WO2017206022A1

WO2017206022A1 - Liquid storage bottle and liquid storage bottle assembly

Info

Publication number: WO2017206022A1
Application number: PCT/CN2016/083908
Authority: WO
Inventors: 刘秋明; 向智勇; 牛建华; 韦志林
Original assignee: 惠州市吉瑞科技有限公司深圳分公司
Priority date: 2016-05-30
Filing date: 2016-05-30
Publication date: 2017-12-07

Abstract

A liquid storage bottle and a liquid storage bottle assembly. The liquid storage bottle comprises: an atomization assembly (1) provided with an ultrasonic atomizer (12) and a liquid adsorption member (22); a liquid storage assembly (2) provided with a liquid storage chamber (21); an electrode assembly (3); a connection assembly (4); and a nozzle (6). The liquid adsorption member (22) 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 adsorption member (22) is attached to a surface of the ultrasonic atomizer (12), so that a liquid is atomized by means of the ultrasonic atomizer (12). The atomization assembly (1) can be detached from the liquid storage assembly (2) and the nozzle (6), accordingly maintenance or replacement of the atomization assembly (1) are facilitated, use cost is effectively reduced, and the serve life of the liquid storage bottle is prolonged; by means of the structure, cleaning is not required, and an optimal atomization effect can be achieved for liquids having different concentrations.

Description

Liquid storage bottle and liquid storage bottle assembly

Technical field

This invention relates to the field of household electronic products, and more particularly to a liquid storage bottle for a liquid spray and a liquid storage bottle assembly.

Background technique

In the prior art, the liquid atomizer can be repeatedly used for liquid re-use.

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.

Summary of the invention

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 easily replaced with liquid, is easy to disassemble, and has a good atomization effect.

The invention provides a liquid storage bottle for loading a liquid and cooperating with the power supply component to atomize the liquid, wherein: the atomization assembly, the liquid storage assembly, the electrode assembly, the connection assembly and the nozzle;

The liquid storage assembly is provided with a liquid storage chamber 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 bottom of the liquid storage chamber;

The atomizing assembly includes an atomizing sleeve and ultrasonic atomization inserted and fixed inside the atomizing sleeve a surface of the liquid adsorbing member is attached to a surface of the ultrasonic atomizer to enable liquid in the liquid storage chamber to be supplied to the ultrasonic atomizer for atomization;

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;

The atomizing assembly, the liquid storage assembly, the electrode assembly and the connecting assembly are combined to form a closed whole body, and the whole seals the liquid storage chamber to block external liquid from being injected into the liquid storage chamber;

The outer peripheral surface of the opposite ends of the atomization sleeve is provided with a first connection structure and a second connection structure, the first connection structure is for detachably connecting with the liquid storage assembly, and the second connection structure is used for The nozzle is detachably connected.

Optionally, the nozzle has an atomization passage that communicates with the outside;

The liquid storage assembly further includes a liquid storage sleeve, one end of the liquid storage sleeve is inserted with the atomization assembly, and the other end of the liquid storage sleeve is fixedly connected with the connection assembly, and the liquid storage chamber is formed at In the liquid storage sleeve, the atomization sleeve is located between the liquid storage sleeve and the nozzle;

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 configured to adsorb liquid in the liquid storage chamber to the atomizing sheet, and one side of the atomizing sheet is fixedly disposed for connecting the electrode assembly The electronic component is inserted into an end of the nozzle adjacent to the liquid storage sleeve.

Optionally, the liquid storage assembly is further provided with a plug connector, the plug connector includes an annular body portion, and a through hole is formed through the body portion, and the through hole is configured to insert and fix the hole a liquid adsorbing member to enable the liquid adsorbing member passing through the through hole to be attached to the surface of the atomizing sheet;

An annular connecting groove is formed between the outer peripheral wall of the plug connector and the through hole, and the annular connecting groove is disposed toward the electrode assembly, and the annular connecting groove is sleeved on the liquid storage sleeve The annular connecting groove is configured to insert and fix the liquid storage sleeve on an outer peripheral surface of one end;

The plug connector is provided with a first internal thread toward an inner circumferential surface of an end of the nozzle, the mist The first connecting structure of the sleeve is an external thread matching the first internal thread, so that the threaded connection of the first internal thread and the first connecting structure makes the plug connector Disassembling and connecting to the atomizing sleeve;

The nozzle is disposed with a second internal thread toward an inner circumferential surface of the atomization sleeve, and the second connection structure of the atomization sleeve is an external thread matched by the second internal thread, so as to pass the The threaded connection of the second internal thread and the second connection structure allows the nozzle to be detachably coupled to the atomizing sleeve.

