WO2021203840A1 - Atomization assembly of electronic atomization device - Google Patents
Atomization assembly of electronic atomization device Download PDFInfo
- Publication number
- WO2021203840A1 WO2021203840A1 PCT/CN2021/076717 CN2021076717W WO2021203840A1 WO 2021203840 A1 WO2021203840 A1 WO 2021203840A1 CN 2021076717 W CN2021076717 W CN 2021076717W WO 2021203840 A1 WO2021203840 A1 WO 2021203840A1
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- WO
- WIPO (PCT)
- Prior art keywords
- atomization
- heating element
- absorption layer
- liquid
- housing
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
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- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
- A24F40/46—Shape or structure of electric heating means
Definitions
- the present invention relates to the technical field of electronic atomization equipment, in particular to an atomization component of an electronic atomization equipment.
- the atomization component is a component of an electronic atomization device, an electronic cigarette or an electronic waterpipe. Its basic task is to provide a heating process to convert the liquid of the electronic atomization device or the e-cigarette liquid into aerosol or vapor or smoke.
- the atomization component of the electronic atomization device known by the applicant usually includes a liquid absorption element and a heating element.
- the liquid absorption element is generally a glass fiber rope
- the heating element is generally a spiral heating wire.
- the Chinese patent document with publication number CN105310114A discloses an atomizing component of electronic cigarettes.
- the liquid absorbing element has a liquid suction surface and an atomizing surface for absorbing smoke liquid; and a heating element, the heating element is embedded in the inside of the liquid absorbing element, the edge of the heating element is inscribed with the atomizing surface, and the heating element is used to The smoke liquid absorbed by the liquid absorbing element is converted into smoke; and a power supply assembly is housed in the casing and connected with the atomization assembly for providing power to the heating element.
- the liquid absorbing element of the above atomization component adopts porous ceramic material, which has the advantages of high temperature resistance, not easy to be ablated at high temperature, and will not be burnt to produce a burnt smell.
- its disadvantage is that the liquid absorbing surface of the liquid absorbing element is large and is The liquid surface of the liquid reservoir is in direct contact, resulting in a large amount of liquid that is too saturated and easy to cause liquid leakage. Therefore, it is necessary to use a liquid storage medium in the liquid reservoir to slow down the transmission speed of the smoke liquid and reduce the occurrence of liquid leakage.
- the atomization cavity of the liquid absorbing element and the heating element is cylindrical
- the heating element is a heating wire and the edge of the heating wire is inscribed with the atomization surface, which limits the heating area of the atomization cavity and reduces the heating efficiency of the aerosol .
- the e-liquid in the process of reaching the liquid absorbing element, the e-liquid must first soak the liquid storage medium with a lower density, and the transmission speed of the liquid storage medium is slow. If the user frequently inhales the electronic cigarette deeply, it will cause the inner layer of the microporous ceramic Lack of smoke liquid, that is, "liquid smoke shortage", which destroys the continuity of smoke liquid atomization and aerosol generation.
- the purpose of the present invention is to provide an atomization component of an electronic atomization device, which not only has the characteristics of high temperature resistance, but also can overcome the above-mentioned shortcomings of the prior art.
- the atomization component of the electronic atomization device includes a shell (1), an inner absorption layer (2) made of microporous ceramics, and a resistive type completely embedded in the inner absorption layer (2).
- the heating element (3) and the lead wires (4) arranged at both ends of the resistance heating element (3), the inner absorption layer (2) is provided with an atomization cavity (5), and the lower part of the housing is provided with an atomization chamber (5).
- the air inlet passage (6) communicated with the cavity (5), the middle body (7) of the housing (1) is designed in a truncated cone shape, and the side of the middle body (7) is provided with a side through hole (8), The lower part and the upper part are respectively provided with an intake branch pipe (9) and an exhaust branch pipe (10).
- the inner absorption layer (2) is designed in a truncated cone shape and is attached to the middle body (7) of the housing (1).
- the side surface of the inner wall is provided with side protrusions (11), and the side protrusions (11) are correspondingly inserted into the side through holes (8) of the housing (1).
- a baffle (13) is provided inside the intake branch pipe (9) of the housing (1), and a peripheral air supply hole (12) is provided on the baffle (13), and the air intake passage (6) ) It is connected with the atomization cavity (5) through the peripheral air supply hole (12).
- the housing (1) is made of solid ceramics.
- the resistance heating element (3) is designed in a truncated cone shape.
- the resistance heating element (3) is made of a thin metal plate and configured in a zigzag bar shape.
- the resistance heating element (3) is made of metal wire and configured in a mesh shape.
- the outer diameter of the intake branch pipe (9) is smaller than the outer diameter of the middle body (7) where it is connected, and a step is formed between the two.
- the outer diameter of the exhaust branch pipe (10) is smaller than the outer diameter of the middle body (7) where it is connected, and a step is formed between the two.
- the invention not only has the advantages of high temperature resistance, high temperature ablation, and no burnt odor, but also the liquid absorption element is designed as an inner absorption layer, the inner absorption layer is designed into a truncated cone shape, and the side is provided with The side bulge, the smoke liquid directly absorbs the smoke liquid in the reservoir through the side projection, it is not easy to leak, the smoke liquid conduction efficiency is high, and the resistance heating element is embedded in the inner absorption layer and is structured in a zigzag or net shape , The heat conduction efficiency is high, and the smoke liquid is atomized quickly and uniformly.
- Figure 1 is a cross-sectional view of the atomizing assembly of the present invention
- Figure 2 is a three-dimensional view of the atomization assembly of the present invention
- Fig. 3 is a front view of the resistance heating element of the atomization assembly of the embodiment of the present invention.
- FIG. 4 is an expanded view of the resistance heating element of the atomization assembly of the embodiment of the present invention.
- Fig. 5 is a front view of a resistive heating element of an atomizing assembly according to another embodiment of the present invention.
- Fig. 6 is an expanded view of a resistance heating element of an atomization assembly according to another embodiment of the present invention.
- Fig. 7 is a cross-sectional view of an atomizer in which the atomization assembly of the present invention is a part.
- the atomization component of the electronic atomization device of the present invention is used for atomization of liquids such as liquid medicine or e-cigarette liquid.
- the atomization component is designed as a component of electronic atomization equipment, electronic cigarettes or electronic water pipes, and electronic water pipes include water pipes , Water pipes, water pipes, etc., the atomization component has no pyrolysis process such as burning, smoldering, etc.
- the atomization component of the smoking device of the present invention includes: a casing 1 made of ceramics, an inner absorption layer 2 made of microporous ceramics, and an inner absorption layer 2 embedded in the inner absorption layer 2
- the housing 1 is made of a single solid ceramic, the central body 7 is configured in a truncated cone shape, the axial section of which is V-shaped, the side of the central body 7 is provided with a side through hole 8, and the lower and upper parts of the housing 1 are respectively provided There are intake branch pipes 9 and exhaust branch pipes 10.
