CN215270590U

CN215270590U - Assembled atomizing device

Info

Publication number: CN215270590U
Application number: CN202022873396.4U
Authority: CN
Inventors: 肖鑫
Original assignee: Dongguan Telakang Electronic Technology Co ltd
Current assignee: Dongguan Telakang Electronic Technology Co ltd
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2021-12-24
Anticipated expiration: 2030-12-04

Abstract

The utility model discloses an assembled atomization device, which comprises an atomization device main body and an atomization core which can be assembled and arranged on the atomization device main body; the atomization device main body is provided with a liquid storage cavity, an air outlet and a first assembly position, the liquid storage cavity is provided with a liquid supply end communicated with the liquid storage cavity corresponding to the first assembly position, and the liquid supply end is sealed with a sealing part which can be punctured or torn or detached; the atomizing core is provided with a liquid inlet level, is assembled at the first assembly position and punctures or tears the sealing part to ensure that the liquid supply end is communicated with the liquid inlet level of the atomizing core. Therefore, the end is sealed with the sealing part, so that the storage and the transportation are convenient, and when the atomizing core is assembled at the assembling port, the sealing part which is punctured or torn off or disassembled enables the liquid supply end to be communicated with the liquid inlet phase of the atomizing core; so, avoid leading to liquid excessive because of atmospheric pressure changes when storage and transportation, simultaneously, avoid the liquid in stock solution chamber to cause the oxidation or absorb the moisture in the air through atomizing core and outside air contact, be favorable to liquid to deposit the quality guarantee, ensure to use the taste.

Description

Assembled atomizing device

Technical Field

The utility model belongs to the technical field of the atomizing device and specifically relates to indicate an assembled atomizing device, it is mainly but not the restriction be applied to electron cigarette, medical atomization apparatus etc..

Background

Taking an electronic cigarette as an example, the electronic cigarette mainly comprises an oil cup component and an atomization device, wherein a tobacco tar cavity for containing tobacco tar is arranged in the oil cup component, and the atomization device is arranged on the oil cup component; during storage and transportation, liquid is easy to overflow due to air pressure change, and particularly when the distance between a product production area and a terminal product sales area is long and the climate difference is large, the phenomenon that a pouring body leaks is often caused, so that negative influences are brought to merchants and consumers. And the liquid in the liquid cavity contacts with the outside air through the atomizing core to cause oxidation or absorb moisture in the air, so that the quality guarantee period and the product performance are influenced.

Later, there have been some products in which the oil cup assembly and the atomizing device are assembled, and the liquid outlet end of the oil cup assembly is sealed by an elastic member and a sealing plate, and when the suction nozzle is assembled, the sealing plate is pushed downward to communicate the liquid with the atomizing device. In this way, the oil cup assembly can be sealed to a certain extent, but the phenomenon that the elastic piece deforms and the sealing piece is pushed away still exists under the condition that the air pressure change is large, and liquid leakage is difficult to avoid. In addition, the product structure is complex, the sealing sheet is pressed by the elastic piece, the fatigue of the elastic piece is limited, and the product reliability is not ideal.

And, there are two kinds of electron smog core that is used in the world at present: 1. the cotton core is externally wound with a heating wire or a heating sheet. 2. Heating sheets or printed heating circuits are added at the bottom of the porous ceramics. The two structures can cause the conditions of liquid leakage, frying liquid and condensation. Because: 1. the liquid seeped out for atomization has no special containing structure, so that the liquid easily flows out when redundant seeped out liquid exists; 2. heating unevenness is caused by too small heating area, frying liquid is caused at a position with relatively high temperature, and high-power atomization cannot be performed, so that atomization efficiency is influenced. 3. The uneven heating causes the temperature of the mist at a high-temperature position to be too high, and the high-temperature mist is easy to condense into liquid to be adhered to the air channel wall when meeting the air channel wall with relatively low temperature. When the seepage (leakage) liquid, the frying liquid and the condensation reach a certain amount, the liquid can leak to influence the appearance and the use, and is more likely to directly enter the oral cavity of a user to influence the experience feeling of the product, and particularly, the structure of the heating wire or the heating sheet wound outside the cotton core is easy to burn, so that peculiar smell is caused; the porous ceramic core has poor strength, is easy to drop slag and ash, and fine powder is possibly absorbed into the lung of a human body along with smoke to cause irreversible damage to the lung of the human body.