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;

The electrode assembly includes inner and outer electrodes insulated from each other, and the inner and outer electrodes are housed in the connection assembly and electrically connected to the atomization sheet through respective electron lines.

Optionally, the liquid storage assembly further includes an atomizing tube for accommodating the liquid adsorbing member, wherein the outer portion of the atomizing tube has a plurality of liquid inlet holes for transferring liquid, and the atomizing tube is coaxial The sleeve is disposed in the liquid storage sleeve, and a gap is formed between the liquid storage sleeve and the atomization tube, and the gap forms the liquid storage chamber.

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 sleeve, and has an interference fit with the atomization sleeve Abutting, the other end of the atomizing tube is sleeved on the atomization seat; the inner electrode and the outer electrode are sequentially disposed in the atomization seat; the electron line includes a first electron line and a second electron line, one end of the first electron line is connected to the atomization sheet, and the other end of the first electron line extends along the inside of the atomization tube to the atomization seat and is clamped thereto 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 atomization seat is sandwiched between the atomization seat and the outer electrode.

Optionally, the liquid storage sleeve is cylindrical, and one end of the liquid storage 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 liquid storage sleeve is an atomized sleeve protrusion formed by reducing the diameter;

The bending portion and the atomizing sleeve protrusion are respectively connected to the atomizing sleeve and the connecting component to form a sealed whole.

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.

Optionally, the nozzle is further provided with an annular boss that abuts the fixing member.

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.

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.

Optional: the fixing member is made of an elastic material;

The liquid storage sleeve is made of a transparent material.

Optionally, the electronic wire further includes a third electronic wire and a fourth electronic wire;

One end of the third electronic wire is electrically connected to the atomizing sheet, and the other end of the third electronic wire is clamped and fixed between the atomizing sleeve and the first insulating ring made of a conductive material. One end of the four electron wires is electrically connected to the atomizing sheet, and the other end of the fourth electron beam is clamped and fixed between the first electrode and the first insulating ring;

The first insulating ring is located between an end surface of the atomizing sleeve away from the nozzle and the first electrode.

Optionally, the electronic wire further includes a fifth electronic wire and a sixth electronic wire;

The liquid storage assembly is further provided with a plug connector made of a conductive material, the plug connector is electrically connected to the atomization sleeve, and the second electrode is inserted and fixed in the plug connector. a second insulating ring is interposed between the plug connector and the second electrode, and the second electrode and the first electrode are electrically connected;

One end of the fifth electronic wire is clamped and fixed between the plug connector and the second insulating ring, and one end of the sixth electron wire is clamped and fixed to the second insulating ring and the second electrode. between;

The other end of the fifth electron line and the other end of the sixth electron line are electrically connected to the electrode assembly.

The present invention also provides a liquid storage bottle assembly, comprising the liquid storage bottle of any of the above, and a power supply assembly detachably coupled to the liquid storage bottle.

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.

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.

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.

One or more technical solutions provided by the present invention have at least the following technical effects or advantages:

The liquid storage bottle is connected to the integral structure by the atomizing assembly, the liquid storage assembly, the electrode assembly, the connecting assembly and the nozzle, and when necessary, the atomizing assembly and the liquid storage assembly and the nozzle are detachable, thereby It is convenient to maintain or replace the atomization assembly, and when the atomization piece for atomizing the liquid to form a mist in the atomization assembly is damaged, only the atomization piece needs to be replaced to ensure the normal operation of the liquid storage bottle. The utility model has the advantages of effectively reducing the use cost, prolonging the service life of the liquid storage bottle, avoiding unnecessary waste, and preventing the repeated use of the prior art from taking time, cleaning and cleaning when the cleaning is not clean;

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, compared with the prior art heating atomization method, can save energy by 90% and better atomization effect; the liquid adsorption member adopts porous water absorbing material, which includes cotton, glass fiber material, and can be preferably medical absorbent cotton , medical absorbent cotton removes inclusions from raw cotton, degreased, drifted, washed, Dry and finished. 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.