- the casing 1 is used to block the inner absorption layer 2 and the smoke liquid storage cavity 25, supports and installs the inner absorption layer 2, and is used to connect the spray tube 22 and the base 14.
- the material of the shell 1 is made of solid ceramics, which is helpful for heat insulation, high temperature resistance, and prevention of deformation at high temperatures.
- the inner absorption layer 2 is made of porous microporous ceramics, is in the shape of a truncated cone and fits inside the casing 1, wherein the axial section is V-shaped, and the side surface has side protrusions 11, and the side protrusions 11 are inserted into the casing 1 correspondingly In the through hole 8 of the central body 7.
- the porous microporous ceramic of the inner absorption layer 2 must be non-conductive, non-toxic and thermally stable.
- the casing 1 is used to install and support the inner absorption layer 2 and connect the spray tube 22 and the base 14.
- the casing 1 does not conduct the liquid to be atomized, and the liquid substance to be atomized in the liquid storage cavity 25 passes through the side of the casing 1.
- the through hole 8 is absorbed by the side protrusions 11 of the inner absorption layer 2 and enters the inner absorption layer 2.
- the resistance heating element 3 inside the inner absorption layer 2 can heat the surrounding liquid material, and the heated liquid material becomes steam It evaporates from the inner wall of the inner absorption layer 2 and collects in the atomization cavity 5.
- the central body 7 of the housing 1 is designed to have a V-shaped frustum shape in order to facilitate the installation of the V-shaped frustum-shaped inner absorption layer 2.
- the inner absorption layer 2 is designed to be a V-shaped frustum shape, and its internal atomization cavity 5 also becomes a V-shaped truncated cone shape, which can increase the area of the inner surface of the atomization cavity 5, and the larger inner surface area of the atomization cavity 5 can increase the amount of liquid evaporation and improve the atomization efficiency, and the cross-section is V-shaped It has the same shape as the horn, which can accelerate the outward flowing fluid (aerosol), diverge outward, and discharge the vapor (aerosol) formed by the evaporation and atomization of the liquid in time, which can improve the working efficiency of the atomization core.
- the inner absorption layer 2 extends from the side through hole 8 to the liquid storage cavity 25 through the side protrusions 11, instead of the entire area contacting the absorption liquid storage cavity 25, which has the function of restricting or throttling and preventing the inner absorption layer 2 from being excessive.
- the liquid material in the liquid storage chamber 25 is absorbed and the liquid leakage occurs when the liquid exceeds the saturation state.
- the air intake passage 6 is connected to the atomization cavity 5 through a peripheral air supply hole 12, and the peripheral air supply hole 12 is opened on a baffle 13 located in the intake branch pipe 9 of the housing 1.
- the main function of the design of the baffle 13 is to block the condensate dripping from the atomization chamber 5 or the droplets that are not atomized.
- the peripheral air supply hole 12 is relatively small and does not affect the air intake, but the condensate or the droplets that are not atomized. It is not easy to leak downward to the base 14 through the outer peripheral air supply hole 12 to avoid long-term liquid leakage and corrosion of the base 14.
- the resistance heating element 3 is designed in a truncated cone shape, and the resistance heating element 3 can be made of sheet metal and configured in a zigzag bar shape. Compared with the spiral heating wire, the resistance heating element 3 of this shape has a larger area to contact the liquid substance to be atomized, and can heat the liquid substance more and faster when it generates heat, thereby improving the heating efficiency.
- the resistance heating element 3 may be made of metal wires and configured in a mesh shape.
- the resistance heating element 3 of this shape also has a larger area to contact the liquid substance to be atomized, which improves the heating efficiency.
- the outer diameter of the intake branch pipe 9 is smaller than the outer diameter of the middle main body 7 where it is connected, and a step is formed between the two.
- the intake branch pipe 9 is inserted into the base 14 and connected to the base 14, and the above-mentioned step is used to limit and fix the housing 1.
- the outer diameter of the exhaust branch pipe 10 is smaller than the outer diameter of the middle body 7 where it is connected, and a step is formed between the two.
- the exhaust branch pipe 10 is inserted into the spray pipe 22 and connected to the spray pipe 22. The above-mentioned step is used to limit and fix the housing 1 and the spray pipe 22.
- the main function of the atomization component is to provide a thermal process to convert the smoke liquid of the electronic atomization device into aerosol (vapor).
- the e-liquid of the electronic atomization device is made on the basis of a mixture of glycerin, propylene glycol and flavoring agents.
- the mixture may contain nicotine or nicotine salts or oily vegetable liquids.
- Power is supplied to the electric heating element when inhaling.
- the atomization assembly should be operated according to the method shown in FIG. 7.
- the atomization assembly disclosed in the invention is used in the electronic atomization device, and the electronic atomization device is as follows.
- an atomizer in which the atomization assembly (1-13) of the present invention is installed.
- the atomizer may be made of a transparent material, so that it is convenient to observe the amount of smoke liquid.
- the atomizer is composed of the following components: a base 14, a sealing ring 15, and an air inlet 16, an air passage 17, an air inlet pipe 18 connected with the air inlet channel 6 of the atomization assembly, a central contact element 19 and an external threaded contact element 20.
- the intake branch pipe 9 of the atomization assembly housing 1 is installed on the base 14 through a sealing ring 15, and the sealing ring 15 may be made of silicone sealant.
- the central contact element 19 and the external threaded contact element 20 are respectively connected to the two leads 4 of the atomization assembly, and are separated from each other by an insulating seat 21, which can be made of silicone material.
- the exhaust branch pipe 10 of the atomization component housing 1 is embedded in the spray pipe 22 through a sealing ring 23 (which may be made of silicone sealant).
- the resistance heating element 3 in the inner absorption layer 2 is used for heating, and heats and atomizes the smoke liquid in the inner absorption layer 2 into aerosol (vapor).
- the outer surface area of the side protrusions 11 is much smaller than the surface area of the inner absorption layer 2 in the atomization cavity 5 of the atomization assembly, the amount of liquid inflow is limited, and the smoke liquid entering from the side protrusions 11 will be diffused and distributed.
- the smoke liquid in the inner absorption layer 2 will not excessively gather on the surface of the inner absorption layer 2 located in the atomization cavity 5 of the atomization assembly to overflow, and the inner absorption layer 2 is contained in the microceramic pores of the atomization assembly.
- the liquid-containing liquid has surface tension.
