CN218790532U - Electronic atomization device capable of conducting gas and separating oil - Google Patents

Abstract

The utility model discloses a can lead electronic atomization device of gas oil removal, including atomizing main part and power supply main part, the atomizing main part is equipped with communicating fog passageway and inlet channel each other, be equipped with the air guide oil removal structure that is used for the air guide and keeps apart the tobacco tar in the power supply main part, the atomizing main part with power supply main part combination back, the air guide oil removal structure will the inlet channel is sealed, fog passageway accessible the air guide oil removal structure air guide. The utility model discloses an electronic atomization device of air conduction oil removal, atomizing main part and power supply main part combination back utilize air conduction oil removal structure sealed with inlet channel, prevent that electronic atomization device from using the back, the condensation tobacco tar that produces in the fog passageway flows from inlet channel, then causes the short circuit in the infiltration power supply main part, and when electronic atomization device normally used, air current accessible air conduction oil removal structure was to the air conduction in the fog passageway.

Description

Electronic atomization device capable of conducting gas and isolating oil

Technical Field

The utility model belongs to the technical field of the electronic atomization technique and specifically relates to an electronic atomization device that can lead gas and separate oil is related to.

Background

At present, current electronic atomization device, user can produce the condensation tobacco tar in the fog passageway of atomizing main part after using, and the condensation tobacco tar collects and can form after many that oil drips and pass through inlet channel outflow atomizing main part from the air guide hole, then flows to and contacts with air current inductive switch contact and electric core and control panel in the power supply main part to cause the power supply part short circuit.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but electronic atomization device of air guide oil removal has solved the electronic atomization device among the prior art, and the condensation tobacco tar that produces flows out the atomizing main part in the fog passageway of atomizing main part after using, then flows in the problem that causes the short circuit of electronic atomization device in the power supply main part.

The utility model provides a technical scheme that above-mentioned technical problem adopted is: the utility model provides an electronic atomization device that can air guide oil removal, includes atomizing main part and power supply main part, the atomizing main part is equipped with communicating fog passageway and inlet channel each other, be equipped with the air guide oil removal structure that is used for the air guide and keeps apart the tobacco tar in the power supply main part, the atomizing main part with power supply main part combination back, the air guide oil removal structure will the inlet channel is sealed, fog passageway accessible the air guide oil removal structure air guide.

As an implementation mode, be equipped with on the power supply main part and be used for the adaptation chamber of atomizing main part, the atomizing main part is through inserting the adaptation intracavity with the power supply main part combination, the air guide separates oily structure and establishes the chamber diapire that the adaptation chamber corresponds.

As an embodiment, the atomizing main part includes the oil storage storehouse, be formed with the oil storage chamber in the oil storage storehouse, be equipped with in the oil storage storehouse bottom opening and be used for sealing the oil sealing piece in oil storage chamber, be equipped with the base in the oil sealing piece bottom opening, the base with be formed with inclosed air guide space from top to bottom between the oil sealing piece, inlet channel sets up the base bottom, just inlet channel with the air guide space is corresponding and communicate with each other.

As an implementation mode, the atomizing main body further comprises an atomizing core, the atomizing core is internally provided with the atomizing channel, the atomizing channel is internally provided with a heating core, the oil sealing member is provided with a first through hole corresponding to and communicated with the oil storage cavity, the bottom end of the base is further provided with a second through hole corresponding to the first through hole, the atomizing core is inserted into the oil storage cavity from the second through hole through the first through hole, the outer wall of the atomizing core is provided with at least one air guide hole communicated with the atomizing channel, the air guide hole is located in the air guide space, and the atomizing channel is communicated with the air inlet channel through the air guide hole and the air guide space.

As an implementation mode, the air guide oil separation structure comprises an air guide piece and a sealing element, the upper end of the air guide piece is gradually contracted and extends to longitudinally protrude to form an insertion body, the outer wall of the insertion body is provided with a groove, the sealing element is sleeved in the groove, the top end of the insertion body is provided with an air guide channel penetrating through the insertion body and the air guide piece, the insertion body is inserted into the air inlet channel, the upper end of the insertion body extends into the air guide space, the outer wall of the sealing element is abutted against the inner wall of the air inlet channel to seal the air inlet channel, and the air guide channel is communicated with the fog channel through the air guide space and the air guide hole.

