CN219741846U - Atomizer and aerial fog generating device - Google Patents

Abstract

The utility model discloses an atomizer and an aerosol generating device, the atomizer comprises an oil storage main body, an air regulating structure is arranged on the oil storage main body, the air regulating structure comprises an air inlet part, an air passing cavity, an adapting cavity and an air regulating piece, the air inlet part is communicated with the air passing cavity, the air regulating piece is detachably arranged in the adapting cavity, at least one opening is arranged on the cavity wall of the adapting cavity, a toggle key extending into the opening is arranged on the air regulating piece, the toggle key can enable the air regulating piece to rotate in the adapting cavity through toggling in the opening, and the air flow of the air inlet part entering the air passing cavity can be regulated. After the scheme is adopted, the atomization air flow can be regulated in a stirring mode, so that the air regulating structure is simple, the air regulating operation is labor-saving, the clamping piece cannot be caused, the air regulating piece is detachable, and the assembly and the replacement are convenient.

Description

Atomizer and aerial fog generating device

Technical Field

The utility model relates to the technical field of atomization, in particular to an atomizer and an aerosol generating device.

Background

At present, the existing aerosol generating device is characterized in that an air regulating ring is arranged on the atomizer in an air regulating structure on the atomizer, and then the air regulating ring is screwed by fingers to regulate the air flow, so that the air regulating structure is complex in structure, laborious in air regulating operation, very easy to cause clamping pieces, and inconvenient to assemble and replace.

Disclosure of Invention

The utility model aims to provide an atomizer and an aerosol generating device, which solve the problems of complex design of an aerosol adjusting structure on the atomizer, laborious air adjusting operation, easy clamping piece generation and inconvenient assembly and replacement in the prior art.

According to a first aspect of the embodiment of the utility model, an atomizer is provided, and comprises an oil storage main body, wherein an air regulating structure is arranged on the oil storage main body, the air regulating structure comprises an air inlet part, an air passing cavity, an adapting cavity and an air regulating piece, the air inlet part is communicated with the air passing cavity, the air regulating piece is detachably arranged in the adapting cavity, at least one opening is formed in the cavity wall of the adapting cavity, a stirring key extending into the opening is arranged on the air regulating piece, the stirring key can enable the air regulating piece to rotate in the adapting cavity through stirring in the opening, and the air flow of the air inlet part entering the air passing cavity can be regulated.

As one embodiment, the oil storage device main body is internally provided with an oil storage cavity, the oil storage cavity is internally provided with a mist channel and a heating cavity, the mist channel is communicated with the heating cavity, and the heating cavity is communicated with the air passing cavity.

As an embodiment, the air inlet is formed by a notch and/or a channel.

As an implementation mode, the oil storage device main body comprises an oil storage bin, an atomization cover is arranged in the oil storage bin, the top end of the atomization cover is necked and longitudinally protruded to form a fog pipe, the fog pipe is internally provided with a fog channel, the atomization cover is internally provided with a heating cavity, the bottom end of the atomization cover is provided with a first conductive connecting piece, and the inner wall of the oil storage bin is provided with the first conductive connecting piece and the atomization cover, and a space between the outer walls of the fog pipe is used as the oil storage cavity.

As an implementation mode, the air regulating structure further comprises an air regulating seat, a groove serving as the adapting cavity is formed in the bottom end of the air regulating seat, the air regulating piece is detachably arranged in the groove, the outer wall of the air regulating seat serves as the cavity wall of the adapting cavity, the opening is formed in the outer wall of the air regulating seat, an inner concave space is formed in the top end of the air regulating piece, the groove is provided with a groove bottom wall, and the groove bottom wall covers the top end of the air regulating piece and forms the air passing cavity in the inner concave space; the oil sealing device is characterized in that the necking at the upper end of the air regulating seat forms an oil sealing body, the oil sealing body is inserted into the bottom port of the oil storage bin, and a sealing ring is arranged between the outer wall of the oil sealing body and the inner wall of the oil storage bin.