- the smoke liquid will reach a balance in the inner absorption layer 2, and the liquid will not flow from the inner absorption layer 2 to the micropores on the surface of the atomization cavity 5 of the atomization assembly. In this way, liquid leakage can be prevented.
- the air enters the atomization assembly from the atmosphere through the air-supply atomizer system. To be precise, it passes through the air inlet 16, the air duct 17, and the air inlet pipe 18, and then passes through the air inlet.
- the air passage 6 and the peripheral air supply hole 12 on the baffle 13 enter the atomization cavity 5 of the atomizer.
- the power supply voltage is supplied to the lead 4, and the lead 4 is energized to the resistance heating element 3 through the connection of the central contact element 19 and the external thread contact element 20, and the resistance heating element 3 starts to heat up quickly (the maximum allowable temperature can reach + 290-300oC).
- the liquid located in the area of the resistance heating element 3 starts to be actively atomized into the atomization chamber 5 in the form of aerosol, and it is mixed with the air entering through the outer peripheral air supply hole 12 opened on the baffle 13, which is located in the atomization assembly In the intake branch pipe 9 of the housing 1.
- the air mixture flows through the spray tube 22, through the suction nozzle 26, and reaches the user's mouth.
- the design of the atomization component of the electronic atomization device disclosed in the present invention can increase the intensity of liquid atomization and aerosol generation, which can improve the smoke heating effect, thereby improving the resistance heating element and air in the atomization cavity.
- the heat exchange conditions between and aerosols can increase the intensity of liquid atomization and aerosol generation, which can improve the smoke heating effect, thereby improving the resistance heating element and air in the atomization cavity.
- the atomization component of the electronic atomization device disclosed in the present invention can be applied to the industrial field.
- the atomization component provides a thermal transformation process for turning liquid into aerosol and avoids pyrolysis processes (combustion, mold, etc.).
- the atomization component disclosed in the present invention increases the atomization intensity of the smoke liquid and the amount of aerosol generated per unit time. It can be produced by any enterprise and is widely used in smoking equipment of atomizer and transparent atomizer type.
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Abstract
An atomization assembly of an electronic atomization device, comprising: a casing (1) made of ceramic, an inner absorption layer (2) made of microporous ceramic, a resistance-type heating element (3) embedded in the inner absorption layer (2), a lead (4) of the resistance-type heating element (3), an atomization cavity (5) of the inner absorption layer (2) and an air inlet channel (6) connected to the atomization cavity (5), wherein the casing (1) is made of single solid ceramic, a middle main body (7) is designed to be a cone frustum shape and is provided with a side through hole (8) and air inlet and exhaust branch pipes (9,10); the inner absorption layer (2) is made of microporous ceramic, is designed to be a cone frustum shape and is provided with a side protrusion (11), and the side protrusion (11) is inserted into the side through hole (8) of the middle main body (7) of the casing (1). The resistance-type heating element (3) is made into a cone frustum shape, the air inlet channel (6) communicates with the atomization cavity (5) by means of peripheral air supply holes (12) in a baffle (13), and the baffle (13) is located in the air inlet branch pipe (9) of the casing (1). The atomization assembly has the advantages of preventing liquid leakage and improving the heating atomization efficiency.
Description
本发明涉及电子雾化设备的技术领域,特别涉及一种电子雾化设备的雾化组件。The present invention relates to the technical field of electronic atomization equipment, in particular to an atomization component of an electronic atomization equipment.
下文包含的信息能够帮助理解本发明。这并非承认本文提供的任何信息是现有技术或与本发明相关。The information contained below can help understand the present invention. This is not an admission that any information provided herein is prior art or related to the present invention.
雾化组件是电子雾化设备、电子烟或电子水烟的一个组件,其基本任务是提供加热过程,将电子雾化设备的液体或电子烟的烟液转化为气溶胶或蒸气或烟雾。The atomization component is a component of an electronic atomization device, an electronic cigarette or an electronic waterpipe. Its basic task is to provide a heating process to convert the liquid of the electronic atomization device or the e-cigarette liquid into aerosol or vapor or smoke.
申请人已知的电子雾化设备的雾化组件通常包括吸液元件与发热元件,通常吸液元件一般为玻纤绳,而发热元件一般为螺旋形的电热丝。而多孔陶瓷雾化组件的应用,公开号为CN105310114A的中国专利文件公开了一种电子烟的雾化组件,该雾化组件包括:吸液元件,与储液器相连,吸液元件的材料为多孔陶瓷,吸液元件具有用于吸收烟液的吸液面及雾化表面;及发热元件,发热元件嵌入吸液元件的内部,发热元件的边缘与雾化表面内切,发热元件用于将吸液元件所吸附的烟液转化为烟雾;及电源组件,收容在壳体内并与雾化组件相连,用于给发热元件提供电源。The atomization component of the electronic atomization device known by the applicant usually includes a liquid absorption element and a heating element. Generally, the liquid absorption element is generally a glass fiber rope, and the heating element is generally a spiral heating wire. For the application of porous ceramic atomizing components, the Chinese patent document with publication number CN105310114A discloses an atomizing component of electronic cigarettes. Porous ceramics, the liquid absorbing element has a liquid suction surface and an atomizing surface for absorbing smoke liquid; and a heating element, the heating element is embedded in the inside of the liquid absorbing element, the edge of the heating element is inscribed with the atomizing surface, and the heating element is used to The smoke liquid absorbed by the liquid absorbing element is converted into smoke; and a power supply assembly is housed in the casing and connected with the atomization assembly for providing power to the heating element.
上述雾化组件吸液元件采用了多孔陶瓷材料,具有耐高温、不容易高温烧蚀、不会被烧焦产生焦味等优点,但其缺点在于,吸液元件的吸液面很大且与储液器的液面直接接触,导致吸液量很大过于饱和容易造成漏液,因此其需要在储液器内使用储液介质以减缓烟液的传导速度,减少漏液的发生。另外,吸液元件、发热元件的雾化腔呈圆柱形,发热元件是发热丝且发热丝的边缘与雾化表面内切,这限制了雾化腔的加热面积并降低了气溶胶的加热效率。此外,在到达吸液元件的过程中,烟液必须首先使密度较小的储液介质浸透,储液介质的传导速度较慢,如果用户频繁深吸电子烟,会导致微孔陶瓷内层中缺乏烟液,即“烟液荒”,这破坏了烟液雾化和气溶胶生成的连续性。The liquid absorbing element of the above atomization component adopts porous ceramic material, which has the advantages of high temperature resistance, not easy to be ablated at high temperature, and will not be burnt to produce a burnt smell. However, its disadvantage is that the liquid absorbing surface of the liquid absorbing element is large and is The liquid surface of the liquid reservoir is in direct contact, resulting in a large amount of liquid that is too saturated and easy to cause liquid leakage. Therefore, it is necessary to use a liquid storage medium in the liquid reservoir to slow down the transmission speed of the smoke liquid and reduce the occurrence of liquid leakage. In addition, the atomization cavity of the liquid absorbing element and the heating element is cylindrical, the heating element is a heating wire and the edge of the heating wire is inscribed with the atomization surface, which limits the heating area of the atomization cavity and reduces the heating efficiency of the aerosol . In addition, in the process of reaching the liquid absorbing element, the e-liquid must first soak the liquid storage medium with a lower density, and the transmission speed of the liquid storage medium is slow. If the user frequently inhales the electronic cigarette deeply, it will cause the inner layer of the microporous ceramic Lack of smoke liquid, that is, "liquid smoke shortage", which destroys the continuity of smoke liquid atomization and aerosol generation.
