CN215531616U

CN215531616U - Atomization assembly capable of realizing oil core separation

Info

Publication number: CN215531616U
Application number: CN202121692040.9U
Authority: CN
Inventors: 赵承志; 王�章; 李强
Original assignee: Pndus Biotechnology Shenzhen Co Ltd
Current assignee: Pndus Biotechnology Shenzhen Co Ltd
Priority date: 2021-07-24
Filing date: 2021-07-24
Publication date: 2022-01-18
Anticipated expiration: 2031-07-24

Abstract

The utility model relates to the technical field of electronic atomization, and discloses an atomization assembly which is simple in structure, good in sealing performance and capable of realizing oil core separation, and the atomization assembly comprises: an outer tube (202) axially disposed within the oil storage chamber (102a), the outer tube (202) having an oil inlet (202 d); the atomizer support (201) is sleeved in the outer pipe (202), and a through hole (201a) corresponding to the oil inlet hole (202d) is formed in the atomizer support (201); by rotating the outer tube (202), the oil inlet (202d) of the outer tube (202) is separated from the through hole (201a) of the atomizer support (201), and the inner wall of the outer tube (202) is attached to the through hole (201 a).

Description

Atomization assembly capable of realizing oil core separation

Technical Field

The utility model relates to the technical field of electronic atomization, in particular to an atomization assembly capable of realizing oil core separation.

Background

An electronic atomizer is an electronic product that heats and atomizes an aerosolizable solution and generates an aerosol for use by a user. At present, the liquid in the oil storage cavity of the electronic atomizer is generally communicated with the atomizing core to continuously provide the liquid for the work of the electronic atomizer. However, when the electronic atomizer carries out negative pressure, the test of standing or maintains the atomizing core, because atomizing core and oil storage chamber are in the connected state, when maintaining or trading the atomizing core to atomizing component, the liquid in the oil storage chamber can ooze along the pin end of atomizing core.

Therefore, how to avoid the liquid in the oil storage chamber from seeping out along the pin end of the atomizing core during the maintenance of the atomizing core becomes a technical problem that needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that when the electronic atomizer in the prior art is subjected to negative pressure and standing test or maintenance of the atomizing core, the atomizing core is communicated with the oil storage cavity, and when the atomizing assembly is maintained or the atomizing core is replaced, liquid in the oil storage cavity seeps out along the pin end of the atomizing core, and the atomizing assembly capable of separating the oil core and having a simple structure and good sealing performance is provided.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an atomizing unit capable of separating oil cores is constructed, and the atomizing unit is provided with:

the outer pipe is axially arranged in the oil storage cavity, and an oil inlet hole is formed in the outer pipe;

the atomizer support is sleeved in the outer pipe, and a through hole corresponding to the oil inlet hole is formed in the atomizer support;

through rotating the outer tube for the inlet port of outer tube with the through-hole phase separation of atomizer support, the inner wall laminating of outer tube the through-hole.

In some embodiments, the atomizer support further comprises a silica gel sleeve provided with a through hole, the silica gel sleeve is sleeved on the atomizer support, and the through hole of the silica gel sleeve corresponds to the through hole of the atomizer support.

In some embodiments, the atomizer further comprises an atomizing conduit disposed within the atomizer support to form an atomizing chamber of the atomizing assembly.

In some embodiments, the device further comprises an atomizer inner tube, wherein the atomizer inner tube is installed in the atomization guide tube, and the atomizer inner tube is provided with a heating element wrapped with oil cotton.

In some embodiments, the atomizer inner tube is provided with openings, and the openings are axially arranged.

In some embodiments, the atomizer further comprises an electrode and two elastic needles, wherein the electrode is arranged in the bottom of the atomizer bracket,

the elastic needle penetrates through the electrode and is connected with the pin of the heating element.

In some embodiments, the atomizer further comprises an electrode sealing ring, wherein the electrode sealing ring is sleeved on the periphery of the electrode and is abutted with the inner tube of the atomizer.

In some embodiments, the atomizer support further comprises an oil sealing silica gel, the oil sealing silica gel is sleeved on the bottom side of the atomizer support, wherein an annular concave is formed in the periphery of the oil sealing silica gel, and the oil sealing silica gel is embedded into the round hole of the oil bin bottom cover through the concave.

In some embodiments, an oil sump housing is disposed at an upper end of the oil sump bottom cover, an opening is disposed at a top of the oil sump housing, one end of the outer tube abuts against the oil sump bottom cover, and the other end of the outer tube extends to the outside through the opening at the top of the oil sump housing.

In some embodiments, the end of the outer tube extending to the outside is the air outlet end of the atomization assembly.