As an implementation mode, the bottom end of the air regulating seat is also provided with at least one notch, the inner wall of each notch is provided with a first channel corresponding to the groove, the outer wall of the air regulating piece is provided with at least one second channel communicated with the air passing cavity, each first channel corresponds to and is communicated with each second channel, each notch, each first channel and each second channel form the air inlet part, and the toggle key can enable the air regulating piece to rotate in the groove through toggle in the opening, so that each second channel intersects with each first channel and coincides with each second channel to change the air inflow.

As one embodiment, an insulating member is disposed in the first conductive connecting member, a second conductive connecting member is disposed in the insulating member, and an electric heating element electrically connected to the first conductive connecting member and the second conductive connecting member is disposed in the heating chamber.

As an implementation mode, the oil storage device main body further comprises a conductive connecting pipe, the upper end of the conductive connecting pipe is connected with a second conductive connecting piece, the lower end of the conductive connecting pipe extends into the groove through a through hole at the top end of the oil sealing body, the bottom end of the air adjusting piece is arranged on a through hole, the air adjusting piece is detachably arranged on the groove and sleeved on the outer wall of the conductive connecting pipe through the through hole, an air guide channel communicated with the heating cavity is formed in the conductive connecting pipe, an air vent communicated with the air guide channel is formed in the outer wall of the conductive connecting pipe, and the air cavity is communicated with the heating cavity through the air vent and the air guide channel.

As an implementation mode, the outer wall of the oil storage bin is also provided with an oil filling hole, the oil filling hole is communicated with the oil storage cavity, an oil sealing plug is detachably arranged in the oil filling hole, the top end of the oil storage bin is provided with a smoke outlet, the upper end of the mist pipe is inserted into the smoke outlet, and the mist channel is communicated with the smoke outlet.

A second aspect of the embodiment of the present utility model provides an aerosol generating device, including the above-mentioned atomizer.

It should be noted that, in the description of the present utility model, a large number of technical features are described, and are distributed in each technical solution, and if all possible combinations of technical features (i.e. technical solutions) of the present utility model are listed, the description is too lengthy. In order to avoid this problem, the technical features disclosed in the above summary of the utility model, 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 regarded as 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 atomizer and the aerosol generating device have the following beneficial effects: according to the atomizer and the aerosol generating device, the atomization air flow can be regulated by the air regulating structure on the atomizer in a toggle mode, so that the air regulating structure is simple, the air regulating operation is labor-saving, clamping pieces cannot be caused, the air regulating pieces are detachable, and the assembly and the replacement are convenient

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 a nebulizer according to an embodiment of the utility model;

fig. 2 is a schematic perspective view of an atomizer according to an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of a nebulizer provided in an embodiment of the utility model;

FIG. 4 is a schematic diagram of an air conditioning part of an atomizer according to an embodiment of the present utility model;

fig. 5 is a schematic diagram of a gas regulating seat of an atomizer according to an embodiment of the present utility model;

fig. 6 is a flow chart of an atomizer provided in an embodiment of the 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. 1-5, the utility model provides an atomizer, which comprises an oil storage main body 100, wherein an air regulating structure is arranged on the oil storage main body 100, the air regulating structure comprises an air inlet part 300, an air passing cavity 200, an adapting cavity and an air regulating piece 11, the air inlet part 300 is communicated with the air passing cavity 200, the air regulating piece 11 is detachably arranged in the adapting cavity, at least one opening 1001 is formed in the cavity wall of the adapting cavity, a stirring key 1101 extending into the opening 1001 is arranged on the air regulating piece 11, the stirring key 1101 can enable the air regulating piece 11 to rotate in the adapting cavity by stirring, and the air flow of the air inlet part 300 entering the air passing cavity 200 can be regulated. It should be noted that, the air adjusting structure on the atomizer can adjust the atomization air flow in a toggle mode, so that the air adjusting structure is simple, the air adjusting operation is labor-saving, the clamping piece can not be caused, the air adjusting piece 11 can be detached, and the assembly and the replacement are convenient.