鉴于上述雾化组件的不足之处,仍然需要具有防漏液和更高加热效率和实现其他益处的雾化组件。In view of the shortcomings of the above-mentioned atomization assembly, there is still a need for an atomization assembly with liquid leakage prevention, higher heating efficiency, and other benefits.
本发明的目的是提供一种电子雾化设备的雾化组件,该雾化组件既有耐高温的特性,又可以克服上述现有技术的不足。The purpose of the present invention is to provide an atomization component of an electronic atomization device, which not only has the characteristics of high temperature resistance, but also can overcome the above-mentioned shortcomings of the prior art.
本发明的技术解决方案是,电子雾化设备的雾化组件,包括壳体(1)、由微孔陶瓷制成的内吸收层(2)、完全嵌入内吸收层(2)内部的电阻式加热元件(3)和设于电阻式加热元件(3)两端的引线(4),所述内吸收层(2)内部设有雾化腔(5),所述壳体下部设有与雾化腔(5)连通的进气通道(6),所述壳体(1)的中部主体(7)设计成圆锥台状,所述中部主体(7)的侧面设有侧通孔(8),其下部和上部分别设有进气支管(9)和排气支管(10)所述内吸收层(2)设计成圆锥台状且贴合于所述壳体(1)的中部主体(7)的内壁,其侧面设有侧面凸起(11),所述侧面凸起(11)对应插入所述壳体(1)的侧通孔(8)中。The technical solution of the present invention is that the atomization component of the electronic atomization device includes a shell (1), an inner absorption layer (2) made of microporous ceramics, and a resistive type completely embedded in the inner absorption layer (2). The heating element (3) and the lead wires (4) arranged at both ends of the resistance heating element (3), the inner absorption layer (2) is provided with an atomization cavity (5), and the lower part of the housing is provided with an atomization chamber (5). The air inlet passage (6) communicated with the cavity (5), the middle body (7) of the housing (1) is designed in a truncated cone shape, and the side of the middle body (7) is provided with a side through hole (8), The lower part and the upper part are respectively provided with an intake branch pipe (9) and an exhaust branch pipe (10). The inner absorption layer (2) is designed in a truncated cone shape and is attached to the middle body (7) of the housing (1). The side surface of the inner wall is provided with side protrusions (11), and the side protrusions (11) are correspondingly inserted into the side through holes (8) of the housing (1).
优选地,所述壳体(1)的进气支管(9)内部设有挡板(13),所述挡板(13)上设有外周送气孔(12),所述进气通道(6)通过外周送气孔(12)与雾化腔(5)相连。Preferably, a baffle (13) is provided inside the intake branch pipe (9) of the housing (1), and a peripheral air supply hole (12) is provided on the baffle (13), and the air intake passage (6) ) It is connected with the atomization cavity (5) through the peripheral air supply hole (12).
优选地,所述壳体(1)由实心陶瓷构成。Preferably, the housing (1) is made of solid ceramics.
优选地,所述电阻式加热元件(3)设计成圆锥台状。Preferably, the resistance heating element (3) is designed in a truncated cone shape.
优选地,所述电阻式加热元件(3)由薄金属板制成并且构造成锯齿条状。Preferably, the resistance heating element (3) is made of a thin metal plate and configured in a zigzag bar shape.
优选地,所述电阻式加热元件(3)由金属丝制成并且构造成网状。Preferably, the resistance heating element (3) is made of metal wire and configured in a mesh shape.
优选地,所述进气支管(9)的外径小于与其连接处的中部主体(7)的外径,两者之间形成一个台阶。Preferably, the outer diameter of the intake branch pipe (9) is smaller than the outer diameter of the middle body (7) where it is connected, and a step is formed between the two.
优选地,所述排气支管(10)的外径小于与其连接处的中部主体(7)的外径,两者之间形成一个台阶。Preferably, the outer diameter of the exhaust branch pipe (10) is smaller than the outer diameter of the middle body (7) where it is connected, and a step is formed between the two.
本发明不仅具有耐高温、不容易高温烧蚀、不会被烧焦而产生焦味的优点,还将吸液元件设计为内吸收层,内吸收层设计成圆锥台状,且其侧面设有侧面凸起,烟液通过侧面凸起直接吸收储液器内的烟液,不容易漏液,烟液传导效率高,另电阻式加热元件嵌入内吸收层中且构造成锯齿条状或网状,热传导效率高,烟液雾化快且均匀。The invention not only has the advantages of high temperature resistance, high temperature ablation, and no burnt odor, but also the liquid absorption element is designed as an inner absorption layer, the inner absorption layer is designed into a truncated cone shape, and the side is provided with The side bulge, the smoke liquid directly absorbs the smoke liquid in the reservoir through the side projection, it is not easy to leak, the smoke liquid conduction efficiency is high, and the resistance heating element is embedded in the inner absorption layer and is structured in a zigzag or net shape , The heat conduction efficiency is high, and the smoke liquid is atomized quickly and uniformly.
图1是本发明雾化组件的剖视图;Figure 1 is a cross-sectional view of the atomizing assembly of the present invention;
图2是本发明雾化组件的立体视图;Figure 2 is a three-dimensional view of the atomization assembly of the present invention;
图3是本发明实施例雾化组件的电阻式加热元件的正视图;Fig. 3 is a front view of the resistance heating element of the atomization assembly of the embodiment of the present invention;
图4是本发明实施例雾化组件的电阻式加热元件的展开图;4 is an expanded view of the resistance heating element of the atomization assembly of the embodiment of the present invention;
图5是本发明另一实施例雾化组件的电阻式加热元件的正视图。Fig. 5 is a front view of a resistive heating element of an atomizing assembly according to another embodiment of the present invention.
图6是本发明另一实施例雾化组件的电阻式加热元件的展开图;Fig. 6 is an expanded view of a resistance heating element of an atomization assembly according to another embodiment of the present invention;
图7是本发明雾化组件作为其中一部分的雾化器的剖视图。Fig. 7 is a cross-sectional view of an atomizer in which the atomization assembly of the present invention is a part.
