CN219146795U - Electronic atomization device capable of gathering gas - Google Patents

Abstract

The utility model discloses an electronic atomization device capable of gathering gas, which comprises an atomization main body and a power supply main body, wherein an oil storage cavity is arranged in the atomization main body, a mist channel is arranged in the oil storage cavity, a heating core is arranged in the mist channel, the power supply main body is sequentially provided with a gas inlet part, a gas gathering part and an adaptation cavity which are mutually communicated along the direction of gas flow, a sealing element is arranged between the gas inlet part and the gas gathering part, and the atomization main body is inserted into the adaptation cavity so that the mist channel is communicated with the gas gathering part. By adopting the scheme, the sealing piece can seal the gas gathering part, when the air flow enters the gas gathering part from the air inlet part during smoking, the air flow is not dispersed, the flow speed and the air flow quantity of the air flow can be increased after the air flow enters the gas gathering part, and after the air flow enters the mist channel, the smoke generated by heating the tobacco tar by the heating core can be quickly cooled and quickly sucked into a user mouth, and the smoke quantity is large and the taste saturation degree is good.

Description

Electronic atomization device capable of gathering gas

Technical Field

The utility model relates to the technical field of electronic atomization, in particular to an electronic atomization device capable of gathering gas.

Background

Electronic atomization devices, also known as virtual cigarettes, electronic cigarettes, vapor cigarettes, aerosol generating devices, and the like, have rapidly developed and are widely welcome with the continuous improvement of technology and economy. The principle of the electronic atomization technology is that aerosol is formed by heating a liquid atomization matrix for users to inhale, and the aerosol is used for medical treatment or used for a novel electronic smoking set to replace the traditional cigarette with larger toxic and side effects.

At present, in the existing electronic atomization device, air flow enters the electronic atomization device from an air inlet through hole at the periphery of the electronic atomization device during smoking, as the electronic atomization device has large internal space and more elements and a combined gap is formed between the elements, the air flow speed is reduced, the air flow is weakened after entering, and part of air flow is leaked from the combined gap of the elements, so that only a small part of weak air flow enters a mist channel of an atomization main body, and the heating core is caused to heat smoke generated by tobacco tar, so that the temperature reduction is slow, the smoke is excessively scalded to cause discomfort in the oral cavity during smoking, and the smoke flows slowly and has small smoke quantity, so that the smoke cannot quickly reach the mouth and the taste saturation of the smoke is poor.

Disclosure of Invention

The utility model aims to provide an electronic atomization device capable of gathering gas, which solves the problems that in the prior art, the electronic atomization device is weak in air flow, so that the smoke temperature is high, the oral cavity is uncomfortable, the smoke flows slowly and cannot reach the mouth rapidly, and the smoke has small taste and poor saturation.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides an electron atomizing device that can gather gas, includes atomizing main part and power supply main part, be equipped with the oil storage chamber in the atomizing main part, be equipped with the fog passageway in the oil storage chamber, be equipped with the core that generates heat in the fog passageway, the power supply main part is equipped with the portion of admitting air and gathering gas that each other communicate with each other in proper order along the direction of air current to and adaptation chamber, be equipped with the sealing member between the portion of admitting air and the portion of gathering gas, the atomizing main part inserts the adaptation chamber makes the fog passageway communicates with each other with the portion of gathering gas.

As one embodiment, the air intake is formed by a through hole or a channel.

As one embodiment, the air gathering part comprises a first air gathering chamber, a first air guide channel, a second air gathering chamber and a second air guide channel, the air intake part corresponds to and communicates with the first air gathering chamber, the sealing piece is arranged between the air intake part and the first air gathering chamber, the first air gathering chamber communicates with the second air gathering chamber through the first air guide channel, the second air gathering chamber communicates with the adapting cavity through the second air guide channel, the second air guide channel also communicates with the fog channel,

as an implementation mode, the atomizing main part includes the oil storage storehouse body, the internal atomizing pipe that is equipped with of oil storage storehouse, atomizing pipe outer wall with space between the internal wall of oil storage storehouse is as the oil storage chamber, form in the atomizing pipe the fog passageway, it establishes in the atomizing pipe to generate heat the core, the oil storage storehouse body bottom is equipped with and is used for sealedly the sealing seat in oil storage chamber, the sealing seat bottom seted up with the communicating inlet channel of fog passageway, the second air guide passageway passes through inlet channel with the communicating of fog passageway.

