CN115918969A - An aerosol generating device and assembly method thereof - Google Patents

Abstract

The invention discloses an aerosol generating device and an assembling method, the aerosol generating device comprises an oil storage device main body, an atomizing core and an air adjusting piece, an oil storage cavity is formed in the oil storage device main body, a penetrating part communicated with the oil storage cavity is arranged on the oil storage device main body, the atomizing core can be detachably inserted into the oil storage cavity through the penetrating part to atomize smoke oil, the air adjusting piece is detachably arranged on the oil storage device main body, the air adjusting piece is positioned on the periphery of the penetrating part, and the size of atomizing airflow can be adjusted by rotating the air adjusting piece on the oil storage device main body. After the technical scheme is adopted, the aerosol generating device can be assembled by only three steps, so that the aerosol generating device has the advantages of few parts, simple structure, high assembly efficiency and high labor and material cost, has the function of adjusting the atomization airflow, and is convenient to replace because the atomization core and the air adjusting part are detachable.

Description

Aerosol generating device and assembling method

Technical Field

The invention relates to the technical field of atomization, in particular to an aerosol generating device and an assembling method.

Background

At present, in the existing aerosol generating device, the atomizing core and the incoming material of the oil storage device are all bulk parts, and need to be manually combined together in a riveting, welding, fusing and pressing mode, so that the atomizing core and the oil storage device are formed, the number of parts in the assembling process is large, the operation procedures of the combined connection mode among the parts are large, the structure is complex, the assembling is inconvenient, the assembling efficiency is low, the labor cost and the material cost are high, the structure has a fussy air regulating function and cannot be implemented, and the atomizing core cannot be disassembled, so that the atomizing core cannot be replaced after the fault occurs.

Disclosure of Invention

The invention aims to provide an aerosol generating device and an assembling method, which solve the problems that in the aerosol generating device in the prior art, a plurality of parts are arranged in the assembling process, the operation procedures of the combined connection mode among the parts are more, the structure is complex, the assembly is inconvenient, the assembly efficiency is low, the labor cost and the material cost are high, the aerosol generating device does not have the air adjusting function, and an atomizing core cannot be disassembled, so that the aerosol generating device cannot be replaced after a fault occurs.

The first aspect of the embodiment of the invention provides an aerosol generating device, which comprises an oil storage device main body, an atomizing core and an air adjusting piece, wherein an oil storage cavity is formed in the oil storage device main body, a penetrating part communicated with the oil storage cavity is arranged on the oil storage device main body, the atomizing core can be detachably inserted into the oil storage cavity through the penetrating part to atomize smoke oil, the air adjusting piece is detachably arranged on the oil storage device main body, the air adjusting piece is positioned on the periphery of the penetrating part, and the size of atomizing airflow can be adjusted by rotating the air adjusting piece on the oil storage device main body.

As an embodiment, the through-going portion is formed by a through-hole and/or a channel.

As an embodiment, the atomizing core has a conductive exposed end connected to the oil storage chamber, and the conductive exposed end extends out of the oil storage chamber and is located in the through portion.

As an implementation mode, a mist channel is formed in the atomizing core, a heating core is arranged in the mist channel, a gas guide port is formed in the conductive exposed end, and the gas guide port is communicated with the mist channel.

In one embodiment, the outer wall of the air adjusting part is provided with an anti-slip structure for increasing friction force.

In one embodiment, the anti-slip structure includes one of knurls, grooves and bumps.

As an embodiment, the oil conservator main part includes the oil storage storehouse, form in the oil storage storehouse the oil storage chamber, be equipped with in the oil storage storehouse bottom end opening and be used for sealing the storehouse base in oil storage chamber, seted up on the storehouse base with the corresponding and communicating through-hole in oil storage chamber, the storehouse base is followed the through-hole department extends vertical protruding formation connecting pipe, the connecting pipe has the pipeline passageway, the through-hole with the pipeline passageway is linked together, the through-hole with the pipeline passageway constitutes the run-through portion, electrically conductive exposed end passes through the through-hole stretches out the oil storage chamber is located in the pipeline passageway.

As an implementation mode, the outer wall of the connecting pipe is provided with at least one notch, the notch corresponds to and is communicated with the air guide port, the air adjusting piece is detachably sleeved on the outer wall of the connecting pipe, a sealing ring is arranged between the inner wall of the air adjusting piece and the outer wall of the connecting pipe, the outer wall of the air adjusting piece is provided with at least one air inlet, and the air inlet is coincided with and communicated with the notch.

As an implementation mode, a smoke outlet is formed at the top end of the oil storage bin, the oil storage bin protrudes from the smoke outlet into the oil storage cavity to form a smoke guide tube, the smoke outlet is communicated with the smoke guide tube, the upper end of the atomizing core is sleeved on the outer wall of the smoke guide tube, and the smoke guide tube is communicated with the fog channel; an oil filling hole is formed in the outer wall of the oil storage bin, the oil filling hole is communicated with the oil storage cavity, and an oil sealing plug used for sealing the oil filling hole is detachably arranged on the outer wall of the oil storage bin.

As an implementation mode, the bottom end of the conductive exposed end is provided with an insulating part, a conductive connecting part is arranged in the insulating part, the conductive connecting part and the conductive exposed end are both made of conductive metal materials, and the heating core is electrically connected with the conductive connecting part and the conductive exposed end; at least one oil inlet hole is formed in the outer wall of the atomizing core, and the oil inlet hole corresponds to the heating core.

