CN219845049U - Electronic atomization device capable of realizing liquid core separation - Google Patents

Abstract

The utility model belongs to the field of electronic atomization equipment, and particularly discloses an electronic atomization device capable of realizing liquid core separation, which comprises a first shell and a second shell arranged at the lower end of the first shell, wherein the second shell can move up and down relative to the first shell, a liquid storage cup is arranged in the first shell, a sealing ring is arranged at the lower end of the liquid storage cup, a power control module and an atomization core component connected with the power control module are arranged in the second shell, the atomization core component is arranged at the upper end of the second shell and extends into the liquid storage cup, and a liquid inlet is formed in the atomization core component; the second shell moves upwards to enable the liquid inlet to extend into the liquid storage cup, and moves downwards to enable the sealing ring to block the liquid inlet; the liquid core separation effect can be realized, and the situation that the aerosol matrix leaks in the electronic atomization device can be prevented in the transportation process or when the electronic atomization device is not used for a long time.

Description

Electronic atomization device capable of realizing liquid core separation

Technical Field

The utility model belongs to the field of electronic atomization equipment, and particularly relates to an electronic atomization device capable of realizing liquid core separation.

Background

The electronic atomization device is an electronic product which heats and atomizes an aerosol matrix into aerosol shape by utilizing an atomization core for users to use, and meanwhile, the aerosol generated by the electronic atomization device does not contain other harmful components such as tar, suspended particles and the like, so that the electronic atomization device has wide application market; most aerosol matrixes in the existing electronic atomization equipment are always in contact with the atomization core component, when the aerosol matrixes are in the electronic atomization equipment and are not used for a long time, the aerosol matrixes are adsorbed by the atomization core component too much, the risk of leakage exists, and the aerosol matrixes are caused to deteriorate, so that the taste of the follow-up use can be influenced.

Disclosure of Invention

The utility model aims to provide an electronic atomization device capable of realizing liquid core separation, which can realize the effect of liquid core separation and prevent the situation that an aerosol substrate leaks in the electronic atomization device in the transportation process or when the electronic atomization device is not used for a long time.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the electronic atomization device comprises a first shell and a second shell arranged at the lower end of the first shell, wherein the second shell can move up and down relative to the first shell, a liquid storage cup is arranged in the first shell, a sealing ring is arranged at the lower end of the liquid storage cup, a power control module and an atomization core assembly connected with the power control module are arranged in the second shell, the atomization core assembly is arranged at the upper end of the second shell and stretches into the liquid storage cup, and a liquid inlet is formed in the atomization core assembly;

the second shell moves upwards to enable the liquid inlet to extend into the liquid storage cup, and moves downwards to enable the sealing ring to block the liquid inlet.

Further, the first casing includes first epitheca and with first inferior valve that first epitheca is connected, the upper end of first epitheca be equipped with the suction nozzle of atomizing core subassembly intercommunication, the stock solution cup is located in the first epitheca, be equipped with first screw thread on the first inferior valve.

Further, the second shell comprises a second upper shell and a second lower shell connected with the second upper shell, a bottom cover is arranged at the lower end of the second lower shell, and second threads matched with the first threads are arranged on the second lower shell.

Further, a containing cavity is formed between the upper end of the first upper shell and the lower end of the liquid storage cup, the sealing ring is arranged in the containing cavity, and the atomization core component upwards sequentially passes through the first upper shell and the sealing ring and then enters the liquid storage cup.

Further, the lower end of the suction nozzle is provided with an air passage, and the upper end of the atomizing core component is arranged in the air passage in a penetrating way.

Further, the liquid storage cup is made of transparent materials, and a window is arranged on the side wall of the first upper shell.

Further, the atomizing core component is arranged at the upper end of the second upper shell, and a sealing gasket is arranged on the second upper shell and positioned at the periphery of the atomizing core component.

Further, an air inlet hole is formed in the second upper shell, and an air vent hole is formed in the sealing gasket at a position corresponding to the air inlet hole.

Further, the power supply control module comprises a battery and a circuit board connected with the battery, and a conductive column connected with the battery is arranged at the lower end of the atomizing core component.

Further, a charging port is formed in the bottom cover, and a charging socket connected with the circuit board is arranged in the charging port.

