CN221245801U

CN221245801U - Welding-free atomizer

Info

Publication number: CN221245801U
Application number: CN202323218770.7U
Authority: CN
Inventors: 华健; 卢涛
Original assignee: Shenzhen Feellife Atomization Medical Co ltd
Current assignee: Shenzhen Feellife Atomization Medical Co ltd
Priority date: 2023-11-28
Filing date: 2023-11-28
Publication date: 2024-07-02
Anticipated expiration: 2033-11-28

Abstract

The utility model relates to the technical field of atomization, and discloses a welding-free atomizer which comprises a main machine component, a liquid bin component and a liquid bomb component; the liquid bin assembly is inserted into the host assembly, and two bottom electrodes of the liquid bin assembly are respectively and elastically and electrically connected with two spring electrodes of the host assembly; the upper ends of the two bottom electrodes of the liquid bin assembly are respectively inserted into the lower ends of the two conductive structures to form interference connection; the lower ends of the two top electrodes are respectively inserted into the upper ends of the two conductive structures to form interference connection; the two top electrodes of the liquid bin assembly are respectively and elastically electrically connected with the two double-headed spring electrodes of the liquid bomb assembly; the two double-headed spring electrodes of the liquid spring assembly are respectively and electrically connected with the two poles of the atomizing sheet. The connection of the liquid bomb and the liquid bin does not need welding or wire manufacturing, has the advantages of simple structure, convenient installation, reliable conductivity, time and labor saving, lower cost and convenient flow operation, and is suitable for industrialized application.

Description

Welding-free atomizer

Technical Field

The utility model relates to the technical field of atomization, in particular to a welding-free atomizer.

Background

The existing atomizer products use wire-bonding electrical connection, such as: the liquid bullet and the liquid bin are welded by adopting wires, the procedures are complex, time and labor are wasted, and the phenomenon of poor contact exists after the assembly. Therefore, there is a need to develop a welding-free atomizer.

Disclosure of utility model

In view of the shortcomings of the prior art, the present utility model aims to provide a welding-free atomizer. The atomizer utilizes the interference fit connection of the inner wall of the stainless steel capillary tube and the electrodes at the two ends to make the atomizer conductive. The outer wall of the stainless steel capillary tube is coated with insulating materials, so that the outer wall is not conductive to liquid contact, the liquid bin assembly is replaceable, the stainless steel capillary tube is suitable for commercial application and mass production, and customers can purchase replacement products to save purchase cost.

The utility model adopts the following technical proposal to realize the aim:

a welding-free atomizer comprises a main machine component, a liquid bin component and a liquid bomb component;

The main machine component comprises a shell, an atomization control board, a battery and two spring electrodes, wherein the two spring electrodes are respectively arranged at two sides of the bottom inside the main machine component;

the liquid bin assembly comprises a liquid bin shell, a liquid bin bottom cover, a hollow liquid bin cavity formed by the liquid bin shell and the liquid bin bottom cover in a surrounding mode and used for filling liquid, two conductive structural bodies which are arranged in the liquid bin cavity and are hollow at least at two ends, a liquid guide cotton stick used for supplying liquid in the liquid bin cavity to an atomization module in the liquid bomb assembly, two top electrodes and two bottom electrodes; the lower ends of the two top electrodes are respectively inserted into the upper ends of the two conductive structures to form interference connection; the upper ends of the two bottom electrodes are respectively inserted into the lower ends of the two conductive structures to form interference connection; the outer wall of the conductive structure body is coated with an insulating material;

The liquid bullet assembly comprises a bullet shell, an atomization module, a bullet support and a double-ended spring electrode, wherein the atomization module is arranged in a cavity surrounded by the bullet shell and the bullet support, and the double-ended spring electrode is arranged on the bullet support;

The liquid bin assembly is inserted into the host assembly, and two bottom electrodes of the liquid bin assembly are respectively and elastically electrically connected with two spring electrodes of the host assembly; the liquid bin assembly is connected with the liquid bomb assembly through threads; the two top electrodes of the liquid bin assembly are respectively and elastically electrically connected with the two double-headed spring electrodes of the liquid bomb assembly.

Preferably, the liquid bin assembly is inserted into the host assembly and fixed in a magnet adsorption mode.

