WO2023125859A1 - Atomizer and electronic atomization device - Google Patents

Abstract

The present invention relates to the technical field of electronic atomization. Disclosed are an atomizer and an electronic atomization device. The atomizer comprises: a liquid guide element, comprising an atomization surface and a liquid adsorption surface; a heating element, configured to heat a liquid matrix adsorbed by the liquid guide element to generate aerosol; and a first bracket, comprising a partition part, a first chamber, and a second chamber, wherein the partition part separates the first chamber from the second chamber, and comprises a first through hole communicating the first chamber with the second chamber. The liquid guide element is at least partially accommodated in the second chamber, and the atomization surface faces the first chamber, wherein the atomization surface is used for allowing the aerosol to escape and enter the first chamber through the first through hole. By means of the method, the liquid guide element can be conveniently placed in the second chamber from bottom to top through a lower opening; in addition, the first support having such a structure can be easily demolded from a corresponding mold after being formed, so that the complexity of the mold for forming the first support can be reduced, thereby improving the mass productivity of the first support.

Description

雾化器和电子雾化装置Nebulizers and Vaping Devices

相关文件的交叉引用Cross References to Related Documents

本申请要求2021年12月31日向中国国家知识产权局递交的申请号为202111669779.2，名称为“雾化器和电子雾化装置”的在先申请的优先权，上述在先申请的内容以引入的方式并入本文本中。This application claims the priority of the earlier application with the application number 202111669779.2 and titled "atomizer and electronic atomization device" submitted to the State Intellectual Property Office of China on December 31, 2021. manner incorporated into this text.

技术领域technical field

本发明涉及电子雾化技术领域，尤其涉及一种雾化器；本发明还涉及一种具有上述雾化器的电子雾化装置。The present invention relates to the technical field of electronic atomization, and in particular to an atomizer; the present invention also relates to an electronic atomization device with the above-mentioned atomizer.

背景技术Background technique

电子雾化装置是一种将例如烟油、药液等液体加热雾化成气雾以供吸食使用的电子产品。An electronic atomization device is an electronic product that heats and atomizes liquids such as smoke oil and liquid medicine into aerosol for smoking.

电子雾化装置可包括雾化器和电源组件，所述电源组件用于为所述雾化器供电；所述雾化器可包括雾化芯组件和储液仓，所述雾化芯组件在发热时将液体雾化，所述储液仓用于给所述雾化芯组件供应待加热雾化的液体。The electronic atomization device may include an atomizer and a power supply assembly, and the power supply assembly is used to supply power to the atomizer; the atomizer may include an atomization core assembly and a liquid storage chamber, and the atomization core assembly is The liquid is atomized when heat is generated, and the liquid storage bin is used to supply the liquid to be heated and atomized to the atomizing core assembly.

电子雾化装置通常采用多孔陶瓷体作为吸取液体的毛细导液元件吸取液体基质，并通过设置在多孔陶瓷体的雾化面上的加热元件来加热多孔陶瓷体内的至少部分液体基质生成气溶胶。Electronic atomization devices generally use a porous ceramic body as a capillary fluid-conducting element for absorbing liquid to absorb liquid matrix, and heat at least part of the liquid matrix in the porous ceramic body through a heating element arranged on the atomizing surface of the porous ceramic body to generate an aerosol.

在相关电子雾化装置中，用于收容和支撑导液元件的支架通常采用塑料一体注塑成型。In related electronic atomization devices, the bracket used to accommodate and support the liquid guiding element is usually integrally injection-molded with plastic.

然而，由于这种支架通常设计成一端敞口，另一端封闭的容器形状，并且还会包括弯曲的进液通道，这使得不易对成型后的支架进行脱模，因此导致用于成型这种支架的模具设计比较复杂，进而不易提高支架的量产性。However, since this kind of bracket is usually designed in the shape of a container with one end open and the other end closed, and also includes a curved liquid inlet channel, it is difficult to demould the molded bracket, so it is difficult to mold this bracket. The mold design is more complex, and it is not easy to improve the mass production of the bracket.

发明内容Contents of the invention

本发明旨在提供一种雾化器和具有上述雾化器的电子雾化装置，以解决目前雾化器中支架的模具设计比较复杂的技术问题。The present invention aims to provide an atomizer and an electronic atomization device having the above-mentioned atomizer, so as to solve the technical problem that the mold design of the bracket in the atomizer is relatively complicated at present.

本发明解决其技术问题采用以下技术方案：一种雾化器，其包括：导液元 件，所述导液元件包括雾化面和吸液面；加热元件，用于加热所述导液元件所吸收的至少部分液体基质以生成气溶胶；第一支架，所述第一支架包括分隔部、具有上开口的第一腔室和具有下开口的第二腔室；所述分隔部将所述第一腔室和所述第二腔室间隔开，且所述分隔部包括连通所述第一腔室和所述第二腔室的第一通孔。其中，所述导液元件至少部分收容在所述第二腔室内，且所述雾化面朝向所述第一腔室；所述雾化面用于供所述气溶胶逸出并通过所述第一通孔进入所述第一腔。The present invention adopts the following technical solutions to solve its technical problems: an atomizer, which includes: a liquid-guiding element, the liquid-guiding element including an atomizing surface and a liquid-absorbing surface; Absorbed at least part of the liquid matrix to generate an aerosol; a first support comprising a partition, a first chamber with an upper opening and a second chamber with a lower opening; the partition divides the first A chamber is spaced apart from the second chamber, and the partition includes a first through hole communicating the first chamber and the second chamber. Wherein, the liquid guiding element is at least partially accommodated in the second chamber, and the atomizing surface faces the first chamber; the atomizing surface is used for the aerosol to escape and pass through the A first through hole enters the first cavity.

在优选的实施中，所述雾化面的一部分通过所述分隔部的第一通孔暴露于所述第一腔室。In a preferred implementation, a part of the atomizing surface is exposed to the first chamber through the first through hole of the partition.

在优选的实施中，所述加热元件设置在所述雾化面被暴露的该部分上。In a preferred implementation, the heating element is arranged on the exposed portion of the atomizing surface.

在优选的实施中，所述第一支架还包括下液通道，所述下液通道自所述第一支架的上端向下延伸，并且从侧部连通所述第二腔室，进而能够使液体基质流动至所述导液元件的吸液面。In a preferred implementation, the first bracket further includes a lower liquid channel, the lower liquid channel extends downward from the upper end of the first bracket, and communicates with the second chamber from the side, thereby allowing the liquid to The substrate flows to the absorbent surface of the liquid conducting element.

在优选的实施中，所述雾化器还包括第一密封件，所述第一密封件的至少一部分位于所述导液元件和所述第二腔室的内壁之间，用于将所述雾化面和所述吸液面密封隔离。In a preferred implementation, the atomizer further includes a first sealing member, at least a part of the first sealing member is located between the liquid guiding element and the inner wall of the second chamber for sealing the The atomizing surface is sealed and isolated from the liquid-absorbing surface.

在优选的实施中，所述第二腔室的内壁包括相对纵向倾斜的第一斜面，所述第一密封件包括第二斜面，所述第一斜面与所述第二斜面贴合配合。In a preferred implementation, the inner wall of the second chamber includes a first slope that is relatively longitudinally inclined, the first sealing member includes a second slope, and the first slope fits snugly with the second slope.

在优选的实施中，所述第一密封件包括第一部分，所述第一部分覆盖所述雾化面的边缘部分，并且所述第一部分抵接到所述分隔部上。In a preferred implementation, the first sealing member includes a first portion, the first portion covers an edge portion of the atomizing surface, and the first portion abuts against the partition.

在优选的实施中，所述导液元件内部具有贯穿该导液元件的通道，所述导液元件上界定所述通道的至少部分内表面构成所述吸液面。In a preferred implementation, the inside of the liquid guiding element has a channel passing through the liquid guiding element, and at least part of the inner surface of the liquid guiding element defining the channel constitutes the liquid absorbing surface.

在优选的实施中，所述第一腔室的横截面积小于所述第二腔室的横截面积。In a preferred implementation, the cross-sectional area of the first chamber is smaller than the cross-sectional area of the second chamber.

