CN218790607U - Electronic atomization device for oil-gas separation - Google Patents

Abstract

The utility model discloses an oil-gas separation's electronic atomization device, including the oil-gas separation structure, the oil-gas separation structure has mutually independent ventilates the chamber and the chamber is collected to the weeping and is used for switching on ventilate the chamber with the conducting part in chamber is collected to the weeping, ventilate the intracavity and be equipped with the automatically controlled subassembly of air current response that is used for responding to air current control electronic atomization device circular telegram work, the weeping is collected the intracavity and is equipped with the oil absorption piece that is used for absorbing the condensate. The utility model discloses an oil-gas separation's electronic atomization device, through design mutually independent ventilate chamber and weeping and collect the chamber, the condensate that can make electronic atomization device produce or the oil leak flow to the weeping and collect the intracavity then absorbed by oil absorption piece, can prevent effectively that condensate or oil leak from flowing to the problem that causes stifled gas and short circuit in the automatically controlled subassembly of air current response, the air current gets into the chamber of ventilating after the chamber accessible conduction portion gets into the weeping and collects the chamber during smoking, then gets into and drives smog discharge electronic atomization device in the atomizing main part and is inhaled the food by the user.

Description

Electronic atomization device for oil-gas separation

Technical Field

The utility model belongs to the technical field of the electronic atomization technique and specifically relates to an oil-gas separation's electronic atomization device is related to.

Background

The electronic atomization device is also called a virtual cigarette, an electronic cigarette, an aerosol generating device, a steam cigarette and the like, and is mainly used for simulating the smoking feeling on the premise of not influencing health so as to stop smoking or replace the cigarette.

At present, current electronic atomization device, the position of design air current induction control subassembly, the air current all can pass through this position when flowing with condensate or oil leak when flowing, thereby make electronic atomization device's oil circuit and air circuit inseparable, condensate or the oil leak that produce in the atomizing main part behind the smoking can flow in air conduction channel to air current induction control subassembly through inlet channel, lead to the air circuit to be blocked up, cause electronic atomization device unable work, and condensate or oil leak still can flow in air current inductive switch and the control panel, cause the short circuit.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an oil-gas separation's electronic atomization device has solved the electronic atomization device among the prior art, and gas circuit and oil circuit do not separate, cause the problem that condensate or oil leak caused stifled gas and short circuit in flowing to the air current response electrical control component.

The utility model provides a technical scheme that above-mentioned technical problem adopted is: the utility model provides an oil-gas separation's electronic atomization device, includes the oil-gas separation structure, the oil-gas separation structure has mutually independent ventilates the chamber and the chamber is collected to the weeping and is used for switching on ventilate the chamber with the portion of switching on in chamber is collected to the weeping, ventilate the intracavity and be equipped with the automatically controlled subassembly of air current response that is used for responding to air current control electronic atomization device circular telegram work, the weeping is collected the intracavity and is equipped with the oil absorption piece that is used for absorbing the condensate.

In one embodiment, the oil-gas separation structure further has an air inlet portion, and the air inlet portion is communicated with the ventilation cavity.

In one embodiment, the air inlet and the conducting part are each formed by a recess and/or a through-hole.

As an implementation mode, the oil-gas separation structure includes a main body casing, a cavity space is provided in the main body casing, a partition wall is provided in the cavity space, the partition wall divides the cavity space into the ventilation cavity and the leakage collecting cavity, a notch serving as the conduction portion is provided at the top end of the partition wall, an air inlet through hole serving as the air inlet portion is provided on the bottom wall of the main body casing, and the air inlet through hole is communicated with the ventilation cavity and corresponds to the airflow induction electric control assembly.

As an implementation mode, the oil absorbing member is made of one of a cotton material, a ceramic material and a carbon fiber material, and the oil absorbing member is arranged on the bottom wall of the leakage collecting cavity.

As an implementation manner, the airflow sensing electric control assembly comprises an airflow sensing switch, a control panel and an air guide member, the airflow sensing switch is electrically connected with the control panel, the air guide member is sleeved on the control panel, the outer wall of the air guide member is abutted to the inner wall of the ventilation cavity, the air guide member is provided with an air guide channel, the upper end of the air guide channel is communicated with the ventilation cavity, and the lower end of the air guide channel corresponds to the airflow sensing switch.