As an implementation mode, the smoking mouth has been seted up on the oil storage storehouse body top, the oil storage storehouse body follow the smoking mouth to protruding stretching in the oil storage chamber is formed with the exhaust pipe, atomizing pipe upper end inserts in the exhaust pipe, make the fog passageway with the smoking mouth is linked together, at least one inlet port has been seted up to atomizing pipe outer wall, the inlet port with the core corresponds that generates heat, the seal seat bottom be equipped with the third conductive electrode and the fourth conductive electrode that the core electricity is connected that generates heat.

As an implementation mode, the power supply main body comprises a gas gathering part, a main body shell and a gas sealing part, the gas gathering part is arranged in the main body shell, the adapting cavity is formed in the top end of the gas gathering part, a first groove is formed in the outer wall of one side of the gas gathering part, a second groove is formed in the outer wall of the other side of the gas gathering part, a first gas guide channel penetrates from the bottom wall of the first groove to the second groove, a second gas guide channel penetrates from the side wall of the second groove to the adapting cavity, the shell wall of the main body shell covers the outer wall of one side of the gas gathering part and forms a first gas gathering chamber at the first groove, and the gas sealing part covers the outer wall of the other side of the gas gathering part and forms a second gas gathering chamber at the second groove.

As an implementation mode, the outer wall of one side of the gas gathering piece is further provided with an annular groove, the annular groove surrounds the notch of the first groove, the sealing piece is arranged in the annular groove, the sealing piece is in butt joint with the shell wall of the main body shell to seal the first gas gathering chamber, the shell wall of the main body shell corresponding to the first groove is provided with an air inlet through hole serving as the air inlet part, and the air inlet through hole corresponds to and is communicated with the first gas gathering chamber.

As an implementation mode, the top end of the main body shell is provided with a cavity opening, the cavity opening corresponds to and is communicated with the adapting cavity, and the atomizing main body is inserted into the adapting cavity through the cavity opening.

As one embodiment, the bottom wall of the adapting cavity is provided with a first conductive electrode and a second conductive electrode, the first conductive electrode is abutted against the third conductive electrode, and the second conductive electrode is abutted against the fourth conductive electrode.

As an embodiment, the power supply main body further includes a battery cell and a control board, the battery cell and the control board are disposed in the main body case, the battery cell is electrically connected with the control board, and the control board is electrically connected with the first conductive electrode and the second conductive electrode.

As an implementation mode, the power supply main body further comprises a main body shell cover, the main body shell cover is arranged on the main body shell, a power button and a gear button are arranged on the main body shell cover, a power button and a gear button are arranged on the control panel, the power button corresponds to the power button, and the gear button corresponds to the gear button.

It should be noted that, a large number of technical features are described in the specification of the present application, and are distributed in each technical solution, so that if all possible combinations of technical features (i.e. technical solutions) of the present application are to be listed, the specification is too lengthy. In order to avoid this problem, the technical features disclosed in the above summary of the present application, the technical features disclosed in the following embodiments and examples, and the technical features disclosed in the drawings may be freely combined with each other to constitute various new technical solutions (these technical solutions are all regarded as being already 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 perform the same function, technically only by alternative use, and may not be adopted simultaneously, feature E may be technically combined with feature C, and the solution of a+b+c+d should not be considered as already described because of technical impossibility, and the solution of a+b+c+e should be considered as already described.

The electron atomizing device capable of gathering gas has the following beneficial effects: according to the electronic atomization device capable of gathering gas, the gas gathering part is designed and sealed by the sealing element, so that the gas flow is not dispersed when entering the gas gathering part from the gas inlet part during smoking, the flow speed and the flow quantity of the gas flow can be increased after entering the gas gathering part, and the smoke generated by heating the tobacco tar by the heating core can be quickly cooled and quickly sucked into a user mouth after entering the mist channel, and the smoke quantity is large and the taste saturation degree is good.