In some embodiments, the oil reservoir body 100 has an oil reservoir chamber 103 therein, the oil reservoir chamber 103 has a mist channel 303 therein and a heating chamber 302, the mist channel 303 is in communication with the heating chamber 302, and the heating chamber 302 is in communication with the gas passing chamber 200. The oil storage cavity 103 is used for storing tobacco tar, the heating cavity 302 is used for heating the atomized tobacco tar, the fog channel 303 is used for ventilation flow and smoke exhaust fog, the air passing cavity 200 is used for converging the airflow entering the air inlet part 300, and then the airflow is intensively led into the fog channel 303.

In some embodiments, the intake 300 is formed by the indentation 1004 and/or the channel. In this embodiment, the notch 1004 and the channel are preferable, the notch 1004 is used for collecting air flow to prevent the air flow from dispersing when the air is taken in, and the channel is used for taking in air to make the air flow more stable and the flow speed faster.

In some embodiments, the oil reservoir main body 100 includes an oil reservoir 1, an atomization cap 3 is disposed in the oil reservoir 1, a top end of the atomization cap 3 is necked down and longitudinally protrudes to form a mist pipe 301, a mist channel 303 is formed in the mist pipe 301, a heating cavity 302 is formed in the atomization cap 3, a first conductive connecting piece 7 is disposed at a bottom end of the atomization cap 3, and a space between an inner wall of the oil reservoir 1 and the first conductive connecting piece 7 and the atomization cap 3, and an outer wall of the mist pipe 301 is used as the oil reservoir 103. The oil storage bin 1 is made of PC material, the cost is low, the amount of smoke and oil can be reduced, the outer walls of the atomization cover 3 and the mist pipe 301 are used for isolating the oil storage cavity 103 from the heating cavity 302 and the mist channel 303, and the first conductive connecting piece 7 plays a conductive connection role and is used for sealing the heating cavity 302.

In some embodiments, the air regulating structure further comprises an air regulating seat 10, a groove 1003 serving as an adapting cavity is formed at the bottom end of the air regulating seat 10, an air regulating member 11 is detachably arranged in the groove 1003, the outer wall of the air regulating seat 10 serves as a cavity wall of the adapting cavity, an opening 1001 is formed in the outer wall of the air regulating seat 10, a concave space 1104 is formed at the top end of the air regulating member 11, the groove 1003 is provided with a groove bottom wall 1007, and the groove bottom wall 1007 covers the top end of the air regulating member 11 and forms an air passing cavity 200 at the concave space 1104; the upper end of the air adjusting seat 10 is necked to form an oil sealing body 1002, the oil sealing body 1002 is inserted into the bottom port of the oil storage bin 1, and a sealing ring 9 is arranged between the outer wall of the oil sealing body 1002 and the inner wall of the oil storage bin 1. The grooves 1003 and the air adjusting pieces 11 are all circular, so that the air adjusting pieces 11 can rotate in the grooves 1003, the opening 1001 is square, when the toggle key 1101 is toggled left and right in the opening 1001, the toggle key 1101 can be toggled freely, and toggle amplitude of the toggle key 1101 can be limited at two ends of the opening 1001, so that air flow enters the air passing cavity 200 from the air inlet 300 more smoothly.

In some embodiments, the bottom end of the air adjusting seat 10 is further provided with at least one notch 1004, the inner wall of each notch 1004 is provided with a first channel 1005 corresponding to the groove 1003, the outer wall of the air adjusting member 11 is provided with at least one second channel 1102 communicating with the air passing chamber 200, each first channel 1005 corresponds to and communicates with each second channel 1102, each notch 1004 and each first channel 1005, and each second channel 1102 form an air inlet 300, and the toggle key 1101 can rotate the air adjusting member 11 in the groove 1003 by toggling in the opening 1001, so that each second channel 1102 intersects with each first channel 1005 and changes the air inflow. The notch 1004 is used for collecting external air flow, then the air flow enters the groove 1003 from the first channel 1005, then enters the air passing cavity 200 formed by enclosing the concave space 1104 and the groove bottom wall 1007 of the groove 1003 through the second channel 1102, when the toggle key 1101 is toggled left and right in the opening 1001, the air adjusting member 11 rotates clockwise or anticlockwise in the groove 1003, at the moment, the second channel 1102 also moves along with the air adjusting member 11, and the second channel 1102 intersects or coincides with the first channel 1005 in the moving process, so that the area of the second channel 1102 and the first channel 1005 is changed, and air adjustment is realized.

