WO2024016435A1 - 雾化片的封装结构及雾化装置 - Google Patents

雾化片的封装结构及雾化装置 Download PDF

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Publication number
WO2024016435A1
WO2024016435A1 PCT/CN2022/116589 CN2022116589W WO2024016435A1 WO 2024016435 A1 WO2024016435 A1 WO 2024016435A1 CN 2022116589 W CN2022116589 W CN 2022116589W WO 2024016435 A1 WO2024016435 A1 WO 2024016435A1
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Prior art keywords
packaging structure
bracket
atomization
atomizer
sheet according
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PCT/CN2022/116589
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English (en)
French (fr)
Inventor
邓思杰
李博
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东莞市克莱鹏雾化科技有限公司
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Publication of WO2024016435A1 publication Critical patent/WO2024016435A1/zh

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B17/00Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups
    • B05B17/04Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods

Definitions

  • the present invention relates to the technical field of liquid atomization, and in particular to a packaging structure of an atomization sheet and an atomization device.
  • Electronic atomization equipment includes an atomization device and a power supply that supplies power to the atomization device.
  • the atomization device is internally constructed with a liquid storage chamber, an air flow channel, and an electronic atomization component.
  • the power supply is provided with an accommodating slot, and the atomizing device is installed in the accommodating slot and is electrically connected to the power supply. When the power supply supplies power to the electronic atomization component inside the atomization device, the atomization component atomizes the solution stored in the liquid storage chamber into aerosol and discharges it.
  • the atomizing piece is one of the necessary components of the atomizing device.
  • the function of the atomizing piece is to heat or vibrate liquids and other objects to produce atomized gas. Vibration atomization is generally achieved through ultrasonic waves, and heating atomization generally uses heating wires or heating sheets for heating. Heating chips generally have a single structure, and their structural strength is relatively low, making them more difficult to produce and assemble, which greatly affects production efficiency.
  • the present invention provides a method to integrate the atomizing piece and the bracket through a connecting medium.
  • the connecting medium fixes the atomizing piece in the receiving groove, thereby greatly increasing the single structural strength of the atomizing piece.
  • the packaging structure and atomization device of the atomizer sheet are conducive to automated mass production, promoting production efficiency and market advantages.
  • a packaging structure of an atomizing sheet including a bracket, an atomizing piece, and a connecting medium.
  • the bracket has a connecting position and a receiving groove.
  • the connecting position is used for fixed connection of the bracket and is arranged on both sides of the bracket;
  • the atomizer sheet has a first side and a second side.
  • the second side is provided with a micropore area.
  • the micropore area is evenly distributed with a plurality of micropores.
  • the micropores penetrate to the first side.
  • the first side A heating element is provided, and the heating element is used to heat the liquid passing through or attached to the micropores to form aerosol;
  • the groove surface of the receiving groove and the side bracket of the atomizing sheet have limiting edges, and the connecting medium is provided at the limiting edge. position edge, and the atomizing piece is fixedly connected to the limiting edge, and the connection medium has high temperature resistance.
  • the present invention integrates the atomizing piece and the bracket through a connecting medium.
  • the connecting medium fixes the atomizing piece in the accommodating groove, thereby greatly increasing the single structure of the atomizing piece. Strength, is conducive to automated mass production, promotes production efficiency and market advantages.
  • a bracket, an atomizing piece, and a connecting medium are provided.
  • the bracket has a connecting position and a receiving groove.
  • the connecting position is used for fixed connection of the bracket and is arranged on both sides of the bracket;
  • the atomizing piece has a third One side and a second side, the second side is provided with a microporous area, the microporous area is evenly distributed with a plurality of micropores, the micropores penetrate to the first side, and the first side is provided with a heating element,