As an embodiment, main part shell upper end cover is equipped with the shell, be equipped with the atomizing main part in the shell, atomizing main part lower extreme stretches into the main part shell in the cavity space, just atomizing main part lower extreme outer wall with cavity space inner wall butt, atomizing main part bottom with partition wall top butt, the shell top has been seted up and has been accesss to the inside passageway that runs through of shell, be equipped with the cigarette holder in the passageway that runs through, the cigarette holder has the play cigarette passageway that is used for discharge smog.

As an embodiment, form the oil storage chamber in the atomizing main part, be equipped with oil storage cotton and atomizing pipe in the oil storage chamber, the atomizing pipe is located in the oil storage cotton, be formed with the fog passageway in the atomizing pipe, the smoke exhaust channel has been seted up on atomizing main part top, inlet channel has been seted up to atomizing main part bottom, the inlet channel lower extreme with the weeping is collected the chamber and is corresponding and communicate with each other, the inlet channel upper end with the fog passageway lower extreme is corresponding and communicate with each other, the smoke exhaust channel upper end with it is corresponding and communicate with each other to go out the cigarette passageway, the smoke exhaust channel lower extreme with the fog passageway upper end is corresponding and communicate with each other.

As an implementation mode, a heating core is arranged in the mist channel, at least one oil inlet hole is formed in the outer wall of the atomizing pipe, each oil inlet hole corresponds to the heating core, an electric core is further arranged in the leakage collecting cavity and electrically connected with the control board, and the control board is electrically connected with the heating core.

As an embodiment, the cigarette holder is including suction nozzle and suction nozzle seat that are connected, the suction nozzle by suction nozzle seat necking down forms, the suction nozzle is followed the through passage stretches out outside the shell, the suction nozzle seat in the shell, just suction nozzle seat bottom with atomizing main part bottom butt, the suction nozzle with the position that the suction nozzle seat is connected is seted up flutedly, the recess is located in the through passage, the through passage inner wall is equipped with spacing step, spacing step stretches into in the recess, it follows to go out the cigarette passageway the suction nozzle top is run through the suction nozzle with the suction nozzle seat.

It should be noted that a great number of technical features are described in the specification of the present application, and are distributed in various technical solutions, so that the specification is excessively long if all possible combinations of the technical features (i.e., technical solutions) in the present application are listed. In order to avoid this problem, the respective technical features disclosed in the above-mentioned utility model of the present application, the respective technical features disclosed in the following embodiments and examples, and the respective technical features disclosed in the drawings may be freely combined with each other to constitute various new technical solutions (which are considered to have been described in the present specification) unless such a combination of technical features is technically impossible. For example, in one example, feature a + B + C is disclosed, in another example, feature a + B + D + E is disclosed, and features C and D are equivalent technical means that serve the same purpose, technically only one feature is used, but not both, and feature E may be technically combined with feature C, then the solution of a + B + C + D should not be considered as already described because the technology is not feasible, and the solution of a + B + C + E should be considered as already described.

Implement the utility model discloses an oil-gas separation's electronic atomization device has following beneficial effect: the utility model discloses an oil-gas separation's electronic atomization device, through designing mutually independent ventilate chamber and weeping and collect the chamber, can make oil circuit and gas circuit separation, the condensate or the oil leak that electronic atomization device produced flow to the weeping and collect the intracavity then absorbed by the oil absorption piece, can prevent effectively that condensate or oil leak from flowing to the problem that causes stifled gas and short circuit in the automatically controlled subassembly of air current response, when electronic atomization device normally uses, the air current gets into ventilates the chamber back accessible conduction portion and gets into the weeping and collect the chamber, then it inhales by the user to drive smog discharge electronic atomization device in the atomizing main part again.