The oil storage assembly includes a liquid storage sleeve, the liquid storage sleeve and the atomization assembly and the connection assembly form a closed space for storing the liquid, and the transparent liquid storage 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.

DRAWINGS

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.

Figure 1 is a cross-sectional view of a prior art liquid atomizing device;

2 is a cross-sectional view of a liquid storage bottle assembly according to a preferred embodiment of the present invention;

Figure 3 is a cross-sectional view of a liquid storage bottle according to a second embodiment of the present invention;

4 is an exploded view of an atomizing assembly according to a second embodiment of the present invention;

Figure 5 is an exploded view of a liquid storage assembly according to a second embodiment of the present invention;

Figure 6 is an exploded view of an electrode assembly according to a second embodiment of the present invention;

Figure 7 is a cross-sectional view of a liquid storage bottle according to a third embodiment of the present invention;

Figure 8 is a schematic view of a power supply assembly of the present invention;

9 is an exploded perspective view of a liquid storage bottle assembly according to a fourth embodiment of the present invention;

Figure 10 is a cross-sectional view of a liquid storage bottle according to a second embodiment of the present invention.

detailed description

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. A liquid storage bottle and its corresponding power supply component realizes no-cleaning, quick replacement, and use Convenient, no contaminant introduction, the technical effect of the best atomization effect can be achieved for different concentrations of syrup.

The technical solution of the embodiment of the present invention is to solve the above technical problem, and the general idea is as follows:

The liquid is replaced by providing a detachable liquid storage bottle; the liquid storage bottle is composed of an atomizing component, a liquid storage component, an electrode component, and a connecting component, and is formed as a non-detachable whole body, and the liquid storage bottle can be directly replaced after use. . 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 Produces a natural and elegant water mist to atomize the liquid, which saves energy and produces better atomization effect; the liquid storage bottle used can effectively avoid the inconvenience of cleaning during repeated use, and the introduction of pollutants and cleaning is not clean. Problems such as a reduction in the atomization effect. 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.

The atomization component provided in this embodiment is detachably connected to the liquid storage component and the nozzle respectively. Since the atomization component is a lossy device, if there is a problem in the atomization component during use, The atomizing assembly is replaced or repaired as needed, avoiding the waste caused by replacing the entire liquid storage bottle.

For a better understanding of the above technical solutions, the above technical solutions will be described in detail in conjunction with the drawings and specific embodiments. It should be understood that the specific features of the embodiments and embodiments of the present invention are detailed to the technical solutions of the present application. The description, rather than the limitation of the technical solution of the present application, can be combined with each other in the embodiments of the present invention and the technical features in the embodiments without conflict.

Embodiment 1:

Embodiments of the present invention provide a liquid storage bottle. Referring to FIG. 2, a liquid storage bottle 100 with an ultrasonic vibration piece is used to hold a liquid and cooperate with the power supply assembly 200 to atomize the liquid. The liquid storage bottle 100 includes an atomizing assembly 1, a liquid storage assembly 2, an electrode assembly 3, a nozzle 6, 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.

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 a nozzle 6 on one side of the assembly, the liquid storage assembly 2 includes a liquid storage chamber 21, and a liquid adsorbing member 22 made of a porous material, the liquid adsorbing member 22 is inserted into the liquid storage chamber 21 and extends to the reservoir The bottom of the liquid chamber 21.

The atomizing assembly 1 includes an atomizing sleeve 11 and an ultrasonic atomizer 12 interposed and fixed inside the atomizing sleeve 11, and a surface of the liquid adsorbing member 22 is attached to the surface of the ultrasonic atomizer 12. So that the liquid in the liquid storage chamber 21 can be delivered to the ultrasonic atomizer 12 for atomization;

Preferably, the liquid adsorbing member 22 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.

In the present embodiment, the liquid adsorbing member 22 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 22 is attached to the surface of the ultrasonic atomizer 12. So that the liquid in the liquid storage chamber 21 can be supplied to the ultrasonic atomizer 12 for atomization; the electrode assembly 3 is sleeved in the connection assembly 4 and with the ultrasonic atomizer 12 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.

Specifically, the outer peripheral surface of the opposite ends of the atomizing sleeve 11 is provided with a first connecting structure 13 and a second connecting structure 14 .

The first connecting structure 13 is for detachable connection with the liquid storage assembly 2, and the second connecting structure 14 is for detachable connection with the nozzle 6.