Preferably, the atomizer further comprises a protective cover assembly, wherein the protective cover assembly covers the liquid bomb assembly and is connected with the main machine assembly in a magnet adsorption mode, and the magnet adsorption mode is simultaneously provided with a Hall switch magnetic attraction switch function.

Preferably, the conductive structure is a stainless steel capillary.

Preferably, the liquid bin assembly further comprises a liquid bin sealing silica gel ring, a spring and a spring fixing seat arranged at the bottom cover of the liquid bin; the liquid bin sealing silica gel ring is arranged between the liquid bin shell and the liquid bin bottom cover; the spring is placed at the spring fixing seat and used for being abutted with the liquid guide cotton stick.

Preferably, the liquid bullet assembly further comprises an O-shaped ring, and the O-shaped ring is arranged between the atomization module and the bullet support.

Preferably, the atomizing module comprises an atomizing sheet, and the two double-headed spring electrodes are respectively and electrically connected with two poles of the atomizing sheet.

The non-welding conductive principle of the utility model is as follows:

(1) The two spring electrodes on the main machine component are respectively contacted with the two bottom electrodes of the liquid bin component to form electric connection;

(2) The upper ends of the two bottom electrodes of the liquid bin assembly are respectively inserted into the lower ends of the two conductive structures to form interference connection; the lower ends of the two top electrodes are respectively inserted into the upper ends of the two conductive structures to form interference connection;

(3) The two top electrodes of the liquid bin assembly are respectively and elastically electrically connected with the two double-headed spring electrodes of the liquid bomb assembly;

(4) The two double-headed spring electrodes of the liquid spring assembly are respectively and electrically connected with the two poles of the atomizing sheet;

by combining the above, the whole circuit forms a closed loop, and the opening and closing of the circuit can be controlled by a switch key on the host component.

Compared with the prior art, the utility model has the following beneficial effects:

The connection of the liquid bomb and the liquid bin does not need welding or wire manufacturing, has the advantages of simple structure, convenient installation, reliable conductivity, time and labor saving, lower cost and convenient flow operation, and is suitable for industrialized application.

The atomizer of the utility model utilizes the interference fit connection of the inner wall of the stainless steel capillary tube and the electrodes at the two ends to lead the atomizer to be conductive. The outer wall of the stainless steel capillary tube is coated with insulating materials, so that the outer wall is not conductive to liquid contact, the liquid bin assembly is replaceable, the stainless steel capillary tube is suitable for commercial application and mass production, and customers can purchase replacement products to save purchase cost.

Drawings

FIG. 1 is a schematic cross-sectional view of a weldless atomizer of the present utility model;

FIG. 2 is an exploded perspective view of a solderless atomizer of the present utility model;

FIG. 3 is a schematic view of the overall structure of a welding-free atomizer of the present utility model;

FIG. 4 is a schematic illustration of a partially exploded construction of a solderless atomizer of the utility model;

FIG. 5 is a schematic view of an exploded view of the hydro-elastic component of the present utility model;

FIG. 6 is a schematic view of an exploded view of the cartridge assembly of the present utility model.

Detailed Description

The utility model is further illustrated below in conjunction with specific embodiments.

See fig. 1-6: a welding-free atomizer comprises a main machine component 1, a liquid bin component 2, a liquid bomb component 3 and a protective cover 4. Wherein:

The main assembly 1 includes a housing 11, an atomizing control board 12, a battery 13, a spring electrode 14, a magnet 15, and a magnet 16. The spring electrodes 14 are provided at two sides of the bottom inside the main body assembly 1, respectively.

The liquid bin assembly 2 comprises a liquid bin shell 21, a liquid bin bottom cover 22, a hollow liquid bin cavity 23 which is formed by enclosing the liquid bin shell 21 and the liquid bin bottom cover 22 and is used for filling liquid, two conductive structures 24 which are arranged in the liquid bin cavity 23 and are hollow at least at two ends, a liquid guide cotton stick 25 which is used for supplying liquid of the liquid bin cavity 23 to an atomization module 32 in the liquid bomb assembly 3, two top electrodes 26, two bottom electrodes 27 and a magnet 28. The lower ends of the two top electrodes 26 are respectively inserted into the upper ends of the two conductive structures 24 to form an interference connection. The upper ends of the two bottom electrodes 27 are respectively inserted into the lower ends of the two conductive structures 24 to form an interference connection. The conductive structure 24 is preferably a stainless steel capillary. The outer wall of the stainless steel capillary tube is coated with an insulating material, such as an insulating teflon, to render it non-conductive when in contact with the liquid in the liquid chamber.