The atomizing assembly capable of realizing oil core separation comprises an outer pipe and an atomizer support, wherein the atomizer support is axially arranged in an oil storage cavity, and an oil inlet hole is formed in the outer pipe; the atomizer support is sleeved in the outer pipe, and a through hole corresponding to the oil inlet hole is formed in the atomizer support; through rotatory outer tube for the inlet port of outer tube and the through-hole phase separation of atomizer support, the inner wall laminating through-hole of outer tube. Compared with the prior art, can be along the rotatory outer tube of horizontal direction and set up the atomizer support in the outer tube through the setting, when needing the oil core separation, it is rotatory along the axis of atomizer support with the outer tube, can make the inlet port of outer tube and the through-hole dislocation or the phase separation of atomizer support, can effectively solve among the prior art atomizing core and oil storage chamber and be in the feed through state, when maintaining or trading the atomizing core atomizing subassembly, the liquid of oil storage intracavity can be along the problem that the pin end of atomizing core oozes.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a perspective view of one embodiment of an atomizer according to the present invention;

FIG. 2 is a cross-sectional view of one embodiment of the atomizer provided by the present invention;

FIG. 3 is a perspective view of one embodiment of an atomizing assembly according to the present disclosure;

fig. 4 is an exploded view of one embodiment of an atomizing assembly provided in accordance with the present invention.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, in the first embodiment of the atomization assembly capable of achieving oil core separation of the present invention, the atomizer 10 includes an atomization assembly 20.

Specifically, the atomizer 10 includes a circular main body 101, a cavity is formed at the lower end of the main body 101, and a centrifugal fan, a battery cell and a control board are installed in the cavity.

An oil sump housing 102 and an oil sump bottom cover 106 installed between the main body 101 and the oil sump housing 102 are installed at the upper end of the main body 101.

The oil bin housing 102 is a hollow structure, and the oil bin housing 102 and the oil bin bottom cover 106 are matched to form an oil storage cavity 102 a.

Further, openings are respectively formed on the axes of the oil sump housing 102 and the oil sump bottom cover 106. One end of the atomizing assembly 20 is installed in the opening of the oil sump bottom cover 106, and the other end (air outlet end) of the atomizing assembly 20 is fixed in the opening of the oil sump housing 102 and extends to the outside.

Specifically, the atomizing assembly 20 includes an atomizer bracket 201, an outer tube 202, a silicone sleeve 203, an atomizer inner tube 204, an atomizing conduit 205, a silicone sealant 208, an electrode 209, and an electrode sealing ring 210.

The atomizer holder 201 and the outer tube 202 are both hollow and cylindrical.

Further, the outer tube 202 is axially disposed in the oil storage cavity 102a formed by the oil sump housing 102 and the oil sump bottom cover 106, and one end (air outlet end 202a) of the outer tube 202 is fixed in the opening of the oil sump housing 102 and extends to the outside.

The outer tube 202 is provided with a plurality of oil inlet holes 202d communicating with the oil reservoir chamber 102 a.

Further, the atomizer holder 201 is disposed in the outer tube 202, wherein the atomizer holder 201 is provided with a plurality of through holes 201a and an annular boss 201 b.

When the atomizer support 201 is installed in cooperation with the outer tube 202, the through hole 201a of the atomizer support 201 corresponds to the oil inlet 202d of the outer tube 202, and the other end of the outer tube 202 abuts against the boss 201 b.

When the oil core separation is needed, the outer tube 202 can be horizontally rotated along the axis of the atomizer bracket 201, so that the oil inlet 202d of the outer tube 202 is separated or dislocated from the through hole 201a of the atomizer bracket 201, and the inner wall of the outer tube 202 is attached to the through hole 201a of the atomizer bracket 201, so as to realize the oil core separation.

Use this technical scheme, can be along the rotatory outer tube 202 of horizontal direction and set up atomizer support 201 in outer tube 202 through the setting, when needing the oil core separation, it is rotatory along the axis of atomizer support 201 with outer tube 202, can make the inlet port of outer tube 202 misplace or the phase separation with through-hole 201a of atomizer support 201, can effectively solve among the prior art atomizing core and oil storage chamber and be in the connected state, when maintaining or trading atomizing core atomizing component, the liquid of oil storage intracavity can be along the problem that the pin end of atomizing core oozes.

In some embodiments, in order to improve the stability of the matching between the atomizer bracket 201 and the outer tube 202, a silicone sleeve 203 may be disposed in the atomizing assembly, wherein the silicone sleeve 203 has a through hole 203a, the silicone sleeve 203 is disposed on the atomizer bracket 201, and the through hole 203a of the silicone sleeve 203 corresponds to the through hole 201a of the atomizer bracket 201.

When the outer tube 202 is rotated, the damping of the outer tube 202 when it is rotated horizontally can be increased by the silicone sleeve 203 to increase the stability of the outer tube 202.

In some embodiments, in order to improve the performance of the atomizing assembly, an atomizing conduit 205 may be disposed in the atomizing assembly, wherein the atomizing conduit 205 is formed as a hollow structure, one end of which having the through hole 205a is larger than the other end, and the outer edge of the small end (corresponding to the top) is further provided with a groove for placing the sealing ring.