The utility model has the following beneficial effects:

in the electronic atomization device capable of realizing liquid core separation, the second shell can move up and down relative to the first shell, and the atomization core component is arranged at the upper end of the second shell and extends into the liquid storage cup, so that when the second shell moves up relative to the first shell, the atomization core component can be driven to move up, the atomization core component can drive the liquid inlet to move up, so that the liquid inlet stretches into the liquid storage cup, aerosol matrixes in the liquid storage cup can flow into the atomization core component from the liquid inlet, the atomization core component can generate heat, and the aerosol matrixes are heated to be atomized to form atomized aerosol; when the second casing moves down relative to the first casing, the atomizing core component can be driven to move down, the atomizing core component moves down and can drive the liquid inlet to move down, when the liquid inlet moves down to the sealing ring, the sealing ring can block the liquid inlet, aerosol matrixes in the liquid storage cup can not flow into the atomizing core component, and the aerosol matrixes and the atomizing core component can be separated, so that the effect of liquid core separation is realized, mist aerosol can not be generated any more under the condition of liquid core separation, the child can be prevented from sucking by mistake, and the effect of child lock is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of an electronic atomization device capable of realizing liquid core separation according to an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of an electronic atomizing device capable of realizing liquid core separation according to an embodiment of the present utility model when a liquid hole extends into a liquid storage cup;

FIG. 3 is a cross-sectional view of an electronic atomization device sealing ring for realizing liquid core separation in accordance with an embodiment of the present utility model;

FIG. 4 is a schematic view of a first lower shell according to an embodiment of the present utility model;

fig. 5 is a schematic view of a second lower case according to an embodiment of the present utility model.

The figure identifies the description:

1. a first housing; 2. a second housing; 3. a liquid storage cup; 4. a power control module; 5. an atomizing core assembly; 11. a first upper case; 12. a first lower case; 13. a suction nozzle; 14. a first screw thread; 15. an airway; 16. windowing; 21. a second upper case; 22. a second lower case; 23. a bottom cover; 24. a second screw thread; 25. a sealing gasket; 26. an air inlet hole; 27. a vent hole; 28. a charging port; 29. a support; 31. a seal ring; 41. a battery; 42. a circuit board; 43. a vibration-proof pad; 44. a charging socket; 51. a liquid inlet hole; 52. and a conductive post.

Detailed Description

The following description of the embodiments of the present utility model will be made more complete in view of the accompanying drawings, in which it is to be understood that the embodiments described are some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Examples

Referring to fig. 1-5, the electronic atomization device capable of realizing liquid core separation provided in this embodiment includes a first housing 1 and a second housing 2 disposed at a lower end of the first housing 1, the second housing 2 can move up and down relative to the first housing 1, a liquid storage cup 3 is disposed in the first housing 1, a sealing ring 31 is disposed at a lower end of the liquid storage cup 3, a power control module 4 and an atomization core assembly 5 connected with the power control module 4 are disposed in the second housing 2, the atomization core assembly 5 is disposed at an upper end of the second housing 2 and extends into the liquid storage cup 3, and a liquid inlet 51 is disposed on the atomization core assembly 5; wherein, the second casing 2 moves up to make the liquid inlet 51 extend into the liquid storage cup 3, and the second casing 2 moves down to make the sealing ring 31 block the liquid inlet 51.

Through the structure, in practical application, the electronic atomization device capable of realizing liquid core separation is adopted, aerosol matrixes are stored in the liquid storage cup 3, the power supply control module 4 supplies power to the electronic atomization device and controls the whole electronic atomization device, the atomization core assembly 5 can generate heat when being electrified, and the aerosol matrixes are heated to be atomized into atomized aerosol; because the second shell 2 can move up and down relative to the first shell 1, and the atomization core component 5 is arranged at the upper end of the second shell 2 and extends into the liquid storage cup 3, when the second shell 2 moves up relative to the first shell 1, the atomization core component 5 can be driven to move up, the atomization core component 5 can drive the liquid inlet 51 to move up, so that the liquid inlet 51 extends into the liquid storage cup 3, at the moment, aerosol matrixes in the liquid storage cup 3 can flow into the atomization core component 5 from the liquid inlet 51, the atomization core component 5 can generate heat, and the aerosol matrixes are heated to be atomized to form atomized aerosol; when the second shell 2 moves downwards relative to the first shell 1, the atomizing core component 5 can be driven to move downwards, when the liquid inlet 51 moves downwards to the sealing ring 31, the sealing ring 31 can block the liquid inlet 51, aerosol matrixes in the liquid storage cup 3 can not flow into the atomizing core component 5, and the aerosol matrixes can be separated from the atomizing core component 5, so that the effect of liquid core separation is realized, and when the electronic atomizing device is not used for a long time, the liquid core separation can prevent the situation that the aerosol matrixes leak.