Drawings

The present utility model will be described in detail below with reference to the attached drawings, so that the above advantages of the present utility model will be more apparent. Wherein, the liquid crystal display device comprises a liquid crystal display device,

FIG. 1 is an exploded view of the gas-polymerizable electronic atomizing device of the present utility model;

FIG. 2 is a schematic perspective view of an electron atomizing device capable of gathering gas according to the present utility model;

FIG. 3 is a schematic cross-sectional view of the gas-polymerizable electronic atomizing apparatus of the present utility model;

FIG. 4 is a schematic view of the structure of an atomizing body of the gas-polymerizable electronic atomizing device of the present utility model;

FIG. 5 is a schematic view of the structure of the power supply body of the gas-polymerizable electronic atomizing device of the present utility model;

FIG. 6 is a schematic diagram of the front face of a gas gathering member of the gas-gathering electronic atomizing device of the present utility model;

FIG. 7 is a schematic view showing the internal structure of a gas collecting member of the gas-collecting electronic atomizing device according to the present utility model;

FIG. 8 is a schematic cross-sectional view of a gas-gathering member and gas-sealing member combination of a gas-gathering electronic atomizing device of the present utility model;

FIG. 9 is a schematic view of a combination of a gas collecting member and a gas sealing member of the gas-collecting electronic atomizing device according to the present utility model;

fig. 10 is a flow chart of the gas flow of the gas-convergeable electronic atomizing device of the present utility model.

Detailed Description

The following will describe embodiments of the present utility model in detail with reference to the drawings and examples, thereby solving the technical problems by applying technical means to the present utility model, and realizing the technical effects can be fully understood and implemented accordingly. It should be noted that, as long as no conflict is formed, each embodiment of the present utility model and each feature of each embodiment may be combined with each other, and the formed technical solutions are all within the protection scope of the present utility model.

As shown in fig. 1-9, the utility model provides an electronic atomization device capable of gathering gas, which comprises an atomization main body 100 and a power supply main body 200, wherein an oil storage cavity 102 is arranged in the atomization main body 100, a mist channel 201 is arranged in the oil storage cavity 102, a heating core 202 is arranged in the mist channel 201, the power supply main body 200 is sequentially provided with a gas inlet part and a gas gathering part which are communicated with each other along the direction of gas flow, and an adapting cavity 603, a sealing piece 8 is arranged between the gas inlet part and the gas gathering part, and the atomization main body 100 is inserted into the adapting cavity 603, so that the mist channel 201 is communicated with the gas gathering part. By designing the gas collecting part and sealing the gas collecting part by the sealing member 8, the gas flow can not be dispersed when entering the gas collecting part from the gas inlet part during smoking, the flow speed and the flow quantity of the gas flow can be increased after entering the gas collecting part, and the smoke generated by heating the tobacco tar by the heating core 202 can be quickly cooled and quickly absorbed into a user mouth after entering the mist channel 201, and the smoke quantity is large and the taste saturation degree is good.

In some embodiments, the air intake is formed by a through hole or channel. The embodiment preferably adopts the through holes, has short air inlet path, can enable air to be quickly introduced, is convenient to design, can reduce the material thickness of the parts and saves the material cost.

In some embodiments, the air collecting portion includes a first air collecting chamber 607, a first air guiding channel 604, a second air collecting chamber 608 and a second air guiding channel 605, the air collecting portion corresponds to and communicates with the first air collecting chamber 607, a sealing member 8 is disposed between the air collecting portion and the first air collecting chamber 607, the first air collecting chamber 607 communicates with the second air collecting chamber 608 through the first air guiding channel 604, the second air collecting chamber 608 communicates with the adapting cavity 603 through the second air guiding channel 605, the second air guiding channel 605 also communicates with the mist channel 201, wherein the first air collecting chamber 607 is used for collecting the air flow entering from the air collecting portion, the sealing member 8 is made of silica gel material, the sealing effect is good, and is used for sealing the first air collecting chamber 607 to prevent air leakage when the air flow enters from the air collecting portion, the first air guiding channel 604 is used for guiding the air flow of the first air collecting chamber 607 into the second air collecting chamber 608, and the second air guiding channel 605 is used for guiding the air flow of the second air collecting chamber 608 into the mist channel 201 through the adapting cavity 603.