  • the heating element is used to heat the liquid passing through or attached to the micropores to form aerosol;
  • the groove surface of the accommodating groove and the side bracket of the atomization sheet have limiting edges, and the connecting medium is located on the limiting edge and will
  • the atomizing piece is fixedly connected to the limiting edge, and the connecting medium has high temperature resistance.
  • the atomizer piece and the bracket are fixedly connected using a connection medium with high temperature resistance, and the two are fixedly connected to form one body. While ensuring the structural strength, it also simplifies the convenience of structural assembly, simplifies the production process, improves production efficiency, and structure Stable and reliable.
  • Figure 1 is a schematic three-dimensional structural diagram of the packaging structure of the atomizer sheet of the present invention.
  • Figure 2 is a schematic three-dimensional view of the packaging structure of the atomizer sheet in Figure 1 from another perspective.
  • Figure 3 is a schematic top view of the packaging structure of the atomizer sheet in Figure 1.
  • Figure 4 is a schematic bottom view of the packaging structure of the atomizer sheet in Figure 1.
  • Figure 5 is a three-dimensional schematic diagram of the atomizer sheet of the packaging structure of the atomizer sheet in Figure 1.
  • Figure 6 is a schematic three-dimensional view of the atomizer sheet of the packaging structure of the atomizer sheet in Figure 1 from another perspective.
  • connection position 11 connection position 11
  • receiving groove 12 supporting plate 121
  • limiting bone position 122 limiting edge 13
  • vertical plate 14 atomizing sheet 2
  • diaphragm 21 first surface 211, micro Hole area 212, support frame 22, second surface 221, tank body 222, heating element 23, heating circuit 231, first contact position 232, second contact position 233, connection medium 3.
  • a packaging structure of an atomizer sheet is provided with a bracket 1, an atomizer sheet 2, and a connecting medium 3.
  • the bracket 1 has a connection position 11 and a receiving groove 12.
  • the connection position 11 is used for fixed connection with the bracket 1 and is arranged on both sides of the bracket 1;
  • the atomizer sheet 2 has a first surface 211 and a second surface 221, and the second surface 221 is provided with a micropore area 212.
  • a plurality of micropores are evenly distributed in the hole area 212, and the micropores penetrate to the first surface 211.
  • the first surface 211 is provided with a heating element 23.
  • the heating element 23 is used to heat the liquid passing through or attached to the micropores.
  • the connecting medium 3 is provided on the limiting edge 13, and fixes the atomizing piece 2 and the limiting edge 13 connection, the connection medium 3 has high temperature resistance.
  • the bracket 1 is integrally formed, specifically made of metal materials or high-temperature-resistant materials.
  • the one-piece bracket 1 structure is used, which has high structural strength.
  • the bracket 1 is made of metal material, which can be directly stamped and formed, and the structural cost is low. , easy to manufacture.
  • Both sides of the bracket 1 are bent upward to form vertical plates 14.
  • the connecting positions 11 are provided on the vertical plates 14 and are formed by bending the vertical plates 14 upward, which facilitates structural assembly, assembly and structural connection.
  • the bottom of the receiving tank 12 is integrally formed with a supporting plate 121, which supports the atomizing sheet 2.
  • the two ends of the receiving tank 12 are provided with limiting bone positions 122, and the limiting bone positions 122 are used for atomization.
  • the two ends of the piece 2 are limited, and a connecting medium 3 is provided between the limiting bone position 122 and the atomizing piece 2 for fixed connection.
  • the atomizing piece 2 is held by the supporting plate 121, and cooperates with the limiting bone position 122 to atomize the film.
  • the end face of the piece 2 is limited and is also fixedly connected through the connecting medium 3, and then the atomizing piece 2 is integrally packaged and connected to the bracket 1.
  • the second surface 221 is provided with a groove body 222 that sinks toward the first surface 211.
  • the microporous area 212 is provided on the bottom surface of the groove body 222 and is connected to the first surface 211;
  • the hole area 212 is thinned, and the heating element 23 is placed in the micro hole area 212 to heat and atomize the liquid passing through or attached to it.