在优选的实施中，所述雾化器包括第二密封件，所述第二密封件包括内筒部和外筒部，所述内筒部***所述第一腔室，并与所述第一腔室的内壁贴合配合，所述外筒部围绕所述第一支架的上端，并与所述上端的外壁贴合配合。In a preferred implementation, the atomizer includes a second sealing member, the second sealing member includes an inner cylinder portion and an outer cylinder portion, the inner cylinder portion is inserted into the first chamber, and is connected to the first chamber The inner wall of a cavity fits snugly, and the outer cylinder part surrounds the upper end of the first bracket and fits snugly with the outer wall of the upper end.

在优选的实施中，所述内筒部上还设有朝向所述雾化面延伸且邻近所述雾化面的阻挡臂。In a preferred implementation, the inner cylinder part is further provided with a blocking arm extending toward the atomizing surface and adjacent to the atomizing surface.

在优选的实施中，所述加热元件的发热部分位于两个阻挡臂之间。In a preferred implementation, the heating part of the heating element is located between two blocking arms.

在优选的实施中，所述雾化器还包括主壳体，所述主壳体限定液体收容空 间，并且具有位于所述主壳体内的气溶胶通道。其中，所述第一支架与所述主壳体连接，使得所述气溶胶通道与所述第一腔室流体连通。In a preferred implementation, the atomizer further includes a main housing, the main housing defines a liquid storage space, and has an aerosol channel located in the main housing. Wherein, the first bracket is connected to the main housing, so that the aerosol channel is in fluid communication with the first chamber.

在优选的实施中，所述气溶胶通道由烟气输出管道限定，所述烟气输出管道的自由端上设有朝向所述雾化面延伸且邻近所述雾化面的阻挡臂。In a preferred implementation, the aerosol channel is defined by a smoke output pipe, and a free end of the smoke output pipe is provided with a blocking arm extending toward the atomization surface and adjacent to the atomization surface.

本发明解决其技术问题还采用以下技术方案：一种电子雾化装置，包括将雾化液体基质生成气溶胶的雾化器、以及为所述雾化器供电的电源组件；所述雾化器包括任一以上所述的雾化器。The present invention also adopts the following technical solutions to solve its technical problems: an electronic atomization device, including an atomizer for generating an aerosol from an atomized liquid substrate, and a power supply assembly for powering the atomizer; the atomizer Including any nebulizer described above.

本发明的有益效果是：本发明实施例的雾化器中，通过将第一支架设置成包括分隔部、具有上开口的第一腔室和具有下开口的第二腔室，从而便于将导液元件自下而上经由下开口放置在所述第二腔室内；而且，对于这种结构的第一支架，其相应的模具容易对成型后的第一支架进行脱模，从而能够降低用于成型第一支架的模具的复杂性，进而可提高第一支架的量产性。The beneficial effects of the present invention are: in the atomizer of the embodiment of the present invention, by setting the first bracket to include a partition, a first chamber with an upper opening and a second chamber with a lower opening, it is convenient to insert the guide The liquid element is placed in the second chamber from bottom to top through the lower opening; and, for the first bracket of this structure, its corresponding mold is easy to demould the molded first bracket, thereby reducing the need for The complexity of the mold for forming the first bracket can further improve the mass production of the first bracket.

附图说明Description of drawings

一个或多个实施例通过与之对应的附图进行示例性说明，这些示例性说明并不构成对实施例的限定，附图中具有相同参考数字标号的元件表示为类似的元件，除非有特别申明，附图中的图不构成比例限制。One or more embodiments are exemplified by the corresponding drawings, and these exemplifications are not construed as limiting the embodiments. Elements with the same reference numerals in the drawings represent similar elements, unless otherwise specified Note that the drawings in the drawings are not limited to scale.

图1为本发明一实施例提供的雾化器的一个立体组装示意图；Fig. 1 is a three-dimensional assembly diagram of an atomizer provided by an embodiment of the present invention;

图2为图1所示雾化器的另一个立体组装示意图；Fig. 2 is another three-dimensional assembly diagram of the atomizer shown in Fig. 1;

图3为图1所示雾化器的一个截面示意图；Fig. 3 is a schematic cross-sectional view of the atomizer shown in Fig. 1;

图4为图1所示雾化器的另一个截面示意图；Fig. 4 is another schematic cross-sectional view of the atomizer shown in Fig. 1;

图5为图1所示雾化器的一个立体分解示意图；Fig. 5 is a three-dimensional exploded schematic diagram of the atomizer shown in Fig. 1;

图6为图5所示雾化器的另一个立体分解示意图；Fig. 6 is another three-dimensional exploded schematic view of the atomizer shown in Fig. 5;

图7为图5所示雾化器的雾化芯组件的一个立体分解示意图；Fig. 7 is a three-dimensional exploded schematic diagram of the atomizing core assembly of the atomizer shown in Fig. 5;

图8为图7所示雾化器的雾化芯组件的另一个立体分解示意图；Fig. 8 is another exploded perspective view of the atomizing core assembly of the atomizer shown in Fig. 7;

图9为图5所示雾化器的第二支架和第二电极弹片的一个立体分解示意图；Fig. 9 is a three-dimensional exploded schematic diagram of the second bracket and the second electrode shrapnel of the atomizer shown in Fig. 5;

图10为图9所示雾化器的第二支架和第二电极弹片的另一个立体分解示意图。Fig. 10 is another exploded perspective view of the second bracket and the second electrode shrapnel of the atomizer shown in Fig. 9 .

具体实施方式Detailed ways

为了便于理解本发明，下面结合附图和具体实施例，对本发明进行更详细的说明。需要说明的是，当元件被表述“固定于”另一个元件，它可以直接在另一个元件上、或者其间可以存在一个或多个居中的元件。当一个元件被表述“连接”另一个元件，它可以是直接连接到另一个元件、或者其间可以存在一个或多个居中的元件。本说明书所使用的术语“垂直的”、“水平的”、“左”、“右”、“内”、“外”以及类似的表述只是为了说明的目的。In order to facilitate the understanding of the present invention, the present invention will be described in more detail below in conjunction with the accompanying drawings and specific embodiments. It should be noted that when an element is said to be "fixed" to another element, it may be directly on the other element, or there may be one or more intervening elements therebetween. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or one or more intervening elements may be present therebetween. The terms "vertical", "horizontal", "left", "right", "inner", "outer" and similar expressions are used in this specification for the purpose of description only.

除非另有定义，本说明书所使用的所有的技术和科学术语与属于本发明的技术领域的技术人员通常理解的含义相同。在本发明的说明书中所使用的术语只是为了描述具体的实施例的目的，不是用于限制本发明。本说明书所使用的术语“和/或”包括一个或多个相关的所列项目的任意的和所有的组合。Unless otherwise defined, all technical and scientific terms used in this specification have the same meaning as commonly understood by one of ordinary skill in the technical field of the invention. Terms used in the description of the present invention are only for the purpose of describing specific embodiments, and are not used to limit the present invention. The term "and/or" used in this specification includes any and all combinations of one or more of the associated listed items.

此外，下面所描述的本发明不同实施例中所涉及的技术特征只要彼此之间未构成冲突就可以相互结合。In addition, the technical features involved in different embodiments of the present invention described below may be combined with each other as long as they do not constitute a conflict with each other.

参阅图1和图2所示，其为本发明一实施例提供的雾化器200的两个立体组装示意图。雾化器200内可存储有液体基质，其用于在通电工作时对液体基质进行加热汽化以生成气溶胶。雾化器200可与为其供电的电源组件组成能被用户直接使用的电子雾化装置。液体基质例如可为烟油、药液等液体；本文中，液体基质亦可称为液体，汽化亦可称为雾化，气溶胶亦可称为烟气、气雾或雾化气。Refer to FIG. 1 and FIG. 2 , which are two perspective assembly diagrams of an atomizer 200 provided by an embodiment of the present invention. A liquid base can be stored in the atomizer 200, which is used to heat and vaporize the liquid base to generate an aerosol when it is powered on. The atomizer 200 can form an electronic atomization device that can be directly used by the user together with the power supply component that supplies power to the atomizer 200 . The liquid base can be, for example, e-liquid, liquid medicine and other liquids; herein, the liquid base can also be called liquid, vaporization can also be called atomization, and aerosol can also be called smoke, aerosol or atomized gas.