In some embodiments, the atomization main body 100 includes an oil storage bin body 1, an atomization tube 2 is arranged in the oil storage bin body 1, a space between the outer wall of the atomization tube 2 and the inner wall of the oil storage bin body 1 is used as an oil storage cavity 102, a mist channel 201 is formed in the atomization tube 2, a heating core 202 is arranged in the atomization tube 2, a sealing seat 3 for sealing the oil storage cavity 102 is arranged at the bottom end of the oil storage bin body 1, an air inlet channel 301 communicated with the mist channel 201 is arranged at the bottom end of the sealing seat 3, and a second air guide channel 605 is communicated with the mist channel 201 through the air inlet channel 301. The oil storage cavity 102 is used for storing tobacco tar, the mist channel 201 of the atomization tube 2 is used for ventilation flow and smoke exhaust fog, the heating core 202 is used for heating smoke in the oil storage cavity 102 to generate fog, the air inlet channel 301 is used for guiding air flow entering the adapting cavity 603 from the second air guide channel 605 into the mist channel 201, and the sealing seat 3 is used for preventing oil leakage of the oil storage cavity 102.

In some embodiments, the top end of the oil storage bin body 1 is provided with a smoking opening 101, the oil storage bin body 1 protrudes from the smoking opening 101 into the oil storage cavity 102 to form a smoke exhaust pipe 103, the upper end of the atomization pipe 2 is inserted into the smoke exhaust pipe 103, so that the mist channel 201 is communicated with the smoking opening 101, the outer wall of the atomization pipe 2 is provided with at least one oil inlet 203, the oil inlet 203 corresponds to the heating core 202, and the bottom end of the sealing seat 3 is provided with a third conductive electrode 302 and a fourth conductive electrode 303 which are electrically connected with the heating core 202. It should be noted that, after the air flow enters the mist channel 201, the heating core 202 is driven to heat the smoke generated by the tobacco tar, the smoke is discharged into the smoke exhaust pipe 103 from the mist channel 201, and then the smoke is sucked from the smoke suction port 101, wherein the oil inlet 203 is used for guiding the tobacco tar in the oil storage cavity 102 into the heating core 202 for heating and atomizing, and the third conductive electrode 302 and the fourth conductive electrode 303 are made of metal materials and are used for playing a conductive connection role.

In some embodiments, the power supply main body 200 includes a gas collecting member 6, a main body shell 9, and a gas sealing member 7, the gas collecting member 6 is disposed in the main body shell 9, the adapting cavity 603 is disposed at the top end of the gas collecting member 6, a first groove 601 is disposed on an outer wall of one side of the gas collecting member 6, a second groove 602 is disposed on an outer wall of the other side of the gas collecting member 6, a first gas guide channel 604 penetrates from a bottom wall of the first groove 601 to the second groove 602, a second gas guide channel 605 penetrates from a side wall of the second groove 602 to the adapting cavity 603, a shell wall of the main body shell 9 covers on an outer wall of one side of the gas collecting member 6 and forms a first gas collecting chamber 607 at the first groove 601, and the gas sealing member 7 covers on an outer wall of the other side of the gas collecting member 6 and forms a second gas collecting chamber 608 at the second groove 602. The air gathering member 6 is made of plastic material, the manufacturing cost is low, the adapting cavity 603, the two grooves and the two air guide channels are formed during injection molding in the film of the air gathering member 6, the machining process cost of each structure on the air gathering member 6 can be saved, the air sealing member 7 is made of PC material in a sheet shape, and the air sealing member is covered on the outer wall of the other side of the air gathering member 6 in a pasting mode, so that the manufacturing cost is low, and air leakage caused by falling can not occur.

In some embodiments, the outer wall of one side of the air gathering member 6 is further provided with an annular groove 606, the annular groove 606 surrounds the notch of the first groove 601, the sealing member 8 is arranged in the annular groove 606, the sealing member 8 is in butt joint with the shell wall of the main body shell 9 to seal the first air gathering chamber 607, the shell wall of the main body shell 9 corresponding to the first groove 601 is provided with an air inlet through hole 902 serving as an air inlet part, and the air inlet through hole 902 corresponds to and communicates with the first air gathering chamber 607. Wherein, the annular groove 606 surrounds the notch of the first groove 601, and after the sealing element 8 is installed, a gap between the periphery of the notch of the first groove 601 and the shell wall of the main body shell 9 can be sealed, so that air leakage during air intake is prevented.