As an implementation mode, the power supply main body comprises a main body shell, a cavity is formed in the main body shell, a support is arranged in the cavity and serves as the adaptation cavity, the support serves as the cavity bottom wall of the adaptation cavity, a through channel is formed in the top end of the support, the air guide piece is inserted into the through channel, an air inlet hole is formed in the outer wall of the main body shell and communicated with the cavity, a first sealing ring is sleeved on the outer wall of the support, and the adaptation cavity is isolated from the cavity by abutting against the outer wall of the first sealing ring and the inner wall of the cavity.

As an implementation mode, a second sealing ring for sealing the air guide space is arranged between the outer wall of the base and the inner wall of the oil sealing piece, a suction nozzle is arranged at the top end of the oil storage bin, a smoking channel penetrating through the suction nozzle is formed in the top end of the suction nozzle, the upper end of the atomizing core is inserted into the smoking channel, and the mist channel is also communicated with the smoking channel.

As an implementation mode, at least one oil inlet hole is further formed in the outer wall of the atomizing core, one end of the oil inlet hole corresponds to the heating core, and the other end of the oil inlet hole corresponds to the oil storage cavity.

As an implementation mode, the power supply main body further comprises an electric core, a control panel and at least two electrodes, the electric core is arranged in the support, the control panel is arranged on the side wall of the support, each electrode is arranged on the top end of the support, the electric core is electrically connected with the control panel, the control panel is electrically connected with each electrode, each electrode is further electrically connected with the atomizing core, an airflow inductive switch is arranged on the control panel, the airflow inductive switch is also inserted into the through channel, and the airflow inductive switch corresponds to the lower end of the air guide channel.

As an implementation manner, the top end of the bracket is further provided with at least one first magnetic attraction piece, the top end of the base is further provided with at least one second magnetic attraction piece, each first magnetic attraction piece corresponds to each corresponding second magnetic attraction piece, the atomizing main body is inserted into the adaptation cavity, and the first magnetic attraction pieces are respectively magnetically attracted to each corresponding second magnetic attraction piece through each first magnetic attraction piece and detachably combined with the power supply main body.

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 but electron atomizing device of air guide oil removal has following beneficial effect: the utility model discloses an electronic atomization device of air guide oil removal, through designing the air guide oil removal structure, the atomizing main part makes up with the power supply main part after, utilize the inserter of air guide oil removal structure to insert in the inlet channel, then utilize the sealing member sealed with the inlet channel, electronic atomization device uses the back, the condensation tobacco tar that produces in the fog passageway can be followed the air guide hole and flowed in the air guide space and store, thereby make the condensation tobacco tar can not follow inlet channel outflow atomizing main part, then cause the short circuit in the infiltration power supply main part, when electronic atomization device normally uses, the air guide passageway of air current accessible air guide oil removal structure is to the interior air guide of fog passageway.

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 first and the second end of the pipe are connected with each other,

FIG. 1 is an exploded view of the gas-permeable, oil-impermeable electronic atomizer of the present invention;

FIG. 2 is a schematic perspective view of the electronic atomizer with gas guiding and oil separating functions of the present invention;

fig. 3 is a schematic cross-sectional view of the electronic atomization device capable of guiding air and separating oil of the present invention;

FIG. 4 is a schematic structural diagram of an atomizing main body of the electronic atomizing device capable of guiding air and separating oil of the present invention;

fig. 5 is a schematic structural diagram of a power supply main body of the electronic atomization device capable of guiding air and separating oil of the invention;

FIG. 6 is a schematic structural diagram of a base of the electronic atomization device capable of guiding air and separating oil of the present invention;

FIG. 7 is a schematic structural diagram of an air guide of the electronic atomizer capable of guiding air and separating oil according to the present invention;

fig. 8 is an enlarged schematic view of a partial structure of the electronic atomization device capable of guiding air and separating oil of the present invention;

FIG. 9 is a schematic view of a condensed smoke oil of the electronic atomization device with gas guiding and oil separating functions;

fig. 10 is an airflow direction diagram of the electronic atomization device capable of guiding air and separating oil of the present invention.