  • the thinned structure effectively reduces the temperature field caused by the heat dissipation of the atomizing sheet 2. Diffusion improves the heating efficiency, making the heating more concentrated and the atomization effect better.
  • the atomizer sheet 2 includes a diaphragm 21 and a support frame 22.
  • the support frame 22 is provided on one side of the diaphragm 21.
  • the chip body is divided into a diaphragm 21 and a support frame 22 to facilitate the processing of the diaphragm 21.
  • the structure Low cost and easy to manufacture.
  • the diaphragm 21 is a single crystal silicon film.
  • the first surface 211 is located on the side of the single crystal silicon film facing away from the support frame.
  • the second surface 221 is located on the side of the support frame 22 facing away from the single crystal silicon film.
  • the groove body 222 has a In the support frame 22; the microporous area 212 is formed on a single crystal silicon film by etching or photolithography; in a preferred embodiment, a template formed of a single crystal silicon film is used, which has strong wear resistance and reliable structure; the tank body 222 It is set up in the support frame 22 and has a split structure, which has a more reliable structure, low preparation cost and stable atomized liquid guidance.
  • the micropores in the micropore area 212 are smaller micropores used to lock and guide oil. They are formed by etching, photolithography or laser engraving, and the processing effect is good.
  • the heating element 23 includes a heating circuit 231 provided on the first surface 211 and passing through the micropore area 212.
  • the two ends of the heating circuit 231 are respectively provided with a first contact position 232 and a second contact position 233; in this embodiment, the The first contact point 232 and the second contact point 233 are used for contact conduction, and control the heating circuit 231 to heat the micropore area 212, and after heating, the liquid is converted into aerosol.
  • connection medium 3 is a welding strip or a dispensing strip, which fills the limiting edge 13 and makes the atomization sheet 2 fixedly connected to the groove surface of the receiving groove 12; in the preferred embodiment, the bracket 1 is welded through the welding strip. Welded together with the atomization piece 2, the structure is stable and the integration is good; in other embodiments, glue strips can also be formed by dispensing glue for connection, and glue dispensing requires high-temperature-resistant glue for connection. It is generally preferred to use welding connections to form a single body, which has good high temperature resistance and strong integration.
  • the atomization device is modified to form an integrated package by welding and fixing the bracket 1 and the atomization piece 2.
  • the structure has good structural integrity, increases the structural strength of the atomization piece 2, is conducive to automated mass production, and promotes production efficiency and Market Advantage.
  • the atomizing piece 2 and the bracket 1 are connected to form an integrated body through the connecting medium 3.
  • the connecting medium 3 fixes the atomizing piece 2 in the receiving groove 12, thereby greatly increasing the single structural strength of the atomizing piece 2 and having It is conducive to automated mass production and promotes production efficiency and market advantages.
  • a bracket 1, an atomizer sheet 2, and a connecting medium 3 are provided.
  • the bracket 1 has a connecting position 11 and a receiving groove 12.
  • the connecting position 11 is used for the fixed connection of the bracket 1 and is provided on both sides of the bracket 1.
  • Side; the atomizer sheet 2 has a first surface 211 and a second surface 221.
  • the second surface 221 is provided with a micropore area 212.
  • the micropore area 212 is evenly distributed with a plurality of micropores, and the micropores pass through To the first surface 211, the first surface 211 is provided with a heating element 23.
  • the heating element 23 is used to heat the liquid passing through or attached to the micropores to form aerosol; the groove surface of the accommodation groove 12 and the atomization sheet
  • the side bracket 1 of 2 has a limiting edge 13.
  • the connecting medium 3 is provided on the limiting edge 13 and fixedly connects the atomizer sheet 2 to the limiting edge 13.
  • the connecting medium 3 has high temperature resistance.
  • the connection medium 3 with high temperature resistance is used to fixedly connect the atomizer piece 2 and the bracket 1, and the two are fixedly connected to form one body. While ensuring the structural strength, it also simplifies the convenience of structural assembly, simplifies the production process, and improves production. Efficient, stable and reliable structure.