Therefore, a new technical solution needs to be developed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides an assembled atomizing device, which avoids the liquid overflow caused by the pressure change during the storage and transportation, and simultaneously, the liquid in the liquid storage cavity is prevented from contacting with the outside air through the atomizing core to cause the oxidation or absorb the moisture in the air, thereby facilitating the storage and quality preservation of the liquid and ensuring the use of the taste.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an assembled atomization device comprises an atomization device main body and an atomization core which can be assembled on the atomization device main body; wherein:

the atomization device main body is provided with a liquid storage cavity, an air outlet and a first assembly position, the liquid storage cavity is provided with a liquid supply end communicated with the liquid storage cavity corresponding to the first assembly position, and the liquid supply end is sealed with a sealing part which can be punctured or torn or detached;

the atomizing core has into the liquid level, the atomizing core assembles in first assembly position to, puncture or tear or dismantle the sealing and make the feed liquor end communicate with the feed liquor phase of atomizing core.

As a preferred scheme, the first assembly station is provided with a soft rubber joint, a liquid supply channel is arranged in the soft rubber joint, and a soft rubber film is integrally connected to seal the liquid supply channel when the soft rubber joint is formed; when the atomizing core is assembled at the first assembling position, the soft rubber film is punctured to open the liquid supply channel so that the liquid supply end is communicated with the liquid supply phase of the atomizing core.

As a preferable scheme, the atomization device comprises a first module, a second module and a third module which are detachably assembled; wherein: the first module is provided with an upper shell and a connecting seat assembled at the lower end of the upper shell, the liquid storage cavity and the air outlet are arranged on the upper shell, the soft rubber joint is assembled on the connecting seat, and the first assembling position is formed at the lower side of the soft rubber joint; the upper shell is provided with a second assembling position;

the second module is provided with the atomizing core;

the third module is provided with a lower shell, a power supply and a control panel, wherein the power supply and the control panel are arranged in the lower shell, the third module is assembled in the second assembly position, and the second module is covered in a surrounding mode.

As a preferred scheme, a liquid passing hole communicated with the liquid storage cavity and the liquid supply end is arranged on the connecting seat.

As a preferred scheme, the upper shell is provided with an inner shell and an outer shell which are integrally connected, the upper ends of the inner shell and the outer shell are integrally connected, a channel of the inner shell is used as an air outlet channel to be communicated with an air outlet, a surrounding liquid storage cavity is formed between the outer shell and the inner shell, and the connecting seat is arranged at the lower end of the liquid storage cavity.

As a preferable scheme, a liquid guide column is convexly arranged on the liquid inlet position of the atomizing core upwards, and when the atomizing core is assembled, the liquid guide column extends into the liquid supply channel;

or the liquid inlet position of the atomizing core is upwards convexly provided with a liquid guide column, when the atomizing core is assembled, the liquid guide column punctures the soft adhesive film and is extruded into the liquid supply channel, and the outer side surface of the liquid guide column is in sealing contact with the inner side surface of the liquid supply channel.

Preferably, the connecting base is provided with a first barrel part communicated with the liquid passing hole, and the soft rubber joint is provided with a second barrel part extending into the first barrel part.

Preferably, the lower end of the soft rubber joint extends to form an annular wall for enclosing to form a first assembly position, and the peripheral side of the atomization core is in sealed contact with the inner side of the annular wall.

As a preferred scheme, the atomizing core comprises a cup body and a liquid locking plate; the cup body is provided with a bottom wall and a peripheral side wall connected to the peripheral side of the bottom wall, the bottom wall and the peripheral side wall are surrounded to form an accommodating cavity, and the accommodating cavity is provided with an upper end opening; the liquid locking plate is made of porous materials and is positioned in the accommodating cavity; the liquid inlet is arranged at the opening at the upper end of the accommodating cavity or on the peripheral side wall of the accommodating cavity and used for sending liquid into the liquid locking plate or/and the accommodating cavity; the peripheral side of the cup body is in sealing contact with the inner side of the annular wall.

