WO2017201710A1 - Liquid storage bottle and liquid storage bottle assembly - Google Patents

Abstract

A liquid storage bottle and a liquid storage bottle assembly, the liquid storage bottle comprising an atomising assembly (1) having an ultrasonic atomiser (11) and a liquid suction member (12), a liquid storage assembly (2) having a liquid storage cavity (21), an electrode assembly (3), a heating assembly (8), and a connecting assembly (4), the liquid suction member (12) penetrating inside the liquid storage cavity (21) and extending to the bottom of the liquid storage cavity (21), one surface of the liquid suction member (12) being attached to the surface of the ultrasonic atomiser (11), liquid being atomised by means of the ultrasonic atomiser (11), and the heating assembly (8) being able to heat the vapour atomised by the ultrasonic atomiser (11). The present liquid storage bottle and liquid storage bottle assembly prevent the problems of tedious cleaning, the easy introduction of pollutants, and reduced atomising effects as a result of not being cleaned thoroughly, and achieves the effects of rapid replacement and not requiring cleaning; the assemblies in the liquid storage bottle can be optimised according to different liquids, increasing the temperature of the vapour generated by means of atomisation by the ultrasonic atomiser, so that vapour of a suitable temperature can be sprayed in a low temperature environment.

Description

一种储液瓶以及储液瓶组件Liquid storage bottle and liquid storage bottle assembly 技术领域Technical field

本发明涉及电子烟领域，尤其涉及的是用于液体喷雾，并且能够对喷出的液体进行加热的储液瓶以及储液瓶组件。The present invention relates to the field of electronic cigarettes, and more particularly to a liquid storage bottle and a liquid storage bottle assembly for liquid spraying and capable of heating the discharged liquid.

背景技术Background technique

现有技术中，液体雾化器可多次放入液体重复使用。In the prior art, the liquid atomizer can be repeatedly used for liquid re-use.

如图1所示的现有技术中，液体雾化器包括雾化器壳体1、排雾管4和与排雾管4相连接的鼻罩6。雾化器壳体1固定安装有振荡器3和储液腔5，储液腔5内包含与排雾管4相连接的喷雾管2。液体经储液腔5中的振荡器3振荡后，通过喷雾管2和排雾管4流通至鼻罩6，以供用户使用。但是，由于固定在雾化器壳体1内的储液腔5不可拆卸，因此，更换新的液体前，需要对储液腔5进行清洗，较不方便。清洗时，储液腔5将暴露在外界环境中，会引入外界环境中的粉尘等污染物，导致雾化效果的降低。另一方面，清洗后液体腔5内易残留有原液体和清洗液的残留液，由于液体雾化器的结构固定，不可拆卸或更改，故当残留液与新加入液体的浓度不同，会导致雾化效果的不一致。即现有技术无法方便快捷地更换新的液体，更换液体的过程中易进入污染物，更换液体后无法针对不同浓度的液体达到最好的雾化效果，从而影响客户的使用体验。而且若现有技术所提供的液体雾化器在天气寒冷时使用，则喷出来的雾气温度较低，使用时使用者会感到不适，,特别是寒冷天气使用时会使环境温度更低。In the prior art as shown in FIG. 1, the liquid atomizer includes an atomizer housing 1, a mist discharge tube 4, and a nasal mask 6 connected to the mist discharge tube 4. The atomizer housing 1 is fixedly mounted with an oscillator 3 and a reservoir chamber 5, and the reservoir chamber 5 includes a spray tube 2 connected to the mist tube 4. The liquid oscillates through the oscillator 3 in the reservoir 5, and then flows through the spray tube 2 and the mist tube 4 to the nasal mask 6 for use by the user. However, since the liquid storage chamber 5 fixed in the atomizer housing 1 is not detachable, it is inconvenient to clean the liquid storage chamber 5 before replacing the new liquid. During cleaning, the liquid storage chamber 5 will be exposed to the external environment, which will introduce dust and other pollutants in the external environment, resulting in a decrease in the atomization effect. On the other hand, after the cleaning, the residual liquid of the original liquid and the cleaning liquid is liable to remain in the liquid chamber 5. Since the structure of the liquid atomizer is fixed, it cannot be disassembled or changed, so when the concentration of the residual liquid and the newly added liquid are different, The fogging effect is inconsistent. That is to say, the prior art cannot replace the new liquid conveniently and quickly, and the liquid is easy to enter the process of replacing the liquid. After the liquid is replaced, the best atomization effect cannot be achieved for the liquid of different concentrations, thereby affecting the customer experience. Moreover, if the liquid atomizer provided by the prior art is used in cold weather, the temperature of the sprayed mist is low, and the user feels uncomfortable during use, and in particular, the ambient temperature is lower when used in cold weather.

发明内容Summary of the invention

鉴于上述情况，有必要提供一种可以免清洗且易于更换液体，并且能够根据用户的需要进行加热，且雾化效果好的储液瓶以及储液瓶组件。In view of the above, it is necessary to provide a liquid storage bottle and a liquid storage bottle assembly which can be cleaned and which is easy to change liquid, and can be heated according to the needs of the user, and has a good atomization effect.

本发明公开了一种储液瓶，用于装液体并与电源组件配合进行雾化所述液体，其中： The invention discloses a liquid storage bottle for loading a liquid and cooperating with a power supply component to atomize the liquid, wherein:

包括雾化组件、储液组件、电极组件、连接组件，以及加热组件；The invention includes an atomizing component, a liquid storage component, an electrode component, a connecting component, and a heating component;

所述储液组件设置有储液腔，所述雾化组件包括超声波雾化器及由多孔材料制成的液体吸附件，所述液体吸附件***储液腔内并延伸至所述储液腔的底部，所述液体吸附件的一表面贴附在所述超声波雾化器的表面上，以使能够将所述储液腔内的液体输送给所述超声波雾化器进行雾化；The liquid storage assembly is provided with a liquid storage chamber, the atomization assembly comprising an ultrasonic atomizer and a liquid adsorption member made of a porous material, the liquid adsorption member being inserted into the liquid storage chamber and extending to the liquid storage chamber a bottom surface of the liquid adsorbing member attached to the surface of the ultrasonic atomizer to enable the liquid in the liquid storage chamber to be supplied to the ultrasonic atomizer for atomization;

所述加热组件设置有电热丝以及用于固定所述电热丝的陶瓷基体，所述电热丝插设在所述陶瓷基体内部，且所述电热丝与所述电极组件电连接，所述电热丝用于将所述超声波雾化器雾化后的液体进行加热；The heating assembly is provided with a heating wire and a ceramic substrate for fixing the heating wire, the heating wire is inserted inside the ceramic substrate, and the heating wire is electrically connected to the electrode assembly, the heating wire Used to heat the liquid atomized by the ultrasonic atomizer;

所述电极组件套设在所述连接组件内并与所述超声波雾化器电连接，所述连接组件的一端与所述储液组件相连，所述连接组件的另一端用于与所述电源组件相连，以使在电源组件和所述连接组件相连后，所述电极组件与所述电源组件实现电连接；The electrode assembly is sleeved in the connection assembly and electrically connected to the ultrasonic atomizer, one end of the connection assembly is connected to the liquid storage assembly, and the other end of the connection assembly is used for the power supply The components are connected such that the electrode assembly is electrically connected to the power component after the power component and the connecting component are connected;

所述雾化组件、储液组件、电极组件及连接组件组合形成一封闭的整体，且该整体密封住所述储液腔，以阻碍外部液体注入所述储液腔内。The atomizing assembly, the liquid storage assembly, the electrode assembly and the connecting assembly are combined to form a closed unit, and the whole seals the liquid storage chamber to prevent external liquid from being injected into the liquid storage chamber.

可选的：所述储液瓶还包括与所述雾化组件连接的喷嘴，所述喷嘴具有与外界连通的雾化通道；所述储液组件还包括雾化套，所述雾化套的一端插设有所述雾化组件，所述雾化套的另一端与所述连接组件固定连接，所述储液腔形成在所述雾化套内；Optionally, the liquid storage bottle further includes a nozzle connected to the atomization assembly, the nozzle has an atomization passage communicating with the outside; the liquid storage assembly further includes an atomization sleeve, and the atomization sleeve The atomizing assembly is inserted into one end, the other end of the atomizing sleeve is fixedly connected with the connecting component, and the liquid storage chamber is formed in the atomizing sleeve;

所述超声波雾化器包括用于通过高频谐振将雾化后的液体传输至所述雾化通道内的雾化片和用于固定所述雾化片的固定件，所述雾化片套设在所述固定件内，所述液体吸附件贴附于所述雾化片表面，并用于吸附所述储液腔内的液体至所述雾化片，所述雾化片的一侧固定设置有用于连接所述电极组件的电子线，所述固定件插设在所述喷嘴靠近所述雾化套的一端。The ultrasonic atomizer includes an atomizing sheet for transferring the atomized liquid into the atomizing passage by high frequency resonance and a fixing member for fixing the atomizing sheet, the atomizing sheet sleeve Provided in the fixing member, the liquid adsorbing member is attached to the surface of the atomizing sheet, and is used for adsorbing liquid in the liquid storage chamber to the atomizing sheet, and one side of the atomizing sheet is fixed An electron wire for connecting the electrode assembly is provided, and the fixing member is interposed at an end of the nozzle close to the atomizing sleeve.

可选的：所述固定件呈内中空的环形结构，且所述固定件的内侧壁设有用于嵌入所述雾化片的环形镶嵌槽，所述环形镶嵌槽延伸至所述固定件一端端面，所述环形镶嵌槽的槽壁上设置有用于供所述电子线穿出的开口槽，所述开口槽与所述环形镶嵌槽相连通；Optionally, the fixing member has an inner annular annular structure, and an inner side wall of the fixing member is provided with an annular mounting groove for inserting the atomizing sheet, and the annular mounting groove extends to one end surface of the fixing member. The slot wall of the annular mounting groove is provided with an open slot for the electronic wire to pass through, and the open slot is in communication with the annular mounting groove;

所述电极组件包括相互绝缘的内电极和外电极，所述内电极和外电极套装 在所述连接组件内，且分别通过各自的电子线与所述雾化片电连接。The electrode assembly includes an inner electrode and an outer electrode insulated from each other, the inner electrode and the outer electrode set Within the connection assembly, and electrically connected to the atomization sheet by respective electron lines.

可选的：所述雾化组件还包括设置在所述雾化套和所述喷嘴之间的雾化环，所述雾化环包括环形的主体部和沿所述主体部缩径形成环形的连接部，所述主体部朝向所述电极组件的方向设有用于与所述雾化套的一端形成固定连接的环形连接槽，所述环形连接槽套设在所述雾化套的一端外周面上；所述连接部内侧壁与所述固定件的周缘相抵接，所述连接部外侧壁用于与所述喷嘴过盈配合；Optionally, the atomization assembly further includes an atomization ring disposed between the atomization sleeve and the nozzle, the atomization ring includes an annular body portion and a reduced diameter along the body portion to form a ring shape a connecting portion, the main body portion is provided with an annular connecting groove for forming a fixed connection with one end of the atomizing sleeve, and the annular connecting groove is sleeved on an outer peripheral surface of one end of the atomizing sleeve The inner side wall of the connecting portion abuts the periphery of the fixing member, and the outer side wall of the connecting portion is used for an interference fit with the nozzle;

所述雾化组件还包括用于容置所述液体吸附件的雾化管，所述雾化管外周具有多个用于传输液体的进液孔，所述雾化管同轴套设于所述雾化套内，且所述雾化套与所述雾化管之间具有空隙，所述空隙形成所述储液腔。The atomization assembly further includes an atomization tube for accommodating the liquid adsorption member, the outer circumference of the atomization tube has a plurality of liquid inlet holes for transporting liquid, and the atomization tube is coaxially sleeved The inside of the atomization sleeve has a gap between the atomization sleeve and the atomization tube, and the gap forms the liquid storage chamber.

可选的：所述储液瓶还包括设置在所述连接组件内的雾化座，所述雾化管的一端插设在所述雾化环中，并与所述雾化环过盈配合相抵接，所述雾化管的另一端套设在所述雾化座上；所述雾化座内依次设置有所述内电极和外电极；所述电子线包含第一电子线和第二电子线，所述第一电子线的一端与所述雾化片相连，所述第一电子线的另一端沿着所述雾化管的内部延伸至所述雾化座并夹持于所述雾化座与所述内电极之间，所述第二电子线的一端与所述雾化片相连，所述第二电子线的另一端沿着所述雾化管的内部延伸至所述雾化座并夹持于所述雾化座与所述外电极之间。Optionally, the liquid storage bottle further includes an atomization seat disposed in the connection assembly, one end of the atomization tube is inserted in the atomization ring, and has an interference fit with the atomization ring Abutting, the other end of the atomizing tube is sleeved on the atomizing seat; the inner electrode and the outer electrode are sequentially disposed in the atomizing seat; the electronic wire includes a first electronic wire and a second An electron beam, one end of the first electron beam is connected to the atomizing sheet, and the other end of the first electron beam extends along the inside of the atomizing tube to the atomizing seat and is clamped to the Between the atomizing seat and the inner electrode, one end of the second electron wire is connected to the atomizing sheet, and the other end of the second electron wire extends along the inside of the atomizing tube to the mist The base is clamped between the atomization seat and the outer electrode.