Drawings

The present invention will be described in detail with reference to the accompanying drawings so that the above advantages of the present invention can be more clearly understood. Wherein the content of the first and second substances,

FIG. 1 is an exploded view of the electronic atomizer for oil-gas separation according to the present invention;

fig. 2 is a schematic perspective view of the electronic atomization device for oil-gas separation of the present invention;

FIG. 3 is a schematic cross-sectional view of the electronic atomization device for oil-gas separation according to the present invention;

FIG. 4 is a schematic view of the internal structure of the oil reservoir of the electronic atomization device for oil-gas separation according to the present invention;

FIG. 5 is a schematic view of the internal structure of the main body casing of the electronic atomization device for oil-gas separation according to the present invention;

fig. 6 is an airflow direction diagram of the electronic atomization device for oil-gas separation of the utility model;

fig. 7 is the leakage flow diagram of the electronic atomization device for oil-gas separation of the utility model.

Detailed Description

The following detailed description will be made with reference to the accompanying drawings and examples, so as to solve the technical problems by applying technical means to the present invention, and to fully understand and implement the technical effects of the present invention. It should be noted that, as long as no conflict is formed, the embodiments and the features in the embodiments of the present invention may be combined with each other, and the technical solutions formed are all within the scope of the present invention.

As shown in fig. 1-5, the utility model provides an oil-gas separation's electronic atomization device, including the oil-gas separation structure, the oil-gas separation structure has mutually independent ventilates chamber 803 and weeping and collects chamber 802 and is used for switching on the portion of conducting that ventilates chamber 803 and weeping collected chamber 802, ventilates to be equipped with in the chamber 803 to be used for responding to the automatically controlled subassembly 100 of air current induction that air current control electronic atomization device circular telegram worked, and the weeping is collected and is equipped with the oil absorption piece 5 that is used for absorbing the condensate in the chamber 802. It should be noted that, by designing the ventilation cavity 803 and the leaking liquid collecting cavity 802 which are independent from each other, the condensate or the leaked oil generated by the electronic atomization device can flow into the leaking liquid collecting cavity 802 and then be absorbed by the oil absorption member 5, so that the problem of air blockage and short circuit caused by the condensate or the leaked oil flowing into the air flow induction electronic control assembly 100 can be effectively prevented, when the electronic atomization device is in normal use, the air flow enters the ventilation cavity 803 and then enters the leaking liquid collecting cavity 802 through the conduction part, and then enters the atomization main body 3 to drive the smoke to be discharged out of the electronic atomization device to be sucked by the user.

In some embodiments, the oil and gas separation structure also has an air inlet portion that communicates with the vent chamber 803. The air inlet portion is used for introducing air into the ventilation chamber 803 during smoking.

In some embodiments, the intake and the conducting portions are formed by notches 804 and/or through holes, respectively. Wherein, the portion of admitting air preferably adopts the through-hole, adopts the convenient design of the technology of punching, and the portion of conducting preferably adopts breach 804, the design of also being convenient for makes things convenient for the wire to easily pass when control panel 7 is connected with electric core 4 electricity simultaneously.

In some embodiments, the oil-gas separation structure includes a main body casing 8, a cavity space 801 is provided in the main body casing 8, a partition wall 806 is provided in the cavity space 801, the partition wall 806 divides the cavity space 801 into a ventilation cavity 803 and a leakage collecting cavity 802, a notch 804 serving as a conduction part is provided at a top end of the partition wall 806, an air inlet through hole 805 serving as an air inlet part is provided at a bottom wall of the main body casing 8, and the air inlet through hole 805 is communicated with the ventilation cavity 803 and corresponds to the airflow sensing electronic control assembly 100. It should be noted that, during smoking, the external air flow can enter the ventilation cavity 803 from the air inlet through hole 805, then enter the leakage collecting cavity 802 through the notch 804, and then exit the leakage collecting cavity 802 into the atomizing body 3.

In some embodiments, the oil absorbing member 5 is made of one of a cotton material, a ceramic material and a carbon fiber material, and the oil absorbing member 5 is disposed on the bottom wall of the leakage collecting cavity 802. Wherein, this embodiment is preferred to adopt the cotton material, and the oil absorption is fast, and the oil absorption is many, and it is effectual to lock oil moreover, and oil absorption piece 5 is in the chamber diapire of weeping collection chamber 802, and condensate and oil leak all can flow down under the action of gravity and be absorbed by oil absorption piece 5 completely, can not flow in ventilating chamber 803 through breach 804 when electronic atomization device keeps flat and puts upside down.