参阅图3至图6所示，其为图1所示雾化器200的两个截面示意图和两个立体分解示意图。雾化器200可包括雾化芯组件100和主壳体90。所述主壳体90限定液体收容空间91，并且具有位于所述主壳体90内的气溶胶通道，气溶胶通道用于与雾化芯组件100流体连通，并且将所生成的气溶胶向外部输出。例如，气溶胶通道可由烟气输出管道92限定，所述烟气输出管道92具有自由端93。主壳体90大致被构造成中空的筒状，并具有位于近端的吸气口94；其具有位于远端的敞口，进而通过敞口便于在主壳体90内部装配各功能部件。雾化芯组件100与主壳体90配合安装，用于接收来自液体收容空间91的液体基质。Refer to FIG. 3 to FIG. 6 , which are two cross-sectional schematic diagrams and two perspective exploded schematic diagrams of the atomizer 200 shown in FIG. 1 . The atomizer 200 may include an atomizing core assembly 100 and a main casing 90 . The main casing 90 defines a liquid containing space 91, and has an aerosol channel located in the main casing 90, the aerosol channel is used for fluid communication with the atomizing core assembly 100, and the generated aerosol to the outside output. For example, the aerosol passage may be defined by a smoke output duct 92 having a free end 93 . The main casing 90 is roughly configured as a hollow cylinder, and has a suction port 94 at the proximal end; The atomizing core assembly 100 is installed in cooperation with the main casing 90 for receiving the liquid matrix from the liquid storage space 91 .

参阅图7和图8所示，其为雾化器200中雾化芯组件100的两个立体分解示意图。在一些实施例中，结合图3、图7和图8所示，雾化芯组件100可包括导液元件10、加热元件20和第一支架30。所述导液元件10包括雾化面11和 吸液面12。所述加热元件20可设置在所述雾化面11上，并用于加热所述导液元件10所吸收的至少部分液体基质生成气溶胶。所述第一支架30包括分隔部31、具有上开口33的第一腔室32和具有下开口35的第二腔室34。所述分隔部31将所述第一腔室32和所述第二腔室34间隔开，且所述分隔部31包括连通所述第一腔室32和所述第二腔室34的第一通孔36。其中，所述导液元件10至少部分收容在所述第二腔室34内，且所述雾化面11朝向所述第一腔室32。所述雾化面11用于供所述气溶胶逸出并通过所述第一通孔36进入所述第一腔室32。例如，所述第一腔室32可与雾化器200的烟气输出管道92连通，以便将所产生的气溶胶经由所述烟气输出管道92排出。所述导液元件10可全部收容在所述第二腔室34，或者是可设置成使雾化面11的一部分位于第一通孔36内，甚至是位于第一腔室32内。Refer to FIG. 7 and FIG. 8 , which are two exploded perspective views of the atomizing core assembly 100 in the atomizer 200 . In some embodiments, as shown in FIG. 3 , FIG. 7 and FIG. 8 , the atomizing core assembly 100 may include a liquid guiding element 10 , a heating element 20 and a first bracket 30 . The liquid guiding element 10 includes an atomizing surface 11 and a liquid absorbing surface 12. The heating element 20 can be arranged on the atomizing surface 11 and used for heating at least part of the liquid matrix absorbed by the liquid guiding element 10 to generate an aerosol. The first bracket 30 includes a partition 31 , a first chamber 32 with an upper opening 33 and a second chamber 34 with a lower opening 35 . The partition 31 separates the first chamber 32 from the second chamber 34 , and the partition 31 includes a first chamber communicating the first chamber 32 and the second chamber 34 . through hole 36 . Wherein, the liquid guiding element 10 is at least partially accommodated in the second chamber 34 , and the atomizing surface 11 faces the first chamber 32 . The atomizing surface 11 is used for the aerosol to escape and enter the first chamber 32 through the first through hole 36 . For example, the first chamber 32 may communicate with the smoke output pipe 92 of the nebulizer 200 so as to discharge the generated aerosol through the smoke output pipe 92 . The liquid guiding element 10 can be completely accommodated in the second chamber 34 , or can be arranged so that a part of the atomizing surface 11 is located in the first through hole 36 , or even located in the first chamber 32 .

所述导液元件10可由具有毛细通道或孔隙的材料制备，例如由纤维棉、多孔陶瓷体、玻纤绳、多孔玻璃陶瓷、多孔玻璃等硬质或刚性毛细结构制成。所述导液元件10与液体收容空间91是流体连通的，以吸取自液体收容空间91输送的液体基质。导液元件10的雾化面11可为其朝向烟气输出管道92的上表面，该上表面优选是沿主壳体90的横截面延伸的平面。吸液面12可与雾化面11相背设置。The liquid guiding element 10 can be made of materials with capillary channels or pores, such as fiber wool, porous ceramic body, glass fiber rope, porous glass ceramics, porous glass and other hard or rigid capillary structures. The liquid guiding element 10 is in fluid communication with the liquid containing space 91 to absorb the liquid matrix delivered from the liquid containing space 91 . The atomizing surface 11 of the liquid guiding element 10 can be its upper surface facing the flue gas output pipe 92 , and the upper surface is preferably a plane extending along the cross section of the main casing 90 . The liquid-absorbing surface 12 can be arranged opposite to the atomizing surface 11 .

所述加热元件20可是电阻发热的形式，其加热所述导液元件10所吸收的至少部分液体基质所生成气溶胶从雾化面11逸出后可释放至烟气输出管道92内。例如，所述加热元件20可通过贴装、印刷、沉积等方式形成于导液元件10的雾化面11上。加热元件20在一些实施例中可采用不锈钢、镍铬合金、铁铬铝合金、金属钛等材质。根据图7所示，加热元件20是呈蜿蜒、迂回等图案化的导电轨迹，并且可在两端包括导电端子21；所述导电端子21可呈垫片的形式，其可具有方形、圆形、椭圆形等形状。The heating element 20 can be in the form of resistance heating, and the aerosol generated by heating at least part of the liquid matrix absorbed by the liquid guiding element 10 can be released into the smoke output pipe 92 after escaping from the atomizing surface 11 . For example, the heating element 20 can be formed on the atomizing surface 11 of the liquid guiding element 10 by attaching, printing, depositing and the like. In some embodiments, the heating element 20 can be made of materials such as stainless steel, nickel-chromium alloy, iron-chromium-aluminum alloy, and metal titanium. As shown in FIG. 7 , the heating element 20 is a patterned conductive trace such as meandering and detour, and may include conductive terminals 21 at both ends; the conductive terminals 21 may be in the form of pads, which may have square, round shape, ellipse etc.

在其他一些实施例中，加热元件20也可是电磁感应的元件形式，或者是红外辐射非接触加热。除了可将电阻线路或者不锈钢片形式的加热元件20结合在雾化面上之外，加热元件20也可至少部分嵌入在导液元件10内，例如在靠近雾化面11的位置至少部分嵌入在导液元件10内。In some other embodiments, the heating element 20 may also be in the form of an electromagnetic induction element, or non-contact heating by infrared radiation. In addition to the resistance circuit or the heating element 20 in the form of a stainless steel sheet can be combined on the atomizing surface, the heating element 20 can also be at least partially embedded in the liquid guiding element 10, for example, at least partially embedded in a position close to the atomizing surface 11 Inside the liquid guiding element 10.

在此实施例的雾化器200中，通过将第一支架30设置成包括分隔部31、具有上开口33的第一腔室32和具有下开口35的第二腔室34，从而便于将导液元 件10自下而上经由下开口35放置在所述第二腔室34内；而且，对于这种结构的第一支架30，其相应的模具容易对成型后的第一支架30进行脱模，从而能够降低用于成型第一支架30的模具的复杂性，进而可提高第一支架30的量产性。In the atomizer 200 of this embodiment, by setting the first bracket 30 to include a partition 31, a first chamber 32 with an upper opening 33 and a second chamber 34 with a lower opening 35, it is convenient to insert the guide The liquid element 10 is placed in the second chamber 34 through the lower opening 35 from bottom to top; and, for the first bracket 30 of this structure, its corresponding mold is easy to demould the first bracket 30 after molding , so that the complexity of the mold used to form the first bracket 30 can be reduced, and the mass production of the first bracket 30 can be improved.