As a preferred scheme, the flexible glue joint is integrally connected with an atomizing core fixing glue piece, the bottom of the atomizing core fixing glue piece is provided with an atomizing core fixing position, and the atomizing core is tightly embedded in the atomizing core fixing position; the atomizing core fixing rubber piece is connected to the soft rubber joint in an up-and-down folding manner through a connecting arm; in the first state, the atomizing core fixing rubber piece is turned upwards and positioned at the lower side of the rubber joint; in a second state, the atomizing core fixing rubber piece is turned downwards and is separated from the lower side of the rubber joint; and in the third state, the atomization core fixing rubber piece is downwards folded and is separated from the lower side of the rubber joint, the connecting arm is cut off, and the atomization core is taken out of the atomization core fixing rubber piece and is loaded into the first assembly position.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, concretely speaking, according to the technical scheme, the sealing part which can be punctured or torn off is mainly sealed at the liquid supply end, thereby facilitating storage and transportation, and when the atomizing core is assembled at the assembling port, the punctured or torn sealing part enables the liquid supply end to be communicated with the liquid inlet phase of the atomizing core; therefore, the liquid overflow caused by pressure difference between the liquid storage cavity and the outside air due to air pressure change or temperature change during storage and transportation is avoided, meanwhile, the liquid in the liquid storage cavity is completely prevented from being oxidized or absorbing moisture in the air due to the contact of the liquid in the liquid storage cavity and the outside air through the atomizing core, the storage and quality guarantee of the liquid are facilitated, and the use mouthfeel is ensured; the structure is simple, and the production and the manufacture are easy;

secondly, a soft rubber film is integrally connected to seal the liquid supply channel when the soft rubber joint is formed, and when the atomizing core is assembled at the first assembly position, the soft rubber film is punctured to open the liquid supply channel so that the liquid supply end is communicated with the liquid inlet phase of the atomizing core; the manufacturing is simple, the assembly sealing performance of the atomizing core is ensured, and meanwhile, the assembly operation is simple, convenient and practical;

moreover, the whole atomization device is designed into three assembled modules, the structure design is ingenious, the operation is simple when the follow-up consumer assembles, the assembly and positioning are stable, the sealing performance is good, and the product is more reliable;

and, to atomizing core improved design, through the combination of cup and lock liquid board, make it have lock liquid concurrently, adsorb unnecessary liquid that oozes out, hold condensate, heat multiple functions such as even, effectively solved in the traditional art weeping, explode liquid, the heating is uneven, peculiar smell scheduling problem.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a sectional view of an atomizing core according to a first embodiment of the present invention;

fig. 2 is an exploded view of an atomizing core according to a first embodiment of the present invention;

FIG. 3 is a diagram of the atomizing core of the first embodiment of the present invention in a state ready to be loaded in the forward direction into the bottom of the atomizing device (for normal use);

FIG. 4 is a view showing a state in which the atomizing core according to the first embodiment of the present invention is positively loaded into the atomizing device (for normal use);

FIG. 5 is a view showing the atomizing core of the first embodiment of the present invention ready for reverse loading into the bottom of the atomizing device (for storage and transportation);

FIG. 6 is a diagram showing the atomizing core according to the first embodiment of the present invention in a state of being reversely loaded into the atomizing device (for storage and transportation);

fig. 7 is a cross-sectional structural diagram (including a first module, a second module, and a third module) according to a first embodiment of the present invention;

FIG. 8 is a cross-sectional view of an atomizing core of a second embodiment of the present invention;

fig. 9 is a sectional structure view (first state) of a third embodiment of the present invention;

fig. 10 is a sectional structure view (second state) of a third embodiment of the present invention;

fig. 11 is a sectional structure diagram (third state) of the third embodiment of the present invention.

The attached drawings indicate the following:

100. atomizing core 10 and cup body

20. Liquid locking plate 30 and fixing plate

11. Bottom wall 121, first outer annular wall

122. An inner annular wall 123 and a second outer annular wall

31. Liquid guide column 201 and liquid storage cavity

202. Air inlet 203 and air outlet

204. First assembly station 205, liquid supply channel

206. Soft rubber film 207 and silica gel joint

1. First module 2, second module

3. Third Module 101, Upper Shell

102. Second assembly position 301, lower shell

1011. Inner shell 1012, outer shell

103. Connecting seat

207', a soft rubber joint 208 and an atomization core fixing rubber piece

100', atomizing core 209 and connecting arm

2081. Glue column 2071' and liquid guide hole

1 ', first module 2072', thin film

101', an atomizing chamber.