The specific structure of the first connecting structure 13 and the second connecting structure 14 is not limited in this embodiment, as long as the first connecting structure 13 and the second connecting structure 14 shown in this embodiment are implemented. The detachable connection relationship between the atomizing sleeve 11 and the liquid storage assembly 2 and the nozzle 6 respectively may be, for example, the first connecting structure 13 and the second connecting structure 14 may be a thread structure. , buckle structure, etc.

With the structure shown in this embodiment, the atomizing assembly 1 can be detached from the nozzle 6 and the liquid storage assembly 2, when the user needs to replace or repair the atomizing assembly 1, ie The atomizing assembly 1 on the atomizing assembly 1 can be separately detached from the nozzle 6, and the disassembling process is simple, convenient for the user to operate, and prolonging the service life of the liquid storage bottle.

Embodiment 2:

Based on the embodiment 1, the embodiment of the present invention provides a liquid storage bottle. Referring to FIG. 3 , a detailed description of the internal structure of the liquid storage bottle based on the embodiment 1 is provided. Specifically, FIG. 3 is the liquid storage bottle 100 . Schematic diagram of the explosive connection structure.

In the present embodiment, the atomizing assembly 1 includes an ultrasonic atomizer 12, which further includes an atomizing sheet 111 for transferring the atomized liquid into the atomizing passage 61 and for fixed atomization. The fixing member 112 of the 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 a liquid storage sleeve 23, one end of the liquid storage sleeve 23 is inserted with the atomization assembly 1, and the other end of the liquid storage sleeve 23 is fixedly connected with the connection assembly 4, A liquid storage chamber 21 is formed in the liquid storage jacket 23, and the atomization sleeve 130 is disposed between the liquid storage jacket 23 and the nozzle 6.

The liquid storage assembly 2 further includes an atomizing tube 28 for accommodating the liquid adsorbing member 22, and the outer portion of the atomizing tube 28 has a plurality of liquid inlet holes 281 for transporting liquid, and the atomizing tube 28 A coaxial sleeve is disposed in the liquid storage sleeve 23, and a gap is formed between the liquid storage sleeve 23 and the atomization tube 28, and the gap forms the liquid storage chamber 21.

The electrode assembly 3 includes an inner electrode 31 and an outer 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:

Referring to Figures 2-4 together, the nozzle 6 has an atomizing passage 61 that communicates with the outside. The nozzle 6 is provided with an annular boss 64 that abuts against the fixing member 112.

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.

One end of the liquid adsorbing member 22 is inserted into the reservoir chamber 21 and extends to the bottom of the reservoir chamber 21. In particular, in the present embodiment, the liquid adsorbing member 22 has a columnar shape, and an outer peripheral surface of the columnar liquid adsorbing member 22 is closely attached to the inner peripheral surface of the atomizing tube 28 and is disposed in each of the liquid inlet holes 281. The end surface of the liquid adsorbing member 22 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 water mist without heating or adding any chemical agent. Compared with the heating atomization method, it is more energy efficient.

Specifically, the liquid storage assembly 2 is further provided with a plug connector 24, the plug connector 24 includes an annular body portion 241, and a through hole 242 is defined through the body portion 241, and the through hole 242 is used. Inserting and fixing the liquid adsorbing member 22 to enable the liquid adsorbing member 22 passing through the through hole 242 to be attached to the surface of the atomizing sheet 111;

An annular connecting groove 25 is formed between the outer peripheral wall of the plug connector 24 and the through hole 242, and the annular connecting groove 25 is disposed toward the electrode assembly 3, and the annular connecting groove 25 is sleeved. On the outer peripheral surface of one end of the liquid storage jacket 23, the annular connecting groove 25 is for inserting and fixing the liquid storage jacket 23.

The following is a description of how the atomizing assembly 1 specifically realizes a detachable connection with the liquid storage assembly 2 and the nozzle 6.

The plug connector 24 is provided with a first internal thread 27 toward the inner peripheral surface of the end of the nozzle 6, and the first connecting structure 13 of the atomizing sleeve 130 is the first internal thread 27 The mating external threads are such that the threaded connection through the first internal thread 27 and the first connecting structure 13 allows the plug connector 24 to be detachably coupled to the atomizing sleeve 11.

