第一旋转部174以及第二旋转部175的旋转也可以由用户手动进行。另外，第一旋转部174以及第二旋转部175的旋转也可以通过未图示的马达等机构自动进行。The firstrotating part 174 and the secondrotating part 175 rotate in opposite directions to each other. Then, the firstrotating part 174 and the secondrotating part 175 rotate so that thecompression part 160 compresses or opens the rod-shapedbase material 150 . Hereinafter, the description will be given assuming that the secondrotating portion 175 is fixed and the firstrotating portion 174 is rotated in the rightwardrotating direction 192A or the leftwardrotating direction 192B. In addition, the rotation of the1st rotation part 174 and the2nd rotation part 175 may be performed manually by a user. In addition, the rotation of the1st rotation part 174 and the2nd rotation part 175 may be performed automatically by mechanisms, such as a motor which is not shown in figure.

第一底部177以及第二底部178是构成吸取装置100的插入方向191A的端部的部件。第一底部177与第二底部178以加热部121的前端从第一底部177突出的状态、并且是在第一底部177与第二底部178之间夹着加热部121的状态嵌合。而且，第一底部177以及第二底部178以将从第一底部177突出的加热部121的前端插入到配置于第二旋转部175的上部分175B的内部的内壁部172的内部空间的方式嵌合于第二旋转部175的下部分175A。Thefirst bottom portion 177 and thesecond bottom portion 178 are members constituting the ends in theinsertion direction 191A of thesuction device 100 . Thefirst bottom portion 177 and thesecond bottom portion 178 are fitted in a state where the front end of theheating portion 121 protrudes from thefirst bottom portion 177 and theheating portion 121 is sandwiched between thefirst bottom portion 177 and thesecond bottom portion 178 . Then, thefirst bottom portion 177 and thesecond bottom portion 178 are fitted into the inner space of theinner wall portion 172 arranged inside theupper portion 175B of the secondrotating portion 175 so that the front end of theheating portion 121 protruding from thefirst bottom portion 177 is inserted into the inner space of theinner wall portion 172 . Fitted to thelower portion 175A of the secondrotating portion 175 .

加热部121配置为前端向内壁部172的内部空间突出。若棒状基材150插入于内壁部172的内部空间，则加热部121的前端以刺入棒状基材150的基材部151的方式插入于棒状基材150的内部。加热部121发热，从而能够将周围的基材要素所含的气溶胶源加热。Theheating part 121 is arranged so that its front end protrudes into the inner space of theinner wall part 172 . When the rod-shapedbase material 150 is inserted into the inner space of theinner wall portion 172 , the front end of theheating portion 121 is inserted into the rod-shapedbase material 150 so as to penetrate thebase material portion 151 of the rod-shapedbase material 150 . Theheating unit 121 generates heat and can heat the aerosol source contained in the surrounding base material elements.

本构成的吸取装置100作为压缩部160，具有压缩部160A～160C这三个压缩部160。而且，三个压缩部160分别从不同的3个方向将棒状基材150压缩。通过该构成，能够不依赖于保持部140的内部空间141内的棒状基材150的位置以及姿势地由多个压缩部160的全部压缩棒状基材150。Thesuction device 100 of this structure has threecompression parts 160 of thecompression parts 160A-160C as thecompression part 160. Furthermore, the three compressingparts 160 compress the rod-shapedbase material 150 from three different directions, respectively. With this configuration, the rod-shapedbase material 150 can be compressed by all of the plurality ofcompression parts 160 without depending on the position and posture of the rod-shapedbase material 150 in theinner space 141 of the holdingpart 140 .

压缩部160包含爪部161与基部162而构成。爪部161构成为沿插拔方向191以及压缩方向190延伸的板状的部件。基部162构成为沿插拔方向191延伸的棒状的部件。压缩部160配置成基部162与第一旋转部174的内壁面179接触，且爪部161的位置与第一开口部173以及第二开口部176的位置一致。另外，在压缩部160与第二旋转部175之间设置使压缩部160向与压缩方向190相反的方向产生排斥力的弹簧等机构。Thecompression portion 160 includes a claw portion 161 and a base portion 162 and is configured. The claw portion 161 is configured as a plate-shaped member extending in the insertion/extraction direction 191 and thecompression direction 190 . The base portion 162 is configured as a rod-shaped member extending in the insertion and extraction direction 191 . Thecompression part 160 is arranged so that the base part 162 is in contact with the inner wall surface 179 of the firstrotating part 174 , and the positions of the claw parts 161 and the positions of the first opening part 173 and the second opening part 176 match. In addition, a mechanism such as a spring that causes thecompression portion 160 to generate a repulsive force in the direction opposite to thecompression direction 190 is provided between thecompression portion 160 and thesecond rotation portion 175 .

压缩部160通过沿压缩方向190移动而将棒状基材150压缩。详细地说，若第一旋转部174旋转，则基部162在第一旋转部174的内壁面179滑动。其结果，随着压缩方向190上的内壁面179的高度的变化，压缩方向190上的压缩部160的位置变化。Thecompression part 160 compresses the rod-shapedbase material 150 by moving in thecompression direction 190 . Specifically, when the firstrotating portion 174 rotates, the base portion 162 slides on the inner wall surface 179 of the firstrotating portion 174 . As a result, as the height of the inner wall surface 179 in thecompression direction 190 changes, the position of thecompression portion 160 in thecompression direction 190 changes.

这里，第一旋转部174的内壁面179构成为，关于多个压缩部160的每一个，压缩方向190上的高度越向右旋转方向192A越高，越向左旋转方向192B越低。例如压缩部160A的基部162A所接触的内壁面179A构成为压缩方向190上的高度越向右旋转方向192A越高，越向左旋转方向192B越低。Here, the inner wall surface 179 of the firstrotating portion 174 is configured such that, with respect to each of the plurality ofcompression portions 160 , the height in thecompression direction 190 increases toward the rightrotational direction 192A and decreases toward the leftrotational direction 192B. For example, theinner wall surface 179A with which thebase portion 162A of thecompression portion 160A contacts is structured such that the height in thecompression direction 190 increases toward the rightrotational direction 192A and decreases toward the leftrotational direction 192B.

因此，若第一旋转部174向左旋转方向192B旋转，则基部162所接触的位置处的内壁面179的高度逐渐变高，因此压缩部160向压缩方向190移动。例如若第一旋转部174向左旋转方向192B旋转，则压缩部160A的基部162A所接触的位置处的内壁面179A的高度逐渐变高，因此压缩部160A向压缩方向190A移动。其结果，如图5所示，爪部161通过第一开口部173以及第二开口部176按压棒状基材150。例如压缩部160A的爪部161A通过第一开口部173A以及第二开口部176A按压棒状基材150。Therefore, when thefirst rotation part 174 rotates in theleft rotation direction 192B, the height of the inner wall surface 179 at the position where the base part 162 contacts gradually increases, so thecompression part 160 moves in thecompression direction 190 . For example, when thefirst rotation part 174 rotates in theleft rotation direction 192B, the height of theinner wall surface 179A at the position where thebase part 162A of thecompression part 160A contacts gradually increases, so thecompression part 160A moves in thecompression direction 190A. As a result, as shown in FIG. 5 , the claw portion 161 presses the rod-shapedbase material 150 through the first opening portion 173 and the second opening portion 176 . For example, theclaw portion 161A of thecompression portion 160A presses the rod-shapedbase material 150 through thefirst opening portion 173A and thesecond opening portion 176A.

另一方面，若第一旋转部174向右旋转方向192A旋转，则基部162所接触的位置处的内壁面179的高度逐渐变低。因此，压缩部160受到由设于压缩部160与第二旋转部175之间的弹簧等机构产生的排斥力而向与压缩方向190相反的方向移动。例如若第一旋转部174向右旋转方向192A旋转，则压缩部160A的基部162A所接触的位置处的内壁面179A的高度逐渐变低，因此压缩部160A向与压缩方向190A相反的方向移动。其结果，如图4所示，爪部161通过第一开口部173以及第二开口部176而离开棒状基材150。例如压缩部160A的爪部161A通过第一开口部173A以及第二开口部176A而离开棒状基材150。On the other hand, when the firstrotating part 174 rotates in theright rotation direction 192A, the height of the inner wall surface 179 at the position where the base part 162 comes into contact gradually decreases. Therefore, thecompression part 160 is moved in the direction opposite to thecompression direction 190 by the repulsive force generated by a mechanism such as a spring provided between thecompression part 160 and thesecond rotation part 175 . For example, when the firstrotating part 174 rotates in theright rotation direction 192A, the height of theinner wall surface 179A at the position where thebase part 162A of thecompression part 160A contacts gradually decreases, so thecompression part 160A moves in the opposite direction to thecompression direction 190A. As a result, as shown in FIG. 4 , the claw portion 161 passes through the first opening portion 173 and the second opening portion 176 and is separated from the rod-shapedbase material 150 . For example, theclaw portion 161A of thecompression portion 160A is separated from the rod-shapedbase material 150 through thefirst opening portion 173A and thesecond opening portion 176A.