另外，通过将导液元件10的雾化面11设置成朝向烟气输出管道92，使得雾化面11面向吸气口94设置，雾化面11上的加热元件20产生热量，使得雾化面11上的液体吸收热量并雾化，所产生的烟雾无需绕经导液元件10本身，而是直接进入烟气输出管道92的吸气通道，并直至抵达吸气口94以被用户抽吸，从而减少烟雾绕经雾化芯本身时所产生的损耗，确保单位时间内有足够的烟雾量被用户有效吸收，从而提高电子雾化装置在单位时间内所产生的有效烟雾量。并且，雾化面11到吸气口94的距离相对较小，使得烟雾到吸气口94所流经的路径最短，同样能减少烟雾在吸气通道中的损耗，进一步保证电子雾化装置在单位时间内所产生的有效烟雾量。In addition, by setting the atomizing surface 11 of the liquid guiding element 10 towards the smoke output pipe 92, so that the atomizing surface 11 is set facing the suction port 94, the heating element 20 on the atomizing surface 11 generates heat, so that the atomizing surface The liquid on 11 absorbs heat and atomizes, and the generated smoke does not need to go around the liquid guiding element 10 itself, but directly enters the suction channel of the smoke output pipe 92, and reaches the suction port 94 to be sucked by the user. In this way, the loss generated when the smoke passes through the atomizing core itself is reduced, and a sufficient amount of smoke is effectively absorbed by the user per unit time, thereby increasing the effective amount of smoke generated by the electronic atomization device per unit time. Moreover, the distance from the atomizing surface 11 to the suction port 94 is relatively small, so that the path for the smoke to flow to the suction port 94 is the shortest, which can also reduce the loss of the smoke in the suction channel, and further ensure that the electronic atomization device is The effective amount of smoke produced per unit time.

在一些实施例中，结合图3和图7所示，所述雾化面11的一部分通过所述分隔部31的第一通孔36暴露于所述第一腔室32。例如，所述雾化面11可设置成与第一通孔36正对设置，从而使得分隔部31对应雾化面11的边缘部分，而第一通孔36将雾化面11的其他大部分表面露出，也就是能够从第一腔室32看到雾化面11的大部分表面。以此方式，使得在雾化面11生成的气溶胶能够经由第一通孔36和第一腔室32向烟气输出管道92排放。In some embodiments, as shown in FIG. 3 and FIG. 7 , a part of the atomizing surface 11 is exposed to the first chamber 32 through the first through hole 36 of the partition 31 . For example, the atomizing surface 11 can be set to face the first through hole 36, so that the partition 31 corresponds to the edge portion of the atomizing surface 11, and the first through hole 36 divides most of the atomizing surface 11 The surface is exposed, that is, most of the surface of the atomizing surface 11 can be seen from the first chamber 32 . In this way, the aerosol generated on the atomizing surface 11 can be discharged to the smoke output pipe 92 through the first through hole 36 and the first chamber 32 .

在一些实施例中，结合图3和图7所示，所述加热元件20设置在所述雾化面11被暴露的该部分上。以此方式，可使得在雾化面11生成的气溶胶能够直接经由第一通孔36排放到第一腔室32。In some embodiments, as shown in FIG. 3 and FIG. 7 , the heating element 20 is disposed on the exposed portion of the atomizing surface 11 . In this way, the aerosol generated on the atomizing surface 11 can be directly discharged into the first chamber 32 through the first through hole 36 .

在一些实施例中，结合图3和图7所示，所述第一支架30还包括下液通道37，所述下液通道37自所述第一支架30的上端向下延伸，并且从侧部连通所述第二腔室34，进而能够使液体基质流动至所述导液元件10的吸液面12。下液通道37用于在上端与液体收容空间91连通，并且在下端与第二腔室34连通。例如，下液通道37可在下端邻近第二腔室34的边侧形成侧部开口37A，从而能够与第二腔室34连通。侧部开口37A可相对于雾化面11垂直或是倾斜设置。以此方式，经下液通道37向下输送的液体基质可通过侧部开口37A沿横向流向至第二腔室34，尤其是流向第二腔室34内的导液元件10的吸液面12。In some embodiments, as shown in FIG. 3 and FIG. 7 , the first bracket 30 further includes a lower liquid channel 37 , and the lower liquid channel 37 extends downward from the upper end of the first bracket 30 and extends from the side The part communicates with the second chamber 34 , so that the liquid matrix can flow to the liquid-absorbing surface 12 of the liquid-guiding element 10 . The lower liquid channel 37 is used to communicate with the liquid receiving space 91 at the upper end, and communicate with the second chamber 34 at the lower end. For example, the lower liquid channel 37 can form a side opening 37A at a side adjacent to the second chamber 34 at the lower end, so as to be able to communicate with the second chamber 34 . The side opening 37A can be arranged vertically or obliquely relative to the atomizing surface 11 . In this way, the liquid matrix conveyed downward through the lower liquid channel 37 can flow laterally to the second chamber 34 through the side opening 37A, especially to the liquid-absorbing surface 12 of the liquid-guiding element 10 in the second chamber 34 .

在上述实施例中，通过设置所述下液通道37，例如烟液的液体可经过所述 下液通道37进入导液元件10，并通过毛细现象向上导入导液元件10的雾化面11进行雾化，烟油的雾化量完全是通过毛细现象供给，中间过程中液体不会向下漏液，防漏液效果较好。In the above-mentioned embodiment, by setting the lower liquid channel 37, the liquid such as e-liquid can enter the liquid guide element 10 through the lower liquid channel 37, and be guided upward to the atomization surface 11 of the liquid guide element 10 through the capillary phenomenon. Atomization, the atomization amount of e-liquid is completely supplied through capillary phenomenon, the liquid will not leak downward during the middle process, and the effect of anti-leakage is better.

在一些实施例中，结合图3和图7所示，所述雾化芯器200还包括第一密封件40，所述第一密封件40的至少一部分位于所述导液元件10和所述第二腔室34的内壁34A之间，用于将所述雾化面11和所述吸液面12密封隔离。也就是，第一密封件40用于使得液体收容空间91提供的液体仅能够通过吸液面12进入导液元件10内，再输送到雾化面11。所述第一密封件40可大体呈杯状，使得所述导液元件10可被容置在杯状第一密封件40的凹陷内。所述第一密封件40还在左侧和右侧的密封件侧壁开设进液口44，使得所述吸液面12通过所述进液口44与外部连通，进而在组装时连通至所述液体收容空间91。所述第一密封件40可为密封硅胶材质制成。In some embodiments, as shown in FIG. 3 and FIG. 7 , the atomizing core 200 further includes a first sealing member 40, at least a part of the first sealing member 40 is located between the liquid guiding element 10 and the Between the inner walls 34A of the second chamber 34 is used to seal and isolate the atomizing surface 11 and the liquid absorbing surface 12 . That is, the first sealing member 40 is used to make the liquid provided by the liquid receiving space 91 only enter the liquid guiding element 10 through the liquid absorbing surface 12 , and then be transported to the atomizing surface 11 . The first sealing member 40 may be substantially cup-shaped, so that the liquid-guiding element 10 may be accommodated in the recess of the cup-shaped first sealing member 40 . The first seal 40 also has liquid inlets 44 on the left and right side walls of the seal, so that the liquid suction surface 12 communicates with the outside through the liquid inlets 44, and then communicates with the outside when assembled. The above-mentioned liquid storage space 91. The first sealing member 40 can be made of sealing silicone material.