In some embodiments, the first conductive connector 7 is provided with an insulating member 6, the second conductive connector 5 is provided in the insulating member 6, and the heating chamber 302 is provided with an electric heating element 4 electrically connected to the first conductive connector 7 and the second conductive connector 5. The first conductive connecting piece 7 and the second conductive connecting piece 5 are made of conductive metal materials and are used for conducting connection, the insulating piece 6 is made of plastic materials and is used for isolating the first conductive connecting piece 7 and the second conductive connecting piece 5, and the electric heating element 4 is used for heating tobacco tar in the oil storage cavity 103.

In some embodiments, the oil reservoir main body 100 further includes a conductive connecting pipe 8, the upper end of the conductive connecting pipe 8 is connected with the second conductive connecting piece 5, the lower end of the conductive connecting pipe 8 extends into the groove 1003 through a through hole 1006 at the top end of the oil sealing body 1002, the bottom end of the air adjusting piece 11 is arranged at the through hole 1103, the air adjusting piece 11 is detachably arranged at the groove 1003 and sleeved on the outer wall of the conductive connecting pipe 8 through the through hole 1103, an air guide channel 801 communicated with the heating cavity 302 is formed in the conductive connecting pipe 8, an air vent 802 communicated with the air guide channel 801 is formed on the outer wall of the conductive connecting pipe 8, and the air passing cavity 200 is communicated with the heating cavity 302 through the air vent 802 and the air guide channel 801. The conductive connecting pipe 8 plays a role in power connection, and meanwhile, the air adjusting piece 11 is sleeved on the outer wall of the air adjusting piece through the through hole 1103 and positioned in the groove 1003, so that the air cannot fall off, and air flows into the air passing cavity 200, then enters the heating cavity 302 through the vent hole 802 and the air guide channel 801, and then drives smoke generated by heating tobacco tar by the electric heating element 4 to enter the mist channel 303.

In some embodiments, the outer wall of the oil storage bin 1 is also provided with an oil filling hole 101, the oil filling hole 101 is communicated with the oil storage cavity 103, an oil sealing plug 2 is detachably arranged in the oil filling hole 101, the top end of the oil storage bin 1 is provided with a smoke outlet 102, the upper end of a mist pipe 301 is inserted into the smoke outlet 102, and a mist channel 303 is communicated with the smoke outlet 102. The oil filling hole 101 is used for filling oil into the oil storage cavity 103, the oil sealing plug 2 is used for sealing the oil filling hole 101 after the oil is filled, and the smoke outlet 102 is used for discharging smoke in the mist channel 303 for a user to suck.

The utility model also provides an aerosol generating device which comprises the atomizer. The atomizer can be mounted on a matched power supply device, and the power supply device supplies power to enable the electric heating element 4 to generate heat to heat and atomize tobacco tar in the oil storage cavity 103 until smoke is generated.

The following is a detailed description of the preferred embodiments.