(2)压缩部160的前端形状(2) Shape of the front end of thecompression part 160

图6是表示本实施方式的压缩部160的与插拔方向191正交的剖面的一个例子的剖面图。如图6所示，压缩部160(更准确地说是爪部161)中的压缩方向190的前端面的剖面形状也可以是凸型。特别是，压缩部160(更准确地说是爪部161)中的压缩方向190的前端面的剖面形状也可以是凸型的圆弧形状。作为爪部161的前端面的圆弧的宽度W_C、爪部161的前端面的圆弧的半径R_C、压缩长度L_C以及基材部151的卷绕直径D_S，能够采用任意的尺寸。另外，压缩长度L_C是指在压缩部160压缩时压缩部160(更准确地说是爪部161)的前端面接触基材部151的外周然后移动的长度。例如各种尺寸可以如下述的表1那样设定。FIG. 6 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction 191 of thecompression portion 160 according to the present embodiment. As shown in FIG. 6 , the cross-sectional shape of the front end surface in thecompression direction 190 of the compression portion 160 (more precisely, the claw portion 161 ) may be convex. In particular, the cross-sectional shape of the front end surface in thecompression direction 190 of the compression portion 160 (more precisely, the claw portion 161 ) may be a convex arcuate shape. Arbitrary dimensions can be adopted as the width W_C of the arc of the front end surface of the claw portion 161 , the radius RC of the arc of the front end surface of the claw portion 161 , the compressed length_LC , and the winding diameter_{D Sof} thebase portion 151 . . In addition, the compressed length_LC refers to a length in which the front end surface of the compression portion 160 (more precisely, the claw portion 161 ) contacts the outer periphery of thebase material portion 151 and then moves when thecompression portion 160 is compressed. For example, various dimensions can be set as shown in Table 1 below.

[表1][Table 1]

表1.压缩部160的前端形状是凸型的情况下的尺寸的一例Table 1. An example of dimensions when the distal end shape of thecompression portion 160 is convex

图7是表示本实施方式的压缩部160的与插拔方向191正交的剖面的一个例子的剖面图。如图7所示，压缩部160(更准确地说是爪部161)中的压缩方向190的前端面的剖面形状也可以是凹型。特别是，压缩部160(更准确地说爪部161)中的压缩方向190的前端面的剖面形状也可以是凹型的圆弧形状。作为爪部161的前端面的圆弧的宽度W_C、爪部161的前端面的圆弧的半径R_C、压缩长读L_C以及基材部151的卷绕直径D_S，能够采用任意的尺寸。爪部161的前端面的凹型的圆弧的两端部分也可以形成为凸型的圆弧状。而且，作为爪部161的前端面的圆弧的两端部分的圆弧的半径R_H，能够采用任意的尺寸。例如各种尺寸可以如下述的表2那样设定。FIG. 7 is a cross-sectional view showing an example of a cross-section perpendicular to the insertion/extraction direction 191 of thecompression portion 160 of the present embodiment. As shown in FIG. 7 , the cross-sectional shape of the front end surface in thecompression direction 190 of the compression portion 160 (more precisely, the claw portion 161 ) may be concave. In particular, the cross-sectional shape of the front end surface in thecompression direction 190 of the compression portion 160 (more precisely, the claw portion 161 ) may be a concave arc shape. As the width W_C of the arc of the front end surface of the claw portion 161 , the radius RC of the arc of the front end surface of the claw portion 161 , the compressed length L_C , and the winding diameter_{D Sof} thebase portion 151 , any arbitrary ones can be used. size. Both ends of the concave arc of the front end surface of the claw portion 161 may be formed into a convex arc. Further, as the radius_RH of the arc at both end portions of the arc of the front end surface of the claw portion 161, any size can be adopted. For example, various dimensions can be set as shown in Table 2 below.

[表2][Table 2]

表2.压缩部160的前端形状是凹型的情况下的尺寸的一例Table 2. An example of dimensions when the distal end shape of thecompression portion 160 is concave

尺寸名称size nameW_CW_CR_CR_CR_HR_HL_CL_CD_SD_SC3C35mm5mm3mm3mm0.1-0.2mm0.1-0.2mm0.5mm0.5mm7.1mm7.1mmC4C44mm4mm2.5mm2.5mm0.1-0.2mm0.1-0.2mm1mm1mm7.1mm7.1mm

(3)压缩以及加热的定时(3) Timing of compression and heating

本实施方式的吸取装置100基于加热部121的加热以及压缩部160的压缩的一方的开始而开始另一方。作为一个例子，吸取装置100基于加热部121的加热的开始，开始压缩部160的压缩。在该情况下，压缩部160的压缩自动进行。作为其他一个例子，吸取装置100基于压缩部160的压缩的开始，开始加热部121的预备加热。在该情况下，压缩部160的压缩可以手动进行，也可以自动进行。Thesuction device 100 of the present embodiment starts one of the heating of theheating unit 121 and the compression of thecompression unit 160 to start the other. As an example, thesuction device 100 starts the compression of thecompression part 160 based on the start of the heating of theheating part 121 . In this case, the compression by thecompression unit 160 is automatically performed. As another example, thesuction device 100 starts the preliminary heating of theheating part 121 based on the start of the compression of thecompression part 160 . In this case, the compression by thecompression unit 160 may be performed manually or automatically.

在加热部121与基材要素之间存在间隙的情况下，从加热部121向基材部151整体的热传导率降低，难以高效地生成气溶胶。关于这一点，通过同时进行压缩与加热，能够提高加热部121与基材要素的接触面积，因此能够提高热传导率。When there is a gap between theheating part 121 and the base material element, the thermal conductivity from theheating part 121 to the wholebase material part 151 decreases, and it becomes difficult to efficiently generate the aerosol. In this regard, by simultaneously performing compression and heating, the contact area between theheating portion 121 and the base material element can be increased, and thus the thermal conductivity can be improved.

在基材部151内的基材要素间存在间隙的情况下，从加热部121向基材部151整体的热传导率降低，难以高效地生成气溶胶。关于这一点，通过同时进行压缩与加热，能够提高基材部151内的基材要素的密度，因此能够提高热传导率。When there is a gap between the base elements in thebase part 151 , the thermal conductivity from theheating part 121 to the whole of thebase part 151 decreases, and it becomes difficult to efficiently generate the aerosol. In this regard, by simultaneously performing compression and heating, the density of the base material elements in thebase material portion 151 can be increased, so that the thermal conductivity can be improved.

通过使热传导率提高，能够提高基材部151的升温效果，缩短预备加热时间。即，能够提高用户的吸取体验的质量。By increasing the thermal conductivity, the effect of increasing the temperature of thebase material portion 151 can be enhanced, and the preliminary heating time can be shortened. That is, the quality of the user's absorbing experience can be improved.

另外，吸取装置100在从压缩部160开始压缩起经过了规定时间的情况下，使压缩部160的压缩停止。换言之，吸取装置100将压缩时间控制为规定时间。压缩时间是从压缩部160开始压缩到停止的时间。通过该构成，如后面参照实验结果详细说明的那样，能够提高基材部151的升温效果，提高吸取气体内的气溶胶的成分量，减少固接以及脱离。即，能够提高用户的吸取体验的质量。In addition, thesuction device 100 stops the compression of thecompression part 160 when a predetermined time has elapsed since thecompression part 160 started to compress. In other words, thesuction device 100 controls the compression time to a predetermined time. The compression time is the time from when thecompression unit 160 starts compression to when it stops. With this configuration, as will be described in detail later with reference to experimental results, the effect of increasing the temperature of thebase material portion 151 can be increased, the amount of aerosol components in the intake gas can be increased, and the bonding and detachment can be reduced. That is, the quality of the user's absorbing experience can be improved.

＜3.基于实验结果的优选的构成＞<3. Preferred configuration based on experimental results>

本发明人们进行了与压缩部160的压缩相关的各种实验，发现了吸取装置100的优选的构成。以下，首先对在各实验中共同的实验环境进行说明。之后，对实验结果与吸取装置100的优选的构成进行说明。The inventors of the present invention conducted various experiments related to the compression of thecompression unit 160 and found a preferable configuration of thesuction device 100 . Hereinafter, an experimental environment common to each experiment will be described first. Next, the experimental results and the preferable configuration of thesuction device 100 will be described.