Specifically, the atomization conduit 205 is installed in the atomizer holder 201, and a plurality of through holes 205a on the atomization conduit 205 correspond to the through holes 201a and the oil inlet 202d, and a small end (corresponding to a top) of the through holes is embedded in the top of the atomizer holder 201 to form an atomization chamber of the atomization assembly.

In some embodiments, to improve the performance of the atomizing assembly, an inner atomizer tube 204 may be disposed in the atomizing assembly, wherein the inner atomizer tube 204 is provided with openings (not shown) disposed axially. Oil inlet holes 204a are formed on both sides of the opening, a boss 204b protruding outward is formed at the lower end of the oil inlet hole 204a, a plurality of inner grooves are formed in the boss 204b, and sealing rings 204c are correspondingly arranged in the inner grooves.

Further, the atomizer inner tube 204 is mounted in the atomization conduit 205, and the bottom side of the atomization conduit 205 abuts against the boss 204 b. Wherein, a heating element 207 wrapped with an oil guide cotton 206 is arranged on the inner tube 204 of the atomizer.

In some embodiments, in order to ensure the stability of the operation of the atomizing assembly, an electrode 209 and two elastic pins (not shown) may be disposed on the atomizing assembly, the electrode 209 is installed in the bottom of the atomizer bracket 201, one end of the elastic pin penetrates through the electrode 209 to be connected with the pin of the heating element 207, and the other end of the elastic pin is electrically connected with the electrode of the battery cell.

In some embodiments, in order to ensure the safety of the electrical conduction of the electrode 209, an electrode sealing ring 210 may be disposed in the atomizing assembly, wherein the electrode sealing ring 210 is disposed on the outer periphery of the electrode 209 and abuts against the inner tube 204 of the atomizer.

In some embodiments, in order to improve the sealing performance of the atomizing assembly, an oil sealing silica gel 208 may be disposed in the atomizing assembly, wherein the oil sealing silica gel 208 is disposed at the bottom side of the atomizer holder 201, an annular concave portion 208a is disposed at the periphery of the oil sealing silica gel 208, and the oil sealing silica gel 208 is embedded in the circular hole of the oil sump bottom cover 106 through the concave portion 208a, so as to prevent the liquid in the oil storage chamber 102a from leaking out along the periphery of the atomizer holder 201.

Specifically, the switch controls the electric core to input the working current to the heating element 207 to trigger the heating element 207 to heat, so as to generate smoke in the atomization conduit 205, and the smoke passes through the centrifugal fan installed on the main body 101 to increase the airflow of the atomization conduit 205, so that the smoke is output from the air outlet end 202a of the outer tube 202.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims

1. An atomizing assembly capable of realizing oil core separation is characterized by comprising:

2. The atomization assembly capable of achieving oil core separation according to claim 1,

still include a silica gel cover that is equipped with the through-hole, silica gel cover is established on the atomizer support, the through-hole of silica gel cover with the through-hole of atomizer support is corresponding.

3. The atomization assembly capable of achieving oil core separation according to claim 1,

still include an atomizing pipe, atomizing pipe sets up in the atomizer support, form atomizing assembly's atomizing chamber.

4. The atomization assembly capable of achieving oil core separation according to claim 3,

still include an atomizer inner tube, the atomizer inner tube is installed in the atomizing pipe, wherein, the atomizer inner tube installation is wrapped up in and is equipped with the heating element who leads the oil cotton.

5. The atomization assembly capable of achieving oil core separation according to claim 4,

the atomizer inner tube is provided with an opening, and the opening is axially arranged.

6. The atomization assembly capable of achieving oil core separation according to claim 5,

also comprises an electrode and two elastic needles, the electrode is arranged in the bottom of the atomizer bracket,

7. The atomization assembly capable of achieving oil core separation according to claim 6,

the electrode sealing ring is sleeved on the periphery of the electrode and is abutted to the inner tube of the atomizer.

8. The atomization assembly capable of achieving oil core separation according to claim 7,

still include a sealing oil silica gel, sealing oil silica gel cover establishes the bottom side of atomizer support, wherein, sealing oil silica gel's periphery is equipped with an annular indent, sealing oil silica gel passes through in the indent embedding oil bunker bottom's the round hole.

9. The atomization assembly capable of achieving oil core separation according to claim 8,

the oil bin comprises an oil bin bottom cover and is characterized in that an oil bin shell is arranged at the upper end of the oil bin bottom cover, an opening is formed in the top of the oil bin shell, one end of an outer tube is abutted to the oil bin bottom cover, and the other end of the outer tube penetrates through the opening in the top of the oil bin shell and extends to the outside.

10. The atomization assembly capable of achieving oil core separation according to claim 9,

and one end of the outer pipe extending to the outside is an air outlet end of the atomization assembly.