In some embodiments, the top end of the main body shell 9 is provided with a cavity port 901, the cavity port 901 corresponds to and communicates with the adapting cavity 603, and the atomizing body 100 is inserted into the adapting cavity 603 through the cavity port 901. It should be noted that, the cavity port 901 is a through hole formed at the top end of the main body housing 9, where the shape of the through hole matches the shape of the adapting cavity 603 and the shape of the atomizing body 100.

In some embodiments, the bottom wall of the adaptation cavity 603 is provided with a first conductive electrode 4 and a second conductive electrode 5, the first conductive electrode 4 being in abutment with the third conductive electrode 302, the second conductive electrode 5 being in abutment with the fourth conductive electrode 303. The first conductive electrode 4 and the second conductive electrode 5 are also made of metal materials and are also used for conducting connection.

In some embodiments, power supply body 200 further includes a battery cell 10 and a control board 11, battery cell 10 and control board 11 being disposed within body housing 9, battery cell 10 being electrically connected to control board 11, control board 11 being electrically connected to first conductive electrode 4 and second conductive electrode 5. The battery cell 10 is used for conducting electricity to the control board 11 to enable the control board 11 to start an electric control function, and the control board 11 is used for outputting voltage and current required by normal heating to the heating core 202.

In some embodiments, power supply main body 200 further includes a main body cover 12, main body cover 12 is mounted on main body cover 9, power button 1201 and gear button 1202 are provided on main body cover 12, power button 1101 and gear button 1102 are provided on control board 11, power button 1101 corresponds to power button 1201, and gear button 1102 corresponds to gear button 1202. Wherein, pressing the power button 1201 on the main body shell cover 12, the controllable control panel 11 is powered on or powered off to the heating core 202 after the power button 1101 is powered on, pressing the gear button 1202 on the main body shell cover 12, and the controllable control panel 11 outputs different voltages and currents to the heating core 202 after the gear button 1102 is powered on, so that the heating quantity of the heating core 202 is increased or decreased.

The following is a detailed description of the preferred embodiments.