在一些实施例中，结合图3和图8所示，所述第二腔室34的内壁34A包括相对纵向倾斜的第一斜面34B。所述第一密封件40包括第二斜面41，所述第一斜面34B与所述第二斜面41贴合配合。例如，所述第二腔室34的左右两侧均可随着向下延伸而逐渐远离所述导液元件10，从而使得所述第二腔室34呈扩口形状。另外，所述第二腔室34底部的开口可具有一致的横截面积。所述第一密封件40的外部轮廓可与第二腔室34的形状大致互补，以便密封配合。从而，通过设置所述第一斜面34B与所述第二斜面41，可便于将收容有导液元件10的第一密封件40放置在第二腔室34内，并且有利于增强导液元件10与第一支架30之间的密封；另外，通过将侧部开口37A开设在第一斜面34B上，有利于第一支架30在制造时沿上下行程脱模。In some embodiments, as shown in FIG. 3 and FIG. 8 , the inner wall 34A of the second chamber 34 includes a first slope 34B inclined relative to the longitudinal direction. The first sealing member 40 includes a second slope 41 , and the first slope 34B fits snugly with the second slope 41 . For example, the left and right sides of the second chamber 34 can gradually move away from the liquid guiding element 10 as they extend downward, so that the second chamber 34 has a flaring shape. In addition, the opening at the bottom of the second chamber 34 may have a uniform cross-sectional area. The outer contour of the first seal 40 may be substantially complementary to the shape of the second chamber 34 for a sealing fit. Therefore, by setting the first inclined surface 34B and the second inclined surface 41, it is convenient to place the first sealing member 40 containing the liquid guiding element 10 in the second chamber 34, and it is beneficial to strengthen the liquid guiding element 10. Sealing with the first bracket 30 ; in addition, opening the side opening 37A on the first slope 34B facilitates demoulding of the first bracket 30 along the up and down stroke during manufacture.

在一些实施例中，结合图3和图7所示，所述第一密封件40包括第一部分42，所述第一部分42覆盖所述雾化面11的边缘部分13，并且所述第一部分42抵接到所述分隔部31上。以此方式，可将导液元件10固定地保持在第一密封件40内；并且，可在安装导液元件10时，通过第一密封件40的第一部分42抵接分隔部31，防止导液元件10与第一支架30直接硬性接触。In some embodiments, as shown in FIG. 3 and FIG. 7 , the first sealing member 40 includes a first portion 42 , the first portion 42 covers the edge portion 13 of the atomizing surface 11 , and the first portion 42 abuts against the partition 31 . In this way, the liquid guiding element 10 can be fixedly held in the first sealing member 40; The liquid element 10 is in direct rigid contact with the first bracket 30 .

在一些实施例中，结合图3和图7所示，所述导液元件10内部具有贯穿该导液元件10的通道14，所述导液元件10上界定所述通道14的至少部分内表面构成所述吸液面12。例如，所述导液元件10可为方管形，其内部具有左 右贯穿的通道14。所述导液元件10整体可呈方形，并且在其内部开设左右贯穿的通道14；从而，导液元件10的顶部表面可作为雾化面11，通道14的上方表面可作为吸液面12；另外，通道14的左右表面和下方表面也均可作为吸液面。通道14的两端开口分别对应第一密封件40的左右两端的进液口44，两个进液口44则分别对应第一支架30的两个侧部开口37A。以此方式，可在左右两侧同时向导液元件10内输送液体基质。In some embodiments, as shown in FIG. 3 and FIG. 7 , the inside of the liquid guiding element 10 has a channel 14 passing through the liquid guiding element 10 , and at least part of the inner surface of the channel 14 is defined on the liquid guiding element 10 The liquid absorption surface 12 is formed. For example, the liquid guiding element 10 can be in the shape of a square tube, with channels 14 running through it left and right. The liquid guiding element 10 can be in a square shape as a whole, and a channel 14 penetrating left and right is opened inside it; thus, the top surface of the liquid guiding element 10 can be used as the atomizing surface 11, and the upper surface of the channel 14 can be used as the liquid absorbing surface 12; In addition, the left and right surfaces and the bottom surface of the channel 14 can also be used as liquid-absorbing surfaces. Openings at both ends of the channel 14 respectively correspond to the liquid inlets 44 at the left and right ends of the first seal 40 , and the two liquid inlets 44 correspond to the two side openings 37A of the first bracket 30 . In this way, the liquid matrix can be delivered into the liquid guide element 10 simultaneously on the left and right sides.

在一些实施例中，结合图3、图7和图8所示，所述第一腔室32的横截面积可设置成小于所述第二腔室34的横截面积。例如，在雾化面11的长度方向上，所述第一腔室32的长度可小于所述第二腔室34的长度；此时，在下液通道37和第一腔室32之间的间隔壁的厚度可厚于在下液通道37和第二腔室34之间的间隔壁的厚度；该长度方向可与通道14的延伸方向平行。备选地或者进一步地，在雾化面11的宽度方向上，所述第一腔室32的长度可小于所述第二腔室34的长度。以此方式，可尽量减小第一腔室32的壁面与烟气输出管道92之间的距离，进而达到减少不断生成的气溶胶在第一腔室32内滞留的效果；相应地，用户可以获得更好的烟雾口感。In some embodiments, as shown in FIG. 3 , FIG. 7 and FIG. 8 , the cross-sectional area of the first chamber 32 can be set to be smaller than the cross-sectional area of the second chamber 34 . For example, in the length direction of the atomizing surface 11, the length of the first chamber 32 can be smaller than the length of the second chamber 34; The thickness of the partition wall may be thicker than that between the lower liquid channel 37 and the second chamber 34 ; the length direction may be parallel to the extending direction of the channel 14 . Alternatively or further, in the width direction of the atomizing surface 11 , the length of the first chamber 32 may be smaller than the length of the second chamber 34 . In this way, the distance between the wall surface of the first chamber 32 and the flue gas output pipe 92 can be reduced as much as possible, thereby achieving the effect of reducing the retention of continuously generated aerosols in the first chamber 32; correspondingly, the user can Get a better smoke taste.

在一些实施例中，结合图3、图7和图8所示，所述雾化器200包括第二密封件50。所述第二密封件50包括内筒部51和外筒部52，所述内筒部51***所述第一腔室32，并与所述第一腔室32的内壁32A贴合配合。所述外筒部52围绕所述第一支架30的上端，并与所述上端的外壁贴合配合。第二密封件50还可包括顶部通孔54和顶部插孔55，其中顶部通孔54用于连通液体收容空间91和下液通道37，顶部插孔55用于供烟气输出管道92的自由端93***其中。通过设置第二密封件50，可在第一支架30和主壳体90之间形成密封，使得液体收容空间91内的液体基质仅可通过下液通道37输送至吸液面12。In some embodiments, as shown in FIG. 3 , FIG. 7 and FIG. 8 , the atomizer 200 includes a second sealing member 50 . The second sealing member 50 includes an inner cylinder part 51 and an outer cylinder part 52 , the inner cylinder part 51 is inserted into the first chamber 32 and fits snugly with the inner wall 32A of the first chamber 32 . The outer cylinder portion 52 surrounds the upper end of the first bracket 30 and fits closely with the outer wall of the upper end. The second sealing member 50 may also include a top through hole 54 and a top insertion hole 55, wherein the top through hole 54 is used to communicate with the liquid storage space 91 and the lower liquid passage 37, and the top insertion hole 55 is used for the free opening of the smoke output pipe 92. End 93 is inserted therein. By providing the second sealing member 50 , a seal can be formed between the first bracket 30 and the main casing 90 , so that the liquid matrix in the liquid storage space 91 can only be transported to the liquid absorption surface 12 through the lower liquid channel 37 .

在一些实施例中，结合图3和图8所示，所述内筒部51上还设有朝向所述雾化面11延伸且邻近所述雾化面11的阻挡臂53。所述阻挡臂53可用于减少所生成的气溶胶在所述阻挡臂53与所述第一腔室32的内壁32A之间滞留。所述阻挡臂53可延伸到所述第一通孔36内。通过设置阻挡臂53，在所述阻挡臂53与所述第一腔室32的内壁32A之间的空间较小，且气流趋于不流通；从而，在雾化面11上生成的气溶胶基本不会往阻挡臂53与内壁32A之间的空间内流动，进而达到减少不断生成的气溶胶在此空间滞留的效果；相应地，用户 可以获得更好的烟雾口感。In some embodiments, as shown in FIG. 3 and FIG. 8 , the inner cylinder portion 51 is further provided with a blocking arm 53 extending toward the atomizing surface 11 and adjacent to the atomizing surface 11 . The barrier arm 53 can be used to reduce the stagnation of the generated aerosol between the barrier arm 53 and the inner wall 32A of the first chamber 32 . The blocking arm 53 can extend into the first through hole 36 . By arranging the blocking arm 53, the space between the blocking arm 53 and the inner wall 32A of the first chamber 32 is relatively small, and the airflow tends not to circulate; thus, the aerosol generated on the atomizing surface 11 is basically It will not flow into the space between the blocking arm 53 and the inner wall 32A, thereby achieving the effect of reducing the stagnation of the continuously generated aerosol in this space; correspondingly, the user can obtain a better smoke taste.