可选的：所述雾化套为圆筒形，所述雾化套的一端设有缩径形成的弯折部，所述弯折部卡合于所述主体部的环形连接槽内，所述雾化套的另一端为缩径形成的雾化套凸起；Optionally, the atomization sleeve is cylindrical, and one end of the atomization sleeve is provided with a bent portion formed by a reduced diameter, and the bent portion is engaged in the annular connecting groove of the main body portion. The other end of the atomizing sleeve is an atomizing sleeve protrusion formed by reducing the diameter;

所述弯折部、所述雾化套凸起分别对应与所述雾化环和所述连接组件连接，以形成密闭的整体。The bending portion and the atomizing sleeve protrusion are respectively connected to the atomizing ring and the connecting component to form a sealed whole.

可选的：所述液体吸附件呈柱状，所述柱状液体吸附件的外周面与所述雾化管内周面紧密贴合并盖设在每一所述进液孔上，所述液体吸附件的端面抵持在所述雾化片上。Optionally, the liquid adsorbing member has a column shape, and an outer peripheral surface of the columnar liquid adsorbing member is closely attached to the inner peripheral surface of the atomizing tube and is disposed on each of the liquid inlet holes, and the liquid adsorbing member The end face is held against the atomizing sheet.

可选的：所述喷嘴的靠近雾化套的一端沿周向延伸形成一圆形凸缘；Optionally, an end of the nozzle adjacent to the atomizing sleeve extends circumferentially to form a circular flange;

所述雾化套为一端开口的圆筒结构，所述雾化套周向设有第一安装孔，所 述圆形凸缘用于抵持固定于所述雾化套的第一安装孔的周缘上；所述喷嘴的中轴线与所述雾化管的中轴线之间具有夹角；The atomizing sleeve is a cylindrical structure with one end open, and the atomizing sleeve is provided with a first mounting hole in the circumferential direction. The circular flange is for resisting the circumference of the first mounting hole fixed to the atomizing sleeve; the central axis of the nozzle has an angle with the central axis of the atomizing tube;

所述雾化套还包括一垂直于所述雾化套封闭端面且与所述雾化套一体成型的隔液板；所述隔液板上开设有插孔，用于插设所述固定件；所述雾化套的开口端为缩径而成的雾化套凸起，用于与所述连接组件连接，形成一体成型的整体；所述隔液板与所述雾化套远离第一安装孔的部分形成的空腔为储液腔。The atomization sleeve further includes a liquid barrier plate perpendicular to the closed end surface of the atomization sleeve and integrally formed with the atomization sleeve; the liquid barrier panel is provided with a socket for inserting the fixing member The open end of the atomizing sleeve is a reduced diameter of the atomizing sleeve protrusion for connecting with the connecting component to form an integrally formed body; the liquid blocking plate and the atomizing sleeve are away from the first The cavity formed by the portion of the mounting hole is a liquid storage chamber.

可选的：所述液体吸附件为紧贴附于雾化片上的片状液体吸附件。Optionally, the liquid adsorbing member is a sheet-like liquid adsorbing member attached to the atomizing sheet.

可选的：所述喷嘴上还设有与所述固定件相抵接的环形凸台。Optionally, the nozzle is further provided with an annular boss that abuts the fixing member.

可选的：所述喷嘴内还包括一个设有第二安装孔的固定板；所述固定板安装在所述喷嘴的环形凸台上，所述环形凸台上固定有风扇装置，所述风扇装置用于将所述超声波雾化器雾化的雾气从所述喷嘴吹出。Optionally, the nozzle further includes a fixing plate provided with a second mounting hole; the fixing plate is mounted on the annular boss of the nozzle, and the fan device is fixed on the annular boss, the fan A device is used to blow mist that is atomized by the ultrasonic atomizer from the nozzle.

可选的：所述风扇装置包括马达和扇叶；所述马达朝向所述喷嘴的一端与所述扇叶相连接；所述马达的另一端延伸至所述雾化组件内，与所述电子线形成电连接。Optionally, the fan device comprises a motor and a fan blade; the motor is connected to the fan blade at one end of the nozzle; the other end of the motor extends into the atomization assembly, and the electron The wires form an electrical connection.

可选的：所述固定件由弹性材料制成；Optional: the fixing member is made of an elastic material;

所述雾化套由透明材料制成。The atomizing sleeve is made of a transparent material.

可选的：所述陶瓷基体插设在所述固定件朝向所述喷嘴的端面，且所述陶瓷基体与所述固定件之间过盈配合；Optionally, the ceramic substrate is inserted into an end surface of the fixing member facing the nozzle, and an interference fit between the ceramic substrate and the fixing member is performed;

所述陶瓷基体包括位置相对的第一端和第二端，所述第一端的端面面向所述雾化片，所述第二端朝向所述喷嘴，所述陶瓷基体内贯穿所述第一端的端面和所述第二端的端面设置有液化腔，且所述液化腔与所述雾化通道相连通；The ceramic substrate includes first and second opposite ends, the end surface of the first end faces the atomizing sheet, the second end faces the nozzle, and the ceramic substrate penetrates the first end An end surface of the end end and an end surface of the second end are provided with a liquefaction chamber, and the liquefaction chamber is in communication with the atomization passage;

所述电热丝呈柱形螺旋形结构，所述电热丝插设在所述陶瓷基体内部，且所述电热丝与所述陶瓷基体同轴设置，以使所述电热丝将所述超声波雾化器雾化后的液体加热后依次导通至所述液化腔以及所述雾化通道。The heating wire has a cylindrical spiral structure, the heating wire is inserted inside the ceramic substrate, and the heating wire is disposed coaxially with the ceramic substrate, so that the heating wire atomizes the ultrasonic wave After the atomized liquid is heated, it is sequentially turned on to the liquefaction chamber and the atomization passage.

可选的：所述陶瓷基体的内周面设置有呈螺旋形的固定槽，且所述电热丝与所述固定槽的形状相适配并嵌入所述固定槽中，所述电热丝的两端分别与所述电极组件电连接。Optionally, an inner circumferential surface of the ceramic substrate is provided with a spiral fixing groove, and the heating wire is matched with the shape of the fixing groove and embedded in the fixing groove, and two of the heating wires The ends are electrically connected to the electrode assembly, respectively.

可选的：所述喷嘴的内周面设置有卡持槽，所述陶瓷基体设置在所述喷嘴 靠近所述雾化套的端面，且所述陶瓷基体插设固定在所述卡持槽内，且所述卡持槽用于防止所述陶瓷基体沿朝向所述喷嘴的方向运动；Optionally, an inner circumferential surface of the nozzle is provided with a holding groove, and the ceramic base body is disposed at the nozzle Adjacent to the end surface of the atomizing sleeve, and the ceramic substrate is inserted and fixed in the holding groove, and the holding groove is for preventing the ceramic substrate from moving in a direction toward the nozzle;

贯穿所述陶瓷基体设置有多个通气孔，所述电热丝缠绕呈片状结构，且所述电热丝设置在所述超声波雾化器和所述陶瓷基体之间。A plurality of vent holes are disposed through the ceramic substrate, the heating wire is wound in a sheet-like structure, and the heating wire is disposed between the ultrasonic atomizer and the ceramic substrate.

本发明还公开了一种储液瓶组件，其中，包括如上述任一项所述的储液瓶，和与所述储液瓶可拆卸连接的电源组件。The invention also discloses a liquid storage bottle assembly, comprising the liquid storage bottle according to any of the above, and a power supply assembly detachably connected to the liquid storage bottle.

可选的：所述电源组件包括一电池套，所述电池套的一端连接有电池盖，用于密封所述电池套内的电池；所述电池套的另一端设有用于与连接组件上的内连接件相连接的外连接件；所述外连接件内设置有电极支架和固定于所述电极支架上的弹簧电极，所述弹簧电极用于与所述电极组件中的内电极和外电极弹性连接，向所述储液瓶提供电源。Optionally, the power component includes a battery cover, and the battery cover is connected with a battery cover at one end thereof for sealing the battery in the battery cover; and the other end of the battery cover is disposed on the connection component An outer connector to which the inner connector is connected; an electrode holder and a spring electrode fixed to the electrode holder are disposed in the outer connector, and the spring electrode is used for the inner electrode and the outer electrode in the electrode assembly An elastic connection provides power to the reservoir.

可选的：所述电源组件还包括位于电池套上的按键，与所述按键相连接的PCB板和用于固定所述PCB板的支架；所述PCB板的另一端与电池相连；所述电源组件的外连接件为外螺纹，所述内连接件为内螺纹，从而实现电源组件和所述储液瓶以螺纹方式形成的可拆卸连接。Optionally, the power component further includes a button on the battery cover, a PCB board connected to the button, and a bracket for fixing the PCB board; the other end of the PCB board is connected to the battery; The outer connector of the power supply assembly is externally threaded, and the inner connector is internally threaded to effect a threaded connection of the power supply assembly and the reservoir.

可选的：所述电源组件的外连接件上有卡合凸点；所述内连接件的内侧壁设置有沿该内壁的周面延伸的卡合凹槽及沿该内壁的轴向延伸的卡合开口槽，所述卡合开口槽延伸至所述内连接件的端面；所述外连接件通过将卡合凸点***所述卡合开口槽内后，旋转卡合凸点至所述卡合凹槽中，实现与所述内连接件的插旋式可拆卸连接，从而实现电源组件和所述储液瓶的可拆卸连接。Optionally, the outer connector of the power component has a snap-on bump; the inner sidewall of the inner connector is provided with an engaging groove extending along a circumferential surface of the inner wall and extending along an axial direction of the inner wall Engaging the opening groove, the engaging opening groove extending to an end surface of the inner connecting member; the outer connecting member rotating the engaging bump to the inner portion by inserting the engaging bump into the engaging opening groove In the engaging recess, a plug-in detachable connection with the inner connector is achieved, thereby achieving a detachable connection of the power supply assembly and the liquid storage bottle.

本发明提供的一个或多个技术方案，至少具有如下技术效果或优点：One or more technical solutions provided by the present invention have at least the following technical effects or advantages:

储液瓶由雾化组件、储液组件、电极组件、加热组件及连接组件连接为一不可拆卸的整体结构，使用完后更换方便，防止现有技术中重复使用需费时，清洗且清洗不干净时影响药物效果；The liquid storage bottle is connected by the atomizing component, the liquid storage component, the electrode component, the heating component and the connecting component into a non-detachable overall structure, and is convenient to replace after use, preventing the repeated use in the prior art from taking time, cleaning and cleaning. Affect the effect of the drug;

雾化组件包括雾化片，液体吸附件和雾化管，雾化片通过高频谐振(振荡频率为107MHz或者2.4MHz)将液态水分子结构打散而产生自然飘逸的雾气，不需要加热或添加任何化学试剂，与现有技术的加热雾化方式比较，可节省能源且雾化效果更好；液体吸附件采用多孔吸水材料，其包括了棉、玻纤材料， 可优选医用脱脂棉，医用脱脂棉由原棉经除去夹杂物，脱脂、漂泊、洗涤、干燥、整理加工制成。雾化管上设置有多个进液孔，进液孔大小可根据液体浓度的不同进行选择使用不同的药瓶，不同瓶体对应不同液体，使雾化效果达到最好。The atomizing component comprises an atomizing sheet, a liquid adsorbing member and an atomizing tube. The atomizing sheet breaks up the liquid water molecular structure by high frequency resonance (oscillation frequency of 107 MHz or 2.4 MHz) to generate a natural floating mist without heating or Adding any chemical reagent can save energy and better atomization effect compared with the prior art heating atomization method; the liquid adsorption member adopts porous water absorbing material, which includes cotton and glass fiber materials. The medical absorbent cotton can be preferably used, and the medical absorbent cotton is prepared by removing the inclusions from the raw cotton, degreasing, drifting, washing, drying, and finishing. The atomizing tube is provided with a plurality of liquid inlet holes, and the size of the liquid inlet holes can be selected according to the liquid concentration, and different medicine bottles are used, and the different bottle bodies correspond to different liquids, so that the atomization effect is best.

所述加热组件因通过陶瓷基体固定电热丝，则使得所述陶瓷基体能够更耐高温，且结构坚固，从而有效的避免因震动等原因导致电热丝阻值不稳定的问题；而且所述陶瓷基体不会产生碎屑等杂质，从而有效的保障了用户的健康，所述电热丝能够将所述雾化片所雾化后生成的雾气进行加热。The heating assembly fixes the heating wire through the ceramic substrate, so that the ceramic substrate can be more resistant to high temperature and has a firm structure, thereby effectively avoiding the problem that the resistance of the heating wire is unstable due to vibration or the like; and the ceramic substrate No impurities such as debris are generated, so that the health of the user can be effectively ensured, and the heating wire can heat the mist generated by the atomization of the atomized sheet.

储油组件包括雾化套，雾化套与雾化组件和连接组件组成密闭空间用于存放液体，并且使用透明雾化套可直接观察瓶内的药液剩余量。连接组件与电源组件可拆卸的连接，给使用者带来更快捷的更换方式，例如，将装有药物的储油组件换为装有护肤水的储液组件极其方便。The oil storage assembly includes an atomization sleeve, the atomization sleeve and the atomization assembly and the connection assembly form a closed space for storing the liquid, and the transparent atomization sleeve can directly observe the remaining amount of the liquid medicine in the bottle. The detachable connection between the connecting component and the power component provides a quicker way for the user to change, for example, it is extremely convenient to replace the drug-filled oil storage component with a liquid storage component.