本发明附图的符合说明:Compliant description of the drawings of the present invention:
1.壳体;2.内吸收层;3.电阻式加热元件;4.引线;5.雾化腔;6.进气通道;7.中部主体;8.侧通孔;9.进气支管;10.排气支管;11.侧面凸起;12.外周送风孔;13.挡板;14.底座;15.密封圈;16.进气孔;17.气道;18.进气管;19.中央接触元件;20.外螺纹接触元件;21.绝缘座;22.喷雾管;23.密封圈;24.外壳;25.储液腔;26.吸嘴。。1. Shell; 2. Inner absorption layer; 3. Resistance heating element; 4. Lead wire; 5. Atomization chamber; 6. Air inlet channel; 7. Central body; 8. Side through hole; 9. Air inlet branch pipe ; 10. Exhaust branch pipe; 11. Side protrusion; 12. Peripheral air supply hole; 13. Baffle; 14. Base; 15. Seal ring; 16. Air inlet; 17. Air duct; 18. Air inlet pipe; 19. Central contact element; 20. External thread contact element; 21. Insulation seat; 22. Spray tube; 23. Seal ring; 24. Shell; 25. Liquid storage chamber; 26. Suction nozzle. .
本发明的电子雾化设备的雾化组件,用作药液或电子烟烟液等液体的雾化,该雾化组件设计成电子雾化设备、电子烟或电子水烟的部件,电子水烟包括水烟袋、水烟筒、水烟壶等,该雾化组件没有热解过程如燃烧,阴燃等。The atomization component of the electronic atomization device of the present invention is used for atomization of liquids such as liquid medicine or e-cigarette liquid. The atomization component is designed as a component of electronic atomization equipment, electronic cigarettes or electronic water pipes, and electronic water pipes include water pipes , Water pipes, water pipes, etc., the atomization component has no pyrolysis process such as burning, smoldering, etc.
本发明下面将结合附图作进一步详述: The present invention will be described in further detail below in conjunction with the accompanying drawings:
如图1、图2所示,本发明一种吸烟设备的雾化组件,包括:由陶瓷制成的壳体1,由微孔陶瓷制成的内吸收层2,嵌入内吸收层2中的电阻式加热元件3,电阻式加热元件3的引线4,内吸收层2的雾化腔5和与雾化腔5连通的进气通道6。As shown in Figures 1 and 2, the atomization component of the smoking device of the present invention includes: a casing 1 made of ceramics, an inner absorption layer 2 made of microporous ceramics, and an inner absorption layer 2 embedded in the inner absorption layer 2 The resistance heating element 3, the lead 4 of the resistance heating element 3, the atomization cavity 5 of the inner absorption layer 2 and the air inlet channel 6 communicating with the atomization cavity 5.
壳体1由单体实心陶瓷制成,其中部主体7构造成圆锥台状,其中轴剖面呈V字形,中部主体7的侧面设有侧通孔8,以及壳体1的下部和上部分别设有进气支管9和排气支管10。壳体1用于阻隔内吸收层2和烟液储液腔25,并支撑和安装内吸收层2,且用于连接喷雾管22和底座14。壳体1的材料为实心陶瓷制成,有助于隔热、耐高温、防止高温下发生变形。 The housing 1 is made of a single solid ceramic, the central body 7 is configured in a truncated cone shape, the axial section of which is V-shaped, the side of the central body 7 is provided with a side through hole 8, and the lower and upper parts of the housing 1 are respectively provided There are intake branch pipes 9 and exhaust branch pipes 10. The casing 1 is used to block the inner absorption layer 2 and the smoke liquid storage cavity 25, supports and installs the inner absorption layer 2, and is used to connect the spray tube 22 and the base 14. The material of the shell 1 is made of solid ceramics, which is helpful for heat insulation, high temperature resistance, and prevention of deformation at high temperatures.
内吸收层2由多孔的微孔陶瓷制成,呈圆锥台状且贴合于壳体1内部,其中轴剖面呈V字形,其侧面具有侧面凸起11,侧面凸起11对应插入壳体1的中部主体7的通孔8中。The inner absorption layer 2 is made of porous microporous ceramics, is in the shape of a truncated cone and fits inside the casing 1, wherein the axial section is V-shaped, and the side surface has side protrusions 11, and the side protrusions 11 are inserted into the casing 1 correspondingly In the through hole 8 of the central body 7.
内吸收层2的多孔微孔陶瓷必须不导电、无毒且具有热稳定性。The porous microporous ceramic of the inner absorption layer 2 must be non-conductive, non-toxic and thermally stable.
制作内吸收层2时,其它实施例也可以使用任何其他非导电、无毒且具有热稳定性的微孔材料代替微孔陶瓷。When the inner absorption layer 2 is made, other embodiments can also use any other non-conductive, non-toxic and thermally stable microporous material instead of the microporous ceramic.
壳体1用于安装和支撑内吸收层2,并连接喷雾管22和底座14,壳体1不传导待雾化的液体,储液腔25中待雾化的液体物质通过壳体1的侧通孔8,被内吸收层2的侧面凸起11吸收进入内吸收层2,内吸收层2内部的电阻式加热元件3可以对其周边的液体物质加热,被加热后的液体物质变成蒸汽从内吸收层2的内壁蒸发出来,并汇集在雾化腔5内。壳体1的中部主体7设计成V形的圆锥台状是为了便于贴合安装V形圆锥台状的内吸收层2,内吸收层2设计成V形圆锥台状,其内部的雾化腔5也成为V形圆锥台状,这样可以增加雾化腔5的内表面的面积,较大的雾化腔5的内表面积可以增加液体蒸发量,提高雾化效率,且剖面为V形的形状与喇叭形状相同,可以使向外流动的流体(气溶胶)进行加速,向外发散,及时排出液体被蒸发雾化形成的蒸汽(气溶胶),这样可以提高雾化芯的工作效率。内吸收层2通过侧面凸起11自侧通孔8伸出到储液腔25,而不是全部面积接触吸收储液腔25,这样具有限流或节流的作用,防止内吸收层2过多地吸收储液腔25的液体物质而超过饱和状态发生漏液的现象。The casing 1 is used to install and support the inner absorption layer 2 and connect the spray tube 22 and the base 14. The casing 1 does not conduct the liquid to be atomized, and the liquid substance to be atomized in the liquid storage cavity 25 passes through the side of the casing 1. The through hole 8 is absorbed by the side protrusions 11 of the inner absorption layer 2 and enters the inner absorption layer 2. The resistance heating element 3 inside the inner absorption layer 2 can heat the surrounding liquid material, and the heated liquid material becomes steam It evaporates from the inner wall of the inner absorption layer 2 and collects in the atomization cavity 5. The central body 7 of the housing 1 is designed to have a V-shaped frustum shape in order to facilitate the installation of the V-shaped frustum-shaped inner absorption layer 2. The inner absorption layer 2 is designed to be a V-shaped frustum shape, and its internal atomization cavity 5 also becomes a V-shaped truncated cone shape, which can increase the area of the inner surface of the atomization cavity 5, and the larger inner surface area of the atomization cavity 5 can increase the amount of liquid evaporation and improve the atomization efficiency, and the cross-section is V-shaped It has the same shape as the horn, which can accelerate the outward flowing fluid (aerosol), diverge outward, and discharge the vapor (aerosol) formed by the evaporation and atomization of the liquid in time, which can improve the working efficiency of the atomization core. The inner absorption layer 2 extends from the side through hole 8 to the liquid storage cavity 25 through the side protrusions 11, instead of the entire area contacting the absorption liquid storage cavity 25, which has the function of restricting or throttling and preventing the inner absorption layer 2 from being excessive. The liquid material in the liquid storage chamber 25 is absorbed and the liquid leakage occurs when the liquid exceeds the saturation state.