The liquid spring assembly 3 includes a bullet housing 31, an atomizing module 32, a bullet holder 33, and a double-ended spring electrode 34. The atomizing module 32 is disposed in a cavity surrounded by the warhead housing 31 and the warhead support 33, and the double-ended spring electrode 34 is disposed on the warhead support 33. The atomizing module 32 contains an atomizing sheet 35, and two double-ended spring electrodes 34 are electrically connected to two poles of the atomizing sheet 35.

When the liquid bin assembly 2 is installed, the liquid bin assembly 2 is inserted into the main machine assembly 1 and fixed in a magnetic attraction mode through the magnet 15 and the magnet 28.

The two bottom electrodes 27 of the cartridge assembly 2 are elastically and electrically connected with the two spring electrodes 14 of the main body assembly 1, respectively. The liquid bin assembly 2 is connected with the liquid bomb assembly 3 through threads. The two top electrodes 26 of the cartridge assembly 2 are elastically and electrically connected to the two double-ended spring electrodes 34 of the liquid spring assembly 3, respectively.

The protective cover 4 is assembled and covered on the liquid bomb component 3, and plays a role in protecting the liquid bomb component 3. The protection cover 4 contains two special-shaped magnets 41 which are respectively attracted with the two special-shaped magnets 16 on the host assembly 1, so that the protection cover 4 is magnetically assembled on the host assembly 1. Under the influence of two special-shaped magnets 41 in the protective cover 4 on the Hall switch 17 on the main circuit, after the protective cover 4 is covered, the key of the main circuit switch fails.

The cartridge assembly 2 further includes a cartridge sealing silicone ring 29, a spring 210 and a spring mount 211 disposed on the cartridge bottom cover 22. A sump sealing silica gel ring 29 is provided between the sump housing 21 and the sump bottom cover 22. The spring 210 is disposed on the spring holder 211 and is used for abutting against the liquid-guiding cotton swab 25. The spring 210 acts to support the liquid-conducting cotton swab 25 to the top atomizing module, facilitating atomization of the adsorbed liquid to the top.

The liquid bullet assembly 3 further comprises an O-ring 36, the O-ring 36 being arranged between the atomizing module 32 and the bullet holder 33.

The non-welding conductive principle of the utility model is as follows:

The utility model is electrically connected in a mode without welding wires, has the advantages of simple installation, time and labor saving, convenient flow operation, simple structure and good electric conductivity, and is suitable for industrialized application.

The foregoing has described in detail the technical solutions provided by the embodiments of the present utility model, and specific examples have been applied to illustrate the principles and implementations of the embodiments of the present utility model, where the above description of the embodiments is only suitable for helping to understand the principles of the embodiments of the present utility model; meanwhile, as for those skilled in the art, according to the embodiments of the present utility model, there are variations in the specific embodiments and the application scope, and the present description should not be construed as limiting the present utility model.

Claims

1. A welding-free atomizer comprises a main machine component, a liquid bin component and a liquid bomb component, and is characterized in that,

2. A solderless atomizer according to claim 1, wherein the cartridge assembly is inserted into the host assembly and secured by means of magnetic attraction.

3. The welding-free atomizer of claim 1 further comprising a protective cover assembly, wherein the protective cover assembly is covered outside the liquid bomb assembly and is connected with the main machine assembly in a magnet adsorption manner, and the magnet adsorption simultaneously has a magnetic attraction switching function of the hall switch.

4. A solderless atomizer according to claim 1, wherein the conductive structure is a stainless steel capillary.

5. The welding-free atomizer of claim 1 wherein said sump assembly further comprises a sump sealing silicone ring, a spring, and a spring retainer disposed in a sump bottom cap; the liquid bin sealing silica gel ring is arranged between the liquid bin shell and the liquid bin bottom cover; the spring is placed at the spring fixing seat and used for being abutted with the liquid guide cotton stick.

6. The welding-free atomizer of claim 1 wherein said liquid spring assembly further comprises an O-ring, said O-ring being disposed between said atomizing module and said bullet holder.

7. The welding-free atomizer of claim 1 wherein said atomizing module comprises an atomizing plate, and said two double-ended spring electrodes are electrically connected to two poles of said atomizing plate.