附图说明DRAWINGS

为了更清楚地说明本发明实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据提供的附图获得其他的附图。In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is an embodiment of the present invention, and those skilled in the art can obtain other drawings according to the provided drawings without any creative work.

图1是现有技术中的液体雾化装置的剖视图；Figure 1 is a cross-sectional view of a prior art liquid atomizing device;

图2是本发明一优选实施例提供的储液瓶组件的剖视图；2 is a cross-sectional view of a liquid storage bottle assembly according to a preferred embodiment of the present invention;

图3是本发明第二实施例提供的储液瓶的剖视图；Figure 3 is a cross-sectional view of a liquid storage bottle according to a second embodiment of the present invention;

图4是本发明第二实施例提供的雾化组件的***图；4 is an exploded view of an atomizing assembly according to a second embodiment of the present invention;

图5是本发明第二实施例提供的储液组件的***图；Figure 5 is an exploded view of a liquid storage assembly according to a second embodiment of the present invention;

图6是本发明第二实施例提供的电极组件的***图；Figure 6 is an exploded view of an electrode assembly according to a second embodiment of the present invention;

图7是本发明电源组件的示意图；Figure 7 is a schematic view of a power supply assembly of the present invention;

图8是本发明第三实施例提供的储液瓶的剖视图；Figure 8 is a cross-sectional view of a liquid storage bottle according to a third embodiment of the present invention;

图9是本发明第四实施例提供的储液瓶组件的剖视图；Figure 9 is a cross-sectional view of a liquid storage bottle assembly according to a fourth embodiment of the present invention;

图10是本发明第四实施例提供的喷嘴的结构示意图； Figure 10 is a schematic structural view of a nozzle according to a fourth embodiment of the present invention;

图11是本发明第四实施例提供的雾化套的结构示意图；11 is a schematic structural view of an atomization sleeve according to a fourth embodiment of the present invention;

图12是本发明第五实施例提供的储液瓶组件的分解示意图；12 is an exploded perspective view of a liquid storage bottle assembly according to a fifth embodiment of the present invention;

图13是本发明第四实施例提供的加热组件的整体结构示意图；13 is a schematic view showing the overall structure of a heating assembly according to a fourth embodiment of the present invention;

图14是本发明第四实施例提供的储液瓶组件的分解示意图；14 is an exploded perspective view of a liquid storage bottle assembly according to a fourth embodiment of the present invention;

图15是本发明第四实施例提供的储液瓶组件的剖面结构示意图；Figure 15 is a cross-sectional structural view showing a liquid storage bottle assembly according to a fourth embodiment of the present invention;

图16是本发明第二实施例提供的陶瓷基体的剖视图。Figure 16 is a cross-sectional view of a ceramic substrate provided by a second embodiment of the present invention.

具体实施方式detailed description

本发明实施例通过提供一种电子液体喷雾瓶装置，即储液瓶，用于解决现有技术中液体雾化器存在的清洗不方便、易引入污染物及雾化效果降低等技术问题，提供一种一次性储液瓶和其相应的电源组件，实现了免清洗，更换快捷，使用方便，无污染物引入，对于不同浓度的药水均可达到最好的雾化效果的技术效果。The embodiment of the invention provides an electronic liquid spray bottle device, that is, a liquid storage bottle, which is used for solving technical problems such as inconvenient cleaning, easy introduction of pollutants and reduction of atomization effect in the prior art liquid atomizer. The utility model relates to a disposable liquid storage bottle and a corresponding power component thereof, which realizes no-cleaning, quick replacement, convenient use, no introduction of pollutants, and can achieve the best atomization effect technical effect for different concentration of medicine.

本发明实施例的技术方案为解决上述技术问题，总体思路如下：The technical solution of the embodiment of the present invention is to solve the above technical problem, and the general idea is as follows:

通过提供一种可拆卸的一次性储液瓶实现液体的更换，该储液瓶由雾化组件、储液组件、电极组件、连接组件组成一个不可拆卸的整体，使用完后直接更换储液瓶即可。并且雾化组件包括超声波雾化器及由多孔材料制成的液体吸附件，该液体吸附件***储液腔内并延伸至所述储液腔的底部，所述液体吸附件的一表面贴附在所述超声波雾化器的表面上，以使能够将所述储液腔内的液体输送给所述超声波雾化器，所述超声波雾化器通过高频谐振将液态水分子结构打散而产生自然飘逸的雾气对液体进行雾化，其节省能源且产生更好的雾化效果；而且本实施例所提供的储液瓶还包括加热组件，该加热组件能够将所述超声波雾化器雾化后的液体进行加热，从而使得本实施例所提供的雾气能够适用于较为寒冷的使用环境，使用一次性的储液瓶可以有效避免重复使用时的清洗不方便，以及引入污染物和清洗不干净时导致雾化效果的降低等问题。同时，储液瓶中的组件可以根据不同液体进行优化，保证对不同浓度的液体均可达到最好的雾化效果。The liquid replacement is realized by providing a detachable disposable liquid storage bottle, which is composed of an atomizing assembly, a liquid storage assembly, an electrode assembly and a connecting component, and is a non-detachable whole body. After use, the liquid storage bottle is directly replaced. Just fine. And the atomizing assembly comprises an ultrasonic atomizer and a liquid adsorbing member made of a porous material, the liquid adsorbing member is inserted into the liquid storage chamber and extends to the bottom of the liquid storage chamber, and a surface of the liquid adsorbing member is attached On the surface of the ultrasonic atomizer to enable the liquid in the liquid storage chamber to be delivered to the ultrasonic atomizer, the ultrasonic atomizer dispersing the liquid water molecular structure by high frequency resonance Producing a naturally flowing mist to atomize the liquid, which saves energy and produces a better atomization effect; and the liquid storage bottle provided in this embodiment further includes a heating component capable of fogging the ultrasonic atomizer The liquid after heating is heated, so that the mist provided by the embodiment can be applied to a relatively cold use environment, and the disposable liquid storage bottle can effectively avoid the inconvenience of cleaning during repeated use, and introduce pollutants and cleanliness. Problems such as a reduction in fogging effect when clean. At the same time, the components in the liquid storage bottle can be optimized according to different liquids to ensure the best atomization effect can be achieved for different concentrations of liquid.

为了更好的理解上述技术方案，下面将结合说明书附图以及具体的实施方 式对上述技术方案进行详细的说明，应当理解本发明实施例以及实施例中的具体特征是对本申请技术方案的详细的说明，而不是对本申请技术方案的限定，在不冲突的情况下，本发明实施例以及实施例中的技术特征可以相互组合。In order to better understand the above technical solutions, the following will be combined with the drawings and specific implementations. The above technical solutions are described in detail. It should be understood that the specific features of the embodiments and the embodiments of the present invention are the detailed description of the technical solutions of the present application, and are not limited to the technical solutions of the present application. The technical features of the embodiments of the invention and the embodiments can be combined with each other.

实施例一：Embodiment 1:

本发明实施例提供了一种储液瓶，请参阅图2，带有超声波振片的一次性储液瓶100，用于装液体并与电源组件200配合进行雾化所述液体。该一次性储液瓶100包括雾化组件1、储液组件2、电极组件3及连接组件4。储液瓶100与电源组件200之间可拆卸连接，当储液瓶100内液体使用完后，更换方便，不需要对储液瓶100进行清洗。Embodiments of the present invention provide a liquid storage bottle. Referring to FIG. 2, a disposable liquid storage bottle 100 with an ultrasonic vibration plate is used to hold a liquid and cooperate with the power supply assembly 200 to atomize the liquid. The disposable liquid storage bottle 100 includes an atomizing assembly 1, a liquid storage assembly 2, an electrode assembly 3, and a connection assembly 4. The liquid storage bottle 100 is detachably connected with the power supply assembly 200. When the liquid in the liquid storage bottle 100 is used up, the replacement is convenient, and the liquid storage bottle 100 does not need to be cleaned.

在本实施例中，包括与电源组件200可拆卸连接的连接组件4，设置在连接组件内的电极组件3，设置在连接组件一侧的储液组件2和雾化组件1，以及连接在雾化组件一侧的喷嘴6，储液组件2内包括了储液腔21，雾化组件1包括插设至所述储液腔21内的液体吸附件12以及设置在液体吸附件12一侧的超声波雾化器11。优选地，液体吸附件12包括棉、玻纤材料等，优选医用脱脂棉，医用脱脂棉是经化学处理去掉脂肪的棉花，比普通棉花容易吸收液体，由原棉经除去夹杂物，脱脂、漂泊、洗涤、干燥、整理加工制成。脱脂棉无臭、无味、无色斑，具有很好的吸水性，纤维柔软细长，洁白富有弹性，易于分层，没有酸、碱等有害杂质，质量符合***制定的技术标准。In the present embodiment, the connection assembly 4 detachably connected to the power supply assembly 200, the electrode assembly 3 disposed in the connection assembly, the liquid storage assembly 2 and the atomization assembly 1 disposed on one side of the connection assembly, and the mist connection are included The nozzle 6 on one side of the assembly, the liquid storage assembly 2 includes a liquid storage chamber 21 including a liquid adsorbing member 12 inserted into the liquid storage chamber 21 and disposed on one side of the liquid adsorbing member 12 Ultrasonic nebulizer 11. Preferably, the liquid adsorbing member 12 comprises cotton, glass fiber materials and the like, preferably medical absorbent cotton. The medical absorbent cotton is cotton which is chemically treated to remove fat, which absorbs liquid more easily than ordinary cotton, removes inclusions from raw cotton, degreases, wanders, washes, Dry and finished. The absorbent cotton is odorless, tasteless, and has no color spots. It has good water absorption, soft and slender fibers, white and elastic, easy to stratify, no harmful impurities such as acid and alkali, and the quality meets the technical standards set by the Ministry of Health.

在本实施例中，液体吸附件12***储液腔21内并延伸至所述储液腔21的底部，所述液体吸附件12的一表面贴附在所述超声波雾化器11的表面上，以使能够将所述储液腔21内的液体输送给所述超声波雾化器11进行雾化；所述电极组件3套设在所述连接组件4内并与所述超声波雾化器11电连接，所述连接组件4的一端与所述储液组件2相连，所述连接组件4的另一端用于与所述电源组件200相连，以使在电源组件200和所述连接组件4相连后，电极组件3与电源组件200实现电连接；雾化组件1、储液组件2、电极组件3及连接组件4组合形成一封闭的整体，且该整体密封住所述储液腔21，以阻碍外部液体注入储液腔21内。In the present embodiment, the liquid adsorbing member 12 is inserted into the reservoir chamber 21 and extends to the bottom of the reservoir chamber 21, and a surface of the liquid adsorbing member 12 is attached to the surface of the ultrasonic atomizer 11. So that the liquid in the liquid storage chamber 21 can be supplied to the ultrasonic atomizer 11 for atomization; the electrode assembly 3 is sleeved in the connection assembly 4 and with the ultrasonic atomizer 11 Electrically connected, one end of the connecting component 4 is connected to the liquid storage component 2, and the other end of the connecting component 4 is connected to the power component 200 to connect the power component 200 and the connecting component 4 Thereafter, the electrode assembly 3 is electrically connected to the power supply assembly 200; the atomization assembly 1, the liquid storage assembly 2, the electrode assembly 3, and the connection assembly 4 are combined to form a closed whole body, and the whole seals the liquid storage chamber 21 to block The external liquid is injected into the reservoir chamber 21.

以下对本实施例所示的储液瓶如何实现加热功能的进行说明。 Hereinafter, how the liquid storage bottle shown in this embodiment realizes the heating function will be described.

所述储液瓶包括加热组件8，所述加热组件8设置有电热丝82以及用于固定所述电热丝82的陶瓷基体81。The liquid storage bottle includes a heating assembly 8 provided with a heating wire 82 and a ceramic substrate 81 for fixing the heating wire 82.

所述电热丝82插设在所述陶瓷基体81内部，且所述电热丝82与所述电极组件3电连接。The heating wire 82 is inserted inside the ceramic base 81, and the heating wire 82 is electrically connected to the electrode assembly 3.

所述电热丝82能够将所述超声波雾化器11雾化后的液体进行加热，从而提升超声波雾化器11雾化所生成的雾气的温度，从而使得若本实施例所提供的所述储液瓶应用至温度较低的使用环境中时，能够喷出温度较高的雾气。The heating wire 82 can heat the liquid atomized by the ultrasonic atomizer 11 to increase the temperature of the mist generated by the atomization of the ultrasonic atomizer 11, so that the storage provided by the embodiment When the liquid bottle is applied to a lower temperature environment, it can eject a higher temperature mist.