压缩部160的尺寸是上述的尺寸C1～C4中的某一个。压缩部160的有效压力推断为25N，压力为0.4Mpa。压缩部160的原材料是SSUS(Stainless Steel，不锈钢)材料、或者PEEK(Polyether Ether Ketone)材料。The size of thecompression part 160 is any one of the above-mentioned sizes C1 to C4. The effective pressure of thecompression part 160 is estimated to be 25N, and the pressure is 0.4Mpa. The raw material of thecompression part 160 is SSUS (Stainless Steel, stainless steel) material or PEEK (Polyether Ether Ketone) material.

加热部121是直径2.5mm的圆柱状的陶瓷加热器。加热时的加热部121的温度为350℃。加热部121从约25℃的状态上升到350℃。在棒状基材150未插入于吸取装置100的状态下，加热部121的温度瞬间上升到350℃。另一方面，在棒状基材150插入于吸取装置100的状态下，加热部121的温度上升至350℃需要约10秒左右。另外，基材部151的温度由插入于基材部151的温度传感器检测。Theheating part 121 is a cylindrical ceramic heater with a diameter of 2.5 mm. The temperature of theheating unit 121 during heating was 350°C. Theheating part 121 is raised from the state of about 25 degreeC to 350 degreeC. In a state in which the rod-shapedbase material 150 is not inserted into thesuction device 100, the temperature of theheating part 121 instantly rises to 350°C. On the other hand, when the rod-shapedbase material 150 is inserted into thesuction device 100, it takes about 10 seconds for the temperature of theheating part 121 to rise to 350°C. In addition, the temperature of thebase material portion 151 is detected by a temperature sensor inserted into thebase material portion 151 .

通过机械模拟地进行流量55cc/2秒的抽烟。抽烟以30秒间隔进行。气溶胶源是甘油。被吸取的气体(以下，也称为吸取气体)内的气溶胶的成分量通过气相色谱分析。Smoking at a flow rate of 55 cc/2 sec was carried out by mechanical simulation. Smoking takes place at 30 second intervals. The source of the aerosol is glycerol. The component amount of the aerosol in the absorbed gas (hereinafter, also referred to as absorbed gas) is analyzed by gas chromatography.

以下说明的实验结果是在同一环境以及方法中进行3次的实验结果的平均值。The experimental results described below are the average values of the experimental results performed three times in the same environment and method.

－与破裂相关的实验- Experiments related to rupture

本发明人们进行了调查压缩部160进行压缩时的破裂的产生状况的实验。破裂是棒状基材150的卷纸破裂的现象。The present inventors conducted an experiment to investigate the occurrence of cracks when thecompression portion 160 is compressed. Crack is a phenomenon in which the roll paper of the rod-shapedbase material 150 is broken.

对实验方法以及实验环境进行说明。本发明人们调查了在采用了上述表1以及表2所示的各种尺寸的吸取装置100中，从压缩部160开始压缩起15秒后开放的情况下的破裂的产生状况。气温为22℃。湿度为50％。下述的表3示出实验结果。The experimental method and experimental environment are explained. The present inventors investigated the occurrence of cracks when thesuction device 100 using the various sizes shown in Tables 1 and 2 was opened after 15 seconds from the start of compression of thecompression part 160 . The temperature is 22°C. Humidity is 50%. Table 3 below shows the experimental results.

[表3][table 3]

表3.与破裂相关的实验结果Table 3. Experimental results related to rupture

前端形状front end shapeD_S′D_S′状态stateC1(凸型)C1 (convex)6.1mm6.1mm存在压痕，但没有破裂Indentation present, but no ruptureC2(凸型)C2 (convex)5.1mm5.1mm存在破裂there is ruptureC3(凹型)C3 (concave)6.0mm6.0mm存在压痕，但没有破裂Indentation present, but no ruptureC4(凹型)C4 (concave)5.0mm5.0mm存在破裂there is rupture

上述表3中的D_S′是压缩后的基材部151的卷绕直径。D_S ′ in Table 3 above is the winding diameter of thebase material portion 151 after compression.

根据上述表3，在尺寸C1以及尺寸C3的情况下，棒状基材150存在压痕，但是没有破裂。另一方面，在尺寸C2以及C4的情况下，棒状基材150产生了破裂。另外，在棒状基材150的长度方向上，在硬度变化的位置产生了破裂。硬度的不同因内容物的不同而产生。According to the above-mentioned Table 3, in the case of the dimension C1 and the dimension C3, the rod-shapedbase material 150 has an indentation, but is not cracked. On the other hand, in the case of dimensions C2 and C4, the rod-shapedbase material 150 was cracked. In addition, in the longitudinal direction of the rod-shapedbase material 150 , cracks occurred at positions where the hardness changed. The difference in hardness is caused by the difference in the content.

根据上述实验结果，在棒状基材150的卷绕直径为7.1mm的情况下，压缩长度L_C优选为1mm以内。这是因为，在压缩长度L_C超过1mm的情况下会产生破裂。另外，根据上述实验结果，压缩长度L_C更优选为0.5mm以内。这是因为，在压缩长度L_C为0.5mm以内的情况下，不会产生破裂。另外，也可以根据棒状基材150的卷绕直径D_S适当变更压缩长度L_C。From the above-described experimental results, when the winding diameter of the rod-shapedbase material 150 is 7.1 mm, the compressed length_LC is preferably within 1 mm. This is because cracks occur when the compressed length_LC exceeds 1 mm. In addition, according to the above-mentioned experimental results, the compressed length L_C is more preferably within 0.5 mm. This is because cracks do not occur when the compressed length_LC is within 0.5 mm. In addition, the compressed length L_C may be appropriately changed according to the winding diameter D_S of the rod-shapedbase material 150 .

－与原材料相关的实验- Experiments related to raw materials

本发明人们进行了调查压缩部160的原材料与升温效果的关系的实验。The present inventors conducted an experiment to investigate the relationship between the raw material of thecompression part 160 and the effect of temperature increase.

对实验方法以及实验环境进行说明。本发明人们一边切换压缩部160的原材料以及压缩有无，一边确认了开始加热部121的预备加热之后的基材部151的温度的时间序列推移。气温是22℃。湿度是60％。The experimental method and experimental environment are explained. The inventors of the present invention confirmed the time-series transition of the temperature of thebase material portion 151 after the preliminary heating of theheating portion 121 was started while switching the raw material of thecompression portion 160 and the presence or absence of compression. The temperature is 22°C. Humidity is 60%.

图8是表示与本实施方式的吸取装置100相关的实验结果的图表。图表200的横轴是预备加热时间。预备加热时间是从开始预备加热起的经过时间。图表200的纵轴是基材部151的被加热的部位的再外壳(即，卷纸)的温度。图表200包含线201～线203。线201示出不进行由SUS(不锈钢)材料形成的压缩部160的压缩的情况下的实验结果。线202示出进行了由SUS(不锈钢)材料形成的压缩部160的压缩的情况下的实验结果。线203示出进行了由PEEK材料形成的压缩部160的压缩的情况下的实验结果。FIG. 8 is a graph showing the experimental results related to thesuction device 100 of the present embodiment. The horizontal axis of thegraph 200 is the preheating time. The preliminary heating time is the elapsed time from the start of preliminary heating. The vertical axis of thegraph 200 is the temperature of the outer casing (ie, the roll paper) of the heated portion of thebase material portion 151 . Thegraph 200 includeslines 201 to 203 .Line 201 shows the experimental results in the case where the compression of thecompression portion 160 formed of SUS (stainless steel) material is not performed. Theline 202 shows the experimental result in the case where the compression of thecompression part 160 formed of the SUS (stainless steel) material was performed.Line 203 shows experimental results in the case where compression of thecompression portion 160 formed of PEEK material was performed.

比较线201以及线202可知，在预备加热开始后0秒至约18秒的期间204，对于相同时间的基材部151的温度，线202高于线201。即，在期间204中，通过进行由SUS(不锈钢)材料形成的压缩部160的压缩，能够获得基材部151的升温效果。Comparing theline 201 and theline 202, it can be seen that theline 202 is higher than theline 201 for the temperature of thebase material portion 151 at the same time in theperiod 204 from 0 seconds to about 18 seconds after the start of the preliminary heating. That is, in theperiod 204, by performing the compression of thecompression part 160 formed of the SUS (stainless steel) material, the effect of raising the temperature of thebase material part 151 can be obtained.

比较线201以及线203可知，在预备加热开始后0秒至约70秒的期间205，对于相同时间的基材部151的温度，线203高于线201。即，在期间205，通过进行由PEEK材料形成的压缩部160的压缩，能够获得基材部151的升温效果。Comparing theline 201 and theline 203, it can be seen that theline 203 is higher than theline 201 for the temperature of thebase material portion 151 at the same time in theperiod 205 from 0 seconds to about 70 seconds after the start of the preliminary heating. That is, in theperiod 205 , by performing the compression of thecompression portion 160 formed of the PEEK material, the effect of increasing the temperature of thebase material portion 151 can be obtained.