进气通道6通过外周送气孔12连接至雾化腔5,外周送气孔12开设在位于壳体1的进气支管9中的挡板13上。设计挡板13的主要作用在于阻挡雾化腔5中滴下的冷凝液或未被雾化的液滴,外周送气孔12比较小,不影响进气,但冷凝液或未被雾化的液滴则不易通过该外周送气孔12而向下漏出至底座14,避免长期漏液而腐蚀底座14。The air intake passage 6 is connected to the atomization cavity 5 through a peripheral air supply hole 12, and the peripheral air supply hole 12 is opened on a baffle 13 located in the intake branch pipe 9 of the housing 1. The main function of the design of the baffle 13 is to block the condensate dripping from the atomization chamber 5 or the droplets that are not atomized. The peripheral air supply hole 12 is relatively small and does not affect the air intake, but the condensate or the droplets that are not atomized. It is not easy to leak downward to the base 14 through the outer peripheral air supply hole 12 to avoid long-term liquid leakage and corrosion of the base 14.
如图3、图4所示,本实施例中,电阻式加热元件3设计成圆锥台状,电阻式加热元件3可由金属薄片制成,构造成锯齿条状。该形状的电阻式加热元件3,相比螺旋状的电热丝而言,具有更大的面积接触待雾化的液体物质,其发热时能更多更快地加热液体物质,提高加热效率。As shown in Figs. 3 and 4, in this embodiment, the resistance heating element 3 is designed in a truncated cone shape, and the resistance heating element 3 can be made of sheet metal and configured in a zigzag bar shape. Compared with the spiral heating wire, the resistance heating element 3 of this shape has a larger area to contact the liquid substance to be atomized, and can heat the liquid substance more and faster when it generates heat, thereby improving the heating efficiency.
如图5、图6所示,在另一实施例中,电阻式加热元件3可由金属导线制成,构造成网状。该形状的电阻式加热元件3,也同样具有更大的面积接触待雾化的液体物质,提高加热效率。As shown in Figs. 5 and 6, in another embodiment, the resistance heating element 3 may be made of metal wires and configured in a mesh shape. The resistance heating element 3 of this shape also has a larger area to contact the liquid substance to be atomized, which improves the heating efficiency.
如图1、图2、图7所示,进气支管9的外径小于与其连接处的中部主体7的外径,两者之间形成一个台阶。进气支管9插入底座14与底座14连接,上述台阶用于对壳体1进行限位与固定。As shown in Figs. 1, 2, and 7, the outer diameter of the intake branch pipe 9 is smaller than the outer diameter of the middle main body 7 where it is connected, and a step is formed between the two. The intake branch pipe 9 is inserted into the base 14 and connected to the base 14, and the above-mentioned step is used to limit and fix the housing 1.
如图1、图2、图7所示,排气支管10的外径小于与其连接处的中部主体7的外径,两者之间形成一个台阶。排气支管10插入喷雾管22与喷雾管22连接,上述台阶用于对壳体1和喷雾管22进行限位与固定。As shown in FIGS. 1, 2 and 7, the outer diameter of the exhaust branch pipe 10 is smaller than the outer diameter of the middle body 7 where it is connected, and a step is formed between the two. The exhaust branch pipe 10 is inserted into the spray pipe 22 and connected to the spray pipe 22. The above-mentioned step is used to limit and fix the housing 1 and the spray pipe 22.
雾化组件的主要功能是提供热过程,将电子雾化设备的烟液转化为气溶胶(蒸气)。The main function of the atomization component is to provide a thermal process to convert the smoke liquid of the electronic atomization device into aerosol (vapor).
电子雾化设备的烟液是以甘油、丙二醇和调味剂的混合物为基础制成的,该混合物可包含尼古丁或烟碱盐或油性植物性液体。The e-liquid of the electronic atomization device is made on the basis of a mixture of glycerin, propylene glycol and flavoring agents. The mixture may contain nicotine or nicotine salts or oily vegetable liquids.
为了使雾化组件作为电子雾化设备、电子烟或吸烟设备的一部分而正常工作,应提供以下条件:In order for the atomization component to work normally as a part of the electronic atomization device, electronic cigarette or smoking device, the following conditions should be provided:
将储液器中储存的液体充分供应到吸收元件(吸液芯)和电加热元件;Fully supply the liquid stored in the reservoir to the absorbing element (wick) and electric heating element;
向雾化腔供应新鲜空气;Supply fresh air to the atomization cavity;
从雾化腔排出气溶胶;Discharge aerosol from the atomization chamber;
吸气时向电加热元件供电。Power is supplied to the electric heating element when inhaling.
本发明作为电子雾化设备的一个部件,即雾化组件应按照图7所示的方法进行操作,本发明所公开的雾化组件使用于电子雾化设备,该电子雾化设备如下所述。As a component of the electronic atomization device, the atomization assembly should be operated according to the method shown in FIG. 7. The atomization assembly disclosed in the invention is used in the electronic atomization device, and the electronic atomization device is as follows.