As shown in fig. 1-5, the atomizer of the present disclosure includes: the oil storage bin 1, the oil sealing plug 2, the atomization cover 3, the electric heating element 4, the second conductive connecting piece 5, the insulating piece 6, the first conductive connecting piece 7, the conductive connecting piece 8, the sealing ring 9, the gas regulating seat 10 and the gas regulating piece 11, wherein the atomization cover 3 is arranged in the oil storage bin 1, the top end of the atomization cover 3 is necked down and longitudinally protrudes to form a mist pipe 301, a mist channel 303 is formed in the mist pipe 301 and used for ventilation flow and smoke discharging mist, a heating cavity 302 is formed in the atomization cover 3 and used for containing the mist, the bottom end of the atomization cover 3 is provided with the first conductive connecting piece 7 and used for achieving the electric connection function, the space between the inner wall of the oil storage bin 1 and the first conductive connecting piece 7 and the outer wall of the atomization cover 3 and the space between the outer walls of the mist pipe 301 are used as an oil storage cavity 103 and used for storing the smoke, the insulating piece 6 is arranged in the first conductive connecting piece 7 and plays the role of isolation, the second conductive connecting piece 5 is also arranged in the insulating piece 6 and is used for achieving the electric connection function, the electric heating element 4 is arranged in the heating cavity 302 and is electrically connected with the first conductive connecting piece 7 and the second conductive connecting piece 5, and is used for heating tobacco tar to generate smoke, the upper end of the conductive connecting piece 8 is fixedly connected with the second conductive connecting piece 5, the outer wall of the oil storage bin 1 is also provided with an oil filling hole 101, the oil filling hole 101 is communicated with the oil storage cavity 103 and is used for filling oil into the oil storage cavity 103, an oil sealing plug 2 is detachably arranged in the oil filling hole 101 and is used for sealing the oil filling hole 101 after the oil is filled, the top end of the oil storage bin 1 is provided with a smoke outlet 102, the upper end of the smoke tube 301 is inserted into the smoke outlet 102, a smoke channel 303 is communicated with the smoke outlet 102 and is used for discharging the smoke, the bottom end of the air regulating seat 10 is provided with a circular groove 1003, the outer wall of the air regulating piece 11 is provided with a stirring key 1101, the air regulating piece 11 is arranged in the groove 1003, the outer wall of the air regulating seat 10 is provided with an opening 1001 communicated with the groove 1003, the stirring key 1101 is positioned in the opening 1001, the toggle key 1101 is toggled in the opening 1001 to enable the air adjusting member 11 to rotate in the groove 1003, the top end of the air adjusting member 11 is provided with an indent space 1104, the groove 1003 is provided with a groove bottom wall 1007, the groove bottom wall 1007 covers the top end of the air adjusting member 11 and forms an air passing cavity 200 at the indent space 1104 for gathering air, the upper end of the air adjusting seat 10 is necked down to form an oil sealing body 1002, the oil sealing body 1002 is inserted into a bottom port of the oil storage bin 1 for sealing the oil storage cavity 103, a sealing ring 9 is arranged between the outer wall of the oil sealing body 1002 and the inner wall of the oil storage bin 1 for sealing a gap between the two, the top end of the sealing body is provided with a through hole 1006, the lower end of the conductive connecting pipe 8 extends into the groove 1003 through the through hole 1006, the bottom end of the air adjusting member 11 is provided with a through hole 1103, the air adjusting member 11 is arranged in the groove 1003 and is detachably sleeved on the outer wall of the conductive connecting pipe 8 through the through hole 1103, an air guide channel 801 communicated with the heating cavity 302 is formed in the conductive connecting pipe 8, the outer wall of the conductive connecting pipe 8 is provided with a vent hole 802 communicated with the air guide channel 801 for ventilation, the air guide cavity 200 is communicated with the heating cavity 302 through the vent hole 802 and the air guide channel 801, the bottom end of the air adjusting seat 10 is also provided with two notches 1004, the inner wall of each notch 1004 is provided with a first channel 1005 corresponding to the groove 1003, the outer wall of the air adjusting piece 11 is provided with two second channels 1102 communicated with the air guide cavity 200, each first channel 1005 corresponds to and is communicated with each second channel 1102, each notch 1004 and each first channel 1005, and each second channel 1102 form an air inlet part 300 for air inlet, and the air adjusting piece 11 can rotate in the groove 1003 by stirring the stirring key 1101 in the opening 1001, so that each second channel 1102 and each first channel 1005 intersect and coincide to change the air inlet amount.

In the embodiment of the present utility model, as shown in fig. 6, the airflow direction of the atomizer is specifically illustrated, the airflow is collected in the notch 1004 during smoking, then enters the second channel 1102 through the first channel 1005, then enters the air passing chamber 200 formed by surrounding the concave space 1104 and the groove bottom wall 1007, then enters the air guiding channel 801 through the vent hole 802, then enters the heating cavity 302, and drives the smoke generated by heating the tobacco oil by the electric heating element 4 to enter the mist channel 303, and then the smoke is discharged from the smoke outlet 102 along with the airflow for the user to inhale.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present disclosure is not intended to be limiting, but rather, although the present disclosure 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 part of the features thereof. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims (10)