The nozzle 6 is disposed with a second internal thread 62 facing the inner circumferential surface of the atomization sleeve 11 The second connecting structure 14 of the sleeve 11 is a matching external thread of the second internal thread 62 such that the threaded connection by the second internal thread 62 and the second connecting structure 14 causes the nozzle 6 Removably attached to the atomizing sleeve 11.

Further, in the present embodiment, the liquid storage assembly 2 further includes an atomizing tube 28 for accommodating and fixing the liquid adsorbing member 22, and the atomizing tube 28 is coaxially sleeved in the liquid storage sleeve 23. One end of the atomizing tube 28 is inserted into the atomizing sleeve 130; the other end of the atomizing tube 28 extends into the connecting component 4, and the outer side wall and the connecting boss 42 are bonded or interference fit. The fixed connection is made, and the inner side wall and the outer electrode 32 are fixedly connected by means of adhesion or interference fit. There is a gap between the reservoir sleeve 23 and the atomizing tube 28, which creates a reservoir chamber 21. The electron line 113 extends along the inside of the atomizing tube 1 into the electrode assembly 3. The tube wall of the atomizing tube 28 is provided with a plurality of liquid inlet holes 281 for transporting liquid. When the liquid is produced, the liquid storage bottle 100 having a large concentration of the liquid inlet hole 281 can be used, and the liquid storage bottle 100 having a small concentration can be used, so that the different liquid storage bottles 100 correspond to different syrups, The best atomization effect can be achieved.

Further, in the embodiment, the atomizing assembly 1 further includes an atomizing seat 15 disposed in the atomizing tube 28 and connected to the atomizing tube by adhesive or interference fit, the atomizing seat is used for fixing the mist. The liquid adsorbing member 22 in the tube 28 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 adapted to the shape and size of the cross section of the atomizing tube 28, and are fixedly connected to the atomizing tube 28 by adhesion or interference fit to fix the liquid adsorption in the atomizing tube 28. The function of the member 22; 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 fixed electronic line 113, and The electrode assembly 3 is electrically connected to the atomizing sheet 111. When the electrode assembly 3 is powered on, the atomizing sheet 111 can operate normally.

The following describes the specific structure of the electron beam 113 and how the electrical connection between the atomizing sheet 111 and the electrode assembly 3 is realized by the electronic line. It should be clarified that the electrical connection relationship is described in this embodiment. As an alternative example, as long as the electrical connection between the atomizing sheet 111 and the electrode assembly 3 can be achieved.

Referring to FIG. 10, the electron beam 113 further includes a third electron line 123a and a fourth electron line 123b.

One end of the third electronic wire 123a is electrically connected to the atomizing sheet 111, and the other end of the third electronic wire 123a is clamped and fixed to the atomizing sleeve 11 and the first insulating ring 124 made of a conductive material. between.

It can be seen that the atomizing sheet 111 is electrically connected to the atomizing sleeve 11 through the third electronic wire 123a.

One end of the fourth electron beam 123b is electrically connected to the atomizing sheet 111, and the other end of the fourth electron beam 123b is sandwiched and fixed between the first electrode 125 and the first insulating ring 124.

It can be seen that the atomizing sheet 111 is electrically connected to the first electrode 125 through the fourth electronic wire 123b.

The first insulating ring 124 is located between the end surface of the atomizing sleeve 11 away from the nozzle 6 and the first electrode 125, and the first insulating ring 124 is used for electrically isolating the atomizing sleeve 11 and The first electrode 125.

The electron line 113 further includes a fifth electron line 124a and a sixth electron line 124b.

The liquid storage assembly 2 is further provided with a plug connector 24 made of a conductive material, and the plug connector 24 is electrically connected to the atomizing sleeve 11.

A second electrode 126 is inserted into the plug connector 24, and a second insulating ring 127 is interposed between the plug connector 24 and the second electrode 126, and the second electrode is 126 and the first electrode 125 are electrically connected.

The second insulating ring 127 is used to electrically isolate the second electrode 126 and the plug connector 24.

The fifth electronic wire 124a is clamped and fixed at one end to the plug connector 24 and the second insulation Between the rings 127, one end of the sixth electronic wire 124b is clamped and fixed between the second insulating ring 127 and the second electrode 126;

The other end of the fifth electron line 124a and the other end of the sixth electron line 124b are electrically connected to the electrode assembly 3.