如图7所示,一种雾化器,本发明的雾化组件(1-13)安装在该雾化器中,该雾化器可以是透明材料制成,这样便于观察烟液的存量。该雾化器由以下部件组成:底座14,密封圈15,以及进气孔16、气道17、与雾化组件的进气通道6连接的进气管18、中央接触元件19和外螺纹接触元件20,绝缘座21,喷雾管22,带有储液腔25的外壳24和吸嘴26。其中,雾化组件壳体1的进气支管9通过密封圈15安装在底座14上,密封圈15可由硅酮密封胶制成。中央接触元件19和外螺纹接触元件20分别连接到雾化组件的两个引线4,并通过绝缘座21彼此分离,绝缘座21可由硅酮材料制成。雾化组件壳体1的排气支管10通过密封圈23(可由硅酮密封胶制成)嵌入喷雾管22。 As shown in Fig. 7, an atomizer in which the atomization assembly (1-13) of the present invention is installed. The atomizer may be made of a transparent material, so that it is convenient to observe the amount of smoke liquid. The atomizer is composed of the following components: a base 14, a sealing ring 15, and an air inlet 16, an air passage 17, an air inlet pipe 18 connected with the air inlet channel 6 of the atomization assembly, a central contact element 19 and an external threaded contact element 20. Insulation seat 21, spray tube 22, housing 24 with liquid storage cavity 25 and suction nozzle 26. Wherein, the intake branch pipe 9 of the atomization assembly housing 1 is installed on the base 14 through a sealing ring 15, and the sealing ring 15 may be made of silicone sealant. The central contact element 19 and the external threaded contact element 20 are respectively connected to the two leads 4 of the atomization assembly, and are separated from each other by an insulating seat 21, which can be made of silicone material. The exhaust branch pipe 10 of the atomization component housing 1 is embedded in the spray pipe 22 through a sealing ring 23 (which may be made of silicone sealant).
在使用前,给雾化器的储液腔25注入烟液,并将其中央接触元件19和外螺纹接触元件20连接至电源的适当触点,从而使雾化组件的电阻式加热元件3通过其引线4连接到电源。Before use, inject e-liquid into the liquid storage chamber 25 of the atomizer, and connect its central contact element 19 and external threaded contact element 20 to the appropriate contacts of the power source, so that the resistance heating element 3 of the atomizer assembly can pass through Its lead 4 is connected to the power source.
内吸收层2里面的电阻式加热元件3用于加热,并将内吸收层2里面的烟液加热雾化转化为气溶胶(蒸汽)。The resistance heating element 3 in the inner absorption layer 2 is used for heating, and heats and atomizes the smoke liquid in the inner absorption layer 2 into aerosol (vapor).
由于侧面凸起11的外表面积远小于内吸收层2位于雾化组件的雾化腔5的表面积,因此对进液量进行了限流,自侧面凸起11进入的烟液会被扩散分布于内吸收层2内,内吸收层2内的烟液即不会过多聚集于内吸收层2位于雾化组件的雾化腔5的表面而发生外溢,且内吸收层2微陶瓷孔中所含液体具有表面张力,因此,雾化组件不工作时,烟液在内吸收层2中会达到一种平衡,液体不会从内吸收层2位于雾化组件的雾化腔5表面的微孔中流出,这样即可防止漏液。Since the outer surface area of the side protrusions 11 is much smaller than the surface area of the inner absorption layer 2 in the atomization cavity 5 of the atomization assembly, the amount of liquid inflow is limited, and the smoke liquid entering from the side protrusions 11 will be diffused and distributed. In the inner absorption layer 2, the smoke liquid in the inner absorption layer 2 will not excessively gather on the surface of the inner absorption layer 2 located in the atomization cavity 5 of the atomization assembly to overflow, and the inner absorption layer 2 is contained in the microceramic pores of the atomization assembly. The liquid-containing liquid has surface tension. Therefore, when the atomization assembly is not working, the smoke liquid will reach a balance in the inner absorption layer 2, and the liquid will not flow from the inner absorption layer 2 to the micropores on the surface of the atomization cavity 5 of the atomization assembly. In this way, liquid leakage can be prevented.
空气经外周送气孔12进入雾化腔5,外周送气孔12开设在挡板13上,挡板13位于雾化组件壳体1的进气支管9内。Air enters the atomization cavity 5 through the outer peripheral air supply hole 12, and the outer peripheral air supply hole 12 is opened on the baffle 13 which is located in the intake branch 9 of the atomization assembly housing 1.
在吸烟过程中,当用户吸气时,空气通过供气的雾化器系统从大气中进入雾化组件,准确来说,是通过进气孔16、气道17、进气管18,然后经过进气通道6、挡板13上的外周送气孔12进入雾化器的雾化腔5内。During the smoking process, when the user inhales, the air enters the atomization assembly from the atmosphere through the air-supply atomizer system. To be precise, it passes through the air inlet 16, the air duct 17, and the air inlet pipe 18, and then passes through the air inlet. The air passage 6 and the peripheral air supply hole 12 on the baffle 13 enter the atomization cavity 5 of the atomizer.
用户吸气时,电源电压供电给引线4,引线4通过中央接触元件19和外螺纹接触元件20的连接通电到电阻式加热元件3,电阻式加热元件3开始快速加热(最高允许温度可达+290-300ºC)。When the user inhales, the power supply voltage is supplied to the lead 4, and the lead 4 is energized to the resistance heating element 3 through the connection of the central contact element 19 and the external thread contact element 20, and the resistance heating element 3 starts to heat up quickly (the maximum allowable temperature can reach + 290-300ºC).
位于电阻式加热元件3区域中的液体开始以气溶胶形式主动雾化到雾化腔5中,它与通过挡板13上开设的外周送气孔12进入的空气混合,挡板13位于雾化组件壳体1的进气支管9中。The liquid located in the area of the resistance heating element 3 starts to be actively atomized into the atomization chamber 5 in the form of aerosol, and it is mixed with the air entering through the outer peripheral air supply hole 12 opened on the baffle 13, which is located in the atomization assembly In the intake branch pipe 9 of the housing 1.
然后,空气混合物流过喷雾管22,经吸嘴26到达用户口中。Then, the air mixture flows through the spray tube 22, through the suction nozzle 26, and reaches the user's mouth.
以这种方式,本发明所公开的电子雾化设备的雾化组件的设计,通过增加液体雾化和气溶胶产生的强度,能提高烟雾加热功效,从而改善雾化腔内电阻式加热元件、空气和气溶胶之间的热交换条件。In this way, the design of the atomization component of the electronic atomization device disclosed in the present invention can increase the intensity of liquid atomization and aerosol generation, which can improve the smoke heating effect, thereby improving the resistance heating element and air in the atomization cavity. The heat exchange conditions between and aerosols.
本发明所公开的电子雾化设备的雾化组件能应用到工业领域,该雾化组件提供了将液体变为气溶胶的热转变过程,避免了热解过程(燃烧,发霉等)。The atomization component of the electronic atomization device disclosed in the present invention can be applied to the industrial field. The atomization component provides a thermal transformation process for turning liquid into aerosol and avoids pyrolysis processes (combustion, mold, etc.).