采用本实施例所示的加热组件8因通过所述陶瓷基体81固定所述电热丝82，则使得所述陶瓷基体81能够更耐高温，且结构坚固，从而有效的避免因震动等原因导致电热丝82阻值不稳定的问题；而且所述陶瓷基体81不会产生碎屑等杂质，从而有效的保障了用户的健康。By using the heating assembly 8 shown in this embodiment, the heating wire 82 is fixed by the ceramic substrate 81, so that the ceramic substrate 81 can be more resistant to high temperatures and has a firm structure, thereby effectively avoiding electroheat caused by vibration or the like. The problem that the resistance of the wire 82 is unstable is stable; and the ceramic substrate 81 does not generate impurities such as debris, thereby effectively protecting the health of the user.

实施例二：Embodiment 2:

在实施例1基础上，本发明实施例提供了一种储液瓶，参见图3及图4，其是基于实施例1基础上储液瓶内部结构的细节描述，在本实施例中，雾化组件1包括超声波雾化器11，超声波雾化器11进一步包括用于将雾化后的液体传输至雾化通道65内的雾化片111和用于固定雾化片111的固定件112，雾化片111套设在固定件112内，雾化片111的一侧连接有电子线113，该电子线113包括第一电子线113a和第二电子线113b。储液组件2包括雾化套22，雾化套22远离电源组件200的一端连接有喷嘴6，喷嘴6内设置有环形凸台61；喷嘴6和雾化套22之间还设置有雾化环13，雾化套22内沿轴向套设有雾化管14，该雾化管14的管壁上设置有多个用于传输液体的进液孔141；电极组件3包括内电极31和外电极32，内电极31套设在雾化座15内，外电极32套设在雾化座15外；具体地，各部件的连接关系详细描述如下：Based on the embodiment 1, the embodiment of the present invention provides a liquid storage bottle. Referring to FIG. 3 and FIG. 4, it is a detailed description of the internal structure of the liquid storage bottle based on the embodiment 1. In the embodiment, the mist The chemical assembly 1 includes an ultrasonic atomizer 11 further comprising an atomizing sheet 111 for transferring the atomized liquid into the atomizing passage 65 and a fixing member 112 for fixing the atomizing sheet 111, The atomizing sheet 111 is sleeved in the fixing member 112, and one side of the atomizing sheet 111 is connected with an electron beam 113. The electron beam 113 includes a first electron beam 113a and a second electron beam 113b. The liquid storage assembly 2 includes an atomizing sleeve 22, and a nozzle 6 is connected to one end of the atomizing sleeve 22 away from the power supply assembly 200, and an annular boss 61 is disposed in the nozzle 6. The atomizing ring is further disposed between the nozzle 6 and the atomizing sleeve 22. 13. The atomizing tube 14 is axially sleeved with an atomizing tube 14 disposed on the tube wall of the atomizing tube 14 with a plurality of liquid inlet holes 141 for transporting liquid; the electrode assembly 3 includes an inner electrode 31 and an outer portion The electrode 32, the inner electrode 31 is sleeved in the atomization seat 15, and the outer electrode 32 is sleeved outside the atomization seat 15; specifically, the connection relationship of each component is described in detail as follows:

请一并参阅图2-图4，该雾化组件1的一端与喷嘴6通过粘合或过盈配合的方式固定连接，喷嘴6具有与外界连通的雾化通道65。喷嘴6上设有与所述固定件112相抵接的环形凸台61。Referring to FIG. 2 to FIG. 4 together, one end of the atomizing assembly 1 is fixedly connected to the nozzle 6 by adhesive or interference fit, and the nozzle 6 has an atomizing passage 65 communicating with the outside. The nozzle 6 is provided with an annular boss 61 that abuts against the fixing member 112.

雾化片111采用多孔材料制成，其一侧固定有与电极组件3电连接的电子 线113。用于固定雾化片111的固定件112呈内中空的环形结构，且所述固定件112的内侧壁设有用于嵌入所述雾化片111的环形镶嵌槽114，所述环形镶嵌槽114延伸至所述固定件112一端端面，所述环形镶嵌槽114的槽壁上设置有用于固定并供所述电子线113穿出的开口槽1121。所述开口槽1121与所述环形镶嵌槽114相连通，用于容纳固定于雾化片111的一侧的电子线113。固定件112由弹性材料制成，如硅胶等。The atomizing sheet 111 is made of a porous material, and one side of which is electrically connected to the electrode assembly 3 Line 113. The fixing member 112 for fixing the atomizing sheet 111 has an inner hollow annular structure, and the inner side wall of the fixing member 112 is provided with an annular mounting groove 114 for inserting the atomizing sheet 111, and the annular mounting groove 114 extends. To the end surface of the fixing member 112, the groove wall of the annular mounting groove 114 is provided with an opening groove 1121 for fixing and passing the electron beam 113. The opening groove 1121 communicates with the annular mounting groove 114 for accommodating the electron beam 113 fixed to one side of the atomizing sheet 111. The fixing member 112 is made of an elastic material such as silica gel or the like.

液体吸附件12的一端***储液腔21内并延伸至所述储液腔的底部。特别地，在本实施例中，液体吸附件12呈柱状，所述柱状液体吸附件12的外周面与所述雾化管14内周面紧密贴合并盖设在每一所述进液孔141上，该液体吸附件12的端面抵持在所述雾化片111上，用于吸附所述储液腔21内的液体至雾化片111。具体地，雾化片111通过高频谐振将液态水分子结构打散而产生自然飘逸的雾气，不需加热或添加任何化学试剂。与加热雾化方式比较，较节省能源。One end of the liquid adsorbing member 12 is inserted into the reservoir chamber 21 and extends to the bottom of the reservoir chamber. In particular, in the present embodiment, the liquid adsorbing member 12 has a columnar shape, and an outer peripheral surface of the columnar liquid adsorbing member 12 is closely attached to the inner peripheral surface of the atomizing tube 14 and is attached to each of the liquid inlet holes 141. The end surface of the liquid adsorbing member 12 is abutted on the atomizing sheet 111 for adsorbing the liquid in the liquid storage chamber 21 to the atomizing sheet 111. Specifically, the atomizing sheet 111 breaks up the liquid water molecular structure by high frequency resonance to generate a naturally flowing mist without heating or adding any chemical agent. Compared with the heating atomization method, it is more energy efficient.

进一步地，雾化组件1还包括设置在所述雾化套22和所述喷嘴6之间的一雾化环13。该雾化环13包括环形的主体部131和沿所述主体部131缩径形成环形的连接部132。主体部131朝向雾化套22的方向设有一环形连接槽133，用于以粘合或者过盈配合的方式与雾化套22的一端形成固定连接。该环形连接槽133套设在所述雾化套22的一端外周面上，以实现雾化组件1与储液组件2的密封连接。连接部132内侧壁与固定件112的外周缘相抵接，用于固定该固定件112；连接部132外侧壁用于与所述喷嘴6以粘贴或过盈配合的方式实现固定连接。Further, the atomizing assembly 1 further includes an atomizing ring 13 disposed between the atomizing sleeve 22 and the nozzle 6. The atomizing ring 13 includes an annular main body portion 131 and a connecting portion 132 that is reduced in diameter along the main body portion 131 to form an annular shape. The main body portion 131 is provided with an annular connecting groove 133 in the direction of the atomizing sleeve 22 for forming a fixed connection with one end of the atomizing sleeve 22 in an adhesive or interference fit manner. The annular connecting groove 133 is sleeved on one outer peripheral surface of the atomizing sleeve 22 to achieve a sealed connection between the atomizing assembly 1 and the liquid storage assembly 2. The inner side wall of the connecting portion 132 abuts against the outer peripheral edge of the fixing member 112 for fixing the fixing member 112. The outer side wall of the connecting portion 132 is used for fixing connection with the nozzle 6 in a pasting or interference fit manner.

进一步地，在本实施例中，该雾化管14的一端插设在所述雾化环13中，并与雾化环13中间通孔(未标号)的内侧壁通过粘合或过盈配合相抵接；雾化管14的另一端延伸至连接组件4内，其外侧壁与连接凸台42以粘合或者过盈配合的方式固定连接，内侧壁与外电极32以粘合或者过盈配合的方式实现固定连接。雾化套22与雾化管14之间具有空隙，所述空隙形成储液腔21。电子线113沿着雾化管1内部延伸至电极组件3内。生产装液体时，浓度大的可以使用进液孔141较大的储液瓶100，浓度小的可以使用进液孔141小的储 液瓶100，从而使得不同储液瓶100对应不同药水，均可达到最佳的雾化效果。Further, in this embodiment, one end of the atomizing tube 14 is inserted into the atomizing ring 13 and is bonded or interference-fitted with the inner side wall of the through hole (not labeled) in the middle of the atomizing ring 13 The other end of the atomizing tube 14 extends into the connecting component 4, and the outer side wall is fixedly connected with the connecting boss 42 by adhesive or interference fit, and the inner side wall and the outer electrode 32 are bonded or interference fit. The way to achieve a fixed connection. There is a gap between the atomizing sleeve 22 and the atomizing tube 14, which forms a reservoir chamber 21. The electron line 113 extends along the inside of the atomizing tube 1 into the electrode assembly 3. When the liquid is produced, the liquid storage bottle 100 having a large concentration of the liquid inlet hole 141 can be used, and the small concentration can be used to store the small liquid inlet hole 141. The liquid bottle 100, so that different liquid storage bottles 100 correspond to different syrups, can achieve the best atomization effect.

进一步地，在本实施例中，该雾化组件1还包括设置在雾化管14内与雾化管以粘合或过盈配合相连接的雾化座15，该雾化座用于固定雾化管15内的液体吸附件12，并连接电极组件3，方便电极组件3的组装。该雾化座15包含底座15a和连接主体15b。底座15a的形状和大小与雾化管14横截面的形状和尺寸相配适，用于与雾化管14通过粘合或者过盈配合的方式固定连接，起到固定雾化管14内的液体吸附件12的作用；连接主体15b为由底座15a缩径形成，呈圆筒形，其中心通孔的内侧壁用于与内电极31靠近雾化组件1的一端的外周缘以粘合或过盈配合的方式固定连接，主要用于承装和连接电极组件3，方便雾化组件1和电极组件3的组装。在雾化座15的底座15a和连接主体15b上，靠近外缘周的方向还开设有一个以上的电子线通孔F，用于容置和固定电子线113。在本实施中，该电子线通孔F为两个。该电子线113包含第一电子线113a和第二电子线113b，所述第一电子线113a的一端与所述雾化片111相连，另一端延长至雾化座15的一端夹持在雾化座15与内电极31之间；第二电子线113b的一端与所述雾化片111相连，另一端延长至雾化座15的一端夹持在所述雾化座15与所述外电极32之间，以固定电子线113，并实现电极组件3与雾化片111的电连接。当电极组件3接通电源后，雾化片111即可正常工作。Further, in the embodiment, the atomizing assembly 1 further includes an atomizing seat 15 disposed in the atomizing tube 14 and connected to the atomizing tube by adhesive or interference fit, the atomizing seat is used for fixing the mist. The liquid adsorbing member 12 in the tube 15 is connected to the electrode assembly 3 to facilitate assembly of the electrode assembly 3. The atomizing seat 15 includes a base 15a and a connecting body 15b. The shape and size of the base 15a are matched with the shape and size of the cross section of the atomizing tube 14, and are fixedly connected with the atomizing tube 14 by adhesion or interference fit to fix the liquid adsorption in the atomizing tube 14. The action of the member 12; the connecting body 15b is formed by reducing the diameter of the base 15a, and has a cylindrical shape, and the inner side wall of the center through hole is used for bonding or interference with the outer peripheral edge of the inner electrode 31 near the end of the atomizing assembly 1. The fixed connection is mainly used for receiving and connecting the electrode assembly 3, and the assembly of the atomizing assembly 1 and the electrode assembly 3 is facilitated. On the base 15a and the connecting body 15b of the atomizing seat 15, more than one electron wire through hole F is opened in the direction of the periphery of the outer edge for accommodating and fixing the electron beam 113. In the present embodiment, the electron beam through holes F are two. The electron beam 113 includes a first electron beam 113a and a second electron beam 113b. One end of the first electron beam 113a is connected to the atomizing sheet 111, and the other end is extended to one end of the atomizing seat 15 to be atomized. Between the seat 15 and the inner electrode 31; one end of the second electron beam 113b is connected to the atomizing sheet 111, and the other end is extended to one end of the atomizing seat 15 to be sandwiched between the atomizing seat 15 and the outer electrode 32. Between the wires 113, the electrical connection between the electrode assembly 3 and the atomizing sheet 111 is achieved. When the electrode assembly 3 is powered on, the atomizing sheet 111 can operate normally.

请一并参阅图3和图5(结合图2)在本实施例中，储液组件2包括雾化套22。该雾化套22为圆筒形，由透明材料制成，采用透明材料可直接观察瓶内的药液剩余量，为使用者提供更加直观的观察角度。Referring to FIG. 3 and FIG. 5 together (in conjunction with FIG. 2), in the present embodiment, the liquid storage assembly 2 includes an atomizing sleeve 22. The atomizing sleeve 22 is cylindrical and made of a transparent material. The transparent material can directly observe the remaining amount of the liquid in the bottle, thereby providing a more intuitive viewing angle for the user.