在一些实施例中，结合图3和图7所示，所述加热元件20的发热部分位于两个阻挡臂53之间。所述加热元件20的发热部分包括位于两个导电端子21之间的导线。以此方式，可使得气溶胶能够直接生成在两个阻挡臂53之间的空间内，进而可直接排放到烟气输出管道92内。In some embodiments, as shown in FIG. 3 and FIG. 7 , the heating part of the heating element 20 is located between two blocking arms 53 . The heating part of the heating element 20 includes a wire located between two conductive terminals 21 . In this way, the aerosol can be directly generated in the space between the two barrier arms 53 , and then can be directly discharged into the smoke output pipe 92 .

在一些实施例中，结合图3、图7和图8所示，所述第一支架30包括侧壁30A和具有下开口35的第二腔室34，所述侧壁30A上开设有电极通孔30B。雾化芯组件100还可包括第一电极弹片60，所述第一电极弹片60包括依次连接的第一弯折部61、连接部62和第二弯折部63，所述第一弯折部61和第二弯折部63均相对于所述连接部62弯折设置。其中，在所述导液元件10收容在所述第二腔室34后，所述第一弯折部61可穿过所述电极通孔30B而进入所述第二腔室34，所述第二弯折部63可位于所述导液元件10的一侧并用于对所述导液元件10提供支撑以使得所述导液元件10保持在所述第二腔室34中。容易理解的是，当第一弯折部61穿过电极通孔30B进入第二腔室34后，第一电极弹片60即插设在第一支架30上；进一步地，当导液元件10被第二弯折部63支撑时，即可实现通过第一电极弹片60将导液元件10悬挂在第二腔室34内。所述第一电极弹片60可是由片状的金属基材弯折后形成的。In some embodiments, as shown in FIG. 3 , FIG. 7 and FIG. 8 , the first bracket 30 includes a side wall 30A and a second chamber 34 with a lower opening 35 , and an electrode channel is opened on the side wall 30A. Hole 30B. The atomizing core assembly 100 may also include a first electrode elastic piece 60, the first electrode elastic piece 60 includes a first bent portion 61, a connecting portion 62 and a second bent portion 63 connected in sequence, the first bent portion 61 and the second bending portion 63 are bent relative to the connecting portion 62 . Wherein, after the liquid guiding element 10 is accommodated in the second chamber 34, the first bending portion 61 can enter the second chamber 34 through the electrode through hole 30B, and the first The two bent portions 63 can be located on one side of the liquid guiding element 10 and are used to support the liquid guiding element 10 so that the liquid guiding element 10 is kept in the second chamber 34 . It is easy to understand that when the first bent portion 61 passes through the electrode through hole 30B and enters the second chamber 34, the first electrode shrapnel 60 is inserted on the first support 30; further, when the liquid guiding element 10 is When supported by the second bending portion 63 , the liquid guiding element 10 can be suspended in the second chamber 34 through the first electrode elastic piece 60 . The first electrode elastic sheet 60 may be formed by bending a sheet metal base material.

在其他一些实施例中，可不用在侧壁30A上开设电极通孔30B；而是，可采用其他方式将第一电极弹片60与第一支架30进行相对安装，只要能使第一弯折部61的至少一部分伸入第二腔室34内与加热元件20接触即可。例如，可自第一支架30的顶端下凹形成凹槽，以供第一弯折部61通过并进入第二腔室34内；或者，可使第一弯折部61绕过第一支架30的顶端并进入第二腔室34内。In some other embodiments, it is not necessary to open the electrode through hole 30B on the side wall 30A; instead, other ways can be used to install the first electrode spring 60 and the first bracket 30 relative to each other, as long as the first bending part can At least a part of 61 protrudes into the second chamber 34 and contacts the heating element 20 . For example, the top end of the first bracket 30 can be recessed to form a groove for the first bent portion 61 to pass through and enter the second chamber 34; or, the first bent portion 61 can be made to bypass the first bracket 30 and into the second chamber 34.

在一些实施例中，结合图7和图8所示，所述第一弯折部61的自由端64可抵压在所述加热元件20上。第一弯折部61的自由端64可作为导电触点，从而可借助第一电极弹片60的弹性而抵压在加热元件20的导电端子21上。第一电极弹片60的数量可为两个，从而通过两个自由端64分别与加热元件20的两个导电端子21导电接触，实现电流的输送。In some embodiments, as shown in FIG. 7 and FIG. 8 , the free end 64 of the first bent portion 61 can press against the heating element 20 . The free end 64 of the first bent portion 61 can be used as a conductive contact, so that it can be pressed against the conductive terminal 21 of the heating element 20 by virtue of the elasticity of the first electrode elastic piece 60 . The number of the first electrode springs 60 may be two, so that the two free ends 64 are respectively in conductive contact with the two conductive terminals 21 of the heating element 20 to realize the transmission of electric current.

在一些实施例中，结合图7和图8所示，所述第二弯折部63至少一部分的宽度大于所述连接部62的宽度。以此方式，可提高第二弯折部63的支撑稳定性。In some embodiments, as shown in FIG. 7 and FIG. 8 , the width of at least a part of the second bent portion 63 is greater than the width of the connecting portion 62 . In this way, the support stability of the second bent portion 63 can be improved.

在一些实施例中，结合图3、图5、图9和图10所示，其中图9和图10为图5所示雾化器200的第二支架70和第二电极弹片80的两个立体分解示意图；所述雾化芯组件100包括第二支架70，所述第一支架30安装在所述第二支架70上。所述第二支架70上设置有第二电极弹片80，所述第一电极弹片60与所述第二电极弹片80导电连接。例如，所述第一支架30的两相对外侧可设有卡块，所述第二支架70的两相对内侧可设有卡槽，从而可将二者卡扣连接。第二电极弹片80可与第二支架70注塑成型为一体结构，并且第二电极弹片80的一部分露出第二支架70，以便与第一电极弹片60的例如第二弯折部63导电接触。所述第二电极弹片80可是由片状的金属基材弯折后形成的。In some embodiments, as shown in FIG. 3 , FIG. 5 , FIG. 9 and FIG. 10 , wherein FIG. 9 and FIG. 10 are two of the second bracket 70 and the second electrode shrapnel 80 of the atomizer 200 shown in FIG. 5 An exploded perspective view; the atomizing core assembly 100 includes a second bracket 70 on which the first bracket 30 is installed. The second bracket 70 is provided with a second electrode elastic piece 80 , and the first electrode elastic piece 60 is electrically connected to the second electrode elastic piece 80 . For example, two opposite outer sides of the first bracket 30 may be provided with locking blocks, and two opposite inner sides of the second bracket 70 may be provided with locking slots, so that the two can be snap-connected. The second electrode elastic piece 80 can be integrally formed by injection molding with the second bracket 70 , and a part of the second electrode elastic piece 80 exposes the second bracket 70 so as to be in conductive contact with, for example, the second bent portion 63 of the first electrode elastic piece 60 . The second electrode elastic sheet 80 may be formed by bending a sheet metal base material.

在一些实施例中，结合图3、图8、图9和图10所示，所述第二弯折部63包括水平部分65和向下延伸部66，所述水平部分65对所述导液元件10提供例如向上的支撑力，所述向下延伸部66与所述第二支架70上的第二电极弹片80接触。以此方式，便于在完成组装后，通过弹性接触而实现部件间的导电连接。In some embodiments, as shown in FIG. 3 , FIG. 8 , FIG. 9 and FIG. 10 , the second bent portion 63 includes a horizontal portion 65 and a downwardly extending portion 66 , and the horizontal portion 65 guides the liquid The element 10 provides, for example, an upward supporting force, and the downward extension 66 is in contact with the second electrode spring 80 on the second bracket 70 . In this way, it is convenient to realize the conductive connection between the parts through the elastic contact after the assembly is completed.