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 formed technical solutions are all within the protection scope of the present invention.

As shown in fig. 1-8, the utility model provides a can lead electronic atomization device of gas oil removal, including atomizing main part 100 and power supply main part 200, atomizing main part 100 is equipped with communicating fog passageway 501 and inlet channel 301, is equipped with the air guide oil removal structure that is used for the air guide and keeps apart the tobacco tar in the power supply main part 200, and after atomizing main part 100 and power supply main part 200 combined, the air guide oil removal structure sealed inlet channel 301, and fog passageway 501 accessible air guide oil removal structure air guide. It should be noted that the mist channel 501 is used for air flow and smoke exhaust, the air inlet channel 301 is used for air inlet into the mist channel 501 during smoke exhaust, and by designing the air guide and oil isolation structure, after the atomizing main body 100 is combined with the power supply main body 200, the air guide and oil isolation structure can seal the air inlet channel 301, so that after the electronic atomizing device is used, condensed smoke oil generated in the mist channel 501 flows out from the air inlet channel 301 and then permeates into the power supply main body 200 to cause short circuit, and when the electronic atomizing device is normally used, air flow can be guided into the mist channel 501 through the air guide and oil isolation structure.

In some embodiments, the power supply main body 200 is provided with an adaptation cavity 1203 for adapting the atomizing main body 100, the atomizing main body 100 is combined with the power supply main body 200 by being inserted into the adaptation cavity 1203, and the gas guide and oil separation structure is provided on a corresponding cavity bottom wall of the adaptation cavity 1203. It should be noted that the shape and size of the adaptation chamber 1203 match the shape and size of the insertion portion of the atomizing body 100.

In other embodiments, the gas guide and oil separation structure may be further disposed on a side wall of the adaptive cavity 1203, as long as the gas inlet channel 301 corresponds to the gas guide and oil separation structure, and the mist channel 501 is communicated with the gas guide and oil separation structure.

In some embodiments, the atomizing main body 100 includes an oil storage bin 1, an oil storage cavity 103 is formed in the oil storage bin 1, an oil sealing member 2 for sealing the oil storage cavity 103 is arranged in an opening at the bottom end of the oil storage bin 1, a base 3 is arranged in an opening at the bottom end of the oil sealing member 2, an air guide space 304 which is sealed up and down is formed between the base 3 and the oil sealing member 2, an air inlet channel 301 is arranged at the bottom end of the base 3, and the air inlet channel 301 corresponds to and communicates with the air guide space 304. The oil storage cavity 103 is used for storing smoke oil, the oil sealing piece 2 is made of silica gel materials and used for sealing the smoke oil in the oil storage cavity 103, the air guide space 304 is used for guiding air flow entering from the air guide oil separation structure into the fog channel 501, and after the air guide oil separation structure seals the air inlet channel 301, condensed smoke oil generated in the fog channel 501 can flow into the air guide space 304 to be stored.

In some embodiments, the atomizing main body 100 further includes an atomizing core 5, a mist channel 501 is formed in the atomizing core 5, a heating core 504 is disposed in the mist channel 501, a first through hole 201 corresponding to and communicating with the oil storage cavity 103 is formed in the oil seal 2, a second through hole 302 corresponding to the first through hole 201 is further formed at the bottom end of the base 3, the atomizing core 5 is inserted into the oil storage cavity 103 from the second through hole 302 through the first through hole 201, at least one air guide hole 503 communicating with the mist channel 501 is formed in an outer wall of the atomizing core 5, the air guide hole 503 is located in the air guide space 304, and the mist channel 501 is communicated with the air inlet channel 301 through the air guide hole 503 and the air guide space 304. It should be noted that, when the atomizing body 100 is combined with the power supply body 200, the air guide oil separation structure seals the air inlet channel 301, so that the condensed smoke oil generated in the smoke channel 501 after smoking can flow into the air guide space 304 from the air guide hole 503 for storage, and will not flow out of the atomizing body 100 from the air inlet channel 301.