Detailed Description

Referring to fig. 1 to 11, specific structures of various embodiments of the present invention are shown. The assembled atomization device of the utility model can be applied to products such as electronic cigarettes, medical atomization instruments and the like; here, the electronic cigarette is taken as an example for detailed description.

As shown in fig. 1 and 2, an atomizing core 100 comprises a cup body 10 and a liquid locking plate 20; the cup body 10 is provided with a bottom wall 11 and a peripheral side wall 12 connected to the peripheral side of the bottom wall 11, the bottom wall 11 and the peripheral side wall 12 are surrounded to form an accommodating cavity, and the accommodating cavity is provided with an upper end opening; the liquid locking plate 20 is made of porous materials and is positioned in the accommodating cavity; the choice of porous material may vary, for example: cotton, sponge, ceramic, glass fiber, porous metal, etc., and can be other fiber materials; preferably a high temperature resistant thermally conductive microporous material. The upper end opening part or the peripheral side wall of the containing cavity are provided with liquid inlet levels, and the liquid inlet levels send liquid into the liquid locking plate or/and the containing cavity.

Preferably, the liquid locking plate is provided with a fixing plate above to form positioning for the liquid locking plate, and the fixing plate is of a hollow structure. In this embodiment, the fixing plate 30 is integrally protruded with a liquid guiding column 31, and the liquid penetrates through the fixing plate 30 via the liquid guiding column 31 and permeates into the liquid locking plate 20 and the area below the fixing plate 30 in the containing cavity. If the fixing plate 30 is not integrally provided with the liquid guiding column 31, the liquid is guided out from the liquid storage cavity 201 and extends to the upper side of the fixing plate 30 through a conduit such as a silicone tube, and the liquid penetrates into the liquid locking plate 20 and the area below the fixing plate 30 in the containing cavity from the opening at the lower end of the silicone tube through the hollow structure of the fixing plate 30.

Preferably, the liquid-locking plate 20 is a heat-conducting microporous material with high temperature resistance, and the pore diameter is between 0.001 and 0.5mm, for example: a heat conductive metal resistant to high temperature; choose the better micropore material of thermal conductivity for use, utilize capillary phenomenon to reach the lock liquid purpose, prevent the phenomenon of scorching, simultaneously, lead into the lock oilplate fast to the heat of cup 10, make lock liquid board 20 possess the heating function simultaneously, increased heating area, usually, can make heating area increase more than 800%, make the heating heat more even, effectively prevent to explode liquid (explode oil) phenomenon. And, the liquid can not contact with the heating part directly, safer and more sanitary, the material selection range of the heating part is also wider.

In actual design, the cup body 10 is a heating cup body, and the bottom wall 11 and/or the peripheral side wall 12 of the cup body 10 may be provided with a heating element, and all of the selectable design forms are provided with the heating element on the inner side and the outer side or integrated with the bottom wall 11 and/or the peripheral side wall 12 in a layer structure. The heating element can be a flexible PCB, a printed heating circuit, a heating plate, a heating film and the like.

The fixing plate 30 may also be a heat-generating or/and heat-conducting fixing plate, the heat of which is conducted to the liquid-locking plate 20. Of course, the fixing plate 30, the cup body 10 and the liquid locking plate 20 may have a heating function, and the three may be heated simultaneously or alternatively or secondarily, and may be used according to actual needs, or one or two or three of the three may be heated by the electric control part according to heating requirements during use.

Generally, the liquid locking plate 20 is provided with a plurality of hollow-out spaces for communicating the upper and lower sides of the liquid locking plate 20. The distance between the cup body 10 and the liquid locking plate 20 is adjustable, and the distance between the cup body and the liquid locking plate can be adjusted to match various liquid in the production process.

In the atomizing core shown in fig. 1 and 2, the bottom wall of the cup body 10 is an integral non-annular shape, and the peripheral side wall includes only a first outer annular wall 121 connected to the outer peripheral side of the bottom wall 11; the air inlet position of the atomizing core is arranged above the cup body 10 or/and the peripheral side wall;