In some embodiments, the airflow sensing electronic control assembly 100 includes an airflow sensing switch 701, a control board 7 and an air guide 6, the airflow sensing switch 701 is electrically connected to the control board 7, the air guide 6 is sleeved on the control board 7, an outer wall of the air guide 6 abuts against an inner wall of the ventilation cavity 803, the air guide 6 is provided with an air guide channel 601, an upper end of the air guide channel 601 is communicated with the ventilation cavity 803, and a lower end of the air guide channel 601 corresponds to the airflow sensing switch 701. The air flow induction switch 701 is used for inducing air flow entering the vent cavity 803 from the air inlet through hole 805, then the control board 7 is controlled to conduct electricity to the atomizing main body 3, the air guide piece 6 is used for blocking the vent cavity 803 to prevent air flow from dispersing, and meanwhile the air guide channel 601 is used for guiding air to increase the flow speed of the air flow, so that the sensitivity of the air flow induction switch 701 for inducing the air flow is increased.

In some embodiments, the upper end cover of the main body shell 8 is provided with the outer shell 2, the atomization main body 3 is arranged in the outer shell 2, the lower end of the atomization main body 3 extends into the cavity space 801 of the main body shell 8, the outer wall of the lower end of the atomization main body 3 is abutted against the inner wall of the cavity space 801, the bottom end of the atomization main body 3 is abutted against the top end of the partition wall 806, the top end of the outer shell 2 is provided with the through channel 201 leading to the inside of the outer shell 2, the through channel 201 is internally provided with the cigarette holder 1, and the cigarette holder 1 is provided with the smoke outlet channel 104 for discharging smoke. Wherein, atomizing main part 3 lower extreme outer wall and cavity space 801 inner wall butt, atomizing main part 3 bottom and the top butt of partition wall 806 for with ventilate chamber 803 and weeping collection chamber 802 upper end shutoff, prevent that air current and condensate or oil leak from flowing out outside the electron atomizer, run through passageway 201 and be used for installing cigarette holder 1, cigarette holder 1 is used for the smoking, goes out smoke channel 104 and is used for the smog suction when smoking.

In some embodiments, an oil storage cavity 302 is formed in the atomizing body 3, an oil storage cotton 303 and an atomizing pipe 301 are arranged in the oil storage cavity 302, the atomizing pipe 301 is located in the oil storage cotton 303, a mist channel 304 is formed in the atomizing pipe 301, a smoke exhaust channel 308 is formed at the top end of the atomizing body 3, an air inlet channel 307 is formed at the bottom end of the atomizing body 3, the lower end of the air inlet channel 307 corresponds to and communicates with the leakage collecting cavity 802, the upper end of the air inlet channel 307 corresponds to and communicates with the lower end of the mist channel 304, the upper end of the smoke exhaust channel 308 corresponds to and communicates with the smoke exhaust channel 104, and the lower end of the smoke exhaust channel 308 corresponds to and communicates with the upper end of the mist channel 304. The oil storage cavity 302 is used for storing smoke oil, the oil storage cotton 303 is used for absorbing the smoke oil in the oil storage cavity 302, the atomizing pipe 301 is used for fixing and positioning the oil storage cotton 303, the mist channel 304 is used for ventilating air flow and smoke exhaust mist, the smoke exhaust channel 308 is used for exhausting the smoke in the mist channel 304 to the smoke exhaust channel 104, the air inlet channel 307 is used for introducing air into the mist channel 304, and after the smoke is exhausted, condensate or leaked oil generated in the mist channel 304 can flow into the leaked liquid collecting cavity 802 through the air inlet channel 307 and then is absorbed by the oil absorption piece 5.