In some embodiments, the air guide oil separation structure includes an air guide element 8 and a sealing element 7, the upper end of the air guide element 8 is gradually contracted and extends longitudinally to form an insertion body 801, a groove 803 is formed in the outer wall of the insertion body 801, the sealing element 7 is sleeved in the groove 803, an air guide channel 802 penetrating through the insertion body 801 and the air guide element 8 is formed at the top end of the insertion body 801, the insertion body 801 is inserted into the air inlet channel 301, the upper end of the insertion body 801 extends into the air guide space 304, the outer wall of the sealing element 7 is abutted against the inner wall of the air inlet channel 301 to seal the air inlet channel 301, and the air guide channel 802 is communicated with the mist channel 501 through the air guide space 304 and the air guide hole 503. It should be noted that, after the insertion body 801 of the air guide 8 extends into the air guide space 304 through the air guide channel 301, the air guide channel 301 is sealed by the sealing element 7, and during smoking, the air flow can enter the air guide space 304 from the air guide channel 802, and then enter the mist channel 501 through the air guide hole 503 to drive the smoke generated by heating the smoke oil by the heating core 504 to flow in the mist channel 501, wherein the sealing element 7 is made of a circular silica gel material, which is convenient for assembly and has a good sealing effect.

In some embodiments, the power supply main body 200 includes a main body casing 12, a cavity 1201 is formed in the main body casing 12, a support 9 is arranged in the cavity 1201, the cavity 1201 is used as an adaptation cavity 1203, the support 9 is used as a cavity bottom wall of the adaptation cavity 1203, a through channel 901 is formed at the top end of the support 9, the air guide member 8 is inserted into the through channel 901, an air inlet hole 1202 is formed in the outer wall of the main body casing 12, the air inlet hole 1202 is communicated with the cavity 1201, a first sealing ring 902 is sleeved on the outer wall of the support 9, and the outer wall of the first sealing ring 902 is abutted against the inner wall of the cavity 1201 to isolate the adaptation cavity 1203 from the cavity 1201. It should be noted that the cavity 1201 of the main body shell 12 is used for accommodating the support 9 and is used for ventilation, the air inlet hole 1202 is used for introducing an external air flow into the cavity 1201 during smoking, and then is introduced into the air guide space 304 through the air guide channel 802, the first sealing ring 902 isolates the adaptation cavity 1203 from the cavity 1201, so that the air flow is prevented from leaking into the adaptation cavity 1203 after entering the cavity 1201, and the sensitivity of the air flow is affected.

In some embodiments, a second sealing ring 4 for sealing the air guide space 304 is disposed between the outer wall of the base 3 and the inner wall of the oil seal 2, the top end of the oil storage bin 1 is provided with a suction nozzle 101, the top end of the suction nozzle 101 is provided with a smoking channel 102 penetrating through the suction nozzle 101, the upper end of the atomizing core 5 is inserted into the smoking channel 102, and the mist channel 501 is also communicated with the smoking channel 102. It should be noted that the second sealing ring 4 seals the air guide space 304 to prevent air from leaking after the air flow enters the air guide space 304 from the air guide channel 802, so that the smoke in the smoke channel 501 cannot flow, the mouthpiece is used for smoking in the mouth, and the smoke in the smoke channel 501 can be sucked into the mouth of the user along with the air flow from the smoking channel 102.

In some embodiments, the outer wall of the atomizing core 5 is further formed with at least one oil inlet 502, one end of the oil inlet 502 corresponds to the heat generating core 504, and the other end of the oil inlet 502 corresponds to the oil storage chamber 103. It should be noted that, in this embodiment, the number of the oil inlets 502 is preferably four, the oil guiding amount is large, so that the heating core 504 is not burned dry, and the smoke in the oil storage cavity 103 can be guided into the heating core 504 through the oil inlets 502, and then heated and atomized by the heating core 504 to generate smoke.