in the atomizing core shown in fig. 8, the bottom wall 11 has a ring shape, and the peripheral side wall includes an inner annular wall 122 connected to the inner peripheral side of the bottom wall 11 and a second outer annular wall 123 connected to the outer peripheral side of the bottom wall 11; the second outer annular wall 123, the bottom wall 11 and the inner annular wall 122 together enclose to form an accommodating cavity; the air inlet position of the atomizing core is arranged at any one, any two or three positions of the inner annular wall 123 surrounding the channel, the upper part of the cup body 10 and the second outer annular wall 123. Fig. 8 illustrates the arrangement of the gas intake from the inner annular wall 123 around the inside of the channel, and preferably the inner annular wall 122 can be designed slightly lower than the second outer annular wall 123 so that the gas, after entering, mixes with the aerosol in the large space surrounded by the second outer annular wall 123. The atomization cavity of the atomization core 100 is used for condensing large particles, recovering condensate and then atomizing; also can further set up a apron in the top of cup, form the atomizing mixing space (indicating the atomizing chamber) that encloses to form by cup and apron, set up the level of giving vent to anger on the lid, usually, it can with give vent to anger the level formation dislocation.

As shown in fig. 3 to 7, an atomizing device using the atomizing core 100 is shown, which has a liquid storage chamber 201, a gas inlet 202, a gas outlet 203 and the atomizing core 100; the liquid storage cavity 201 is communicated with the liquid guide column 31; the outside air reaches the upper part of the fixed plate 30 through the air inlet 202, is mixed with the atomized substance, and is discharged from the air outlet 203.

The atomization device comprises a first module 1, a second module 2 and a third module 3 which are detachably assembled; wherein: the first module 1 is provided with an upper shell 101, a liquid storage cavity 201, an air outlet 203, a first assembly position 204 and a second assembly position 102; the liquid storage cavity 201 is provided with a liquid supply end communicated with the liquid storage cavity 201 corresponding to the first assembly position 204, and the liquid supply end is sealed with a sealing part which can be punctured or torn or detachable; the second module 2 is provided with the atomizing core, the second module 2 is assembled at the first assembly position 204, and the liquid supply end is communicated with the liquid inlet position of the atomizing core by puncturing, tearing or disassembling the sealing part; the third module 3 has a lower case 301 and a power supply and a control board installed in the lower case 301, and the third module 3 is assembled in the second assembly position 102 and covers the second module 2 in a surrounding manner.

Preferably, the upper shell 101 has an inner shell 1011 and an outer shell 1012 which are integrally connected, the upper ends of the inner shell 1011 and the outer shell 1012 are integrally connected, the channel of the inner shell 1011 serves as an air outlet channel to be communicated with an air outlet, a surrounding liquid storage cavity is formed between the outer shell 1012 and the inner shell 1011, the lower end of the upper shell 101 is assembled with the connecting seat 103, the connecting seat 103 seals the lower ends of the inner shell 1011 and the outer shell 1012, and the liquid storage cavity 201 is communicated with the liquid supply end only through a liquid passing hole on the connecting seat 103; the connecting base 103 has a first barrel communicated with the liquid passing hole, and the soft rubber joint 207 has a second barrel extending into the first barrel. The lower end of the soft rubber joint 207 extends to form an annular wall for enclosing to form a first assembly position, and the periphery of the atomizing core is in sealing contact with the inner side of the annular wall.

The first assembly position 201 of the first module 1 is provided with a soft rubber joint 207, specifically, the connecting seat 103 is provided with a soft rubber joint 207, such as a silica gel joint, and the first assembly position 204 is formed in the soft rubber joint 207. The interior of the soft rubber joint 207 is provided with a liquid supply channel 205, and a soft rubber film 206 is integrally connected to seal the liquid supply channel 205 when the soft rubber joint 207 is formed, and the soft rubber film 206 is skillfully utilized as a sealing part; when the second module is assembled at the first assembly position 204, the soft rubber membrane 26 is punctured to open the liquid supply channel 205 so that the liquid supply end is communicated with the liquid supply phase of the atomizing core. Here, its drain post 31 punctures the gum membrane 206 and stretches into and form the intercommunication in supplying liquid channel 205, and the flexible glue is preferably silica gel, and through the setting that the silica gel connects, on the one hand, the silica gel connects the equipment leakproofness good, and simultaneously, integrated into one piece gum membrane 206 is comparatively easy, and on the other hand, after the drain post 31 stretched into the silica gel and connects, drain post 31 and supplying liquid channel 205 can form sealed contact.