In some embodiments, a heat generating core 305 is disposed in the mist channel 304, at least one oil inlet 306 is disposed on an outer wall of the atomizing pipe 301, each oil inlet 306 corresponds to the heat generating core 305, an electric core 4 is disposed in the leakage collecting cavity 802, the electric core 4 is electrically connected to the control board 7, and the control board 7 is electrically connected to the heat generating core 305. The heating core 305 is used for heating the tobacco tar to generate the smoke, the oil inlet 306 is used for guiding the tobacco tar in the oil storage cotton 303 into the heating core 305, the electric core 4 is used for supplying power to the control board 7 to enable the control board 7 to start an electric control function, the control board 7 is used for supplying power to the heating core 305 to enable the heating core 305 to generate heat, and by combining the above steps, the air flow enters the ventilation cavity 803 from the air inlet 805 during smoking, is then inductively controlled by the air flow inductive switch 701 to enable the control board 7 to supply power to the heating core 305, then passes through the air guide channel 601, then enters the leakage liquid collecting cavity 802 through the notch 804, and then enters the smoke channel 304 from the air inlet channel 307, so that the smoke generated by heating core 305 heating the tobacco tar is sequentially discharged into the smoke exhaust channel 308 and the smoke outlet channel 104.

In some embodiments, the mouthpiece 1 includes a suction nozzle 101 and a suction nozzle base 102 connected to each other, the suction nozzle 101 is formed by necking down the suction nozzle base 102, the suction nozzle 101 extends out of the housing 2 from the through channel 201, the suction nozzle base 102 is located in the housing 2, the bottom end of the suction nozzle base 102 abuts against the bottom end of the atomizing body 3, a groove 103 is formed in a position where the suction nozzle 101 is connected to the suction nozzle base 102, the groove 103 is located in the through channel 201, a limiting step 202 is formed on the inner wall of the through channel 201, the limiting step 202 extends into the groove 103, and the smoke outlet channel 104 extends through the suction nozzle 101 and the suction nozzle base 102 from the top end of the suction nozzle 101. It should be noted that the suction nozzle 101 extends out of the outer shell 2 from the through channel 201 for smoking in the mouth, and then the smoke is sucked out of the smoke outlet channel 104, the suction nozzle base 102 is used for connecting and supporting the suction nozzle 101, the bottom end of the suction nozzle base 102 abuts against the bottom end of the atomizing main body 3 for communicating the smoke exhaust channel 308 and the smoke outlet channel 104, and the limiting step 202 extends into the groove 103 for fixing the cigarette holder 1 on the main body shell 8.

The following is a detailed description of preferred embodiments.