In some embodiments, the power supply main body 200 further includes a battery cell 10 and a control board 11, and at least two electrodes 6, the battery cell 10 is disposed in the bracket 9, the control board 11 is disposed on a side wall of the bracket 9, each electrode 6 is disposed on a top end of the bracket 9, the battery cell 10 is electrically connected to the control board 11, the control board 11 is electrically connected to each electrode 6, each electrode 6 is further electrically connected to the atomizing core 5, an airflow inductive switch is disposed on the control board 11, the airflow inductive switch is also inserted into the through channel 901, and the airflow inductive switch corresponds to a lower end of the air guide channel 802. The electric core 10 is used for supplying power to the control board 11, so that the electric control function is started, the control board 11 is used for outputting voltage and current required by normal heating for the heating core 504 of the atomizing core 5 through the electrode 6, during smoking, external air flow enters the cavity 1201 from the air inlet hole 1202, then can be sensed by the air flow sensing switch when entering the air guide channel 802 from the through channel 901, and then the electric core 10 is controlled to supply power to the control board 11.

In some embodiments, at least one first magnetic element 903 is disposed on the top end of the support 9, at least one second magnetic element 303 is disposed on the top end of the base 3, each first magnetic element 903 corresponds to each corresponding second magnetic element 303, the atomizing main body 100 is inserted into the adapting cavity 1203, and is detachably combined with the power supply main body 200 by being magnetically attracted to each corresponding second magnetic element 303 through each first magnetic element 903. It should be noted that the first magnetic element 903 and the second magnetic element 303 are both magnets, and may be one or more magnets, and may be disposed at the bottom end and the side wall, as long as the opposite poles of the two magnets correspond to each other.

The following is a detailed description of specific examples.