雾化套22的一端插设有雾化组件1，另一端插设有连接组件4。雾化套22的一端设有缩径形成的弯折部221，该弯折部221的外周缘直径小于雾化套22，其形状和尺寸与环形连接槽133的形状和尺寸相配适，用于卡合或粘贴于环形连接槽133内，实现雾化组件1和储液组件2间的封闭连接。雾化套22的另一端为由其缩径而成雾化套凸起222。该雾化套凸起222的形状和尺寸与连接凹槽43的相配适，并通过粘合或者过盈配合等方法与连接凹槽43固定连接，实现储液组件2与连接组件4的封闭连接。该雾化套22与雾化组件1及 连接组件4组成的密闭储液腔用于存放液体。优选地，在该雾化套22与该环形连接槽133之间还设置有一密封垫，用于防止储液腔内的液体渗出。One end of the atomizing sleeve 22 is provided with an atomizing assembly 1 and the other end is provided with a connecting assembly 4. One end of the atomizing sleeve 22 is provided with a bent portion 221 formed by a diameter reduction, and the outer peripheral edge of the bent portion 221 has a diameter smaller than that of the atomizing sleeve 22, and the shape and size thereof are matched with the shape and size of the annular connecting groove 133 for The closed connection between the atomizing assembly 1 and the liquid storage assembly 2 is achieved by snapping or pasting into the annular connecting groove 133. The other end of the atomizing sleeve 22 is reduced in diameter to form an atomizing sleeve protrusion 222. The shape and size of the atomizing sleeve protrusion 222 are matched with the connecting groove 43 and fixedly connected to the connecting groove 43 by means of bonding or interference fit, thereby achieving closed connection of the liquid storage assembly 2 and the connecting assembly 4. . The atomizing sleeve 22 and the atomizing assembly 1 A closed reservoir formed by the connection assembly 4 is used to store the liquid. Preferably, a gasket is disposed between the atomization sleeve 22 and the annular connection groove 133 for preventing liquid leakage in the liquid storage chamber.

请一并参阅图3和图6(结合图2)，电极组件3包括相互绝缘的内电极31和外电极32，该内电极31和外电极32均采用导电材料例如金属制成。内电极31和外电极32从内到外依次套装在所述连接组件4内，且通过电子线113与所述雾化片111电连接。内电极31形状为圆柱形。内电极31的一端的外侧固定地套设有圆筒形的绝缘环33，本实施例中，内电极31的一端的外周面向外凸出而形成一第一电极环31a，该第一电极环31a的外径大于该内电极31其余部分的外径，也就是说，该第一电极环31a的横截面面积或者底面面积均大于该内电极31其余部分的横截面面积。该绝缘环33靠近第一电极环31a的一端设置有一向绝缘环33内部凸起的绝缘环凸台33a，用于固定抵接和配合于第一电极环31a，从而将该绝缘环33套设在该第一电极环31a之外，有利于更加牢固地固定该内电极31。该绝缘环33与内电极31之间夹持有第一电子线113a一端，该绝缘环33与外电极32之间夹持有第二电子线113b的一端。电子线113a和113b的另一端固定在雾化片113上，实现电极组件3与雾化片113的电连接。当电极组件3接通电源后，雾化片111即可正常工作。绝缘环33套设在内电极31靠近内连接件41的一端，雾化座15套设在内电极31靠近雾化管14的一端，绝缘环33与雾化座15不接触，留有一用于让电子线113通过的空隙。该绝缘环33和雾化座15的外侧通过粘合或过盈配合等方法固定地嵌套在圆筒形的外电极32内侧。外电极32的外侧与连接组件4通过粘合或过盈配合的方式固定连接。优选地，在本实施例中，外电极32的内部设有与绝缘环凸台33a相配合的外电极凸台32a，用于更加牢固地固定该绝缘环33。外电极32的外侧和内连接件41之间还可以固定一密封圈，用于防止储液腔中的液体渗出。Referring to FIG. 3 and FIG. 6 together (in conjunction with FIG. 2), the electrode assembly 3 includes an inner electrode 31 and an outer electrode 32 which are insulated from each other, and the inner electrode 31 and the outer electrode 32 are each made of a conductive material such as metal. The inner electrode 31 and the outer electrode 32 are fitted in the connection assembly 4 in order from the inside to the outside, and are electrically connected to the atomization sheet 111 through an electron beam 113. The inner electrode 31 is cylindrical in shape. A cylindrical insulating ring 33 is fixedly disposed on the outer side of one end of the inner electrode 31. In this embodiment, the outer peripheral surface of one end of the inner electrode 31 protrudes outward to form a first electrode ring 31a. The first electrode ring The outer diameter of 31a is larger than the outer diameter of the remaining portion of the inner electrode 31, that is, the cross-sectional area or the bottom surface area of the first electrode ring 31a is larger than the cross-sectional area of the remaining portion of the inner electrode 31. An insulating ring boss 33a protruding toward the inside of the insulating ring 33 is disposed at one end of the insulating ring 33 adjacent to the first electrode ring 31a for fixing and abutting and engaging the first electrode ring 31a, thereby arranging the insulating ring 33 Outside the first electrode ring 31a, it is advantageous to fix the inner electrode 31 more firmly. One end of the first electron beam 113a is interposed between the insulating ring 33 and the inner electrode 31, and one end of the second electron beam 113b is sandwiched between the insulating ring 33 and the outer electrode 32. The other ends of the electron wires 113a and 113b are fixed to the atomizing sheet 113, and electrical connection between the electrode assembly 3 and the atomizing sheet 113 is achieved. When the electrode assembly 3 is powered on, the atomizing sheet 111 can operate normally. The insulating ring 33 is sleeved at one end of the inner electrode 31 near the inner connecting member 41, and the atomizing seat 15 is sleeved at one end of the inner electrode 31 near the atomizing tube 14, and the insulating ring 33 is not in contact with the atomizing seat 15, leaving one for A gap through which the electron line 113 passes. The insulating ring 33 and the outer side of the atomizing seat 15 are fixedly nested inside the cylindrical outer electrode 32 by a bonding or interference fit or the like. The outer side of the outer electrode 32 is fixedly coupled to the connection assembly 4 by means of a bonding or interference fit. Preferably, in the present embodiment, the inside of the outer electrode 32 is provided with an outer electrode boss 32a that cooperates with the insulating ring boss 33a for more firmly fixing the insulating ring 33. A sealing ring may also be fixed between the outer side of the outer electrode 32 and the inner connecting member 41 for preventing liquid from escaping in the liquid storage chamber.

请参阅图2及图3，在本实施例中，连接组件4为圆筒形，它的一端与雾化套22通过粘合或过盈配合的方式相连。该连接组件的另一端设置有内连接件41，用于与电源组件200可拆卸连接，以使在电源组件200和所述连接组件4相连后，所述电极组件3与所述电源组件200实现电连接。 Referring to FIG. 2 and FIG. 3, in the embodiment, the connecting component 4 is cylindrical, and one end thereof is connected to the atomizing sleeve 22 by adhesive or interference fit. The other end of the connecting component is provided with an inner connecting member 41 for detachably connecting with the power component 200, so that after the power component 200 and the connecting component 4 are connected, the electrode component 3 and the power component 200 are realized. Electrical connection.

在本实施例中，该连接组件4远离内连接件41的一端设置有一连接凸台42，用于以粘合或者过盈配合的方式与电极组件3固定连接。优选地，该连接组件4与电极组件3之间可设置一密封圈，防止储液腔中的液体渗出。在该连接凸台42靠近连接组件4外圆周的一侧，开设有圆环形的连接凹槽43，用于与储液组件2以粘合或过盈配合的方式固定连接。In this embodiment, a connecting boss 42 is disposed at one end of the connecting component 4 away from the inner connecting member 41 for fixedly connecting with the electrode assembly 3 in an adhesive or interference fit manner. Preferably, a sealing ring is arranged between the connecting component 4 and the electrode assembly 3 to prevent liquid leakage in the liquid storage chamber. On the side of the connecting boss 42 near the outer circumference of the connecting component 4, a circular connecting groove 43 is opened for fixed connection with the liquid storage assembly 2 in an adhesive or interference fit manner.

请参阅图3和图8(结合图2)，电源组件100包括一电池套57。该电池套57的一端连接有一电池盖58，用于密封所述电池套内的电池56；电池套57的另一端设有用于与连接组件4上的内连接件41相连接的外连接件51。该外连接件51内固定设置有电极支架59和固定于所述电极支架59上的弹簧电极52，弹簧电极52用于与所述电极组件3中的内电极31和外电极32弹性连接，向所述储液瓶100提供电源。电池套57的侧壁上安装有的按键54，该按键54与一PCB板53相连接，用于控制电源的接通和断开。该PCB板53安装在支架55上；所述PCB板53远离外连接件的一端与电池56相连。在本实施例中，外连接件51为外螺纹，内连接件41为内螺纹，从而实现电源组件200和储液瓶100以螺纹方式形成的可拆卸连接。Referring to FIGS. 3 and 8 (in conjunction with FIG. 2), the power supply assembly 100 includes a battery cover 57. One end of the battery cover 57 is connected with a battery cover 58 for sealing the battery 56 in the battery case; the other end of the battery cover 57 is provided with an external connector 51 for connecting with the inner connector 41 on the connection assembly 4. . An electrode holder 59 and a spring electrode 52 fixed to the electrode holder 59 are fixedly disposed in the outer connector 51. The spring electrode 52 is used for elastic connection with the inner electrode 31 and the outer electrode 32 of the electrode assembly 3, The liquid storage bottle 100 provides a power source. A button 54 is mounted on the side wall of the battery case 57, and the button 54 is connected to a PCB board 53 for controlling the turning on and off of the power source. The PCB board 53 is mounted on a bracket 55; one end of the PCB board 53 away from the outer connector is connected to the battery 56. In the present embodiment, the outer connector 51 is externally threaded and the inner connector 41 is internally threaded to provide a detachable connection of the power supply assembly 200 and the reservoir 100 in a threaded manner.

以下对本实施例所提供的加热组件8的具体结构进行说明：The specific structure of the heating assembly 8 provided in this embodiment will be described below:

所述陶瓷基体81插设在所述固定件112朝向所述喷嘴6的端面，且所述陶瓷基体81与所述固定件112之间过盈配合。The ceramic base 81 is inserted into an end surface of the fixing member 112 facing the nozzle 6 , and an interference fit between the ceramic base 81 and the fixing member 112 .

具体的，所述固定件112朝向所述喷嘴6的端面设置有插设槽，以使所述陶瓷基体81能够插设在在所述插设槽内部。Specifically, the fixing member 112 is provided with an insertion groove toward the end surface of the nozzle 6 so that the ceramic base 81 can be inserted inside the insertion groove.

更具体的，结合图3至图4所示，所述陶瓷基体81包括位置相对的第一端83和第二端84，所述第一端83的端面面向所述雾化片111，所述第二端84朝向所述喷嘴6，贯穿所述第一端83的端面和所述第二端84的端面设置有液化腔85。More specifically, as shown in FIG. 3 to FIG. 4, the ceramic base 81 includes first and second opposite ends 83 and 84, and an end surface of the first end 83 faces the atomizing sheet 111. The second end 84 faces the nozzle 6, and a liquefaction chamber 85 is provided through an end surface of the first end 83 and an end surface of the second end 84.

所述液化腔85与所述雾化通道65相连通；The liquefaction chamber 85 is in communication with the atomization passage 65;

所述电热丝82呈柱形螺旋形结构，所述电热丝82插设在所述陶瓷基体81内部，且所述电热丝82与所述陶瓷基体81同轴设置，以使所述电热丝82将所述超声波雾化器11雾化后的液体加热后依次导通至所述液化腔85以及所 述雾化通道65。The heating wire 82 has a cylindrical spiral structure, and the heating wire 82 is inserted inside the ceramic base 81, and the heating wire 82 is coaxially disposed with the ceramic base 81 to make the heating wire 82. Heating the liquid atomized by the ultrasonic atomizer 11 to be sequentially conducted to the liquefaction chamber 85 and the The atomization channel 65 is described.

为提升所述加热组件8结构的稳固，以图16所示为例，则所述陶瓷基体81的内周面设置有呈螺旋形的固定槽88，且所述电热丝82与所述固定槽88的形状相适配并嵌入所述固定槽88中，所述电热丝82的两端分别与所述电极组件3电连接。In order to improve the stability of the structure of the heating assembly 8, as shown in FIG. 16, the inner peripheral surface of the ceramic base 81 is provided with a spiral fixing groove 88, and the heating wire 82 and the fixing groove The shape of 88 is adapted and embedded in the fixing groove 88, and both ends of the heating wire 82 are electrically connected to the electrode assembly 3, respectively.