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  • Special Spraying Apparatus (AREA)

Abstract

一种雾化片的封装结构及雾化装置,包括支架(1)、雾化片(2)及连接介质(3),支架(1)具有连接位(11)以及容纳槽(12),连接位(11)用于支架(1)固定连接、并设置在支架(1)的两侧;雾化片(2)具有第一面(211)以及第二面(221),第二面设有微孔区(212),第一面(211)设有发热元件(23),发热元件(23)用于通过或附着在微孔的液体加热形成气雾;容纳槽(12)的槽面与雾化片(2)的侧面支架具有限位边(13),连接介质(3)设于限位边(13)、并将雾化片(2)与限位边(13)固定连接,连接介质(3)具有耐高温特性。本雾化片单体结构强度大,有利于自动化批量生产。

Description

雾化片的封装结构及雾化装置
相关申请的交叉引用。
本申请要求于2022年07月19日提交中国专利局,申请号为202210847301.2,发明名称为“雾化片的封装结构及雾化装置”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本发明涉及液体雾化技术领域,特别是涉及一种雾化片的封装结构及雾化装置。
背景技术
电子雾化设备包括雾化装置和为雾化装置供电的供电器,雾化装置内部构建有储液腔、气流通道及电子雾化组件。供电器开设有容纳槽,雾化装置安装于容纳槽内,并与供电器建立电性连接。当供电器为雾化装置内部的电子雾化组件供电时,雾化组件将储液腔内部存储的溶液雾化成气雾排出。
技术问题
雾化片是雾化装置必备的元器件之一,雾化片的作用是将液体等物进行加热或震动产生雾化气体。震动雾化一般是通过超声波实现,加热雾化现有一般采用发热丝或发热片进行加热。发热片一般都是单体结构,其结构强度比较低,在生产组装时难度较高,进而大大影响了生产效率。
技术解决方案
为解决上述问题,本发明提供一种将雾化片与支架之间通过连接介质连接形成一体,连接介质将雾化片固定在容纳槽内,进而大大增加了雾化片的单体结构强度,有利于自动化批量生产,推进生产效率和市场优势的雾化片的封装结构及雾化装置。
上述目的可采用下列技术方案来实现。
一种雾化片的封装结构,包括支架,雾化片,及连接介质,所述支架具有连接位以及容纳槽,所述连接位用于支架固定连接、并设置在支架的两侧;所述雾化片具有第一面以及第二面,所述第二面设有微孔区,所述微孔区均布多个微孔,所述微孔贯通至第一面,所述第一面设有发热元件,所述发热元件用于通过或附着在微孔的液体加热形成气雾;所述容纳槽的槽面与雾化片的侧面支架具有限位边,所述连接介质设于限位边、并将雾化片与限位边固定连接,所述连接介质具有耐高温特性。
本发明的一个或多个实施例的细节在下面的附图和描述中提出。本发明的其它特征、目的和优点将从说明书、附图以及权利要求书变得明显。
有益效果
相比现有的雾化片结构,本发明将雾化片与支架之间通过连接介质连接形成一体,连接介质将雾化片固定在容纳槽内,进而大大增加了雾化片的单体结构强度,有利于自动化批量生产,推进生产效率和市场优势。具体是,设置了支架,雾化片,及连接介质,所述支架具有连接位以及容纳槽,所述连接位用于支架固定连接、并设置在支架的两侧;所述雾化片具有第一面以及第二面,所述第二面设有微孔区,所述微孔区均布多个微孔,所述微孔贯通至第一面,所述第一面设有发热元件,所述发热元件用于通过或附着在微孔的液体加热形成气雾;所述容纳槽的槽面与雾化片的侧面支架具有限位边,所述连接介质设于限位边、并将雾化片与限位边固定连接,所述连接介质具有耐高温特性。采用具有耐高温特性的连接介质将雾化片与支架固定连接,将两者固定连接形成一体,在保证结构强度的同时,也简化了结构组装方便性,简化了生产工序,提升生产效率,结构稳定可靠。
附图说明
为了更好地描述和说明这里公开的那些发明的实施例和/或示例,可以参考一幅或多幅附图。用于描述附图的附加细节或示例不应当被认为是对所公开的发明、目前描述的实施例和/或示例以及目前理解的这些发明的最佳模式中的任何一者的范围的限制。
图1 为本发明雾化片的封装结构的立体结构示意图。
图2 为图1中雾化片的封装结构另一视角的立体示意图。
图3 为图1中雾化片的封装结构的俯视示意图。
图4 为图1中雾化片的封装结构的仰视示意图。
图5 为图1中雾化片的封装结构的雾化片的立体示意图。
图6 为图1中雾化片的封装结构的雾化片的另一视角的立体示意图。
附图标记说明:支架1、连接位11、容纳槽12、托板121、限位骨位122、限位边13、立板14、雾化片2、膜片21、第一面211、微孔区212、支撑框22、第二面221、槽体222、发热元件23、发热线路231、第一接触位232、第二接触位233、连接介质3。
本发明的实施方式
为了便于理解本发明,下面将参照相关附图对本发明进行更全面的描述。附图中给出了本发明的较佳实施例。但是,本发明可以以许多不同的形式来实现,并不限于本文所描述的实施例。相反地,提供这些实施例的目的是使对本发明的公开内容的理解更加透彻全面。