As shown in fig. 1-8, the specific components of the electronic atomizing device are shown in the figures, which include an oil storage bin 1, an oil sealing member 2, a base 3, a second seal ring 4, an atomizing core 5, an electrode 6, a sealing member 7, an air guiding member 8, a support 9, an electric core 10, a control board 11, and a main body case 12, wherein an oil storage cavity 103 is formed in the oil storage bin 1 for storing smoke oil, the oil sealing member 2 is arranged in an opening at the bottom end of the oil storage bin 1 for sealing the oil storage cavity 103, the base 3 is arranged in an opening at the bottom end of the oil sealing member 2 for fixing the oil sealing member 2, an air guiding space 304 which is sealed up and down is formed between the base 3 and the oil sealing member 2 for guiding air and storing condensed smoke oil, an air inlet channel 301 is formed at the bottom end of the base 3 for communicating an air passage, and the air inlet channel 301 is corresponding to and communicated with the air guiding space 304, a first through hole 201 corresponding to and communicated with the oil storage cavity 103 is formed on the oil sealing member 2, the bottom end of the base 3 is further provided with a second through hole 302 corresponding to the first through hole 201, the atomizing core 5 is inserted into the oil storage cavity 103 from the second through hole 302 through the first through hole 201, a mist channel 501 is formed in the atomizing core 5, a heating core 504 is arranged in the mist channel 501, the outer wall of the atomizing core 5 is provided with two air guide holes 503 communicated with the mist channel 501, the air guide holes 503 are located in an air guide space 304, the mist channel 501 is communicated with the air inlet channel 301 through the air guide holes 503 and the air guide space 304, a second sealing ring 4 is arranged between the outer wall of the base 3 and the inner wall of the oil sealing member 2 for sealing the air guide space 304, the top end of the oil storage bin 1 is provided with a suction nozzle 101 for sucking smoke, the top end of the suction nozzle 101 is provided with a smoke suction channel 102 penetrating through the suction nozzle 101 for sucking smoke, the upper end of the atomizing core 5 is inserted into the smoke channel 102, the mist channel 501 is also communicated with the smoke channel 102 for discharging smoke, the outer wall of the atomizing core 5 is further provided with four oil inlet holes 502 for oil inlet, one end of an oil inlet hole 502 corresponds to the heating core 504, the other end of the oil inlet hole 502 corresponds to the oil storage cavity 103, a cavity 1201 is formed in the main body shell 12, the support 9 is installed in the cavity 1201 of the main body shell 12, the part of the cavity 1201 above the top end of the support 9 can be used as an adaptation cavity 1203, the lower half part of the oil storage bin 1 is inserted into the adaptation cavity 1203, a first sealing ring 902 is sleeved on the outer wall of the support 9, the outer wall of the first sealing ring 902 is abutted to the inner wall of the cavity 1201 to isolate the adaptation cavity 1203 from the cavity 1201, so as to prevent air leakage, an air inlet hole 1202 is formed in the outer wall of the main body shell 12, the air inlet hole 1202 is communicated with the cavity 1201, the control panel 11 is installed on the side wall of the support 9 to be fixed, the electrode 6 is installed at the top end of the support 9 and fixed, the battery core 10 is installed in the support 9, the battery core 10 is welded on the control panel 11 to supply power to the control panel 11, the control panel 11 is welded to be electrically connected to the electrode 6, the top end of the electrode 6 is abutted to be electrically connected to the bottom end of the atomizing core 5, the top end of the support 9 is provided with a through channel 901, the air guide piece 8 is inserted into the through channel 901 for fixing, the upper end of the air guide piece 8 is gradually necked down and extends longitudinally to form an insertion body 801, the outer wall of the insertion body 801 is provided with a groove 803, the sealing piece 7 is sleeved in the groove 803, the top end of the insertion body 801 is provided with an air guide channel 802 penetrating through the insertion body 801 and the air guide piece 8, the insertion body 801 is inserted into the air inlet channel 301, the upper end of the insertion body 801 extends into the air guide space 304, the outer wall of the sealing piece 7 is abutted against the inner wall of the air inlet channel 301 to seal the air inlet channel 301, the air guide channel 802 is communicated with the fog channel 501 through the air guide space 304 and the air guide hole 503, the control panel 11 is provided with an air flow induction switch, the air flow induction switch corresponds to the lower end of the air guide channel 802 and is used for inducing air flow and then controlling the electric core 10 to supply power to the control panel 11, the top end of the support 9 is further provided with two first magnetic attraction pieces 903, the top end of the base 3 is further provided with two second magnetic attraction pieces 303, each first magnetic attraction piece 903 corresponds to each corresponding second magnetic attraction piece 303, the atomization main body 100 is inserted into the adaptation cavity 1203, the first magnetic attraction pieces 903 are respectively magnetically attracted with each corresponding second magnetic attraction piece 303 and detachably combined with the power supply main body 200

As shown in fig. 9, in the embodiment of the present invention, the condensed smoke oil of the electronic atomization device is going to the specific implementation description, after the insertion body 801 of the air guide 8 extends into the air guide space 304 through the air inlet channel 301, the air inlet channel 301 is sealed by the sealing member 7, after smoking, the condensed smoke oil generated in the smoke channel 501 can flow into the air guide space 304 from the air guide hole 503 to be stored, and is sealed in the air guide space 304.

As shown in fig. 10, in the embodiment of the present invention, the airflow of the electronic atomization device goes to the specific implementation description, and during smoking, the external airflow can enter the cavity 1201 from the air inlet port 1202, then enter the air guide channel 802 from the through channel 901, then enter the air guide space 304, and then enter the mist channel 501 through the air guide hole 503, so as to drive the heating core 504 to heat the smoke generated by the smoke oil to be discharged from the smoking channel 102 and inhaled.

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 a but electronic atomization device of air guide oil removal, includes atomizing main part and power supply main part, its characterized in that, atomizing main part is equipped with communicating fog passageway and inlet channel each other, be equipped with the air guide oil removal structure that is used for the air guide and keeps apart the tobacco tar in the power supply main part, atomizing main part with power supply main part combination back, the air guide oil removal structure will the inlet channel is sealed, fog passageway accessible the air guide oil removal structure air guide.