本发明所公开的雾化组件增加了烟液的雾化强度和单位时间内气雾产生量。它可以由任何企业生产,并广泛用于雾化器、透明雾化器类型的吸烟设备。The atomization component disclosed in the present invention increases the atomization intensity of the smoke liquid and the amount of aerosol generated per unit time. It can be produced by any enterprise and is widely used in smoking equipment of atomizer and transparent atomizer type.
除非上下文有相反的规定,否则本文中阐述的所有范围应解释为包括其端点,同样,除非上下另有指示,否则所有值列表都应视为包括中间值。如本说明书和随后的整个权利要求书中所使用的,“一个”,“一种”和“这个”的含义包括复数,除非上下文另行明确指出。本文中数值范围的列举仅用作分别指代该范围内的每个单独数值的简写方法。 除非本文另外指出,否则将具有范围的每个单独的值并入说明书中,就如同其在本文中单独列举一样。 除非本文另外指出或与上下文明显矛盾,否则本文描述的所有方法可以以任何合适的顺序执行。相对于本文的某些实施例提供的任何和所有示例或示例性语言的使用仅旨在更好地阐明本发明,并且不对以其他方式要求保护的本发明的范围构成限制。说明书中的任何语言都不应解释为暗示了实施本发明必不可少的任何未要求保护的要素。Unless the context dictates to the contrary, all ranges set forth in this article should be interpreted as including their endpoints. Likewise, unless otherwise indicated above or below, all lists of values should be considered as including intermediate values. As used in this specification and the entire claims that follow, the meanings of "a", "an" and "this" include plurals unless the context clearly dictates otherwise. The enumeration of numerical ranges herein is only used as a shorthand method to refer to each individual numerical value in the range separately. Unless otherwise indicated herein, each individual value with a range is incorporated into the specification as if it were individually recited herein. Unless otherwise indicated herein or clearly contradictory to the context, all methods described herein can be performed in any suitable order. The use of any and all examples or exemplary language provided with respect to certain embodiments herein is only intended to better clarify the present invention, and does not limit the scope of the present invention that is otherwise claimed. Any language in the specification should not be interpreted as implying any unclaimed elements essential to the implementation of the present invention.
以上所述仅为本发明的较佳实施例,凡依本发明权利要求范围所做的均等变化与修饰,皆应属本发明权利要求的涵盖范围。The foregoing descriptions are only preferred embodiments of the present invention, and all equivalent changes and modifications made in accordance with the scope of the claims of the present invention shall fall within the scope of the claims of the present invention.
Claims (8)
- 一种电子雾化设备的雾化组件,其特征在于,包括壳体(1)、由微孔陶瓷制成的内吸收层(2)、完全嵌入内吸收层(2)内部的电阻式加热元件(3)和设于电阻式加热元件(3)两端的引线(4),所述内吸收层(2)内部设有雾化腔(5),所述壳体下部设有与雾化腔(5)连通的进气通道(6),所述壳体(1)的中部主体(7)设计成圆锥台状,所述中部主体(7)的侧面设有侧通孔(8),其下部和上部分别设有进气支管(9)和排气支管(10), 所述内吸收层(2)设计成圆锥台状且贴合于所述壳体(1)的中部主体(7)的内壁,其侧面设有侧面凸起(11),所述侧面凸起(11)对应插入所述壳体(1)的侧通孔(8)中。An atomization component of an electronic atomization device, which is characterized by comprising a housing (1), an inner absorption layer (2) made of microporous ceramics, and a resistance heating element completely embedded in the inner absorption layer (2) (3) and lead wires (4) arranged at both ends of the resistance heating element (3), the inner absorption layer (2) is provided with an atomization cavity (5), and the lower part of the housing is provided with an atomization cavity ( 5) Connected air inlet passage (6), the middle body (7) of the housing (1) is designed in a truncated cone shape, the side of the middle body (7) is provided with a side through hole (8), and the lower part An intake branch pipe (9) and an exhaust branch pipe (10) are respectively arranged on the upper part and the upper part. The inner absorption layer (2) is designed in a truncated cone shape and is attached to the middle main body (7) of the housing (1). The inner wall is provided with a side protrusion (11) on its side surface, and the side protrusion (11) is correspondingly inserted into the side through hole (8) of the housing (1).
- 根据权利要求1所述电子雾化设备的雾化组件,其特征在于,所述壳体(1)的进气支管(9)内部设有挡板(13),所述挡板(13)上设有外周送气孔(12),所述进气通道(6)通过外周送气孔(12)与雾化腔(5)相连。The atomization component of the electronic atomization device according to claim 1, wherein the inside of the intake branch pipe (9) of the housing (1) is provided with a baffle (13), and the baffle (13) is A peripheral air supply hole (12) is provided, and the air intake channel (6) is connected with the atomization cavity (5) through the peripheral air supply hole (12).
- 根据权利要求1所述电子雾化设备的雾化组件,其特征在于,所述壳体(1)由实心陶瓷构成。The atomization component of the electronic atomization device according to claim 1, wherein the housing (1) is made of solid ceramics.
- 根据权利要求1所述电子雾化设备的雾化组件,其特征在于,所述电阻式加热元件(3)设计成圆锥台状。The atomization component of the electronic atomization device according to claim 1, wherein the resistance heating element (3) is designed in a truncated cone shape.
- 根据权利要求1所述电子雾化设备的雾化组件,其特征在于,所述电阻式加热元件(3)由薄金属板制成并且构造成锯齿条状。The atomization component of the electronic atomization device according to claim 1, wherein the resistance heating element (3) is made of a thin metal plate and is configured in a zigzag bar shape.
- 根据权利要求1所述电子雾化设备的雾化组件,其特征在于,所述电阻式加热元件(3)由金属丝制成并且构造成网状。The atomization component of the electronic atomization device according to claim 1, wherein the resistance heating element (3) is made of metal wire and configured in a mesh shape.
- 根据权利要求1所述电子雾化设备的雾化组件,其特征在于,所述进气支管(9)的外径小于与其连接处的中部主体(7)的外径,两者之间形成一个台阶。The atomization component of the electronic atomization device according to claim 1, characterized in that the outer diameter of the intake branch pipe (9) is smaller than the outer diameter of the middle body (7) where it is connected, and an outer diameter is formed between the two Steps.
- 根据权利要求1所述电子雾化设备的雾化组件,其特征在于,所述排气支管(10)的外径小于与其连接处的中部主体(7)的外径,两者之间形成一个台阶。The atomization component of the electronic atomization device according to claim 1, characterized in that the outer diameter of the exhaust branch pipe (10) is smaller than the outer diameter of the middle body (7) where it is connected, and an outer diameter is formed between the two Steps.
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