需要说明的是,当元件被称为“固定于”另一个元件,它可以直接在另一个元件上或者也可以存在居中的元件。当一个元件被认为是“连接”另一个元件,它可以是直接连接到另一个元件或者可能同时存在居中元件。
除非另有定义,本文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。本文中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,不是旨在于限制本发明。
如图1~图6所示,一种雾化片的封装结构,设置了支架1,雾化片2,及连接介质3,所述支架1具有连接位11以及容纳槽12,所述连接位11用于支架1固定连接、并设置在支架1的两侧;所述雾化片2具有第一面211以及第二面221,所述第二面221设有微孔区212,所述微孔区212均布多个微孔,所述微孔贯通至第一面211,所述第一面211设有发热元件23,所述发热元件23用于通过或附着在微孔的液体加热形成气雾;所述容纳槽12的槽面与雾化片2的侧面支架1具有限位边13,所述连接介质3设于限位边13、并将雾化片2与限位边13固定连接,所述连接介质3具有耐高温特性。
支架1为一体成型,具体由金属材料或耐高温材料成型,本实施例中,采用一体成型的支架1结构,结构强度高,一般优选为金属材料支架1,直接冲压成型即可,结构成本低,制造方便。
支架1的两侧朝上弯折形成有立板14,所述连接位11设于立板14,通过立板14朝上折弯形成,方便结构组装,组装方便,结构连接方便。
容纳槽12底部一体成型有托板121,所述托板121将雾化片2托住,所述容纳槽12的两端设有限位骨位122,所述限位骨位122用于雾化片2两端限位,所述限位骨位122与雾化片2之间设置连接介质3固定连接,通过托板121将雾化片2托住,并配合限位骨位122对雾化片2的端面进行限位,还通过连接介质3固定连接,进而将雾化片2一体封装连接在支架1上。
参阅图5~图6所示,第二面221设有朝向第一面211沉入的槽体222,所述微孔区212设于槽体222的底面、并连通至第一面211;微孔区212薄化,将发热元件23设在微孔区212,将经过或附着的液体进行加热雾化,区别传统的发热片,将结构薄化后有效减低雾化片2散热导致的温场扩散,提升发热效率,使得发热更加集中,雾化效果更佳。
雾化片2包括膜片21以及支撑框22,所述支撑框22设于膜片21的一面;本实施例中,将芯片本体分成膜片21和支撑框22,方便膜片21加工,结构成本低,制造方便。
膜片21为单晶硅薄膜,所述第一面211设于单晶硅薄膜背离支持框一面,所述第二面221设于支撑框22背离单晶硅薄膜一面,所述槽体222开设在支撑框22;所述微孔区212通过蚀刻或光刻形成在单晶硅薄膜;在优选的实施例中,采用单晶硅薄膜形成的模板,耐耗性强,结构可靠;槽体222开设在支撑框22,分体结构,结构更加可靠,制备成本低,雾化液体导向稳定。微孔区212上的微孔为较小的微孔,用来锁油和导油,通过蚀刻、光刻或激光雕刻形成,加工效果好。
发热元件23包括设于第一面211并通过微孔区212的发热线路231,所述发热线路231的两端分别设有第一接触位232以及第二接触位233;本实施例中,第一接触位232和第二接触位233用于接触导电,并控制发热线路231对微孔区212进行加热,加热后将液体转化为气雾。
连接介质3为焊接条或点胶条,将限位边13填充、并使得雾化片2与容纳槽12的槽面固定连接;在优选的实施例中,通过焊接条采用焊接方式将支架1与雾化片2焊接形成一体,结构稳定,一体性好;在其它实施例中,也可以通过点胶方式形成点胶条进行连接,点胶则需要耐高温的胶水进行连接。一般优选为焊接连接形成一体,耐高温好,一体性强。
一种雾化装置,改雾化装置将支架1与雾化片2通过焊接固定形成一体封装,结构一体性好,增加了雾化片2的结构强度,有利于自动化批量生产,推进生产效率和市场优势。
本发明将雾化片2与支架1之间通过连接介质3连接形成一体,连接介质3将雾化片2固定在容纳槽12内,进而大大增加了雾化片2的单体结构强度,有利于自动化批量生产,推进生产效率和市场优势。具体是,设置了支架1,雾化片2,及连接介质3,所述支架1具有连接位11以及容纳槽12,所述连接位11用于支架1固定连接、并设置在支架1的两侧;所述雾化片2具有第一面211以及第二面221,所述第二面221设有微孔区212,所述微孔区212均布多个微孔,所述微孔贯通至第一面211,所述第一面211设有发热元件23,所述发热元件23用于通过或附着在微孔的液体加热形成气雾;所述容纳槽12的槽面与雾化片2的侧面支架1具有限位边13,所述连接介质3设于限位边13、并将雾化片2与限位边13固定连接,所述连接介质3具有耐高温特性。采用具有耐高温特性的连接介质3将雾化片2与支架1固定连接,将两者固定连接形成一体,在保证结构强度的同时,也简化了结构组装方便性,简化了生产工序,提升生产效率,结构稳定可靠。
以上所述实施例仅表达了本发明的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对本发明专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。因此,本发明专利的保护范围应以所附权利要求为准。