2. The electronic atomization device of claim 1, wherein the power supply body is provided with an adaptation cavity for adapting the atomization body, the atomization body is combined with the power supply body by being inserted into the adaptation cavity, and the air guide oil separation structure is arranged on a cavity bottom wall corresponding to the adaptation cavity.

3. The electronic atomization device of claim 2, wherein the atomization body comprises an oil storage bin, an oil storage cavity is formed in the oil storage bin, an oil sealing piece used for sealing the oil storage cavity is arranged in an opening at the bottom end of the oil storage bin, a base is arranged in an opening at the bottom end of the oil sealing piece, an air guide space which is sealed up and down is formed between the base and the oil sealing piece, the air inlet channel is arranged at the bottom end of the base, and the air inlet channel corresponds to and communicates with the air guide space.

4. The electronic atomization device of claim 3, wherein the atomization body further comprises an atomization core, the atomization core forms the fog channel, a heating core is arranged in the fog channel, the oil seal member is provided with a first through hole corresponding to and communicated with the oil storage cavity, the bottom end of the base is further provided with a second through hole corresponding to the first through hole, the atomization core is inserted into the oil storage cavity from the second through hole through the first through hole, the outer wall of the atomization core is provided with at least one air guide hole communicated with the fog channel, the air guide hole is located in the air guide space, and the fog channel is communicated with the air inlet channel through the air guide hole and the air guide space.

5. The electronic atomization device of claim 4, wherein the air guide oil separation structure comprises an air guide piece and a sealing piece, the upper end of the air guide piece is gradually contracted and extends to longitudinally protrude to form an insertion body, the outer wall of the insertion body is provided with a groove, the sealing piece is sleeved in the groove, the top end of the insertion body is provided with an air guide channel which penetrates through the insertion body and the air guide piece, the insertion body is inserted into the air guide channel, the upper end of the insertion body extends into the air guide space, the outer wall of the sealing piece is abutted against the inner wall of the air guide channel to seal the air guide channel, and the air guide channel is communicated with the fog channel through the air guide space and the air guide hole.

6. The electronic atomization device of claim 5, wherein the power supply body comprises a body shell, a cavity is formed in the body shell, a support is arranged in the cavity, the cavity serves as the adaptation cavity, the support serves as a cavity bottom wall of the adaptation cavity, a through channel is formed in the top end of the support, the air guide piece is inserted into the through channel, an air inlet hole is formed in the outer wall of the body shell and communicated with the cavity, a first sealing ring is sleeved on the outer wall of the support, and the adaptation cavity is isolated from the cavity by abutting of the outer wall of the first sealing ring and the inner wall of the cavity.

7. The electronic atomization device of claim 3, wherein a second seal ring for sealing the air guide space is disposed between an outer wall of the base and an inner wall of the oil storage bin, a suction nozzle is disposed at a top end of the oil storage bin, a smoking channel penetrating the suction nozzle is disposed at a top end of the suction nozzle, an upper end of the atomization core is inserted into the smoking channel, and the mist channel is also communicated with the smoking channel.

8. The electronic atomization device of claim 4, wherein the outer wall of the atomization core is further provided with at least one oil inlet, one end of the oil inlet corresponds to the heating core, and the other end of the oil inlet corresponds to the oil storage cavity.

9. The electronic atomization device of claim 6, wherein the power supply body further comprises a battery cell and a control board, and at least two electrodes, the battery cell is disposed in the support, the control board is disposed on the side wall of the support, each electrode is disposed on the top end of the support, the battery cell is electrically connected to the control board, the control board is electrically connected to each electrode, each electrode is also electrically connected to the atomization core, an airflow sensing switch is disposed on the control board, the airflow sensing switch is also inserted into the through channel, and the airflow sensing switch corresponds to the lower end of the air guide channel.

10. The electronic atomizer of claim 9, wherein the top of the holder further comprises at least one first magnetic attraction element, the top of the base further comprises at least one second magnetic attraction element, each first magnetic attraction element corresponds to a corresponding second magnetic attraction element, the atomizer is inserted into the adapting cavity, and the power supply is detachably assembled with the atomizer by each first magnetic attraction element attracting a corresponding second magnetic attraction element.

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