实施例三：Embodiment 3:

请参阅图7，本发明的第三较佳实施例在实施例一或二的基础上在吸嘴6内提供一带有风扇装置的超声波振片一次性储液瓶100，用于装液体并与电源组件配合进行雾化所述液体。该一次性储液瓶100包括雾化组件1、储液组件2、电极组件3及连接组件4。该雾化组件1、储液组件2、电极组件3及连接组件4与本发明第一和第二较佳实施例完全相同，因此在这里无需赘述这些部件的形状特征和组装方式。本实施例与第一或二实施例区别在于喷嘴6的构造和风扇装置7的增加，从而达到增加液体的喷射距离的目的。在本实施例中，喷嘴6内还包括一个设有第二安装孔64的固定板63，该固定板63安装在所述喷嘴6的环形凸台61上，该环形凸台61上固定有一风扇装置7。Referring to FIG. 7, a third preferred embodiment of the present invention provides an ultrasonic vibration plate disposable liquid storage bottle 100 with a fan device in the nozzle 6 on the basis of the first or second embodiment, for loading liquid and The power supply assembly cooperates to atomize the liquid. The disposable liquid storage bottle 100 includes an atomizing assembly 1, a liquid storage assembly 2, an electrode assembly 3, and a connection assembly 4. The atomizing assembly 1, the liquid storage assembly 2, the electrode assembly 3, and the connecting assembly 4 are identical to the first and second preferred embodiments of the present invention, so that the shape features and assembly methods of these components need not be described herein. This embodiment differs from the first or second embodiment in the configuration of the nozzle 6 and the increase in the fan unit 7, so as to increase the ejection distance of the liquid. In the embodiment, the nozzle 6 further includes a fixing plate 63 provided with a second mounting hole 63. The fixing plate 63 is mounted on the annular boss 61 of the nozzle 6, and a fan is fixed on the annular boss 61. Device 7.

可见，本实施例所示的超声波雾化器11雾化的雾气流通至所述加热组件8进行加热，所述风扇装置7用于将所述加热组件8加热后的雾气从所述喷嘴6吹出。It can be seen that the mist flow atomized by the ultrasonic atomizer 11 shown in this embodiment is heated to the heating assembly 8, and the fan device 7 is used to blow the mist heated by the heating assembly 8 from the nozzle 6. .

该风扇装置7包括马达71和扇叶72。马达71朝向喷嘴6的一端与扇叶72相连接；马达71的另一端延伸至所述雾化组件1内，与所述电子线113形成电连接。当电极组件3接通电源时，马达也可通电工作。在该实施例中增加风扇装置是为了在***工作时，加快气流的流通，具有更好的雾化效果和更好的口感，提高了用户的体验。The fan unit 7 includes a motor 71 and a fan blade 72. The motor 71 is connected to the blade 72 toward one end of the nozzle 6; the other end of the motor 71 extends into the atomizing unit 1 to form an electrical connection with the electron beam 113. When the electrode assembly 3 is powered on, the motor can also be energized. The fan device is added in this embodiment in order to speed up the circulation of the airflow when the system is working, has a better atomization effect and a better mouthfeel, and improves the user experience.

实施例四：Embodiment 4:

请参阅图9-11，本发明的第四较佳实施例提供带有超声波振片的一次性储液瓶100，用于装液体并与电源组件200配合进行雾化所述液体。该一次性储 液瓶100包括雾化组件1、储液组件2、电极组件3及连接组件4。该雾化组件1中的超声波雾化器11，电极组件3中的內电极31和绝缘环33以及连接组件4与第一较佳实施例中的完全相同，因此在这里无需赘述这些部件的结构特征和组装方式。本实施例与第一实施例的第一个区别在于喷嘴6的构造以及其与雾化套22连接的位置。在本实施例中，喷嘴6靠近雾化套22的一端沿周向延伸形式一圆形凸缘62；雾化套22为一端开口的圆筒结构，其周向设有第一安装孔223，圆形凸缘62用于抵持固定于所述雾化套22的第一安装孔223的周缘上。喷嘴6的中轴线与雾化管22的中轴线之间具有夹角。喷嘴设置在储液瓶100的侧边，储液瓶100取消用液体吸附件将液体由靠近电极组件的方向向喷嘴的方向导液，结构更简单。Referring to Figures 9-11, a fourth preferred embodiment of the present invention provides a disposable reservoir 100 with an ultrasonic diaphragm for holding a liquid and cooperating with the power supply assembly 200 to atomize the liquid. The one-time storage The liquid bottle 100 includes an atomizing assembly 1, a liquid storage assembly 2, an electrode assembly 3, and a connection assembly 4. The ultrasonic atomizer 11 in the atomizing assembly 1, the inner electrode 31 and the insulating ring 33 in the electrode assembly 3, and the connecting assembly 4 are identical to those in the first preferred embodiment, so that the structure of these components need not be described here. Features and assembly methods. The first difference between this embodiment and the first embodiment is the configuration of the nozzle 6 and its position of connection with the atomizing sleeve 22. In the present embodiment, the nozzle 6 is adjacent to one end of the atomizing sleeve 22 and extends in a circumferential direction with a circular flange 62. The atomizing sleeve 22 is a cylindrical structure with one end open, and a first mounting hole 223 is provided in the circumferential direction. The flange 62 is for abutting against the circumference of the first mounting hole 223 of the atomizing sleeve 22. The central axis of the nozzle 6 has an angle with the central axis of the atomizing tube 22. The nozzle is disposed on the side of the liquid storage bottle 100, and the liquid storage bottle 100 cancels the liquid adsorption from the liquid electrode in the direction of the nozzle toward the nozzle, and the structure is simpler.

本实施例与第一实施例的第二个区别在于超声波雾化器11的位置不同。在本实施例中，雾化套22还包括一垂直于所述雾化套22封闭端面且与所述雾化套22一体成型的隔液板224。该隔液板224上开设有的插孔，用于插设超声波雾化器11。该隔液板224，超声波雾化器11与雾化套22远离第一安装孔223的部分形成的空腔为储液腔21。即超声波雾化器11置于储液腔21中，直接与液体接触，取消用液体吸附件将液体由靠近电极组件的方向向喷嘴的方向导液，结构更简单。本实施例中的液体吸附件12为紧贴附于雾化片111上的片状液体吸附件。其中：喷嘴6的中轴线与雾化管22的中轴线之间具有夹角；本发明实施例的夹角为90度，设置该夹角，雾化效果最佳，但在实际生产中，该夹角可在90度范围内进行调整，偏离幅度为正负20度，偏离的好处在于气流具有一弯折后，用户的口感更好。The second difference between this embodiment and the first embodiment is that the position of the ultrasonic atomizer 11 is different. In the present embodiment, the atomizing sleeve 22 further includes a liquid barrier 224 that is perpendicular to the closed end surface of the atomizing sleeve 22 and integrally formed with the atomizing sleeve 22. An insertion hole is formed in the liquid barrier 224 for inserting the ultrasonic atomizer 11. The liquid barrier 224, the cavity formed by the portion of the ultrasonic atomizer 11 and the atomizing sleeve 22 away from the first mounting hole 223 is the liquid storage chamber 21. That is, the ultrasonic atomizer 11 is placed in the liquid storage chamber 21 to directly contact the liquid, and the liquid adsorption member is used to guide the liquid from the direction of the electrode assembly toward the nozzle, and the structure is simpler. The liquid adsorbing member 12 in this embodiment is a sheet-like liquid adsorbing member attached to the atomizing sheet 111. Wherein: the central axis of the nozzle 6 has an angle with the central axis of the atomizing tube 22; the angle of the embodiment of the present invention is 90 degrees, and the angle is set, the atomization effect is optimal, but in actual production, The angle can be adjusted within a range of 90 degrees, and the deviation is 20 degrees plus or minus. The advantage of the deviation is that the user has a better taste after the airflow has a bend.

以下对本实施例所示的加热组件8的具体结构进行说明。The specific structure of the heating unit 8 shown in this embodiment will be described below.

所述喷嘴6的内周面设置有卡持槽86，所述陶瓷基体81设置在所述喷嘴6靠近所述雾化套22的端面，且所述陶瓷基体81插设固定在所述卡持槽86内，且所述卡持槽86用于防止所述陶瓷基体81沿朝向所述喷嘴6的方向运动。The inner peripheral surface of the nozzle 6 is provided with a holding groove 86, the ceramic base 81 is disposed at an end surface of the nozzle 6 close to the atomizing sleeve 22, and the ceramic base 81 is inserted and fixed on the holding The groove 86 is used to prevent the ceramic base 81 from moving in a direction toward the nozzle 6.

以下结合图13所示对所述加热组件8的具体结构进行详细说明。The specific structure of the heating unit 8 will be described in detail below with reference to FIG.

贯穿所述陶瓷基体81设置有多个通气孔87，所述电热丝82缠绕呈片状结构，且所述电热丝82设置在所述超声波雾化器11和所述陶瓷基体81之间。 A plurality of vent holes 87 are provided through the ceramic base 81, and the heating wire 82 is wound in a sheet-like structure, and the heating wire 82 is disposed between the ultrasonic atomizer 11 and the ceramic base 81.

可见，采用本实施例所示的加热组件8的结构，能够使得所述雾化片111雾化后的雾气能够被所述电热丝82加热，以使加热后的雾气穿过所述通气孔87以被用户吸食。It can be seen that, with the structure of the heating assembly 8 shown in this embodiment, the mist after the atomization of the atomizing sheet 111 can be heated by the heating wire 82, so that the heated mist passes through the vent hole 87. To be taken by the user.

实施例五：Embodiment 5:

本发明的第五较佳实施例提供带有超声波振片的一次性储液瓶100，用于装液体并与电源组件配合进行雾化所述液体。本实施例与以上电源组件不同的地方在于，该外连接件51直接作为外电极32，减少组成零件，使得结构更简单。A fifth preferred embodiment of the present invention provides a disposable reservoir 100 with an ultrasonic diaphragm for holding a liquid and cooperating with the power supply assembly to atomize the liquid. The difference between this embodiment and the above power supply assembly is that the outer connecting member 51 directly serves as the outer electrode 32, and the component parts are reduced, so that the structure is simpler.

请参阅图12，在本实施例中，电源组件的外连接件51上有卡合凸点511。所述内连接件41的内侧壁设置有沿该内壁的周面延伸的卡合凹槽411及沿该内壁的轴向延伸的卡合开口槽412，所述卡合开口槽412延伸至所述内连接件41的端面；外连接件51通过将卡合凸点511***所述卡合开口槽412内后，旋转卡合凸点511至所述卡合凹槽411中，实现与所述内连接件41的插旋式可拆卸连接，从而实现电源组件200和所述储液瓶100的可拆卸连接。因此，此种结构在将装有药物的储油组件换为装有护肤水的储液组件时极其方便。Referring to FIG. 12, in the embodiment, the outer connecting member 51 of the power supply assembly has an engaging bump 511. The inner side wall of the inner connecting member 41 is provided with an engaging recess 411 extending along a circumferential surface of the inner wall and an engaging opening slot 412 extending along an axial direction of the inner wall, the engaging opening slot 412 extending to the An end surface of the inner connecting member 41; after the outer connecting member 51 is inserted into the engaging opening groove 412, the engaging protrusion 511 is rotated into the engaging recess 411 to realize the inner portion The plug-in detachable connection of the connector 41 enables detachable connection of the power supply assembly 200 and the reservoir 100. Therefore, such a structure is extremely convenient when replacing a drug-loaded oil storage assembly with a liquid storage component containing skin care water.

综上所述，本发明提供储液瓶和储液组件，由于将雾化组件、储液组件、电极组件及连接组件连接设计为一不可拆卸的整体结构，使用完后更换方便，防止现有技术中重复使用需费时，且清洗和清洗不干净时影响药物效果；并且该整体密封住储液腔，以阻碍外部液体注入储液腔内，密闭效果更佳，也保证了液体的纯净，保证液体不被污染。另外雾化组件通过高频谐振将液态水分子结构打散而产生自然飘逸的雾气，不需要加热或添加任何化学试剂，与现有技术的加热雾化方式比较，可节省能源，且雾化效果更好。所以本发明提供了更为方便快捷的更换方式，液体更清洁，雾化效果更好。In summary, the present invention provides a liquid storage bottle and a liquid storage assembly. Since the atomization assembly, the liquid storage assembly, the electrode assembly and the connection assembly are designed as a non-detachable integral structure, it is convenient to replace after use, and the existing one is prevented. Repeated use in technology takes time, and the cleaning and cleaning are not clean, which affects the effect of the drug; and the whole seals the liquid storage chamber to prevent external liquid from being injected into the liquid storage chamber, and the sealing effect is better, and the purity of the liquid is ensured. The liquid is not contaminated. In addition, the atomization component disperses the liquid water molecular structure by high-frequency resonance to generate a natural floating mist, without heating or adding any chemical reagent, which can save energy and atomization effect compared with the prior art heating atomization method. better. Therefore, the present invention provides a more convenient and quicker replacement method, the liquid is cleaner, and the atomization effect is better.

实施例六：Example 6:

本发明的第六较佳实施例提供带有超声波振片的一次性储液瓶100，用于装液体并与电源组件配合进行雾化所述液体。如图14和图15所示，本实施例 与以上电源组件不同的地方在于，所述内连接件41内周面设置有四个内电极1201。A sixth preferred embodiment of the present invention provides a disposable reservoir 100 with an ultrasonic diaphragm for holding a liquid and cooperating with the power supply assembly to atomize the liquid. As shown in FIG. 14 and FIG. 15, this embodiment The difference from the above power supply assembly is that the inner peripheral surface of the inner connector 41 is provided with four inner electrodes 1201.

其中，所述四个内电极1201中的其中两个内电极与所述超声波雾化器11电连接，所述四个内电极1201中的另外两个内电极与所述电热丝82电连接。The two inner electrodes of the four inner electrodes 1201 are electrically connected to the ultrasonic atomizer 11 , and the other two inner electrodes of the four inner electrodes 1201 are electrically connected to the electric heating wire 82 .