Specifically, the first housing 1 includes a first upper shell 11 and a first lower shell 12 connected with the first upper shell 11, a suction nozzle 13 communicated with the atomizing core assembly 5 is arranged at the upper end of the first upper shell 11, the liquid storage cup 3 is arranged in the first upper shell 11, and a first screw thread 14 is arranged on the first lower shell 12; the first upper shell 11 and the first lower shell 12 form the first shell 1, so that the first shell 1 can be conveniently detached and installed, parts inside the first shell 1 can be conveniently maintained and replaced, the suction nozzle 13 is a suction end of a user, when the atomizing core assembly 5 is electrified to generate heat, and the aerosol substrate is heated to be atomized to form atomized aerosol, the user can use the atomized aerosol by sucking at the suction nozzle 13.

In this embodiment, the lower end of the first upper shell 11 is provided with an internal thread, the upper end of the first lower shell 12 is provided with an external thread, the first upper shell 11 and the first lower shell 12 are connected through threads, the connection mode is simpler, and the connection effect is more stable.

Specifically, the second housing 2 includes a second upper shell 21 and a second lower shell 22 connected to the second upper shell 21, a bottom cover 23 is provided at a lower end of the second lower shell 22, and a second screw thread 24 in threaded engagement with the first screw thread 14 is provided on the second lower shell 22; the second upper shell 21 and the second lower shell 22 form the second shell 2, so that the second shell 2 can be conveniently detached and installed, and the maintenance and replacement of all parts in the second shell 2 are convenient; the second housing 2 and the first housing 1 are connected by the screw engagement of the first screw thread 14 provided on the first lower housing 12 and the second screw thread 24 provided on the second lower housing 22, and when the second housing 2 is screwed relative to the first housing 1, the upward movement or the downward movement of the second housing 2 relative to the first housing 1 can be achieved, thereby achieving the effect that the aerosol substrate flows into the atomizing core assembly 5 or the liquid core is separated.

Specifically, the upper end of the first upper shell 11 and the lower end of the liquid storage cup 3 extend inwards, so that a containing cavity is formed between the upper end of the first upper shell 11 and the lower end of the liquid storage cup 3, a sealing ring 31 is arranged in the containing cavity, and the atomization core component 5 sequentially passes through the first upper shell 11 and the sealing ring 31 upwards and then enters the liquid storage cup 3; in the above structure, the sealing ring 31 is located at the lower end of the liquid storage cup 3, when the second housing 2 moves up to drive the atomization core component 5 to move up, the liquid inlet 51 moves up to extend into the liquid storage cup 3, so that aerosol substrates in the liquid storage cup 3 can flow into the atomization core component 5 from the liquid inlet 51, when the second housing 2 moves down to drive the atomization core component 5 to move down, the liquid inlet 51 moves down to the sealing ring 31, at the moment, the aerosol substrates in the liquid storage cup 3 cannot flow into the atomization core component 5, and the aerosol substrates and the atomization core component 5 can be separated, thereby realizing the effect of liquid core separation, simultaneously preventing children from sucking by mistake, and playing the role of child lock.

In some embodiments, the sealing ring 31 is made of silica gel, and the silica gel is soft, so that a better sealing effect can be achieved, and meanwhile, the silica gel also has better performances of heat resistance, cold resistance, dielectric property, aging resistance and the like, so that the service life of the sealing ring 31 can be prolonged.

Specifically, the lower end of the suction nozzle 13 is provided with the air passage 15, the upper end of the atomizing core component 5 is arranged in the air passage 15 in a penetrating way, when the atomizing core component 5 is electrified to generate heat, the aerosol substrate is heated to be atomized to form atomized aerosol, a user sucks the atomized aerosol at the suction nozzle 13, the atomized aerosol can flow to the suction nozzle 13 along the air passage 15, and when the second shell 2 is screwed relative to the first shell 1, the second shell 2 moves upwards or downwards relative to the first shell 1, and the air passage 15 can provide a guiding function for the movement of the atomizing core component 5 when the atomizing core component 5 is driven to move upwards or downwards.

As a preferred embodiment, the liquid storage cup 3 is made of transparent material, and a window 16 is arranged on the side wall of the first upper shell 11; the transparent material can be convenient for the user in real time observe the surplus of aerosol matrix in the stock solution cup 3, and the user can audio-visually look over in the department of windowing 16, can timely add aerosol matrix, when can prevent that aerosol matrix is not enough, the condition that the atomizing core subassembly 5 takes place dry combustion method, extension electron atomizing device's life.