Specifically, the fifth electronic wire 124a and the

It can be seen that one end of the atomizing sheet 111 is electrically connected to the electrode assembly 3 through the third electronic wire 123a, the atomizing sleeve 11, the plug connector 24 and the first electronic wire 113a. .

The other end of the atomizing sheet 111 is electrically connected to the electrode assembly 3 through the fourth electron beam 123b, the first electrode 125, the second electrode 126, and the second electron line 113b. .

It can be seen that, with the structure shown in this embodiment, when the atomization assembly 1 is mounted on the liquid storage assembly 2, the electrical connection relationship between the atomization assembly 1 and the electrode assembly 3 is automatically realized. The normal use of the liquid storage bottle can be effectively guaranteed.

Referring to FIG. 3 and FIG. 5 together (in conjunction with FIG. 2), in the present embodiment, the liquid storage assembly 2 includes a liquid storage jacket 23. The liquid storage sleeve 23 is cylindrical and made of a transparent material. The transparent material can directly observe the remaining amount of the liquid medicine in the bottle, thereby providing a more intuitive viewing angle for the user.

One end of the liquid storage sleeve 23 is provided with an atomizing assembly 1 and the other end is provided with a connecting assembly 4. One end of the liquid storage sleeve 23 is provided with a bent portion 231 formed by a diameter reduction, and the outer peripheral edge of the bent portion 231 has a smaller diameter than the liquid storage sleeve 23, and the shape and size thereof are matched with the shape and size of the annular connecting groove 25, and are used 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 25. The other end of the liquid storage sleeve 23 is formed by reducing the diameter to form an atomizing sleeve protrusion 232. The shape and size of the atomizing sleeve protrusion 232 are matched with the connecting groove 43 and fixedly connected with 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 liquid storage sleeve 23 and the atomization assembly 1 and the connection assembly 4 are used to store liquid. Preferably, a gasket is disposed between the liquid storage sleeve 23 and the annular connecting groove 25 for preventing liquid leakage in the liquid storage chamber.

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. Inside The 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 28. 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.

Referring to FIG. 3 (in conjunction with FIG. 2), in the present embodiment, the connecting member 4 is cylindrical, and one end thereof is connected to the liquid storage sleeve 23 by means of adhesion 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.

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 The connection is fixed to the liquid storage assembly 2 in an adhesive or interference fit.

Referring to FIG. 3 and FIG. 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.

Embodiment 3:

Referring to FIG. 7, a third preferred embodiment of the present invention provides an ultrasonic vibrating liquid storage bottle 100 with a fan device in a suction nozzle 6 on the basis of the first or second embodiment for loading liquid and power components. The liquid is atomized in cooperation. The 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 present embodiment, the nozzle 6 further includes a fixing plate 66 provided with a second mounting hole 65; the fixing plate 66 is mounted on the annular boss 64 of the nozzle 6, the annular boss 64 A fan unit 7 for blowing mist which is atomized by the ultrasonic atomizer 12 from the nozzle 6 is fixed to the fan unit 7.

The fan device 7 includes a motor 71 and a 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 atomization assembly 1 An electrical connection is made with the electron line 113.

When the electrode assembly 3 is powered on, the motor can also be energized. In this embodiment, the fan device is added to speed up the circulation of the airflow when the system is working, and has better atomization effect and better mouthfeel. Improve the user experience.

Embodiment 4:

A fourth preferred embodiment of the present invention provides a 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.

Referring to FIG. 9, 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.

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 atomize compared with the prior art heating atomization method. better result. Therefore, the present invention provides a more convenient and quicker replacement method, the liquid is cleaner, and the atomization effect is better.

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

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

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 the nozzle (6);

The liquid storage assembly (2) is provided with a liquid storage chamber (21) and a liquid adsorption member (22) made of a porous material, and the liquid adsorption member (22) is inserted into the liquid storage chamber (21) and extended to the The bottom of the reservoir (21);

The atomizing assembly (1) includes an atomizing sleeve (11) and an ultrasonic atomizer (12) interposed and fixed inside the atomizing sleeve (11), and a surface of the liquid adsorption member (22) is attached Attached to the surface of the ultrasonic atomizer (12) to enable liquid in the liquid storage chamber (21) to be delivered to the ultrasonic atomizer (12) for atomization;

The electrode assembly (3) is sleeved in the connection assembly (4) and electrically connected to the ultrasonic atomizer (12), 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);