如上述的实验结果所示，压缩部160期望的是由耐热原材料形成。作为耐热原材料的一个例子，可列举SUS(不锈钢)材料等金属材料。作为耐热原材料的其他一个例子，可列举PEEK材料等非金属材料。通过该构成，能够获得基材部151的升温效果。As shown in the above-mentioned experimental results, thecompression portion 160 is desirably formed of a heat-resistant material. As an example of a heat-resistant material, metal materials, such as SUS (stainless steel) material, are mentioned. As another example of the heat-resistant material, non-metallic materials such as PEEK materials can be mentioned. With this configuration, the effect of increasing the temperature of thebase material portion 151 can be obtained.

另外，比较线202以及线203可知，对于相同时间的基材部151的温度，线203整体高于线202。即，压缩部160的原材料为PEEK材料时相比于SUS(不锈钢)材料，能够获得更高的升温效果。认为这种差起因于热传导率。SUS(不锈钢)材料的热传导率是236Wm^－1℃^－1。PEEK材料的热传导率是0.25Wm^－1℃^－1。In addition, comparing theline 202 and theline 203, it can be seen that theline 203 is overall higher than theline 202 for the temperature of thebase material portion 151 at the same time. That is, when the raw material of thecompression part 160 is PEEK material, a higher temperature increase effect can be obtained than that of SUS (stainless steel) material. This difference is considered to be due to thermal conductivity. The thermal conductivity of SUS (stainless steel) material is 236Wm⁻¹ °C⁻¹ . The thermal conductivity of PEEK material is 0.25Wm^-1 ℃^-1 .

－确认压缩带来的升温效果的实验- Experiments to confirm the heating effect of compression

本发明人们进行了调查压缩时间与升温效果的关系的实验。The present inventors conducted experiments to investigate the relationship between the compression time and the temperature increase effect.

对实验方法以及实验环境进行说明。本发明人们一边切换压缩部160有无进行压缩、压缩时间、压缩开始的定时以及压缩部160的前端形状，一边确认了加热部121开始预备加热之后的基材部151的温度的时间序列推移。气温是22℃。湿度是60％。压缩部160由SUS(不锈钢)材料形成。The experimental method and experimental environment are described. The inventors checked the time-series transition of the temperature of thebase material portion 151 after theheating portion 121 started preliminary heating while switching the presence or absence of compression by thecompression portion 160, the compression time, the timing of starting compression, and the shape of the tip of thecompression portion 160. The temperature is 22°C. Humidity is 60%. Thecompression part 160 is formed of SUS (stainless steel) material.

图9是表示与本实施方式的吸取装置100相关的实验结果的图表。图表210的横轴是开始预备加热起的经过时间。图表210的纵轴是基材部151的被加热的部位的再外壳(即，卷纸)的温度。图表210包含线211～线217。线211示出不进行压缩部160的压缩的情况下的实验结果。线212示出始终进行了前端形状为凸型的压缩部160的压缩的情况下的实验结果。线213示出从预备加热开始起进行了5秒钟的前端形状为凸型的压缩部160的压缩的情况下的实验结果。线214示出从预备加热开始起进行了10秒钟的前端形状为凸型的压缩部160的压缩的情况下的实验结果。线215示出从预备加热开始起进行了20秒钟的前端形状为凸型的压缩部160的压缩的情况下的实验结果。线216示出从预备加热开始起进行了5秒钟的前端形状凹型的压缩部160的压缩的情况下的实验结果。线217示出在预备加热开始前由前端形状为凸型的压缩部160进行了5秒钟的压缩的情况下的实验结果。FIG. 9 is a graph showing the results of experiments related to thesuction device 100 of the present embodiment. The horizontal axis of thegraph 210 is the elapsed time since the preliminary heating was started. The vertical axis of thegraph 210 is the temperature of the outer casing (ie, the roll paper) of the heated portion of thebase material portion 151 . Thegraph 210 includeslines 211 to 217 .Line 211 shows the experimental results when the compression by thecompression unit 160 is not performed. Theline 212 shows the experimental results in the case where the compression of thecompression portion 160 whose tip shape is convex is always performed. Theline 213 shows the experimental result in the case where the compression of thecompression part 160 whose tip shape is convex was performed for 5 seconds after the preliminary heating was started. Theline 214 shows the experimental result when thecompression part 160 whose distal end shape is convex was compressed for 10 seconds from the start of the preliminary heating. Theline 215 shows the experimental result when thecompression part 160 whose distal end shape is convex was compressed for 20 seconds after the preliminary heating was started. Theline 216 shows the experimental results in the case where the compression of theconcave compression portion 160 of the distal end shape was performed for 5 seconds after the start of the preliminary heating.Line 217 shows the experimental results in the case where compression was performed for 5 seconds by thecompression portion 160 whose tip shape was convex before the preliminary heating was started.

比较线211与线217可知，对于相同时间的基材部151的温度，线211整体上高于线217。另一方面，比较线211与线212～线216可知，对于相同时间的基材部151的温度，线212～线216整体上高于线211。即，并非在压缩部160的压缩预备加热开始前，而是在预备加热开始后(例如与预备加热开始同时)实施，从而能够获得基材部151的升温效果。Comparing theline 211 and theline 217, it can be seen that theline 211 is generally higher than theline 217 for the temperature of thebase material portion 151 at the same time. On the other hand, comparing theline 211 with thelines 212 to 216, it can be seen that the temperature of thebase material portion 151 at the same time period is higher than theline 212 to theline 216 as a whole. That is, the heating effect of thebase material portion 151 can be obtained by performing not before the start of the pre-compression heating of thecompression part 160 but after the start of the pre-heating (for example, simultaneously with the start of the pre-heating).

根据上述实验结果，压缩部160的压缩期望的是在预备加热中进行。因此，吸取装置100使加热部121的加热的开始定时与压缩部160的压缩的开始定时一致。即，吸取装置100使加热部121的预备加热与压缩部160的压缩同时开始。根据该构成，能够获得适当的升温效果。当然，吸取装置100不一定需要使加热部121的加热的开始定时与压缩部160的压缩的开始定时一致，只要大致一致即可。这里的大致一致指的是加热的开始定时与压缩的开始定时之差例如在1秒以内等。根据该构成，也能够得到相同的升温效果。According to the above-described experimental results, it is desirable that the compression of thecompression unit 160 be performed during preliminary heating. Therefore, thesuction device 100 matches the start timing of heating by theheating unit 121 with the start timing of compression by thecompression unit 160 . That is, thesuction device 100 starts the preliminary heating of theheating unit 121 and the compression of thecompression unit 160 at the same time. According to this configuration, an appropriate temperature-raising effect can be obtained. Of course, thesuction device 100 does not necessarily need to match the start timing of heating by theheating unit 121 and the start timing of compression by thecompression unit 160 , but only needs to be substantially identical. The substantial coincidence here means that the difference between the start timing of heating and the start timing of compression is, for example, within 1 second. Also according to this structure, the same temperature raising effect can be acquired.

比较线211与线212～线216可知，对于相同时间的基材部151的温度，线212～线216整体上高于线211。但是，在预备加热刚开始之后的期间(例如预备加热开始后22秒为止的期间218)，温度差相对较小。另一方面，在预备加热开始后40秒以后的期间219，温度差相对较大。即，不仅在压缩中，在开放后经过长时间也能够获得升温效果。Comparing theline 211 with theline 212 to theline 216, it can be seen that the temperature of thebase material portion 151 at the same time is higher than theline 212 to theline 216 as a whole. However, the temperature difference is relatively small in the period immediately after the start of the preliminary heating (for example, theperiod 218 until 22 seconds after the preliminary heating is started). On the other hand, in theperiod 219 after 40 seconds after the start of the preliminary heating, the temperature difference is relatively large. That is, the temperature-raising effect can be obtained not only during compression but also after a long period of time after opening.

但是，比较线211与线212可知，对于相同时间的基材部151的温度，预备加热开始后到70秒为止，线212高于线211，但是在预备加热开始后70以后，线211高于线212。即，在始终压缩的情况下，在70秒以后难以获得升温效果。However, comparing theline 211 and theline 212, it can be seen that the temperature of thebase material portion 151 at the same time is higher than theline 211 until 70 seconds after the start of the preliminary heating, but theline 211 is higher than theline 211 after 70 seconds after the start of the preliminary heating.Line 212. That is, in the case of constant compression, it is difficult to obtain the effect of temperature increase after 70 seconds.