As shown in fig. 4, the external air enters from the air inlet 202 at the bottom, flows upwards, enters the cup body 10 from one side of the upper end of the cup body 10, passes through the fixing plate 30, and is sent out upwards from the other side of the upper end of the cup body 10. And when the gas is sent out upwards, the gas channel surrounds the peripheral area of the silica gel joint, and then the gas is collected upwards and sent out from the gas outlet 203. Here, design many return bends, multistage formula with whole air current direction, be convenient for prevent the condensate outflow, promote the condensate backward flow, reduce extravagant. Meanwhile, the airflow trend can form vortex, large particles in the mist can be condensed conveniently, and the taste is more delicate.

As shown in fig. 5 and 6, before the terminal use, the liquid inside the atomizing device is completely isolated from the outside, so that liquid leakage is completely avoided, the liquid is prevented from contacting with the air, the retention period is prolonged, and the quality is prevented from being influenced by the fact that the liquid absorbs the moisture in the air. To save space and also to avoid messy loss of product parts, the atomizing core 100 can be placed in reverse at the assembly port 204. When the terminal is used, the atomizing core 100 is taken out and then is loaded in the forward direction.

As shown in fig. 9 to 11, the soft glue joint 207 ' is integrally connected with an atomizing core fixing glue 208 (the soft glue joint 207 ', the atomizing core fixing glue 208, etc. are preferably designed as a silicone glue), the bottom of the atomizing core fixing glue 208 is provided with an atomizing core fixing position, and the atomizing core 100 ' is tightly embedded in the atomizing core fixing position; the atomizing core fixing glue piece 208 is connected to the soft glue joint 207' in an up-down folding manner through a connecting arm 209; in a first state (for example, a storage and transportation state), the atomizing core fixing rubber piece 208 is folded upwards and positioned at the lower side of the soft rubber joint 207'; in a second state (for example, the atomizing core fixing glue piece 208 is opened), the atomizing core fixing glue piece 208 is folded downwards and is pulled out from the lower side of the soft glue joint 207'; in a third state (for example, the atomizing core 100 ' needs to be assembled to a normal working state), the atomizing core fixing glue piece 208 is turned downward and is released from the lower side of the soft glue joint 207 ', the connecting arm 209 is cut off, and the atomizing core 100 ' is taken out of the atomizing core fixing glue piece 208 and is loaded into the first assembly position.

As shown in fig. 9, in the first state, the liquid guiding hole 2071' is sealed by the glue column 2081 on the atomizing core fixing glue 208; as shown in fig. 10, when the atomizing nozzle is used, the first mold block 1 ' is usually inverted to make the liquid guiding hole 2071 ' face upward, the atomizing core fixing rubber 208 and the shearing connecting arm 209 are pulled out, the atomizing core 100 ' is taken down and installed in the first assembly position, and when the atomizing nozzle is used, the liquid is sent into the atomizing core 100 ' through the liquid guiding hole 2071 ', as shown in fig. 11. Here, the air is introduced from the side of the atomizing core 100 ' to the atomizing cavity 101 ' from bottom to top, the soft glue joint 207 ' integrally extends downward to connect with the thin glue piece 2072 ' (in the actual design, the thin glue piece 2072 ' can be flexibly arranged in one layer or more than two layers at intervals, without limitation), the thin glue piece 2072 ' is blocked between the air inlet side and the atomizing cavity 101 ', and is opened under the action of air pressure during suction (the lower end of the thin glue piece 2072 ' deforms inward to form a gap between the lower end of the thin glue piece 2072 ' and the atomizing core 100 '), and outside air enters the atomizing cavity 101 '; when the liquid is not sucked, the liquid returns to a normal state (the lower end of the thin film 2072 'is reset), the atomized residual gas is blocked, the condensate is prevented from being formed when the liquid goes out, and the liquid outflow (for example, the excessive liquid outflow on the liquid locking plate) of the atomizing core 100' is blocked and adsorbed.