所述电源组件200设置有用于分别与所述四个内电极1201电连接的弹簧电极1202。The power supply assembly 200 is provided with a spring electrode 1202 for electrically connecting to the four internal electrodes 1201, respectively.

具体的，所述四个内电极1201分别与所述弹簧电极1202电连接，则所述电源组件200可分别控制所述加热组件8和所述超声波雾化器11。Specifically, the four internal electrodes 1201 are electrically connected to the spring electrodes 1202, respectively, and the power supply assembly 200 can respectively control the heating assembly 8 and the ultrasonic atomizer 11.

例如，若当前环境温度较高，则无需对所述超声波雾化器11所雾化的雾气进行加热，则所述电源组件200即可停止向所述加热组件8供电，则使得所述加热组件8停止工作，则所述超声波雾化器11所雾化的雾气即可直接被用户吸食，而不会被加热。For example, if the current ambient temperature is high, the mist that is atomized by the ultrasonic atomizer 11 is not required to be heated, then the power supply assembly 200 can stop supplying power to the heating assembly 8, and then the heating assembly is caused. When the operation is stopped, the mist atomized by the ultrasonic atomizer 11 can be directly sucked by the user without being heated.

还例如，所述电源组件200可控制向所述加热组件8供电的功率，从而可通过调节向所述加热组件8供电的功率，以达到调节雾气温度的效果，更满足用户个性化的需求，从而适应于不同的环境温度。For example, the power supply assembly 200 can control the power supply to the heating assembly 8 so that the power supply to the heating assembly 8 can be adjusted to achieve the effect of adjusting the temperature of the mist, and more specifically meet the needs of the user. Thereby adapting to different ambient temperatures.

尽管已描述了本发明的优选实施例，但本领域内的技术人员一旦得知了基本创造性概念，则可对这些实施例做出另外的变更和修改。所以，所附权利要求意欲解释为包括优选实施例以及落入本发明范围的所有变更和修改。Although the preferred embodiment of the invention has been described, it will be apparent to those skilled in the < Therefore, the appended claims are intended to be interpreted as including the preferred embodiments and the modifications and

显然，本领域的技术人员可以对本发明进行各种改动和变型而不脱离本发明的精神和范围。这样，倘若本发明的这些修改和变型属于本发明权利要求及其等同技术的范围之内，则本发明也意图包含这些改动和变型在内。 It is apparent that those skilled in the art can make various modifications and variations to the invention without departing from the spirit and scope of the invention. Thus, it is intended that the present invention cover the modifications and modifications of the invention

Claims (20)

1. 一种储液瓶，用于装液体并与电源组件配合进行雾化所述液体，其特征在于：包括雾化组件(1)、储液组件(2)、电极组件(3)、连接组件(4)，以及加热组件(8)；A liquid storage bottle for loading a liquid and cooperating with a power supply component for atomizing the liquid, comprising: an atomizing component (1), a liquid storage component (2), an electrode component (3), and a connection component ( 4), and heating assembly (8);

   所述储液组件(2)设置有储液腔(21)，所述雾化组件(1)包括超声波雾化器(11)及由多孔材料制成的液体吸附件(12)，所述液体吸附件(12)***储液腔(21)内并延伸至所述储液腔(21)的底部，所述液体吸附件(12)的一表面贴附在所述超声波雾化器(11)的表面上，以使能够将所述储液腔(21)内的液体输送给所述超声波雾化器(11)进行雾化；The liquid storage assembly (2) is provided with a liquid storage chamber (21) including an ultrasonic atomizer (11) and a liquid adsorption member (12) made of a porous material, the liquid The adsorbing member (12) is inserted into the liquid storage chamber (21) and extends to the bottom of the liquid storage chamber (21), and a surface of the liquid adsorbing member (12) is attached to the ultrasonic atomizer (11) a surface to enable the liquid in the liquid storage chamber (21) to be delivered to the ultrasonic atomizer (11) for atomization;

   所述加热组件(8)设置有电热丝(82)以及用于固定所述电热丝(82)的陶瓷基体(81)，所述电热丝(82)插设在所述陶瓷基体(81)内部，且所述电热丝(82)与所述电极组件(3)电连接，所述电热丝(82)用于将所述超声波雾化器(11)雾化后的液体进行加热；The heating assembly (8) is provided with a heating wire (82) and a ceramic base (81) for fixing the heating wire (82), and the heating wire (82) is inserted inside the ceramic substrate (81) And the heating wire (82) is electrically connected to the electrode assembly (3), and the heating wire (82) is used for heating the liquid atomized by the ultrasonic atomizer (11);

   所述电极组件(3)套设在所述连接组件(4)内并与所述超声波雾化器(11)电连接，所述连接组件(4)的一端与所述储液组件(2)相连，所述连接组件(4)的另一端用于与所述电源组件(5)相连，以使在电源组件(5)和所述连接组件(4)相连后，所述电极组件(3)与所述电源组件(5)实现电连接；The electrode assembly (3) is sleeved in the connection assembly (4) and electrically connected to the ultrasonic atomizer (11), one end of the connection assembly (4) and the liquid storage assembly (2) Connected, the other end of the connecting component (4) is connected to the power component (5) such that after the power component (5) and the connecting component (4) are connected, the electrode component (3) Electrically connecting with the power component (5);

   所述雾化组件(1)、储液组件(2)、电极组件(3)及连接组件(4)组合形成一封闭的整体，且该整体密封住所述储液腔(21)，以阻碍外部液体注入所述储液腔(21)内。The atomizing assembly (1), the liquid storage assembly (2), the electrode assembly (3) and the connecting assembly (4) are combined to form a closed whole body, and the whole sealing the liquid storage chamber (21) to block the outside Liquid is injected into the reservoir chamber (21).
2. 根据权利要求1所述的储液瓶，其特征在于：所述储液瓶还包括与所述雾化组件(1)连接的喷嘴(6)，所述喷嘴(6)具有与外界连通的雾化通道(65)；所述储液组件(2)还包括雾化套(22)，所述雾化套(22)的一端插设有所述雾化组件(1)，所述雾化套(22)的另一端与所述连接组件(4)固定连接，所述储液腔(21)形成在所述雾化套(22)内；A liquid storage bottle according to claim 1, wherein said liquid storage bottle further comprises a nozzle (6) connected to said atomizing assembly (1), said nozzle (6) having a mist in communication with the outside The liquid storage assembly (65) further includes an atomizing sleeve (22), and one end of the atomizing sleeve (22) is inserted with the atomizing assembly (1), the atomizing sleeve The other end of (22) is fixedly connected to the connecting component (4), and the liquid storage chamber (21) is formed in the atomizing sleeve (22);

   所述超声波雾化器(11)包括用于通过高频谐振将雾化后的液体传输至所述雾化通道(65)内的雾化片(111)和用于固定所述雾化片(111)的固定件(112)，所述雾化片(111)套设在所述固定件(112)内，所述液体吸附件(12) 贴附于所述雾化片(111)表面，并用于吸附所述储液腔(21)内的液体至所述雾化片(111)，所述雾化片(111)的一侧固定设置有用于连接所述电极组件(3)的电子线(113)，所述固定件(112)插设在所述喷嘴(6)靠近所述雾化套(22)的一端。The ultrasonic atomizer (11) includes an atomizing sheet (111) for transferring the atomized liquid into the atomizing passage (65) by high frequency resonance and for fixing the atomizing sheet ( a fixing member (112) of the 111), the atomizing sheet (111) is sleeved in the fixing member (112), and the liquid adsorbing member (12) Attached to the surface of the atomizing sheet (111) and used to adsorb liquid in the liquid storage chamber (21) to the atomizing sheet (111), one side of the atomizing sheet (111) is fixedly disposed There is an electron wire (113) for connecting the electrode assembly (3), and the fixing member (112) is interposed at one end of the nozzle (6) near the atomizing sleeve (22).
3. 根据权利要求2所述的储液瓶，其特征在于：所述固定件(112)呈内中空的环形结构，且所述固定件(112)的内侧壁设有用于嵌入所述雾化片(111)的环形镶嵌槽(114)，所述环形镶嵌槽(114)延伸至所述固定件(112)一端端面，所述环形镶嵌槽(114)的槽壁上设置有用于供所述电子线(113)穿出的开口槽(1121)，所述开口槽(1121)与所述环形镶嵌槽(114)相连通；The liquid storage bottle according to claim 2, wherein the fixing member (112) has an inner hollow annular structure, and an inner side wall of the fixing member (112) is provided for embedding the atomizing sheet ( 111) an annular mounting groove (114) extending to one end surface of the fixing member (112), and a groove wall of the annular mounting groove (114) is provided with the electron beam (113) an open slot (1121) through which the open slot (1121) communicates with the annular mounting groove (114);

   所述电极组件包括相互绝缘的内电极(31)和外电极(32)，所述内电极(31)和外电极(32)套装在所述连接组件(4)内，且分别通过各自的电子线(113)与所述雾化片(111)电连接。The electrode assembly includes an inner electrode (31) and an outer electrode (32) insulated from each other, the inner electrode (31) and the outer electrode (32) being nested in the connection assembly (4) and respectively passing through respective electrons The wire (113) is electrically connected to the atomizing sheet (111).
4. 根据权利要求3所述的储液瓶，其特征在于：所述雾化组件(1)还包括设置在所述雾化套(22)和所述喷嘴(6)之间的雾化环(13)，所述雾化环(13)包括环形的主体部(131)和沿所述主体部(131)缩径形成环形的连接部(132)，所述主体部(131)朝向所述电极组件(4)的方向设有用于与所述雾化套(22)的一端形成固定连接的环形连接槽(133)，所述环形连接槽(133)套设在所述雾化套(22)的一端外周面上；所述连接部(132)内侧壁与所述固定件(112)的周缘相抵接，所述连接部(132)外侧壁用于与所述喷嘴(6)过盈配合；A liquid storage bottle according to claim 3, wherein said atomizing assembly (1) further comprises an atomizing ring (13) disposed between said atomizing sleeve (22) and said nozzle (6) The atomizing ring (13) includes an annular body portion (131) and a connecting portion (132) that is reduced in diameter along the body portion (131), the body portion (131) facing the electrode assembly The direction of (4) is provided with an annular connecting groove (133) for forming a fixed connection with one end of the atomizing sleeve (22), and the annular connecting groove (133) is sleeved on the atomizing sleeve (22) An inner peripheral surface of one end; an inner side wall of the connecting portion (132) abuts a periphery of the fixing member (112), and an outer side wall of the connecting portion (132) is used for an interference fit with the nozzle (6);

   所述雾化组件(1)还包括用于容置所述液体吸附件(12)的雾化管(14)，所述雾化管(14)外周具有多个用于传输液体的进液孔(141)，所述雾化管(14)同轴套设于所述雾化套(22)内，且所述雾化套(22)与所述雾化管(14)之间具有空隙，所述空隙形成所述储液腔(21)。The atomizing assembly (1) further includes an atomizing tube (14) for accommodating the liquid adsorbing member (12), the outer portion of the atomizing tube (14) having a plurality of liquid inlet holes for transporting liquid (141), the atomizing tube (14) is coaxially sleeved in the atomizing sleeve (22), and a gap is formed between the atomizing sleeve (22) and the atomizing tube (14). The void forms the reservoir (21).
5. 根据权利要求4所述的储液瓶，其特征在于：所述储液瓶还包括设置在所述连接组件(4)内的雾化座(15)，所述雾化管(14)的一端插设在所述雾化环(13)中，并与所述雾化环(13)过盈配合相抵接，所述雾化管(14)的另一端套设在所述雾化座(15)上；所述雾化座(15)内依次设置有所述内 电极(31)和外电极(32)；所述电子线(113)包含第一电子线(113a)和第二电子线(113b)，所述第一电子线(113a)的一端与所述雾化片(111)相连，所述第一电子线(113a)的另一端沿着所述雾化管(14)的内部延伸至所述雾化座(15)并夹持于所述雾化座(15)与所述内电极(31)之间，所述第二电子线(113b)的一端与所述雾化片(111)相连，所述第二电子线(113b)的另一端沿着所述雾化管(14)的内部延伸至所述雾化座(15)并夹持于所述雾化座(15)与所述外电极(32)之间。A liquid storage bottle according to claim 4, wherein said liquid storage bottle further comprises an atomization seat (15) disposed in said connection assembly (4), one end of said atomization tube (14) Inserted in the atomizing ring (13) and abutting against the atomizing ring (13), the other end of the atomizing tube (14) is sleeved on the atomizing seat (15) Above; the atomization seat (15) is internally provided with the inner portion An electrode (31) and an outer electrode (32); the electron beam (113) includes a first electron line (113a) and a second electron line (113b), one end of the first electron line (113a) and the mist The chemical sheet (111) is connected, and the other end of the first electron beam (113a) extends along the inside of the atomizing tube (14) to the atomizing seat (15) and is clamped to the atomizing seat. (15) between the inner electrode (31), one end of the second electron line (113b) is connected to the atomizing sheet (111), and the other end of the second electron line (113b) is along The inside of the atomizing tube (14) extends to the atomizing seat (15) and is sandwiched between the atomizing seat (15) and the outer electrode (32).
6. 根据权利要求4所述的储液瓶，其特征在于：所述雾化套(22)为圆筒形，所述雾化套(22)的一端设有缩径形成的弯折部(221)，所述弯折部(221)卡合于所述主体部(131)的环形连接槽(133)内，所述雾化套(22)的另一端为缩径形成的雾化套凸起(222)；The liquid storage bottle according to claim 4, wherein the atomization sleeve (22) has a cylindrical shape, and one end of the atomization sleeve (22) is provided with a bent portion formed by a reduced diameter (221). The bent portion (221) is engaged in the annular connecting groove (133) of the main body portion (131), and the other end of the atomizing sleeve (22) is an atomized sleeve protrusion formed by reducing the diameter ( 222);