As shown in fig. 1-5, the electronic atomizer of the present invention comprises: the cigarette holder comprises a cigarette holder 1, a shell 2, an atomization main body 3, a battery core 4, an oil absorption piece 5, an air guide piece 6, a control panel 7 and a main body shell 8, wherein a cavity space 801 is arranged in the main body shell 8, a partition wall 806 is arranged in the cavity space 801, the partition wall 806 divides the cavity space 801 into a ventilation cavity 803 and a leakage liquid collection cavity 802 which are independent of each other and are respectively used for ventilating air flow and collecting condensate liquid, a notch 804 used as a conduction part is formed in the top end of the partition wall 806 and used for conducting the ventilation cavity 803 and the leakage liquid collection cavity 802, the air guide piece 6 and the control panel 7 are located in the ventilation cavity 803, the air guide piece 6 is sleeved on the control panel 7 and used for fixing the control panel 7, an air flow induction switch 701 is arranged on the control panel 7 and used for inducing the air flow to control the conduction of the control panel 7, the outer wall of the air guide piece 6 is abutted to the inner wall of the ventilation cavity 803 and used for plugging the ventilation cavity 803 and preventing the air flow dispersion, an air guide channel 601 is formed on the air guide piece 6, the upper end of the air guide channel 601 is communicated with the ventilation cavity 803 for air flow, the lower end of the air guide channel 601 corresponds to the air flow inductive switch 701 and is used for air flow to be induced by the air flow inductive switch 701 when the air flow passes through the air guide channel 601, the bottom wall of the main body shell 8 is provided with an air inlet through hole 805, the air inlet through hole 805 is communicated with the ventilation cavity 803 for air inlet into the ventilation cavity 803 when smoke is drawn, the oil absorbing piece 5 is arranged at the bottom of the leakage liquid collecting cavity 802 for absorbing condensate and leaked oil, the electric core 4 is also arranged in the leakage liquid collecting cavity 802, the electric core 4 is electrically connected with the control panel 7 and is used for supplying power to the control panel 7 to start an electric control function, the atomizing main body 3 is arranged in the shell 2 to be fixed, the shell 2 is sleeved at the upper end of the main body shell 8 to be fixed, the lower end of the atomizing main body 3 extends into the cavity space 801 of the main body shell 8, the outer wall at the lower end of the atomizing main body 3 is abutted against the inner wall 801, the bottom end of the atomizing main body 3 is abutted against the top end 806 of the separation wall, is used for sealing the upper ends of the ventilation cavity 803 and the leakage collecting cavity 802, an oil storage cavity 302 is formed in the atomizing main body 3 and is used for storing oil, oil storage cotton 303 and an atomizing pipe 301 are arranged in the oil storage cavity 302, the atomizing pipe 301 is positioned in the oil storage cotton 303, the oil storage cotton 303 is used for absorbing smoke oil in the oil storage cavity 302, the atomizing pipe 301 is used for fixing and positioning the oil storage cotton 303, a fog channel 304 is formed in the atomizing pipe 301 and is used for ventilating and discharging fog, a smoke discharging channel 308 is formed at the top end of the atomizing main body 3 and is used for discharging fog, an air inlet channel 307 is formed at the bottom end of the atomizing main body 3 and is used for air inlet, the lower end of the air inlet channel 307 is corresponding to and communicated with the leakage collecting cavity 802, condensate generated in the fog channel 304 can flow into the leakage collecting cavity 802, the upper end of the air inlet channel 307 is corresponding to and communicated with the lower end of the fog channel 304 and the lower end of the smoke discharging channel 308 is corresponding to and communicated with the upper end of the fog channel 304, the smoke atomizing device is used for discharging smoke in a smoke channel 304, a heating core 305 is arranged in the smoke channel 304 and used for heating smoke oil to generate smoke, four oil inlet holes 306 are formed in the outer wall of an atomizing pipe 301, the oil inlet holes 306 correspond to the heating core 305 and are used for guiding the smoke oil in oil absorption cotton into the heating core 305, a control board 7 is electrically connected with the heating core 305 and used for supplying power to the heating core 305 to generate heat, a through channel 201 is formed in the top end of a main body shell 8 and used for installing a cigarette holder 1, the suction nozzle 101 is formed by necking down of a suction nozzle base 102, the cigarette holder 1 is inserted into a shell 2 from the through channel 201, the suction nozzle 101 extends out of the shell 2 from the through channel 201 and is used for containing the smoke, the suction nozzle base 102 is located in the shell 2, a smoke outlet channel 104 which penetrates through the suction nozzle 101 and the suction nozzle base 102 is formed in the top end of the suction nozzle 101 and used for discharging smoke, the bottom end of the suction nozzle base 102 is abutted against the bottom end of the atomizing main body 3 and used for communicating a smoke outlet channel 308 and the smoke outlet channel 104, a groove 103 is formed at the position where the suction nozzle 101 is connected with the suction nozzle seat 102, the groove 103 is located in the through channel 201, a limiting step 202 is arranged on the inner wall of the through channel 201, and the limiting step 202 extends into the groove 103 and is used for fixing the cigarette holder 1 on the shell 2.

As shown in fig. 6, in the embodiment of the present invention, the air flow of the electronic atomization device is directed to the specific implementation description, when smoking, the air flow enters the ventilation cavity 803 from the air inlet 805, then enters the leakage collecting cavity 802 from the notch 804 through the air guide channel 601, and then enters the mist channel 304 from the air inlet channel 307, so as to drive the heating core 305 to heat the smoke generated by the smoke oil to be sequentially discharged into the smoke exhaust channel 308 and the smoke outlet channel 104, and finally, the smoke is sucked by the mouth suction nozzle 101.

As shown in fig. 7, in the embodiment of the present invention, the condensate and the oil leak of the electronic atomization device are directed to the embodiment, after smoking, the condensate generated in the mist channel 304 of the atomization tube 301, and the oil leak generated by the heat-generating core 305 can enter the leaking liquid collection cavity 802 from the air inlet channel 307 along the inner wall of the mist channel 304, and then flow to the bottom along the cavity wall of the leaking liquid collection cavity 802, and then the oil absorption piece 5 can absorb the condensate and the oil leak, and the condensate and the oil leak can not flow to the ventilation cavity 803 through the notch 804 when the electronic atomization device is flatly placed.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an oil-gas separation's electronic atomization device, its characterized in that, includes the oil-gas separation structure, the oil-gas separation structure has mutually independent ventilates the chamber and the chamber is collected to the weeping and is used for switching on ventilate the chamber with the portion of conducting in chamber is collected to the weeping, ventilate the intracavity and be equipped with the air current response automatically controlled subassembly that is used for responding to air current control electronic atomization device circular telegram work, the weeping is collected the intracavity and is equipped with the oil absorption piece that is used for absorbing the condensate.