而且，比较线212与线213～线216可知，对于相同时间的基材部151的温度，线213～线216整体上高于线212。即，相比于始终压缩，压缩后在适当的定时开放能够得到更高的升温效果。Further, comparing theline 212 with thelines 213 to 216, it can be seen that the temperature of thebase material portion 151 at the same time is higher than theline 213 to theline 216 as a whole. That is, a higher temperature-raising effect can be obtained by opening at an appropriate timing after compression, compared to always compressing.

因此，吸取装置100在从压缩部160开始压缩起经过了规定时间的情况下，停止压缩部160的压缩。作为一个例子，由于线213～线215中的相同时间的基材部151的温度最高的是线214，因此在压缩部160的前端形状为凸型的情况下，期望的是使压缩时间为10秒左右。作为其他一个例子，在压缩部160的前端形状是凹型的情况下，期望的是使压缩时间为5秒左右。通过该构成，能够获得基材部151的升温效果。Therefore, thesuction device 100 stops the compression of thecompression part 160 when a predetermined time has elapsed since thecompression part 160 started to compress. As an example, since thewire 214 has the highest temperature of thebase material part 151 at the same time among thewires 213 to 215, when the shape of the tip of thecompression part 160 is convex, it is desirable to set the compression time to 10 seconds or so. As another example, when the front end shape of thecompression part 160 is a concave shape, it is desirable to set the compression time to about 5 seconds. With this configuration, the effect of increasing the temperature of thebase material portion 151 can be obtained.

－与初期抽烟中的吸取气体内的气溶胶的成分量相关的实验- Experiments related to the amount of aerosol components in the inhaled gas during initial smoking

本发明人们进行了调查压缩时间与初期抽烟中的吸取气体内的气溶胶的成分量的关系的实验。初期抽烟是第一次抽烟。The present inventors conducted an experiment to investigate the relationship between the compression time and the amount of aerosol components in the intake gas during initial smoking. The initial smoking is the first time smoking.

对实验方法以及实验环境进行说明。本发明人们一边切换压缩部160的压缩有无、压缩时间以及压缩部160的前端形状，一边确认了初期抽烟中的吸取气体内的气溶胶的成分量。气温是22℃。湿度是60％。The experimental method and experimental environment are explained. The inventors of the present invention confirmed the amount of aerosol components in the intake gas during initial smoking while switching the presence or absence of compression of thecompression unit 160, the compression time, and the shape of the front end of thecompression unit 160. The temperature is 22°C. Humidity is 60%.

图10是表示与本实施方式的吸取装置100相关的实验结果的图表。图表220的横轴是预备加热时间。图表220的纵轴是初期抽烟中的吸取气体内的气溶胶的成分量。图表220包含线221～线224。线221示出不进行压缩部160的压缩的情况下的实验结果。线222示出从预备加热开始起进行了5秒钟的前端形状为凸型的压缩部160的压缩的情况下的实验结果。线223示出从预备加热开始起进行了10秒钟的前端形状为凸型的压缩部160的压缩的情况下的实验结果。线(点)224示出从预备加热开始起进行了5秒钟的前端形状为凹型的压缩部160的压缩的情况下的实验结果。FIG. 10 is a graph showing the experimental results related to thesuction device 100 of the present embodiment. The horizontal axis of thegraph 220 is the preheating time. The vertical axis of thegraph 220 is the component amount of the aerosol in the intake gas during the initial smoking. Thegraph 220 includeslines 221 to 224 .Line 221 shows the experimental results when the compression by thecompression unit 160 is not performed. Theline 222 shows the experimental result when thecompression part 160 whose distal end shape is convex was compressed for 5 seconds from the start of the preliminary heating. Theline 223 shows the experimental result when thecompression part 160 whose distal end shape is convex was compressed for 10 seconds from the start of the preliminary heating. The line (dot) 224 shows the experimental result when thecompression part 160 whose tip shape is concave has been compressed for 5 seconds from the start of the preliminary heating.

比较线221与线223可知，在将预备加热进行20秒以上的情况下，对于吸取气体中的气溶胶的成分量，线223高于线221。在将预备加热进行20秒以上的情况下，通过将前端形状为凸型的压缩部160的压缩从预备加热开始起进行10秒钟，能够使吸取气体中的气溶胶的成分量增加。Comparing theline 221 and theline 223, when the preliminary heating is performed for 20 seconds or more, theline 223 is higher than theline 221 with respect to the component amount of the aerosol in the absorbed gas. When the preliminary heating is performed for 20 seconds or more, the amount of the aerosol component in the intake gas can be increased by performing the compression of the compressingportion 160 having a convex tip shape for 10 seconds from the start of the preliminary heating.

比较线221与线224可知，在将预备加热15秒的情况下，对于吸取气体中的气溶胶的成分量，线224高于线221。即，在将预备加热进行15秒的情况下，通过将前端形状为凹型的压缩部160的压缩从预备加热开始起进行5秒钟，能够使吸取气体中的气溶胶的成分量增加。Comparing theline 221 and theline 224, when the preliminary heating is performed for 15 seconds, theline 224 is higher than theline 221 with respect to the component amount of the aerosol in the intake gas. That is, when the preliminary heating is performed for 15 seconds, thecompression part 160 having a concave tip shape is compressed for 5 seconds from the start of the preliminary heating, thereby increasing the amount of aerosol components in the intake gas.

－与吸取气体内的气溶胶的成分量的推移相关的实验- Experiments related to changes in the amount of aerosol components in the absorbed gas

本发明人们进行了调查压缩时间与吸取气体内的气溶胶的成分量的推移的关系的实验。另外，吸取气体内的气溶胶的成分量的推移是进行了多次的抽烟的每一次的吸取气体内的气溶胶的成分量的推移。The present inventors conducted experiments to investigate the relationship between the compression time and the transition of the amount of aerosol components in the absorbed gas. In addition, the transition of the component amount of the aerosol in the inhaled gas is the transition of the component amount of the aerosol in the inhaled gas every time the smoking is performed a plurality of times.

对实验方法以及实验环境进行说明。本发明人们一边切换压缩部160的压缩有无、压缩时间、压缩部160的前端形状以及抽烟的开始定时，一边确认了每次抽烟的吸取气体内的气溶胶的成分量的推移。气温是22℃。湿度是60％。The experimental method and experimental environment are explained. The present inventors checked the transition of the amount of aerosol components in the inhaled gas for each puff while switching whether or not to compress the compressingpart 160, the compressing time, the shape of the front end of the compressingpart 160, and the start timing of smoking. The temperature is 22°C. Humidity is 60%.

图11是表示与本实施方式的吸取装置100相关的实验结果的图表。图表230的横轴是抽烟次数。图表230的纵轴是每一次抽烟的吸取气体内的气溶胶的成分量。图表230包含线231～线234。线231示出不进行压缩部160的压缩、从预备加热开始起15秒后开始抽烟的情况下的实验结果。线232示出不进行压缩部160的压缩、从预备加热开始起20秒后开始抽烟的情况下的实验结果。线233示出从预备加热开始起将前端形状为凸型的压缩部160的压缩进行10秒钟、从预备加热开始起20秒后(即，从压缩停止起10秒后)开始抽烟的情况下的实验结果。线234示出从预备加热开始起将前端形状为凹型的压缩部160的压缩进行5秒钟、从预备加热开始起15秒后(即，从压缩停止起10秒后)开始抽烟的情况下的实验结果。FIG. 11 is a graph showing the experimental results related to thesuction device 100 of the present embodiment. The horizontal axis of thegraph 230 is the number of cigarettes. The vertical axis of thegraph 230 is the amount of aerosol components in the inhaled gas per puff. Thegraph 230 includeslines 231 to 234 . Theline 231 shows the experimental results when the compression by thecompression unit 160 is not performed and smoking is started 15 seconds after the start of the preliminary heating. Theline 232 shows the experimental results when the compression by thecompression unit 160 is not performed and the smoking is started 20 seconds after the start of the preliminary heating. Theline 233 shows the case where the compression of thecompression part 160 having a convex tip shape is performed for 10 seconds from the start of the preliminary heating, and the smoking starts 20 seconds after the start of the preliminary heating (that is, 10 seconds after the compression is stopped). the experimental results. Theline 234 shows the case where thecompression part 160 with the concave tip shape is compressed for 5 seconds from the start of the preliminary heating, and the smoking starts 15 seconds after the start of the preliminary heating (that is, 10 seconds after the compression is stopped). Experimental results.

比较线231以及线232与线233可知，对于相同的抽烟次数的吸取气体内的气溶胶的成分量，线233整体上高于线231以及线232。即，通过进行前端形状为凸型的压缩部160的压缩，能够使多次抽烟内的吸取气体内的气溶胶的成分量增加。Comparing theline 231 and theline 232 with theline 233, it can be seen that the amount of the aerosol component in the inhaled gas for the same number of puffs, theline 233 is higher than theline 231 and theline 232 as a whole. That is, by compressing thecompression part 160 whose tip shape is convex, the component amount of the aerosol in the intake gas in the multiple puffs can be increased.