As shown in fig. 1 to 9, the electronic atomizing device of the present utility model includes: the oil storage bin body 1, the atomizing tube 2, the sealing seat 3, the first conductive electrode 4, the second conductive electrode 5, the gas collecting piece 6, the gas sealing piece 7, the sealing piece 8, the main body shell 9, the battery cell 10, the control panel 11 and the main body shell cover 12, wherein the atomizing tube 2 is arranged in the oil storage bin body 1, a space between the outer wall of the atomizing tube 2 and the inner wall of the oil storage bin body 1 is used as an oil storage cavity 102 for storing oil, a mist channel 201 is formed in the atomizing tube 2 for ventilation flow and smoke exhaust, a heating core 202 is arranged in the atomizing tube 2 for heating smoke oil to generate smoke, the sealing seat 3 is arranged at the bottom end of the oil storage bin body 1 and is used for sealing the oil storage cavity 102, an air inlet channel 301 communicated with the mist channel 201 is formed at the bottom end of the sealing seat 3 and is used for air inlet into the mist channel 201, the gas collecting piece 6 is arranged in the main body shell 9 and is internally fixed, an adaptation cavity 603 is concavely formed at the top end of the gas collecting piece 6 and is used for adapting to the oil storage bin body 1, a first groove 601 is formed on the outer wall of one side of the air gathering piece 6, a second groove 602 is formed on the outer wall of the other side of the air gathering piece 6, a first air guide channel 604 penetrating to the second groove 602 is formed on the bottom wall of the first groove 601 and used for air guide, a second air guide channel 605 penetrating to the adapting cavity 603 is formed on the side wall of the second groove 602 and used for air guide, a first air gathering chamber 607 is formed on the outer wall of one side of the air gathering piece 6 at the first groove 601, an air sealing piece 7 is covered on the outer wall of the other side of the air gathering piece 6 and used for gathering air at the second groove 602, an annular groove 606 is formed on the outer wall of one side of the air gathering piece 6 and surrounds the notch of the first groove 601, a sealing piece 8 is arranged in the annular groove 606 and is in butt joint with the shell wall of the main body shell 9 to seal the first air gathering chamber 607, an air inlet hole 902 is formed in the shell wall of the main body shell 9 corresponding to the first groove 601, the air inlet hole 902 corresponds to and is communicated with the first air collecting chamber 607 and is used for air inlet into the first air collecting chamber 607 during smoking, a cavity opening 901 is formed in the top end of the main body shell 9, the cavity opening 901 corresponds to and is communicated with the adapting cavity 603, the lower end of the oil storage bin body 1 is inserted into the adapting cavity 603 through the cavity opening 901 so that the air inlet channel 301 is communicated with the second air guide channel 605 and is used for air guide, a smoking opening 101 is formed in the top end of the oil storage bin body 1 and is used for smoking, a smoke exhaust pipe 103 is formed by protruding the oil storage bin body 1 from the smoking opening 101 into the oil storage cavity 102 and is used for smoke exhaust, the upper end of the atomizing pipe 2 is inserted into the smoke exhaust pipe 103 so that the mist channel 201 is communicated with the smoking opening 101, four oil inlet holes 203 are formed in the outer wall of the atomizing pipe 2, the oil inlet holes 203 correspond to the heating core 202 and are used for guiding the smoke in the oil storage cavity 102 into the heating core 202, the bottom end of the sealing seat 3 is provided with a third conductive electrode 302 and a fourth conductive electrode 303 which are electrically connected with the heating core 202 and are used for conducting connection, the bottom wall of the adapting cavity 603 is provided with a first conductive electrode 4 and a second conductive electrode 5, the first conductive electrode 4 is abutted against the third conductive electrode 302, the second conductive electrode 5 is abutted against the fourth conductive electrode 303 and is also used for conducting connection, the electric core 10 and the control board 11 are arranged in the main body shell 9, the electric core 10 is electrically connected with the control board 11 and is used for conducting electricity to the control board 11 so as to start an electric control function, the control board 11 is electrically connected with the first conductive electrode 4 and the second conductive electrode 5 and is used for outputting voltage and current required by normal heating to the heating core 202, the main body shell cover 12 is arranged on the main body shell 9, the main body shell cover 12 is provided with a power button 1201 and a gear button 1202, the control board 11 is provided with a power button 1101 and a gear button 1102, the power button 1101 corresponds to the power button 1201, the gear button 1102 corresponds to the gear button 1202, the power button 1201 is pressed on the main body shell cover 12, the control panel 11 can be controlled to electrify or cut off power to the heating core 202 after the power button 1101 is powered, the gear button 1202 is pressed on the main body shell cover 12, and the control panel 11 can be controlled to output different voltages and currents to the heating core 202 after the gear button 1102 is powered, so that the heating value of the heating core 202 is increased or decreased.

As shown in fig. 10, in the embodiment of the present utility model, the airflow direction of the electronic atomization device is specifically illustrated, during smoking, the airflow enters the first air gathering chamber 607 formed by enclosing the first groove 601 and the shell wall of the main body shell 9 from the air inlet through hole 902, then enters the second air gathering chamber 608 formed by enclosing the second groove 602 and the air sealing member 7 through the first air guiding channel 604, then enters the adapting cavity 603 through the second air guiding channel 605, then enters the mist channel 201 through the air inlet channel 301 at the bottom end of the sealing seat 3, then drives the heating core 202 to heat the smoke generated by the smoke oil, and is discharged into the smoke exhaust pipe 103 from the mist channel 201, and then the smoke is sucked at the smoking mouth 101.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that the present utility model is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (11)

1. The utility model provides an electron atomizing device that can gather gas, includes atomizing main part and power supply main part, its characterized in that, be equipped with the oil storage chamber in the atomizing main part, be equipped with the fog passageway in the oil storage chamber, be equipped with the core that generates heat in the fog passageway, the power supply main part is equipped with intercommunicating inlet portion and gas portion that gathers in proper order along the direction of air current to and adaptation chamber, be equipped with the sealing member between inlet portion and the gas portion that gathers, the atomizing main part inserts adaptation chamber makes the fog passageway communicates with each other with gas portion that gathers.