在一些实施例中，结合图3、图6、图9和图10所示，所述第二电极弹片80的一部分81从所述第二支架70上的侧方向外暴露，用于与电子雾化装置的电源组件导电接触。例如，所述第二电极弹片80的一部分81可设置成竖直定向，并且在第二支架70的侧向露出，从而便于与电源组件的弹性导电端子导电接触。第二电极弹片80的数量可为两个，并且可分别设置在第二支架70的左右两侧，并且使得外露的两个部分81彼此平行设置。In some embodiments, as shown in FIG. 3 , FIG. 6 , FIG. 9 and FIG. 10 , a part 81 of the second electrode shrapnel 80 is exposed from the side of the second bracket 70 to communicate with the electronic mist. Conductive contacts to the power supply components of the device. For example, a part 81 of the second electrode elastic piece 80 can be arranged to be oriented vertically and exposed on the side of the second support 70, so as to facilitate conductive contact with the elastic conductive terminal of the power supply component. The number of the second electrode elastic pieces 80 may be two, and they may be arranged on the left and right sides of the second bracket 70 respectively, so that the two exposed parts 81 are arranged parallel to each other.

在一些实施例中，结合图3和图9所示，所述第一电极弹片60的数量为两个；所述第二支架70包括间隔部73，所述间隔部73将两个所述第一电极弹片60隔开。例如，间隔部73可在第二支架70内自底部向上延伸，并位于两个第一电极弹片60的第二弯折部63之间。以此方式，可防止第一电极弹片60与第一支架30安装到第二支架70上时，因两个第一电极弹片60的接触而导致的短路。In some embodiments, as shown in FIG. 3 and FIG. 9 , the number of the first electrode shrapnel 60 is two; the second bracket 70 includes a spacer 73 , and the spacer 73 divides the two An electrode shrapnel 60 separates them. For example, the spacer portion 73 may extend upward from the bottom in the second bracket 70 and be located between the second bent portions 63 of the two first electrode elastic pieces 60 . In this way, a short circuit caused by contact between the two first electrode elastic pieces 60 can be prevented when the first electrode elastic pieces 60 and the first bracket 30 are installed on the second bracket 70 .

在一些实施例中，结合图3、图6、图9和图10所示，所述第一密封件40还包括覆盖所述导液元件10部分表面的密封底部43，所述第二弯折部63抵压在所述密封底部43上。所述密封底部43可呈浅口容器形状，以便收容导液元件10的底部，从而可防止液体经导液元件10向下泄漏。借助第一电极弹片60的弹性力，可使得第二弯折部63抵压在所述密封底部43上，进而将导液元件 10夹持在第一电极弹片60的第一弯折部61与第二弯折部63之间。In some embodiments, as shown in FIG. 3 , FIG. 6 , FIG. 9 and FIG. 10 , the first sealing member 40 further includes a sealing bottom 43 covering part of the surface of the liquid guiding element 10 , and the second bent The portion 63 is pressed against the sealing bottom 43 . The sealing bottom 43 can be in the shape of a shallow container to accommodate the bottom of the liquid guiding element 10 , thereby preventing the liquid from leaking downward through the liquid guiding element 10 . With the help of the elastic force of the first electrode elastic piece 60, the second bent portion 63 can be pressed against the sealing bottom 43, and then the liquid guiding element 10 is clamped between the first bent portion 61 and the first electrode elastic piece 60. between the second bent portion 63 .

在一些实施例中，结合图3、图9和图10所示，所述第二支架70可开设进气口71，该进气口71与第二支架70的内部空间72连通。再如图7和图8所示，第一支架30的侧壁30A还可开设通气孔30C，通气孔30C连通第一支架30的外部与第二腔室34的内部空间。从而，当第一支架30安装在第二支架70内后，第二支架70的内部空间72可通过通气孔30C与第一支架30的内部空间连通。In some embodiments, as shown in FIG. 3 , FIG. 9 and FIG. 10 , the second bracket 70 may define an air inlet 71 , and the air inlet 71 communicates with the inner space 72 of the second bracket 70 . As shown in FIG. 7 and FIG. 8 , the side wall 30A of the first bracket 30 can also define a ventilation hole 30C, and the ventilation hole 30C communicates the outside of the first bracket 30 with the inner space of the second chamber 34 . Therefore, when the first bracket 30 is installed in the second bracket 70 , the inner space 72 of the second bracket 70 can communicate with the inner space of the first bracket 30 through the air hole 30C.

在一实施例中，结合图3和图8所示，雾化器200还可包括主壳体90。其中，所述第一支架30与所述主壳体90连接，使得所述主壳体90的气溶胶通道与所述第一腔室32流体连通。例如，可使所述主壳体90的烟气输出管道92的自由端93***所述第一腔室32内。以此方式，可通过主壳体90限定的液体收容空间91给雾化芯组件100提供待雾化的液体基质，并且所生成的气溶胶可通过烟气输出管道92输送到雾化器200外部，以供用户吸食。In an embodiment, as shown in FIG. 3 and FIG. 8 , the atomizer 200 may further include a main housing 90 . Wherein, the first bracket 30 is connected with the main housing 90 , so that the aerosol channel of the main housing 90 is in fluid communication with the first chamber 32 . For example, the free end 93 of the flue gas output pipe 92 of the main casing 90 can be inserted into the first chamber 32 . In this way, the atomizing core assembly 100 can be provided with a liquid matrix to be atomized through the liquid containing space 91 defined by the main housing 90 , and the generated aerosol can be delivered to the outside of the atomizer 200 through the smoke output pipe 92 , for the user to smoke.

在一实施例中，与图8所示的阻挡臂53类似，所述烟气输出管道92的自由端93上还可设有朝向所述雾化面11延伸的阻挡臂。所述阻挡臂可用于减少所生成的气溶胶在所述阻挡臂与所述第一腔室32的内壁32A之间滞留。所述阻挡臂延伸到所述第一通孔36内。在此实施例中，第二密封件50则可不设置前述的阻挡臂53。In an embodiment, similar to the blocking arm 53 shown in FIG. 8 , the free end 93 of the flue gas output pipe 92 may also be provided with a blocking arm extending toward the atomizing surface 11 . The barrier arm can be used to reduce the stagnation of generated aerosol between the barrier arm and the inner wall 32A of the first chamber 32 . The blocking arm extends into the first through hole 36 . In this embodiment, the second sealing member 50 may not be provided with the aforementioned blocking arm 53 .

再如图1和图2所示，在雾化器200的吸气口94可插设密封塞95，并且可在第二支架70的进气口71贴设密封片96，从而在雾化器200首次使用前保持密封，防止液体向外泄露。As shown in Figures 1 and 2, a sealing plug 95 can be inserted into the suction port 94 of the atomizer 200, and a sealing sheet 96 can be attached to the air inlet 71 of the second bracket 70, so that 200 Keep sealed before first use to prevent liquid from leaking out.

以上介绍了本发明的雾化器200的各种部件。在需要使用电子雾化装置进行抽吸时，可先将雾化器200与电源组件安装连接，再打开电源组件的电源开关，以便由电源组件为雾化器200供电；然后，当用户对雾化器200的吸气口94所在的吸嘴部进行吸气时，即可通过电子雾化装置的控制器依据吸气动作而启动雾化器200进行工作，最终产生供用户吸食的气雾。其中，来自液体收容空间91的液体被加热元件20加热雾化形成气雾，外部空气可依次流经所述进气口71、第二支架70的内部空间72和第一支架30的通气孔30C，进而输送至所述第一支架30内的导液元件10的雾化面11上方，进而将所形成的气雾携带出所述烟气输出管道92。The various components of the atomizer 200 of the present invention have been described above. When it is necessary to use the electronic atomization device for suction, the atomizer 200 can be installed and connected to the power supply assembly first, and then the power switch of the power supply assembly can be turned on, so that the power supply assembly can supply power to the atomizer 200; When the nozzle part where the suction port 94 of the atomizer 200 is located is inhaling, the controller of the electronic atomization device can start the atomizer 200 to work according to the inhalation action, and finally generate aerosol for the user to inhale. Wherein, the liquid from the liquid storage space 91 is heated and atomized by the heating element 20 to form an aerosol, and the external air can flow through the air inlet 71 , the inner space 72 of the second bracket 70 and the ventilation hole 30C of the first bracket 30 in sequence. , and then delivered to the top of the atomization surface 11 of the liquid guiding element 10 in the first bracket 30 , and then the formed gas mist is carried out of the smoke output pipe 92 .