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 liquid storage chamber (21);

The outer peripheral surface of the opposite ends of the atomizing sleeve (11) is provided with a first connecting structure (13) and a second connecting structure (14), and the first connecting structure (13) is used for the liquid storage assembly (2) a detachable connection, the second connection structure (14) being for detachable connection with the nozzle (6).
The liquid storage bottle according to claim 1, wherein the nozzle (6) has an atomization passage (61) communicating with the outside;

The liquid storage assembly (2) further includes a liquid storage sleeve (23), one end of the liquid storage sleeve (23) is inserted with the atomization assembly (1), and the other end of the liquid storage sleeve (23) Fixedly connected to the connecting component (4), the liquid storage chamber (21) is formed in the liquid storage sleeve (23), and the atomizing sleeve (130) is located in the liquid storage sleeve (23) and the Between the nozzles (6);

The ultrasonic atomizer (12) includes means for transmitting the atomized liquid to the station by high frequency resonance An atomizing sheet (111) in the atomizing channel (61) and a fixing member (112) for fixing the atomizing sheet (111), the atomizing sheet (111) being sleeved on the fixing member ( 112)

The liquid adsorbing member (22) is attached to the surface of the atomizing sheet (111), and is used for adsorbing liquid in the liquid storage chamber (21) to the atomizing sheet (111), the atomizing sheet One side of (111) is fixedly provided with an electron wire (113) for connecting the electrode assembly (3), and the fixing member (112) is inserted in the nozzle (6) close to the liquid storage sleeve (23) One end.
The liquid storage bottle according to claim 2, characterized in that the liquid storage assembly (2) is further provided with a plug connector (24), the plug connector (24) comprising an annular body portion (241) a through hole (242) for inserting and fixing the liquid adsorbing member (22) through the through hole (242) The liquid adsorbing member (22) can be attached to the surface of the atomizing sheet (111);

An annular connecting groove (25) is formed between the outer peripheral wall of the plug connector (24) and the through hole (242), and the annular connecting groove (25) faces the electrode assembly (3). The annular connecting groove (25) is sleeved on one outer peripheral surface of the liquid storage sleeve (23), and the annular connecting groove (25) is used for inserting and fixing the liquid storage sleeve (23);

The plug connector (24) is provided with a first internal thread (27) toward an inner circumferential surface of an end of the nozzle (6), and the first connection structure (13) of the atomization sleeve (11) Is an external thread that matches the first internal thread (27) such that the threaded connection through the first internal thread (27) and the first connection structure (13) causes the plug connector (24) detachably connected to the atomizing sleeve (11);

The nozzle (6) is disposed with a second internal thread (62) toward an inner circumferential surface of the atomization sleeve (11), and the second connection structure (14) of the atomization sleeve (11) is a second internal thread (62) matching the external thread such that the threaded connection through the second internal thread (62) and the second connecting structure (14) allows the nozzle (6) to be detachably coupled to the Said on the atomization sleeve (11).
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) wear out Open slot (1121), the open slot (1121) is in communication with the annular mounting groove (114);

The electrode assembly (3) includes an inner electrode (31) and an outer electrode (32) insulated from each other, and the inner electrode (31) and the outer electrode (32) are fitted in the connection assembly (4) and respectively passed The respective electron wires (113) are electrically connected to the atomizing sheet (111).
A liquid storage bottle according to claim 4, wherein said liquid storage assembly (2) further comprises an atomizing tube (28) for accommodating said liquid adsorbing member (22), said atomizing tube (28) The outer circumference has a plurality of liquid inlet holes (281) for transporting liquid, the atomization tube (28) is coaxially sleeved in the liquid storage sleeve (23), and the liquid storage sleeve (23) There is a gap with the atomizing tube (28) which forms the reservoir chamber (21).
The liquid storage bottle according to claim 5, wherein the liquid storage bottle further comprises an atomization seat (15) disposed in the connection assembly (4), one end of the atomization tube (28) Inserted in the atomization sleeve (130) and abutting with the interference fit of the atomization sleeve (130), the other end of the atomization tube (28) is sleeved on the atomization seat (15) The inner electrode (31) and the outer electrode (32) are sequentially disposed in the atomization seat (15); the electron beam (113) includes a first electron beam (113a) and a second electron a line (113b), one end of the first electron line (113a) is connected to the atomizing sheet (111), and the other end of the first electron line (113a) is along the atomizing tube (28) Internally extending to the atomization seat (15) and sandwiched between the atomization seat (15) and the inner electrode (31), one end of the second electron beam (113b) and the atomization The sheet (111) is connected, and the other end of the second electron beam (113b) extends along the inside of the atomizing tube (28) to the atomizing seat (15) and is clamped to the atomizing seat ( 15) between the outer electrode (32).
The liquid storage bottle according to claim 3, wherein the liquid storage sleeve (23) has a cylindrical shape, and one end of the liquid storage sleeve (23) is provided with a bent portion formed by a reduced diameter (231). The bent portion (231) is engaged in the annular connecting groove (25) of the main body portion (241), and the other end of the liquid storage sleeve (23) is an atomized sleeve protrusion formed by reducing the diameter ( 232);