2. The electronic atomizing device of claim 1, wherein the air inlet is formed by a through hole or a channel.

3. The electronic atomizing device according to claim 1, wherein the air collecting portion includes a first air collecting chamber, a first air guide passage, a second air collecting chamber, and a second air guide passage, the air inlet portion corresponds to and communicates with the first air collecting chamber, the sealing member is provided between the air inlet portion and the first air collecting chamber, the first air collecting chamber communicates with the second air collecting chamber through the first air guide passage, the second air collecting chamber communicates with the adapting chamber through the second air guide passage, and the second air guide passage also communicates with the mist passage.

4. The electronic atomization device according to claim 3, wherein the atomization main body comprises an oil storage bin body, an atomization tube is arranged in the oil storage bin body, a space between the outer wall of the atomization tube and the inner wall of the oil storage bin body is used as the oil storage cavity, the atomization tube is internally provided with the mist channel, the heating core is arranged in the atomization tube, the bottom end of the oil storage bin body is provided with a sealing seat for sealing the oil storage cavity, the bottom end of the sealing seat is provided with an air inlet channel communicated with the mist channel, and the second air guide channel is communicated with the mist channel through the air inlet channel.

5. The electronic atomization device according to claim 4, wherein a smoke suction port is formed in the top end of the oil storage bin body, a smoke exhaust pipe is formed in the oil storage bin body protruding from the smoke suction port into the oil storage cavity, the upper end of the atomization pipe is inserted into the smoke exhaust pipe, so that the mist channel is communicated with the smoke suction port, at least one oil inlet hole is formed in the outer wall of the atomization pipe, the oil inlet hole corresponds to the heating core, and a third conductive electrode and a fourth conductive electrode which are electrically connected with the heating core are arranged at the bottom end of the sealing seat.

6. The electronic atomizing device according to claim 3, wherein the power supply main body comprises a gas gathering member, a main body shell and a gas sealing member, the gas gathering member is arranged in the main body shell, the adapting cavity is formed in the top end of the gas gathering member, a first groove is formed in the outer wall of one side of the gas gathering member, a second groove is formed in the outer wall of the other side of the gas gathering member, the first gas guide channel penetrates from the bottom wall of the first groove to the second groove, the second gas guide channel penetrates from the side wall of the second groove to the adapting cavity, the shell wall of the main body shell covers the outer wall of one side of the gas gathering member and forms the first gas gathering chamber in the first groove, and the gas sealing member covers the outer wall of the other side of the gas gathering member and forms the second gas gathering chamber in the second groove.

7. The electronic atomizing device according to claim 6, wherein an annular groove is further formed in an outer wall of one side of the air gathering member, the annular groove surrounds a notch of the first groove, the sealing member is arranged in the annular groove, the sealing member abuts against a wall of the main body shell to seal the first air gathering chamber, an air inlet through hole serving as the air inlet portion is formed in the wall of the main body shell corresponding to the first groove, and the air inlet through hole corresponds to and is communicated with the first air gathering chamber.

8. The electronic atomizing device according to claim 6, wherein a cavity opening is formed in the top end of the main body shell, the cavity opening corresponds to and communicates with the fitting cavity, and the atomizing main body is inserted into the fitting cavity through the cavity opening.

9. The electronic atomizing device of claim 8, wherein the bottom wall of the adapter cavity is provided with a first conductive electrode and a second conductive electrode, the first conductive electrode being in contact with the third conductive electrode, the second conductive electrode being in contact with the fourth conductive electrode.

10. The electronic atomizing device of claim 9, wherein the power supply body further includes a battery cell and a control board, the battery cell and the control board being disposed within the body housing, the battery cell being electrically connected to the control board, the control board being electrically connected to the first conductive electrode and the second conductive electrode.

11. The electronic atomizing device of claim 10, wherein the power supply main body further comprises a main body cover, the main body cover is mounted on the main body cover, a power button and a gear button are arranged on the control board, the power button corresponds to the power button, and the gear button corresponds to the gear button.

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