   所述弯折部(221)、所述雾化套凸起(222)分别对应与所述雾化环(13)和所述连接组件(4)连接，以形成密闭的整体。The bending portion (221) and the atomizing sleeve protrusion (222) are respectively connected to the atomizing ring (13) and the connecting component (4) to form a sealed whole.
7. 根据权利要求4所述的储液瓶，其特征在于：所述液体吸附件(12)呈柱状，所述柱状液体吸附件的外周面与所述雾化管(14)内周面紧密贴合并盖设在每一所述进液孔(141)上，所述液体吸附件(12)的端面抵持在所述雾化片(111)上。The liquid storage bottle according to claim 4, wherein the liquid adsorbing member (12) has a columnar shape, and an outer peripheral surface of the columnar liquid adsorbing member is closely attached to an inner peripheral surface of the atomizing tube (14). Covered on each of the liquid inlet holes (141), an end surface of the liquid adsorbing member (12) is abutted on the atomizing sheet (111).
8. 根据权利要求2所述的储液瓶，其特征在于：所述喷嘴(6)的靠近雾化套(22)的一端沿周向延伸形成一圆形凸缘(62)；The liquid storage bottle according to claim 2, wherein one end of the nozzle (6) adjacent to the atomizing sleeve (22) extends circumferentially to form a circular flange (62);

   所述雾化套(22)为一端开口的圆筒结构，所述雾化套(22)周向设有第一安装孔(223)，所述圆形凸缘(62)用于抵持固定于所述雾化套(22)的第一安装孔(223)的周缘上；所述喷嘴(6)的中轴线与所述雾化管(22)的中轴线之间具有夹角；The atomizing sleeve (22) is a cylindrical structure with an open end, the atomizing sleeve (22) is circumferentially provided with a first mounting hole (223), and the circular flange (62) is used for abutting and fixing The circumference of the first mounting hole (223) of the atomizing sleeve (22); the central axis of the nozzle (6) has an angle with the central axis of the atomizing tube (22);

   所述雾化套(22)还包括一垂直于所述雾化套(22)封闭端面且与所述雾化套(22)一体成型的隔液板(224)；所述隔液板(224)上开设有插孔，用于插设所述固定件(112)；所述雾化套(22)的开口端为缩径而成的雾化套凸起(222)，用于与所述连接组件(4)连接，形成一体成型的整体；所述隔液板(224)与所述雾化套(22)远离第一安装孔(223)的部分形成的空腔为储 液腔(21)。The atomizing sleeve (22) further includes a liquid barrier (224) perpendicular to the closed end surface of the atomizing sleeve (22) and integrally formed with the atomizing sleeve (22); the liquid barrier (224) The upper opening is provided with a socket for inserting the fixing member (112); the open end of the atomizing sleeve (22) is a reduced diameter atomizing sleeve protrusion (222) for The connecting component (4) is connected to form an integrally formed body; the cavity formed by the portion of the liquid blocking plate (224) and the atomizing sleeve (22) away from the first mounting hole (223) is stored Liquid chamber (21).
9. 根据权利要求8所述的储液瓶，其特征在于：所述液体吸附件(12)为紧贴附于雾化片(111)上的片状液体吸附件。The liquid storage bottle according to claim 8, wherein the liquid adsorbing member (12) is a sheet-like liquid adsorbing member attached to the atomizing sheet (111).
10. 根据权利要求2所述的储液瓶，其特征在于：所述喷嘴(6)上还设有与所述固定件(112)相抵接的环形凸台(61)。The liquid storage bottle according to claim 2, characterized in that the nozzle (6) is further provided with an annular boss (61) abutting against the fixing member (112).
11. 根据权利要求10所述的储液瓶，其特征在于：所述喷嘴(6)内还包括一个设有第二安装孔(64)的固定板(63)；所述固定板(63)安装在所述喷嘴(6)的环形凸台(61)上，所述环形凸台(61)上固定有风扇装置(7)，所述风扇装置(7)用于将所述超声波雾化器(11)雾化的雾气从所述喷嘴(6)吹出。The liquid storage bottle according to claim 10, wherein said nozzle (6) further comprises a fixing plate (63) provided with a second mounting hole (64); said fixing plate (63) is mounted on On the annular boss (61) of the nozzle (6), a fan device (7) is fixed on the annular boss (61), and the fan device (7) is used for the ultrasonic atomizer (11) The atomized mist is blown out from the nozzle (6).
12. 根据权利要求11所述的储液瓶，其特征在于：所述风扇装置(7)包括马达(71)和扇叶(72)；所述马达(71)朝向所述喷嘴(6)的一端与所述扇叶(72)相连接；所述马达(71)的另一端延伸至所述雾化组件(1)内，与所述电子线(113)形成电连接。A liquid storage bottle according to claim 11, wherein said fan means (7) comprises a motor (71) and a blade (72); said motor (71) facing one end of said nozzle (6) The blades (72) are connected; the other end of the motor (71) extends into the atomizing assembly (1) to form an electrical connection with the electron beam (113).
13. 根据权利要求2所述的储液瓶，其特征在于：所述固定件(112)由弹性材料制成；The liquid storage bottle according to claim 2, wherein the fixing member (112) is made of an elastic material;

    所述雾化套(22)由透明材料制成。The atomizing sleeve (22) is made of a transparent material.
14. 根据权利要求2所述的储液瓶，其特征在于：所述陶瓷基体(81)插设在所述固定件(112)朝向所述喷嘴(6)的端面，且所述陶瓷基体(81)与所述固定件(112)之间过盈配合；The liquid storage bottle according to claim 2, wherein the ceramic base body (81) is inserted into an end surface of the fixing member (112) facing the nozzle (6), and the ceramic base body (81) An interference fit with the fixing member (112);

    所述陶瓷基体(81)包括位置相对的第一端(83)和第二端(84)，所述第一端(83)的端面面向所述雾化片(111)，所述第二端(84)朝向所述喷嘴(6)，所述陶瓷基体(81)内贯穿所述第一端(83)的端面和所述第二端(84)的端面设置有液化腔(85)，且所述液化腔(85)与所述雾化通道(65)相连通；The ceramic substrate (81) includes a first end (83) and a second end (84) opposite in position, an end surface of the first end (83) facing the atomizing sheet (111), the second end (84) toward the nozzle (6), an end surface of the ceramic substrate (81) penetrating through the first end (83) and an end surface of the second end (84) are provided with a liquefaction chamber (85), and The liquefaction chamber (85) is in communication with the atomization passage (65);

    所述电热丝(82)呈柱形螺旋形结构，所述电热丝(82)插设在所述陶瓷基体(81)内部，且所述电热丝(82)与所述陶瓷基体(81)同轴设置，以使所述电热丝(82)将所述超声波雾化器(11)雾化后的液体加热后依次导通至 所述液化腔(85)以及所述雾化通道(65)。The heating wire (82) has a cylindrical spiral structure, the heating wire (82) is inserted inside the ceramic substrate (81), and the heating wire (82) is the same as the ceramic substrate (81) The shaft is disposed such that the heating wire (82) heats the liquid atomized by the ultrasonic atomizer (11) and then sequentially turns on to The liquefaction chamber (85) and the atomization passage (65).
15. 根据权利要求14所述的储液瓶，其特征在于：所述陶瓷基体(81)的内周面设置有呈螺旋形的固定槽(88)，且所述电热丝(82)与所述固定槽(88)的形状相适配并嵌入所述固定槽(88)中，所述电热丝(82)的两端分别与所述电极组件(3)电连接。The liquid storage bottle according to claim 14, wherein the inner peripheral surface of the ceramic base (81) is provided with a spiral fixing groove (88), and the heating wire (82) and the fixing The shape of the groove (88) is adapted and embedded in the fixing groove (88), and both ends of the heating wire (82) are electrically connected to the electrode assembly (3), respectively.
16. 根据权利要求8所述的储液瓶，其特征在于：所述喷嘴(6)的内周面设置有卡持槽(86)，所述陶瓷基体(81)设置在所述喷嘴(6)靠近所述雾化套(22)的端面，且所述陶瓷基体(81)插设固定在所述卡持槽(86)内，且所述卡持槽(86)用于防止所述陶瓷基体(81)沿朝向所述喷嘴(6)的方向运动；The liquid storage bottle according to claim 8, wherein an inner circumferential surface of the nozzle (6) is provided with a holding groove (86), and the ceramic base body (81) is disposed near the nozzle (6). An end surface of the atomizing sleeve (22), and the ceramic base body (81) is inserted and fixed in the holding groove (86), and the holding groove (86) is used to prevent the ceramic base body ( 81) moving in a direction toward the nozzle (6);

    贯穿所述陶瓷基体(81)设置有多个通气孔(87)，所述电热丝(82)缠绕呈片状结构，且所述电热丝(82)设置在所述超声波雾化器(11)和所述陶瓷基体(81)之间。A plurality of vent holes (87) are disposed through the ceramic base body (81), the heating wire (82) is wound in a sheet-like structure, and the heating wire (82) is disposed at the ultrasonic atomizer (11) Between the ceramic substrate (81) and the ceramic substrate (81).
17. 一种储液瓶组件，其特征在于，包括如权利要求1至16任一项所述的储液瓶，和与所述储液瓶可拆卸连接的电源组件。A liquid storage bottle assembly, comprising the liquid storage bottle according to any one of claims 1 to 16, and a power supply assembly detachably coupled to the liquid storage bottle.
18. 根据权利要求17所述的储液瓶组件，其特征在于：所述电源组件包括一电池套(57)，所述电池套(57)的一端连接有电池盖(58)，用于密封所述电池套内的电池(56)；所述电池套(57)的另一端设有用于与连接组件(4)上的内连接件(41)相连接的外连接件(51)；所述外连接件(51)内设置有电极支架(59)和固定于所述电极支架(59)上的弹簧电极(52)，所述弹簧电极(52)用于与所述电极组件(3)中的内电极(31)和外电极(32)弹性连接，向所述储液瓶提供电源。The liquid storage bottle assembly according to claim 17, wherein said power supply unit comprises a battery cover (57), and one end of said battery cover (57) is connected with a battery cover (58) for sealing said a battery (56) in the battery case; the other end of the battery case (57) is provided with an outer connector (51) for connection with an inner connector (41) on the connection assembly (4); the outer connection An electrode holder (59) and a spring electrode (52) fixed to the electrode holder (59) are disposed in the member (51), and the spring electrode (52) is used in the electrode assembly (3) The electrode (31) and the outer electrode (32) are elastically coupled to provide power to the reservoir.
19. 根据权利要求18所述的电源组件，其特征在于：所述电源组件还包括位于电池套(57)上的按键(54)，与所述按键(54)相连接的PCB板(53)和用于固定所述PCB板的支架(55)；所述PCB板(53)的另一端与电池(56)相连；所述电源组件的外连接件(51)为外螺纹，所述内连接件(41)为内螺纹，从而实现电源组件和所述储液瓶以螺纹方式形成的可拆卸连接。The power supply assembly according to claim 18, wherein said power supply assembly further comprises a button (54) on the battery case (57), a PCB board (53) connected to said button (54), and a bracket (55) for fixing the PCB board; the other end of the PCB board (53) is connected to the battery (56); the outer connecting member (51) of the power source assembly is externally threaded, and the inner connecting member ( 41) is an internal thread to thereby achieve a detachable connection of the power supply assembly and the liquid storage bottle in a threaded manner.
20. 根据权利要求17所述的电源组件，其特征在于：所述电源组件的外 连接件(51)上有卡合凸点(511)；所述内连接件(41)的内侧壁设置有沿该内壁的周面延伸的卡合凹槽(411)及沿该内壁的轴向延伸的卡合开口槽(412)，所述卡合开口槽(412)延伸至所述内连接件(41)的端面；所述外连接件(51)通过将卡合凸点(511)***所述卡合开口槽(412)内后，旋转卡合凸点(511)至所述卡合凹槽(411)中，实现与所述内连接件(41)的插旋式可拆卸连接，从而实现电源组件和所述储液瓶的可拆卸连接。 A power supply unit according to claim 17, wherein said power supply unit is external to said power supply unit The connecting member (51) has an engaging protrusion (511); the inner side wall of the inner connecting member (41) is provided with an engaging groove (411) extending along a circumferential surface of the inner wall and an axial direction along the inner wall An extended snap opening slot (412) extending to an end surface of the inner connector (41); the outer connector (51) being inserted by inserting a snap projection (511) After the opening slot (412) is engaged, the engaging protrusion (511) is rotated into the engaging recess (411) to realize a plug-in detachable connection with the inner connecting member (41). Thereby a detachable connection of the power supply assembly and the liquid storage bottle is achieved.

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