The bending portion (231) and the atomizing sleeve protrusion (232) are respectively connected to the atomizing sleeve (130) and the connecting assembly (4) to form a sealed whole.
The liquid storage bottle according to claim 5, wherein the liquid adsorbing member (22) 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 (28). Covered on each of the liquid inlet holes (281), an end surface of the liquid adsorbing member (22) is abutted on the atomizing sheet (111).
The liquid storage bottle according to claim 2, characterized in that the nozzle (6) is further provided with an annular boss (64) abutting against the fixing member (112).
The liquid storage bottle according to claim 9, wherein said nozzle (6) further comprises a fixing plate (66) provided with a second mounting hole (65); said fixing plate (66) is mounted on On the annular boss (64) of the nozzle (6), a fan device (7) is fixed on the annular boss (64), and the fan device (7) is used for the ultrasonic atomizer (12) The atomized mist is blown out from the nozzle (6).
A liquid storage bottle according to claim 10, 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).
The liquid storage bottle according to claim 2, wherein the fixing member (112) is made of an elastic material;

The liquid reservoir (23) is made of a transparent material.
The liquid storage bottle according to claim 6, wherein the electron beam (113) further comprises a third electron line (123a) and a fourth electron line (123b);

One end of the third electronic wire (123a) is electrically connected to the atomizing sheet (111), and the other end of the third electronic wire (123a) is clamped and fixed to the atomizing sleeve made of a conductive material (11) Between the first insulating ring (124), one end of the fourth electron line (123b) is electrically connected to the atomizing sheet (111), and the other end of the fourth electron line (123b) is clamped and fixed. Between an electrode (125) and the first insulating ring (124);

The first insulating ring (124) is located between an end surface of the atomizing sleeve (11) away from the nozzle (6) and the first electrode (125).
The liquid storage bottle according to claim 13, wherein the electron beam (113) further comprises a fifth electron line (124a) and a sixth electron line (124b);

The liquid storage assembly (2) is further provided with a plug connector (24) made of a conductive material, the plug The connecting connector (24) is electrically connected to the atomizing sleeve (11), and the plug connector (24) is further inserted with a second electrode (126), the plug connector (24) and A second insulating ring (127) is interposed between the second electrodes (126), and the second electrode (126) and the first electrode (125) are electrically connected;

One end of the fifth electronic wire (124a) is clamped and fixed between the plug connector (24) and the second insulating ring (127), and the sixth electronic wire (124b) is clamped and fixed at one end. Between the second insulating ring (127) and the second electrode (126);

The other end of the fifth electron line (124a) and the other end of the sixth electron line (124b) are electrically connected to the electrode assembly (3).
A liquid storage bottle assembly, comprising the liquid storage bottle according to any one of claims 1 to 14, and a power supply assembly detachably coupled to the liquid storage bottle.
The liquid storage bottle assembly according to claim 15, 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.
The power supply assembly according to claim 16, 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.
The power supply assembly according to claim 15, wherein 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 disposed along the inner side An engaging groove (411) extending from a circumferential surface of the inner wall and an engaging opening groove (412) extending along an axial direction of the inner wall, the engaging opening groove (412) extending to the inner connecting member (41) The outer connecting member (51) rotates the engaging bump (511) by inserting the engaging bump (511) into the engaging opening groove (412). To the engagement recess (411), a plug-in detachable connection with the inner connector (41) is achieved, thereby enabling a detachable connection of the power supply assembly and the reservoir.