To sum up, the design of the utility model is characterized in that the liquid supply end is sealed with a sealing part which can be punctured or torn off, which is convenient for storage and transportation, and when the atomizing core is assembled at the assembling port, the punctured or torn sealing part makes the liquid supply end communicate with the liquid inlet phase of the atomizing core; therefore, the liquid overflow caused by pressure difference between the liquid storage cavity and the outside air due to air pressure change or temperature change during storage and transportation is avoided, meanwhile, the liquid in the liquid storage cavity is completely prevented from being oxidized or absorbing moisture in the air due to the contact of the liquid in the liquid storage cavity and the outside air through the atomizing core, the storage and quality guarantee of the liquid are facilitated, and the use mouthfeel is ensured; the structure is simple, and the production and the manufacture are easy;

and, to atomizing core improved design, through the combination of cup and lock liquid board, make it have lock liquid concurrently, adsorb unnecessary liquid that oozes out, hold condensate, heat multiple functions such as even, effectively solved in the traditional art weeping, explode liquid, the heating is uneven, peculiar smell scheduling problem. The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims

1. An assembled atomizing device, characterized in that: comprises an atomization device main body and an atomization core which can be assembled on the atomization device main body; wherein:

2. A fabricated atomizing device in accordance with claim 1, wherein: the first assembly station is provided with a soft rubber joint, a liquid supply channel is arranged in the soft rubber joint, and a soft rubber film is integrally connected to seal the liquid supply channel when the soft rubber joint is formed; when the atomizing core is assembled at the first assembling position, the soft rubber film is punctured to open the liquid supply channel so that the liquid supply end is communicated with the liquid supply phase of the atomizing core.

3. A fabricated atomizing device in accordance with claim 2, wherein: the atomization device comprises a first module, a second module and a third module which are detachably assembled; wherein: the first module is provided with an upper shell and a connecting seat assembled at the lower end of the upper shell, the liquid storage cavity and the air outlet are arranged on the upper shell, the soft rubber joint is assembled on the connecting seat, and the first assembling position is formed at the lower side of the soft rubber joint; the upper shell is provided with a second assembling position;

the second module is provided with the atomizing core;

4. A fabricated atomizing device in accordance with claim 3, wherein: and the connecting seat is provided with a liquid passing hole communicated with the liquid storage cavity and the liquid supply end.

5. A fabricated atomizing device in accordance with claim 3, wherein: the upper shell is provided with an inner shell and an outer shell which are integrally connected, the upper ends of the inner shell and the outer shell are integrally connected, a channel of the inner shell is used as an air outlet channel to be communicated with an air outlet, an annular liquid storage cavity is formed between the outer shell and the inner shell, and the connecting seat is arranged at the lower end of the liquid storage cavity.

6. A fabricated atomizing device in accordance with claim 2, wherein: the liquid inlet position of the atomizing core is upwards convexly provided with a liquid guide column, and when the atomizing core is assembled, the liquid guide column extends into the liquid supply channel;

7. A fabricated atomizing device in accordance with claim 4, wherein: the connecting seat is provided with a first barrel part communicated with the liquid passing hole, and the soft rubber joint is provided with a second barrel part extending into the first barrel part.

8. A fabricated atomizing device in accordance with claim 2, wherein: the lower extreme of flexible glue joint extends has the annular wall in order to enclose to establish and form first equipment position, the week side sealing contact of atomizing core is in the inboard of annular wall.

9. A fabricated atomizing device in accordance with claim 8, wherein: the atomization core comprises a cup body and a liquid locking plate; the cup body is provided with a bottom wall and a peripheral side wall connected to the peripheral side of the bottom wall, the bottom wall and the peripheral side wall are surrounded to form an accommodating cavity, and the accommodating cavity is provided with an upper end opening; the liquid locking plate is made of porous materials and is positioned in the accommodating cavity; the liquid inlet is arranged at the opening at the upper end of the accommodating cavity or on the peripheral side wall of the accommodating cavity and used for sending liquid into the liquid locking plate or/and the accommodating cavity; the peripheral side of the cup body is in sealing contact with the inner side of the annular wall.

10. A fabricated atomizing device in accordance with claim 2, wherein: the flexible glue joint is integrally connected with an atomizing core fixing glue piece, the bottom of the atomizing core fixing glue piece is provided with an atomizing core fixing position, and the atomizing core is tightly embedded in the atomizing core fixing position; the atomizing core fixing rubber piece is connected to the soft rubber joint in an up-and-down folding manner through a connecting arm; in the first state, the atomizing core fixing rubber piece is turned upwards and positioned at the lower side of the rubber joint; in a second state, the atomizing core fixing rubber piece is turned downwards and is separated from the lower side of the rubber joint; and in the third state, the atomization core fixing rubber piece is downwards folded and is separated from the lower side of the rubber joint, the connecting arm is cut off, and the atomization core is taken out of the atomization core fixing rubber piece and is loaded into the first assembly position.