Claims (10)

  1. 雾化片的封装结构,其特征在于:包括
    支架,所述支架具有连接位以及容纳槽,所述连接位用于支架固定连接、并设置在支架的两侧;
    雾化片,所述雾化片具有第一面以及第二面,所述第二面设有微孔区,所述微孔区均布多个微孔,所述微孔贯通至第一面,所述第一面设有发热元件,所述发热元件用于通过或附着在微孔的液体加热形成气雾;
    连接介质,所述容纳槽的槽面与雾化片的侧面支架具有限位边,所述连接介质设于限位边、并将雾化片与限位边固定连接,所述连接介质具有耐高温特性。
  2. 根据权利要求1所述的雾化片的封装结构,其特征在于:所述支架为一体成型,具体由金属材料或耐高温材料成型。
  3. 根据权利要求1所述的雾化片的封装结构,其特征在于:所述支架的两侧朝上弯折形成有立板,所述连接位设于立板。
  4. 根据权利要求1所述的雾化片的封装结构,其特征在于:所述容纳槽底部一体成型有托板,所述托板将雾化片托住,所述容纳槽的两端设有限位骨位,所述限位骨位用于雾化片两端限位,所述限位骨位与雾化片之间设置连接介质固定连接。
  5. 根据权利要求1所述的雾化片的封装结构,其特征在于:所述第二面设有朝向第一面沉入的槽体,所述微孔区设于槽体的底面、并连通至第一面。
  6. 根据权利要求5所述的雾化片的封装结构,其特征在于:所述雾化片包括膜片以及支撑框,所述支撑框设于膜片的一面。
  7. 根据权利要求6所述的雾化片的封装结构,其特征在于:所述膜片为单晶硅薄膜,所述第一面设于单晶硅薄膜背离支持框一面,所述第二面设于支撑框背离单晶硅薄膜一面,所述槽体开设在支撑框。
  8. 根据权利要求1所述的雾化片的封装结构,其特征在于:所述发热元件包括设于第一面并通过微孔区的发热线路,所述发热线路的两端分别设有第一接触位以及第二接触位。
  9. 根据权利要求1所述的雾化片的封装结构,其特征在于:所述连接介质为焊接条或点胶条,将限位边填充、并使得雾化片与容纳槽的槽面固定连接。
  10. 一种雾化装置,其特征在于:包括权利要求1~9任意一项所述的雾化片的封装结构。
PCT/CN2022/116589 2022-07-19 2022-09-01 雾化片的封装结构及雾化装置 WO2024016435A1 (zh)

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