1. The utility model provides an atomizer, its characterized in that includes the oil storage ware main part, be equipped with the gas regulating structure on the oil storage ware main part, the gas regulating structure includes air inlet, passes through gas cavity, adaptation chamber, and transfers the gas spare, air inlet with it communicates with each other to pass through gas cavity, it detachably establishes to transfer the gas spare the adaptation chamber, at least one opening has been seted up on the chamber wall of adaptation chamber, it stretches into to be equipped with on the gas spare to transfer the key stir the open-ended key, stir the key and be in can make through stirring in the opening transfer the gas spare and be in adaptation intracavity rotation, can adjust air inlet gets into the air flow of passing gas cavity.

2. The atomizer of claim 1 wherein said reservoir body has an oil reservoir therein, said oil reservoir having a mist passage therein and a heating chamber, said mist passage in communication with said heating chamber, said heating chamber in communication with said air passing chamber.

3. The nebulizer of claim 1, wherein the air inlet is formed by a notch and/or channel.

4. The atomizer of claim 2, wherein said oil reservoir body comprises an oil reservoir, an atomization cap is disposed in said oil reservoir, a top end of said atomization cap is necked down and longitudinally protrudes to form a mist pipe, said mist pipe is internally formed with said mist channel, said heating cavity is internally formed with said atomization cap, a bottom end of said atomization cap is provided with a first conductive connector, and a space between an inner wall of said oil reservoir and said first conductive connector and said atomization cap, and an outer wall of said mist pipe is used as said oil reservoir.

5. The atomizer of claim 4 wherein said air regulating structure further comprises an air regulating seat, said air regulating seat bottom end having a recess for said adapter cavity, said air regulating member being removably disposed in said recess, said air regulating seat outer wall being a cavity wall of said adapter cavity, said opening having an outer wall of said air regulating seat, said air regulating member top end having an indent space, said recess having a bottom wall, said bottom wall overlying said air regulating member top end and forming said air passing chamber at said indent space; the oil sealing device is characterized in that the necking at the upper end of the air regulating seat forms an oil sealing body, the oil sealing body is inserted into the bottom port of the oil storage bin, and a sealing ring is arranged between the outer wall of the oil sealing body and the inner wall of the oil storage bin.

6. The atomizer of claim 5 wherein said air regulating seat further comprises at least one notch at a bottom end thereof, wherein a first channel corresponding to said recess is provided in an inner wall of each said notch, at least one second channel corresponding to said air passing chamber is provided in an outer wall of said air regulating member, each said first channel corresponds to and communicates with each said second channel, each said notch and each said first channel, and each said second channel forms said air inlet, said toggle key is operable to rotate said air regulating member in said recess by toggling in said opening, such that each said second channel intersects and coincides with each said first channel to change an air intake.

7. The atomizer of claim 4 wherein an insulator is disposed within said first conductive connector, a second conductive connector is disposed within said insulator, and an electrical heating element is disposed within said heating chamber in electrical communication with said first conductive connector and said second conductive connector.

8. The atomizer of claim 5 wherein said reservoir body further comprises a conductive connecting tube, said conductive connecting tube having an upper end connected to said second conductive connecting member, said conductive connecting tube having a lower end extending into said recess through said through-hole in said oil seal top end, said air adjusting member having a bottom end disposed in said through-hole, said air adjusting member being detachably disposed in said recess and disposed in said conductive connecting tube outer wall through said through-hole, said conductive connecting tube having an air guide passage formed therein in communication with said heating chamber, said conductive connecting tube outer wall having an air vent formed therein in communication with said air guide passage, said air passage chamber being in communication with said heating chamber through said air vent and said air guide passage.

9. The atomizer of claim 4, wherein the outer wall of the oil storage bin is further provided with an oil filling hole, the oil filling hole is communicated with the oil storage cavity, an oil sealing plug is detachably arranged in the oil filling hole, the top end of the oil storage bin is provided with a smoke outlet, the upper end of the mist pipe is inserted into the smoke outlet, and the mist channel is communicated with the smoke outlet.

10. An aerosol generating device comprising an atomizer according to any one of claims 1 to 9.