比较线231以及线232与线234可知，对于相同的抽烟次数的吸取气体内的气溶胶的成分量，线234整体上高于线231以及线232。即，通过进行前端形状为凹型的压缩部160的压缩，能够使多次抽烟内的吸取气体内的气溶胶的成分量增加。Comparing theline 231 and theline 232 and theline 234, it can be seen that the amount of the aerosol component in the inhaled gas for the same number of puffs, theline 234 is higher than theline 231 and theline 232 as a whole. That is, by performing compression of thecompression part 160 whose tip shape is concave, the component amount of the aerosol in the intake gas in the multiple puffs can be increased.

－与固接以及脱离相关的实验- Experiments related to attachment and detachment

本发明人们进行了调查由压缩部160进行了压缩的情况下的脱离以及固接的发生状况的实验。The inventors of the present invention conducted experiments to investigate the occurrence of detachment and fixation when thecompression unit 160 is compressed.

脱离指的是基材要素从自吸取装置100抽出的棒状基材150脱落。若发生脱离，则基材要素从使用后的棒状基材150脱落并散乱在周围，因此期望的是脱离的量较少方。The detachment means that the base material element falls off from the rod-shapedbase material 150 drawn out from thesuction device 100 . When detachment occurs, the base material element is detached from the used rod-shapedbase material 150 and scattered around, so it is desirable that the amount of detachment is small.

固接指的是基材要素固接在加热部121上。若发生固接，则用户将会被布置进行用于从吸取装置100去除固接的基材要素的清扫的任务。另外，若发生固接，则吸取气体内的气溶胶的成分量降低。而且，若发生固接，则会产生烧焦味。由于这些情况，期望的是固接的量较少的方。Fixing means that the base element is fixed on theheating part 121 . If affixation occurs, the user will be tasked with cleaning for removing the affixed substrate elements from thesuction device 100 . In addition, when the solid connection occurs, the component amount of the aerosol in the absorbed gas decreases. In addition, when a solid connection occurs, a burnt smell is produced. Due to these circumstances, a lesser amount of fixation is desired.

对实验方法以及实验环境进行说明。本发明人们一边切换压缩部160的压缩时间以及压缩部160的前端形状，一边确认了使用后的棒状基材150的状态。本发明人们在加热部121的预备加热的同时开始压缩部160的压缩，从压缩停止且成为开放状态起经过15秒后停止加热，将棒状基材150从吸取装置100抽出，确认了棒状基材150的状态。压缩部160的原材料是PEEK材料。压缩部160的尺寸为尺寸C1或者尺寸C3。气温为22℃。湿度为50％。下述的表4示出实验结果。The experimental method and experimental environment are explained. The inventors of the present invention confirmed the state of the rod-shapedbase material 150 after use while switching the compression time of thecompression part 160 and the shape of the tip of thecompression part 160 . The inventors of the present invention started the compression of thecompression part 160 at the same time as the preliminary heating of theheating part 121, stopped the heating after 15 seconds after the compression stopped and became the open state, pulled out the rod-shapedbase material 150 from thesuction device 100, and confirmed the rod-shapedbase material 150 status. The raw material of thecompression part 160 is PEEK material. The dimension of thecompression part 160 is dimension C1 or dimension C3. The temperature is 22°C. Humidity is 50%. Table 4 below shows the experimental results.

[表4][Table 4]

表4与脱离以及固接相关的实验结果Table 4 Experimental results related to detachment and fixation

脱离等级是将脱离的多少数值化了的指标。脱离等级“1”表示没有发生脱离。脱离等级“2”表示发生了少量的脱离。脱离等级“3”表示发生了大量的脱离。The detachment level is an index that quantifies the degree of detachment. A disengagement level of "1" means that no disengagement has occurred. A disengagement level of "2" indicates that a small amount of disengagement has occurred. A disengagement level of "3" indicates that a large number of disengagements have occurred.

固接等级是将固接的多少数值化了的指标。固接等级“1”表示没有发生固接。固接等级“2”表示发生了少量的固接。固接等级“3”表示发生了大量的固接。The bonding level is an index that quantifies the amount of bonding. A bonding level of "1" means that bonding has not occurred. A fixation level of "2" indicates that a small amount of fixation has occurred. A fixation level of "3" indicates that substantial fixation has occurred.

图12是将上述表4图表化了的图。图表240的横轴是压缩时间。图表240的纵轴是固接等级以及脱离等级。图表240包含线241以及线242。线241示出进行前端形状为凸型的压缩部160的压缩的情况下的实验结果。即，线241通过将上述表4中的作为前端形状采用了尺寸C1(凸型)的情况下的实验结果图表化而成。线242示出进行前端形状为凹型的压缩部160的压缩的情况下的实验结果。即，线242通过将上述表4中的作为前端形状采用了尺寸C3(凹型)的情况下的实验结果图表化而成。FIG. 12 is a graph in which the above-mentioned Table 4 is graphed. The horizontal axis of thegraph 240 is the compression time. The vertical axis of thegraph 240 is the engagement level and the disengagement level.Graph 240 includesline 241 andline 242 . Theline 241 shows the experimental results in the case of performing the compression of thecompression part 160 whose tip shape is convex. That is, theline 241 is obtained by graphing the experimental results in the case where the dimension C1 (convex shape) in the above-mentioned Table 4 is adopted as the tip shape.Line 242 shows experimental results when compression of thecompression portion 160 having a concave tip shape is performed. That is, theline 242 is obtained by graphing the experimental results in the case where the dimension C3 (concave shape) in the above-mentioned Table 4 is adopted as the tip shape.

参照线241可知，在利用前端形状为凸型的压缩部160进行压缩时的压缩时间为70秒以上的情况下，会发生大量的脱离以及固接。由此，期望的是使压缩时间为70秒以下。根据该构成，能够防止过度的脱离以及固接的发生。Referring to theline 241 , it can be seen that when the compression time at the time of compression by thecompression portion 160 having a convex tip shape is 70 seconds or more, a large number of detachment and fixation occur. Therefore, it is desirable to make thecompression time 70 seconds or less. According to this configuration, it is possible to prevent the occurrence of excessive detachment and fixation.

参照线241可知，在利用前端形状为凸型的压缩部160进行压缩时的压缩时间为60秒以下的情况下，不会发生脱离以及固接。由此，期望的是使压缩时间为60秒以下。根据该构成，能够防止脱离以及固接的发生。Referring toline 241, it can be seen that when the compression time during compression by thecompression portion 160 having a convex tip shape is 60 seconds or less, separation and fixation do not occur. Therefore, it is desirable to make thecompression time 60 seconds or less. According to this configuration, it is possible to prevent the occurrence of separation and fixation.

参照线242可知，在利用前端形状为凹型的压缩部160进行压缩时的压缩时间为15秒以上的情况下，会发生大量的脱离以及固接。由此，期望的是使压缩时间为15秒以下。根据该构成，能够防止过度的脱离以及固接的发生。Referring to theline 242, it can be seen that when the compression time during compression by thecompression portion 160 having a concave tip shape is 15 seconds or more, a large amount of detachment and fixation occur. Therefore, it is desirable to make thecompression time 15 seconds or less. According to this configuration, it is possible to prevent the occurrence of excessive detachment and fixation.

参照线242可知，在利用前端形状为凹型的压缩部160进行压缩时的压缩时间为10秒以下的情况下，发生少量的脱离以及固接。由此，期望的是使压缩时间为10秒以下。根据该构成，能够将脱离以及固接限制为少量或防止。Referring to theline 242, it can be seen that when the compression time at the time of compression by thecompression portion 160 having a concave tip shape is 10 seconds or less, a small amount of detachment and fixation occurs. Therefore, it is desirable to make thecompression time 10 seconds or less. According to this configuration, the detachment and the fixing can be limited to a small amount or prevented.

比较线241与线242可知，相比于压缩部160的前端形状为凹型，压缩部160的前端形状为凸型在相同的压缩时间内的脱离以及固接较少。由此，期望的是压缩部160的前端形状为凸型。根据该构成，能够将脱离以及固接限制为少量或防止。Comparing theline 241 and theline 242, it can be seen that compared with the concave shape of the front end of thecompression part 160, the front end shape of thecompression part 160 is convex and the detachment and fixation are less in the same compression time. Therefore, it is desirable that the front end shape of thecompression part 160 is convex. According to this configuration, the detachment and the fixing can be limited to a small amount or prevented.

＜4.处理的流程＞<4. Process flow>

图13是表示在本实施方式的吸取装置100中执行的处理的流程的一个例子的图。FIG. 13 is a diagram showing an example of the flow of processing executed in thesuction device 100 of the present embodiment.