最后应说明的是：以上实施例仅用以说明本发明的技术方案，而非对其限制；在本发明的思路下，以上实施例或者不同实施例中的技术特征之间也可以 进行组合，步骤可以以任意顺序实现，并存在如上所述的本发明的不同方面的许多其它变化，为了简明，它们没有在细节中提供；尽管参照前述实施例对本发明进行了详细的说明，本领域的普通技术人员应当理解：其依然可以对前述各实施例所记载的技术方案进行修改，或者对其中部分技术特征进行等同替换；而这些修改或者替换，并不使相应技术方案的本质脱离本发明各实施例技术方案的范围。Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present invention, not to limit them; under the idea of the present invention, the technical features in the above embodiments or different embodiments can also be combined, The steps may be performed in any order, and there are many other variations of the different aspects of the invention as described above, which have not been presented in detail for the sake of brevity; although the invention has been described in detail with reference to the preceding examples, those of ordinary skill in the art The skilled person should understand that it is still possible to modify the technical solutions described in the foregoing embodiments, or perform equivalent replacements for some of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the various implementations of the present invention. The scope of technical solutions.

Claims (15)

1. 一种雾化器，其特征在于，包括：An atomizer, characterized in that it comprises:

   导液元件，所述导液元件包括雾化面和吸液面；A liquid-guiding element, the liquid-guiding element including an atomizing surface and a liquid-absorbing surface;

   加热元件，用于加热所述导液元件所吸收的至少部分液体基质以生成气溶胶；和a heating element for heating at least a portion of the liquid matrix absorbed by said liquid conducting element to generate an aerosol; and

   第一支架，所述第一支架包括分隔部、具有上开口的第一腔室和具有下开口的第二腔室；所述分隔部将所述第一腔室和所述第二腔室间隔开，且所述分隔部包括连通所述第一腔室和所述第二腔室的第一通孔；a first bracket comprising a partition, a first chamber with an upper opening, and a second chamber with a lower opening; the partition separates the first chamber from the second chamber open, and the partition includes a first through hole communicating the first chamber and the second chamber;

   其中，所述导液元件至少部分收容在所述第二腔室内，且所述雾化面朝向所述第一腔室，所述雾化面用于供所述气溶胶逸出并通过所述第一通孔进入所述第一腔室。Wherein, the liquid guiding element is at least partially accommodated in the second chamber, and the atomizing surface faces the first chamber, and the atomizing surface is used for allowing the aerosol to escape and pass through the A first through hole enters the first chamber.
2. 如权利要求1所述的雾化器，其特征在于，The atomizer according to claim 1, characterized in that,

   所述雾化面的一部分通过所述分隔部的第一通孔暴露于所述第一腔室。A part of the atomizing surface is exposed to the first chamber through the first through hole of the partition.
3. 如权利要求2所述的雾化器，其特征在于，The atomizer according to claim 2, characterized in that,

   所述加热元件设置在所述雾化面被暴露的该部分上。The heating element is disposed on the exposed portion of the atomizing surface.
4. 如权利要求1所述的雾化器，其特征在于，The atomizer according to claim 1, characterized in that,

   所述第一支架还包括下液通道，所述下液通道自所述第一支架的上端向下延伸，并且从侧部连通所述第二腔室，进而能够使液体基质流动至所述导液元件的吸液面。The first bracket also includes a lower liquid channel, the lower liquid channel extends downward from the upper end of the first bracket, and communicates with the second chamber from the side, so that the liquid matrix can flow to the guide chamber. The suction surface of the liquid element.
5. 如权利要求1所述的雾化器，其特征在于，The atomizer according to claim 1, characterized in that,

   所述雾化器还包括第一密封件，所述第一密封件的至少一部分位于所述导液元件和所述第二腔室的内壁之间，用于将所述雾化面和所述吸液面密封隔离。The atomizer also includes a first sealing member, at least a part of the first sealing member is located between the liquid guiding element and the inner wall of the second chamber, and is used to connect the atomizing surface to the inner wall of the second chamber. The suction surface is sealed and isolated.
6. 如权利要求5所述的雾化器，其特征在于，The atomizer according to claim 5, characterized in that,

   所述第二腔室的内壁包括相对纵向倾斜的第一斜面，所述第一密封件包括第二斜面，所述第一斜面与所述第二斜面贴合配合。The inner wall of the second chamber includes a first slope that is relatively longitudinally inclined, the first sealing member includes a second slope, and the first slope fits snugly with the second slope.
7. 如权利要求5所述的雾化器，其特征在于，The atomizer according to claim 5, characterized in that,

   所述第一密封件包括第一部分，所述第一部分覆盖所述雾化面的边缘部分，并且所述第一部分抵接到所述分隔部上。The first sealing member includes a first portion, the first portion covers the edge portion of the atomizing surface, and the first portion abuts against the partition.
8. 如权利要求1所述的雾化器，其特征在于，The atomizer according to claim 1, characterized in that,

   所述导液元件内部具有贯穿该导液元件的通道，所述导液元件上界定所述通道的至少部分内表面构成所述吸液面。The inside of the liquid guiding element has a channel passing through the liquid guiding element, and at least part of the inner surface of the liquid guiding element defining the channel constitutes the liquid absorbing surface.
9. 如权利要求1所述的雾化器，其特征在于，The atomizer according to claim 1, characterized in that,

   所述第一腔室的横截面积小于所述第二腔室的横截面积。The cross-sectional area of the first chamber is smaller than the cross-sectional area of the second chamber.
10. 如权利要求1-9中任一项所述的雾化器，其特征在于，The atomizer according to any one of claims 1-9, characterized in that,

    所述雾化器包括第二密封件，所述第二密封件包括内筒部和外筒部，所述内筒部***所述第一腔室，并与所述第一腔室的内壁贴合配合，所述外筒部围绕所述第一支架的上端，并与所述上端的外壁贴合配合。The atomizer includes a second sealing member, the second sealing member includes an inner cylinder portion and an outer cylinder portion, the inner cylinder portion is inserted into the first chamber, and is in contact with the inner wall of the first chamber Fittingly, the outer cylindrical portion surrounds the upper end of the first bracket and fits snugly with the outer wall of the upper end.
11. 如权利要求10所述的雾化器，其特征在于，The atomizer according to claim 10, characterized in that,

    所述内筒部上还设有朝向所述雾化面延伸且邻近所述雾化面的阻挡臂。A blocking arm extending toward the atomizing surface and adjacent to the atomizing surface is also provided on the inner cylinder portion.
12. 如权利要求11所述的雾化器，其特征在于，The atomizer according to claim 11, characterized in that,

    所述加热元件的发热部分位于两个阻挡臂之间。The heat generating part of the heating element is located between the two barrier arms.
13. 如权利要求1-9中任一项所述的雾化器，其特征在于，The atomizer according to any one of claims 1-9, characterized in that,

    所述雾化器还包括主壳体，所述主壳体限定液体收容空间，并且具有位于所述主壳体内的气溶胶通道；The atomizer also includes a main housing, the main housing defines a liquid storage space, and has an aerosol channel located in the main housing;

    其中，所述第一支架与所述主壳体连接，使得所述气溶胶通道与所述第一腔室流体连通。Wherein, the first bracket is connected to the main housing, so that the aerosol channel is in fluid communication with the first chamber.
14. 如权利要求13所述的雾化器，其特征在于，The atomizer of claim 13, wherein:

    所述气溶胶通道由烟气输出管道限定，所述烟气输出管道的自由端上设有朝向所述雾化面延伸且邻近所述雾化面的阻挡臂。The aerosol channel is defined by a smoke output pipe, and a free end of the smoke output pipe is provided with a blocking arm extending toward the atomization surface and adjacent to the atomization surface.
15. 一种电子雾化装置，包括将雾化液体基质生成气溶胶的雾化器、以及为所述雾化器供电的电源组件；其特征在于，所述雾化器包括权利要求1至14中任一项所述的雾化器。An electronic atomization device, comprising an atomizer for generating an aerosol from an atomized liquid substrate, and a power supply assembly for powering the atomizer; it is characterized in that the atomizer includes any one of claims 1 to 14 A nebulizer as described in one item.

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