2. The electronic atomizer device of claim 1 wherein said oil-gas separation structure further comprises an air inlet in communication with said vent chamber.

3. The electronic atomization device of claim 2 wherein the air inlet and the communication portion are each formed by a notch and/or a through hole.

4. The electronic atomization device of claim 2, wherein the oil-gas separation structure comprises a main body shell, a cavity space is formed in the main body shell, a partition wall is arranged in the cavity space, the partition wall divides the cavity space into the ventilation cavity and the leakage collection cavity, a notch serving as the conduction part is formed in the top end of the partition wall, an air inlet through hole serving as the air inlet part is formed in the bottom wall of the main body shell, and the air inlet through hole is communicated with the ventilation cavity and corresponds to the airflow induction electric control assembly.

5. The electronic atomizing device of claim 1, wherein the oil absorbing member is made of one of a cotton material, a ceramic material and a carbon fiber material, and the oil absorbing member is disposed on a bottom wall of the leakage collecting chamber.

6. The electronic atomization device of claim 4, wherein the airflow sensing electric control assembly comprises an airflow sensing switch, a control panel and an air guide, the airflow sensing switch is electrically connected with the control panel, the air guide is sleeved on the control panel, the outer wall of the air guide is abutted against the inner wall of the ventilation cavity, the air guide is provided with an air guide channel, the upper end of the air guide channel is communicated with the ventilation cavity, and the lower end of the air guide channel corresponds to the airflow sensing switch.

7. The electronic atomization device of claim 4, wherein a housing is sleeved on the upper end of the main body shell, an atomization main body is arranged in the housing, the lower end of the atomization main body extends into the cavity space of the main body shell, the outer wall of the lower end of the atomization main body is abutted to the inner wall of the cavity space, the bottom end of the atomization main body is abutted to the top end of the separation wall, a through channel leading to the inside of the housing is formed in the top end of the housing, a cigarette holder is arranged in the through channel, and the cigarette holder is provided with a smoke outlet channel for discharging smoke.

8. The electronic atomization device of claim 7, wherein an oil storage cavity is formed in the atomization body, oil storage cotton and an atomization tube are arranged in the oil storage cavity, the atomization tube is located in the oil storage cotton, an atomization channel is formed in the atomization tube, a smoke exhaust channel is formed at the top end of the atomization body, an air inlet channel is formed at the bottom end of the atomization body, the lower end of the air inlet channel corresponds to and communicates with the leakage collection cavity, the upper end of the air inlet channel corresponds to and communicates with the lower end of the fog channel, the upper end of the smoke exhaust channel corresponds to and communicates with the smoke exhaust channel, and the lower end of the smoke exhaust channel corresponds to and communicates with the upper end of the fog channel.

9. The electronic atomization device of claim 8, wherein a heat-generating core is disposed in the mist channel, at least one oil inlet is disposed on an outer wall of the atomization tube, each oil inlet corresponds to the heat-generating core, an electric core is further disposed in the leakage collection cavity, the electric core is also electrically connected to a control board, and the control board is electrically connected to the heat-generating core.

10. The electronic atomizing device according to claim 7, wherein the mouthpiece includes a suction nozzle and a suction nozzle holder connected to each other, the suction nozzle is formed by a neck of the suction nozzle holder, the suction nozzle extends out of the housing from the through channel, the suction nozzle holder is located in the housing, a bottom end of the suction nozzle holder abuts against a bottom end of the atomizing body, a groove is formed at a position where the suction nozzle is connected to the suction nozzle holder, the groove is located in the through channel, a limiting step is provided on an inner wall of the through channel, the limiting step extends into the groove, and the smoke outlet channel extends through the suction nozzle and the suction nozzle holder from a top end of the suction nozzle.

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