如图13所示，首先，吸取装置100判定是否检测出指示预备加热开始的用户操作(步骤S102)。在判定为未检测出指示预备加热开始的用户操作的情况下(步骤S102：NO)，处理再次返回步骤S102。在判定为检测出指示预备加热开始的用户操作的情况下(步骤S102：NO)，吸取装置100使加热部121的预备加热开始，并且使压缩部160的压缩开始(步骤S104)。As shown in FIG. 13 , first, thesuction device 100 determines whether or not a user operation instructing the start of preliminary heating has been detected (step S102 ). When it is determined that the user operation instructing the start of preliminary heating has not been detected (step S102 : NO), the process returns to step S102 again. When it is determined that a user operation instructing the start of preliminary heating is detected (step S102 : NO), thesuction device 100 starts preliminary heating of theheating unit 121 and starts compression of the compression unit 160 (step S104 ).

接着，吸取装置100判定从开始预备加热以及压缩起是否经过了第一规定时间(步骤S106)。在判定为未经过第一规定时间的情况下(步骤S106：NO)，处理再次返回步骤S106。在判定为经过了第一规定时间的情况下(步骤S106：YES)，吸取装置100使压缩部160的压缩停止(步骤S108)。另外，第一规定时间能够基于与压缩时间相关的实验结果任意地设定。Next, thesuction device 100 determines whether or not the first predetermined time has elapsed since the preliminary heating and compression were started (step S106 ). When it is determined that the first predetermined time has not elapsed (step S106: NO), the process returns to step S106 again. When it is determined that the first predetermined time has elapsed (step S106: YES), thesuction device 100 stops the compression of the compression unit 160 (step S108). In addition, the first predetermined time can be arbitrarily set based on experimental results related to the compression time.

接下来，吸取装置100判定从开始预备加热以及压缩起是否经过了第二规定时间(步骤S110)。在判定为未经过第二规定时间的情况下(步骤S110：NO)，处理再次返回步骤S110。在判定为经过了第二规定时间的情况下(步骤S110：YES)，吸取装置100使加热部121的加热停止(步骤S112)。第二规定时间作为一个例子，能够任意地设定为第一规定时间以上的值。Next, thesuction device 100 determines whether or not a second predetermined time has elapsed since the preliminary heating and compression were started (step S110 ). When it is determined that the second predetermined time has not elapsed (step S110: NO), the process returns to step S110 again. When it is determined that the second predetermined time has elapsed (step S110: YES), thesuction device 100 stops the heating of the heating unit 121 (step S112). As an example, the second predetermined time can be arbitrarily set to a value equal to or longer than the first predetermined time.

＜5.补充＞＜5. Supplement＞

以上，一边参照添附的附图，一边详细说明本发明的优选的实施方式，但本发明并不限定于该例。如果是本发明所属的技术领域中的具有通常的知识的人员，则可理解，在权利要求书所记载的技术思想的范畴内明显可以想到各种变更例或者修正例，且它们也当然属于本发明的技术范围。As mentioned above, although preferred embodiment of this invention was described in detail, referring attached drawing, this invention is not limited to this example. It can be understood by those with ordinary knowledge in the technical field to which the present invention pertains that various modifications or corrections can be conceived within the scope of the technical idea described in the claims, and these also belong to the present invention. The technical scope of the invention.

例如在上述实施方式中，作为爪部161的前端形状的一个例子，列举了凸型的圆弧形状以及凹型的圆弧形状，但本发明并不限定于该例子。例如爪部161的前端形状可以是平面，也可以是球体。另外，爪部161的尺寸并不限定于上述表1以及表2所示的例子。例如表1以及表2所示的各种尺寸也可以在固定比率的同时进行扩大缩小。For example, in the above-described embodiment, a convex arc shape and a concave arc shape are cited as examples of the tip shape of the claw portion 161 , but the present invention is not limited to this example. For example, the shape of the tip of the claw portion 161 may be a plane or a spherical shape. In addition, the size of the claw portion 161 is not limited to the examples shown in Table 1 and Table 2 above. For example, the various dimensions shown in Tables 1 and 2 may be enlarged or reduced while fixing the ratio.

例如上述说明了使加热时的加热部121的温度为350℃的实验结果，但加热时的加热部121的温度并不限定于350℃。作为一个例子，加热时的加热部121的温度也可以是310℃。当然，加热时的加热部121的温度也可以是300℃或者320℃等其他任意的温度，也可以根据从加热开始起的经过时间使时间序列变化。For example, the result of the experiment in which the temperature of theheating unit 121 during heating was set to 350°C was described above, but the temperature of theheating unit 121 during heating is not limited to 350°C. As an example, the temperature of theheating unit 121 during heating may be 310°C. Of course, the temperature of theheating unit 121 during heating may be any other temperature such as 300° C. or 320° C., and the time series may be changed according to the elapsed time from the start of heating.

例如在上述实施方式中，说明了吸取装置100在从开始压缩部160的压缩起经过了规定时间的情况下使压缩部160的压缩停止的例子，但本发明并不限定于该例子。例如吸取装置100也可以基于用户吸取了气溶胶的次数控制使压缩部160的压缩停止的定时。具体而言，也可以是，吸取装置100使压缩部160的压缩持续进行，直到抽烟次数达到规定次数为止，在抽烟次数达到规定次数的情况下，使压缩部160的压缩停止而使棒状基材150开放。如上述参照实验结果说明的那样，相比于始终压缩，在压缩后适当的定时开放能够获得更高的升温效果。作为其主要原因之一，考虑到通过使棒状基材150开放而减少向爪部161的热传导，棒状基材150的温度提高。另一方面，认为抽烟次数越增加，棒状基材150含有的气溶胶源越被消耗而减少，且气溶胶的生成量减少。关于这一点，根据该构成，利用伴随着棒状基材150的开放所引起的升温的气溶胶生成量的增加，抵消伴随着抽烟次数的增加的气溶胶生成量的降低，能够抑制吸取气体内的气溶胶的成分量的降低。因而，能够防止伴随着加热开始后的时间经过的口味的降低，能够提高用户的吸取体验的质量。For example, in the above-described embodiment, thesuction device 100 has been described as an example in which the compression of thecompression unit 160 is stopped when a predetermined time has elapsed from the start of the compression of thecompression unit 160 , but the present invention is not limited to this example. For example, thesuction device 100 may control the timing to stop the compression of thecompression unit 160 based on the number of times the user has sucked the aerosol. Specifically, thesuction device 100 may continue the compression of thecompression part 160 until the number of puffs reaches a predetermined number of times, and when the number of puffs reaches a predetermined number of times, the compression of thecompression part 160 may be stopped and the rod-shaped base material may be stopped. 150 open. As explained above with reference to the experimental results, a higher temperature-raising effect can be obtained by opening at an appropriate timing after compression, compared to always compressing. As one of the factors, it is considered that by opening the rod-shapedbase 150, the heat conduction to the claw portion 161 is reduced, and the temperature of the rod-shapedbase 150 is increased. On the other hand, it is considered that the more the number of smokings increases, the more the aerosol source contained in the rod-shapedbase material 150 is consumed and decreases, and the generated amount of the aerosol decreases. In this regard, according to this configuration, the decrease in the amount of aerosol generated due to the increase in the number of puffs is offset by the increase in the amount of aerosol generated due to the temperature rise caused by the opening of the rod-shapedbase 150, and the amount of the aerosol in the inhaled gas can be suppressed. Reduction in the amount of aerosol components. Therefore, it is possible to prevent a decrease in taste accompanying the elapse of time after the start of heating, and to improve the quality of the user's inhalation experience.

另外，在本说明书中说明的各装置的一系列的处理也可以使用软件、硬件以及软件与硬件的组合中的某一个来实现。构成软件的程序例如预先储存于在各装置的内部或者外部设置的记录介质(非暂时性的介质：non-transitory media)。而且，各程序例如在计算机执行时被读入到RAM且由CPU等处理器执行。上述记录介质例如是磁盘、光盘、光磁盘、闪存等。另外，上述的计算机程序也可以不使用记录介质，而是例如经由网络分发。In addition, a series of processing of each apparatus described in this specification may be implemented using any one of software, hardware, and a combination of software and hardware. A program constituting the software is stored in advance in, for example, a recording medium (non-transitory medium) provided inside or outside each device. Further, each program is read into RAM when executed by a computer, for example, and executed by a processor such as a CPU. The above-mentioned recording medium is, for example, a magnetic disk, an optical disk, a magneto-optical disk, a flash memory, or the like. In addition, the above-mentioned computer program may be distributed via a network, for example, without using a recording medium.