Specifically, the atomizing core assembly 5 is arranged at the upper end of the second upper shell 21, a sealing gasket 25 is arranged on the second upper shell 21 and positioned at the periphery of the atomizing core assembly 5, an air inlet hole 26 is arranged on the second upper shell 21, and an air vent 27 is arranged on the sealing gasket 25 at a position corresponding to the air inlet hole 26; the sealing gasket 25 plays a role in sealing, and the air inlet holes 26 and the air holes 27 can realize the communication between the atomizing core assembly 5 and the outside air and maintain the air pressure balance.

Specifically, the power control module 4 includes a battery 41 and a circuit board 42 connected with the battery 41, a conductive post 52 connected with the battery 41 is disposed at the lower end of the atomizing core assembly 5, the battery 41 is used for providing electric energy for the electronic atomizing device, the circuit board 42 is used for controlling the whole electronic atomizing device, and the conductive post 52 is used for transmitting electric energy.

In this embodiment, the bottom cover 23 is provided with the support 29 for supporting the battery 41, the battery 41 is fixed on the support 29, and the shock pad 43 is further arranged above the battery 41, so that the shock pad 43 can provide a buffer for the battery, prevent the battery 41 from being excessively collided when the electronic atomization device accidentally falls, and play a certain role in safety.

Specifically, a charging port 28 is provided on the bottom cover 23, and a charging socket 44 connected with the circuit board 42 is provided in the charging port 28; the charging socket 44 can be externally connected with a charger to charge the battery 41, so that the electronic atomization device can be reused, and meanwhile, the charging port 28 can be communicated with the air inlet 26 and the air vent 27, so that air exchange between the inside and the outside of the electronic atomization device can be realized, and air pressure balance can be maintained.

While the utility model has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (10)

1. The electronic atomization device is characterized by comprising a first shell and a second shell arranged at the lower end of the first shell, wherein the second shell can move up and down relative to the first shell, a liquid storage cup is arranged in the first shell, a sealing ring is arranged at the lower end of the liquid storage cup, a power control module and an atomization core assembly connected with the power control module are arranged in the second shell, the atomization core assembly is arranged at the upper end of the second shell and stretches into the liquid storage cup, and a liquid inlet is formed in the atomization core assembly;

the second shell moves upwards to enable the liquid inlet to extend into the liquid storage cup, and moves downwards to enable the sealing ring to block the liquid inlet.

2. The electronic atomizing device capable of realizing liquid core separation according to claim 1, wherein the first shell comprises a first upper shell and a first lower shell connected with the first upper shell, a suction nozzle communicated with the atomizing core assembly is arranged at the upper end of the first upper shell, the liquid storage cup is arranged in the first upper shell, and a first screw tooth is arranged on the first lower shell.

3. The electronic atomizing device capable of realizing liquid core separation according to claim 2, wherein the second shell comprises a second upper shell and a second lower shell connected with the second upper shell, a bottom cover is arranged at the lower end of the second lower shell, and second threads matched with the first threads are arranged on the second lower shell.

4. The electronic atomizing device capable of realizing liquid core separation according to claim 3, wherein a containing cavity is formed between the upper end of the first upper shell and the lower end of the liquid storage cup, the sealing ring is arranged in the containing cavity, and the atomizing core component passes through the first upper shell and the sealing ring in sequence upwards and then enters the liquid storage cup.

5. The electronic atomizing device capable of realizing liquid core separation according to claim 4, wherein an air passage is arranged at the lower end of the suction nozzle, and the upper end of the atomizing core component is arranged in the air passage in a penetrating manner.

6. The electronic atomizing device capable of realizing liquid core separation according to claim 5, wherein the liquid storage cup is made of transparent materials, and a window is arranged on the side wall of the first upper shell.

7. The electronic atomizing device capable of realizing liquid core separation according to any one of claims 3 to 6, wherein the atomizing core component is arranged at the upper end of the second upper shell, and a sealing gasket is arranged on the second upper shell and positioned at the periphery of the atomizing core component.

8. The electronic atomizing device capable of realizing liquid core separation according to claim 7, wherein an air inlet hole is formed in the second upper shell, and an air vent hole is formed in the sealing gasket at a position corresponding to the air inlet hole.

9. The electronic atomizing device capable of realizing liquid core separation according to claim 8, wherein the power supply control module comprises a battery and a circuit board connected with the battery, and a conductive column connected with the battery is arranged at the lower end of the atomizing core component.

10. The electronic atomization device capable of realizing liquid core separation according to claim 9, wherein a charging port is arranged on the bottom cover, and a charging socket connected with the circuit board is arranged in the charging port.