另外，在本说明书中使用流程图以及序列图说明的处理也可以不必一定以图示的顺序执行。几个处理步骤也可以并行执行。另外，也可以采用追加的处理步骤，也可以省略一部分处理步骤。In addition, the processes described using the flowcharts and the sequence diagrams in this specification may not necessarily be executed in the order shown in the drawings. Several processing steps can also be performed in parallel. In addition, additional processing steps may be employed, or some of the processing steps may be omitted.

附图标记说明Description of reference numerals

100 吸取装置100 suction device

111 电源部111 Power Section

112 传感器部112 Sensor section

113 通知部113 Notification Department

114 存储部114 Storage

115 通信部115 Communications Department

116 控制部116 Control Department

121 加热部121 Heating section

140 保持部140 Retention Department

141 内部空间141 Interior space

142 开口142 Openings

143 底部143 Bottom

150 棒状基材150 Rod substrates

151 基材部151 Base material

152 吸口部152 Suction mouth

160 压缩部160 Compression Section

161 爪部161 Claws

162 基部162 base

171 缘部171 Edge

172 内壁部172 Inner wall

173 第一开口部173 First opening

174 第一旋转部174 The first rotating part

175 第二旋转部175 Second rotating part

176 第二开口部176 Second opening

177 第一底部177 First Bottom

178 第二底部178 Second Bottom

179 内壁面179 Inner wall

190 压缩方向190 Compression direction

191 插拔方向191 Insertion direction

191A 插入方向191A Insertion direction

191B 抽出方向191B Extraction direction

192 旋转方向192 Rotation direction

192A 右旋转方向192A Right rotation direction

192B 左旋转方向192B Left rotation direction

Claims (18)

Translated fromChinese

1.一种吸取装置，通过加热基材而生成被用户吸取的气溶胶，其特征在于，所述吸取装置具备：1. A suction device for generating an aerosol sucked by a user by heating a substrate, wherein the suction device comprises:加热部，其插入于所述基材的内部，并加热所述基材，所述基材插入于在所述吸取装置形成的内部空间；a heating part inserted into the interior of the base material, which is inserted into the inner space formed in the suction device, and heats the base material;压缩部，其从外周向所述加热部的方向压缩被加热部分，该被加热部分是所述基材中的被所述加热部加热的部分；以及a compressing portion that compresses a portion to be heated in the direction of the heating portion from the outer circumference, the heated portion being a portion of the base material heated by the heating portion; and控制部，其基于所述加热部的加热以及所述压缩部的压缩的中一方的开始而使另一方开始。A control unit that starts the heating of the heating unit and the compression of the compression unit based on the start of the other.2.根据权利要求1所述的吸取装置，其特征在于，2. The suction device according to claim 1, characterized in that,所述控制部使所述加热部的加热的开始定时与所述压缩部的压缩的开始定时一致或者大致一致。The control unit may match or substantially match the start timing of heating by the heating unit and the start timing of compression by the compression unit.3.根据权利要求1或2所述的吸取装置，其特征在于，3. The suction device according to claim 1 or 2, characterized in that,所述压缩部通过沿所述加热部的方向移动而压缩所述基材。The compression part compresses the base material by moving in the direction of the heating part.4.根据权利要求3所述的吸取装置，其特征在于，4. The suction device according to claim 3, characterized in that,所述压缩部中的所述加热部的方向的前端面的剖面形状为凸型。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part is convex.5.根据权利要求4所述的吸取装置，其特征在于，5. The suction device according to claim 4, characterized in that,所述压缩部中的所述加热部的方向的前端面的剖面形状为凸型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part is a convex arc shape.6.根据权利要求5所述的吸取装置，其特征在于，6. The suction device according to claim 5, characterized in that,所述压缩部中的所述加热部的方向的前端面的剖面形状是半径为1mm、宽度为2mm的凸型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part was a convex arc shape with a radius of 1 mm and a width of 2 mm.7.根据权利要求3所述的吸取装置，其特征在于，7. The suction device according to claim 3, characterized in that,所述压缩部中的所述加热部的方向的前端面的剖面形状为凹型。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part is concave.8.根据权利要求7所述的吸取装置，其特征在于，8. The suction device according to claim 7, characterized in that,所述压缩部中的所述加热部的方向的前端面的剖面形状为凹型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part is a concave arc shape.9.根据权利要求8所述的吸取装置，其特征在于，9. The suction device according to claim 8, characterized in that,所述压缩部中的所述加热部的方向的前端面的剖面形状是半径为3mm、宽度为5mm的凹型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part was a concave arc shape with a radius of 3 mm and a width of 5 mm.10.根据权利要求8所述的吸取装置，其特征在于，10. The suction device according to claim 8, characterized in that,所述压缩部中的所述加热部的方向的前端面的剖面形状是半径为2.5mm、宽度为5mm的凹型的圆弧形状。The cross-sectional shape of the front end surface of the compression part in the direction of the heating part was a concave arc shape with a radius of 2.5 mm and a width of 5 mm.11.根据权利要求3至10中任一项所述的吸取装置，其特征在于，11. The suction device according to any one of claims 3 to 10, characterized in that,所述基材的卷绕直径为7.1mm，The winding diameter of the base material is 7.1 mm,在所述压缩部进行压缩时，所述压缩部的前端面接触所述基材的外周然后移动的长度为1mm以内。When the compression part is compressed, the length of the front end surface of the compression part that contacts the outer periphery of the base material and then moves is within 1 mm.12.根据权利要求3至11中任一项所述的吸取装置，其特征在于，12. The suction device according to any one of claims 3 to 11, characterized in that,所述吸取装置具有三个所述压缩部，The suction device has three of the compression parts,三个所述压缩部分别从不同的三个方向压缩所述基材。The three compression parts respectively compress the base material from three different directions.13.根据权利要求1至12中任一项所述的吸取装置，其特征在于，13. The suction device according to any one of claims 1 to 12, characterized in that,所述压缩部由耐热原材料形成。The compression portion is formed of a heat-resistant raw material.14.根据权利要求1至13中任一项所述的吸取装置，其特征在于，14. The suction device according to any one of claims 1 to 13, characterized in that,所述控制部使所述压缩部开始压缩到停止为止的时间为70秒以下。The control unit controls the time from when the compression unit starts to compress to stop being 70 seconds or less.15.根据权利要求1至13中任一项所述的吸取装置，其特征在于，15. The suction device according to any one of claims 1 to 13, characterized in that,所述控制部使所述压缩部开始压缩到停止为止的时间为10秒以下。The control unit controls the time from when the compression unit starts to compress to stop being 10 seconds or less.16.根据权利要求1至15中任一项所述的吸取装置，其特征在于，16. The suction device according to any one of claims 1 to 15, characterized in that,所述控制部基于用户吸取了气溶胶的次数来控制使所述压缩部的压缩停止的定时。The control unit controls the timing to stop the compression of the compression unit based on the number of times the user has sucked the aerosol.17.一种信息处理方法，其特征在于，其包含在吸取装置中基于加热部的加热以及压缩部的压缩中的一方的开始而使另一方开始的步骤，17. An information processing method comprising, in the suction device, a step of starting one of the heating by the heating unit and the compression by the compressing unit to start the other,所述吸取装置通过加热基材而生成被用户吸取的气溶胶，且具备：The suction device generates aerosol sucked by the user by heating the substrate, and has:所述加热部，其插入于所述基材的内部，并加热所述基材，所述基材插入于在所述吸取装置形成的内部空间；以及the heating portion inserted into the interior of the base material, which is inserted into the inner space formed in the suction device, and heats the base material; and所述压缩部，其从外周向所述加热部的方向压缩被加热部分，该被加热部分是所述基材中的被所述加热部加热的部分。The compressing portion compresses a portion to be heated in the direction of the heating portion from the outer periphery, and the heated portion is a portion of the base material heated by the heating portion.18.一种程序，其特征在于，其使控制吸取装置的计算机作为控制部发挥功能，18. A program that causes a computer that controls a suction device to function as a control unit,所述吸取装置通过加热基材而生成被用户吸取的气溶胶，且具备：The suction device generates aerosol sucked by the user by heating the substrate, and has:加热部，其插入于所述基材的内部，且加热所述基材，所述基材插入于在所述吸取装置形成的内部空间；以及a heating section which is inserted into the interior of the base material, which is inserted into the inner space formed in the suction device, and heats the base material; and压缩部，其从外周向所述加热部的方向压缩被加热部分，该被加热部分是所述基材中的被所述加热部加热的部分，a compression part that compresses a portion to be heated in the direction of the heating portion from the outer periphery, and the heated portion is a portion of the base material heated by the heating portion,所述控制部基于所述加热部的加热以及所述压缩部的压缩中的一方的开始而使另一方开始。The control unit starts one of the heating by the heating unit and the compression by the compression unit to start the other.

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