A second aspect of an embodiment of the present invention provides a method for assembling an aerosol generating device, including: providing a pre-assembled oil reservoir body; providing a pre-assembled atomizing core; providing a pre-assembled gas regulating part; and the oil reservoir main body, the atomizing core and the air adjusting piece are assembled into the aerosol generating device.

As an embodiment, the oil reservoir body is pre-assembled by:

providing an oil storage bin with an oil filling hole, an oil storage cavity, a smoke outlet and a smoke guide pipe, an oil sealing plug, a sealing ring and a bin base with a through hole and a connecting pipe;

the bin base is arranged at the bottom end of the oil storage bin, so that an oil storage cavity is formed in the oil storage bin, the smoke outlet is formed in the top end of the oil storage bin, the smoke guide pipe is arranged in the oil storage cavity and communicated with the smoke outlet, the oil injection hole is formed in the outer wall of the oil storage bin, the through hole is formed in the bin base and communicated with the oil storage cavity, the connecting pipe is arranged at the bottom of the bin base and communicated with the through hole, and the outer wall of the connecting pipe is provided with a notch;

installing the oil sealing plug on the outer wall of the oil storage bin, so that the oil sealing plug seals the oil filling hole; and

and sleeving the sealing ring on the outer wall of the connecting pipe.

As an implementation mode, the air adjusting part is arranged on the outer wall of the connecting pipe, so that the size of the atomized air flow can be adjusted by rotating the air adjusting part on the connecting pipe, wherein the sealing ring is positioned between the inner wall of the air adjusting part and the outer wall of the connecting pipe, and the air adjusting part is provided with an air inlet corresponding to and communicated with the notch.

As an embodiment, the method further includes inserting the atomizing core into the oil storage chamber from the connecting pipe, so that the upper end of the atomizing core is connected to the lower end of the smoke guide pipe, thereby assembling the aerosol generating device. The atomizing core is internally provided with a fog channel communicated with the smoke guide pipe, the fog channel is internally provided with a heating core, the outer wall of the atomizing core is provided with an oil inlet hole corresponding to the heating core, the lower end of the atomizing core is provided with a connected conductive exposed end, the conductive exposed end is positioned in the connecting pipe, the conductive exposed outer wall is provided with a gas guide port communicated with the fog channel, the gap is corresponding to and communicated with the gas guide port, the bottom end of the conductive exposed end is provided with an insulating part, a conductive connecting part is arranged in the insulating part, and the heating core is electrically connected with the conductive connecting part and the conductive exposed end.

In one embodiment, after the aerosol generating device is assembled, whether the resistance value of the atomizing core is normal or not is detected, and the oil reservoir main body is filled with oil.

In one embodiment, after the gas mist generator is assembled, the gas mist generator is left standing, dropped, and operated at high and low temperatures, and whether the gas mist generator is normally energized and whether the oil reservoir body leaks oil is detected.

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 invented in the above summary of the invention of the present application, the respective technical features invented in the following embodiments and examples, and the respective technical features invented in the drawings can be freely combined with each other to constitute various new technical solutions (all of 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, the feature a + B + C is invented, in another example, the feature a + B + D + E is invented, and the features C and D are equivalent technical means for the same function, so that the features C and D can be used alternatively and cannot be used simultaneously, and the feature E can be combined with the feature C technically, so that the solution of a + B + C + D should not be regarded as being described because the technology is not feasible, and the solution of a + B + C + E should be regarded as being described.

The implementation of the aerosol generating device and the assembling method of the invention has the following beneficial effects: according to the aerosol generating device and the assembling method, the aerosol generating device can be assembled only through three steps, so that the aerosol generating device is few in parts, simple in structure, high in assembling efficiency and high in labor and material cost, has the function of adjusting the atomizing airflow, and is convenient to replace because the atomizing core and the air adjusting piece are detachable.

Drawings

The present invention will be described in detail below with reference to the accompanying drawings so that the above advantages of the present invention will be more apparent. Wherein,

FIG. 1 is an exploded view of an aerosol-generating device of the present invention;

FIG. 2 is a schematic perspective view of an aerosol-generating device of the present invention;

FIG. 3 is a schematic cross-sectional view of an aerosol-generating device of the present invention;

FIG. 4 is a schematic view of the internal structure of the reservoir body of the aerosol generating device of the present invention;

FIG. 5 is a schematic view of the internal structure of the atomizing core of the aerosol-generating device of the present invention;

FIG. 6 is a flow chart of a method of assembling the aerosol generating device of the present invention;

FIG. 7 is a flow chart of a pre-assembled reservoir body in a method of assembling an aerosol-generating device of the present invention;

FIG. 8 is a flow chart of a method of assembling the aerosol generating device of the present invention;

FIG. 9 is a flow chart of a method of assembling the aerosol generating device of the present invention;

figure 10 is a flow chart of a method of assembling the aerosol generating device of the present invention, including the steps of detecting;

figure 11 is a flow chart of a method of assembling the aerosol generating device of the present invention including the steps of detecting.

Detailed description of the preferred embodiments

The following detailed description will be given with reference to the accompanying drawings and examples to explain how to apply the technical means to solve the technical problems and to achieve the technical effects. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are within the scope of the present invention.

As shown in fig. 1 to 5, an embodiment of the present invention provides an aerosol generating device 200, which includes an oil reservoir main body 100, an atomizing core 5, and an air adjusting member 6, wherein an oil storage chamber 201 is formed in the oil reservoir main body 100, a penetrating portion communicated with the oil storage chamber 201 is provided on the oil reservoir main body 100, the atomizing core 5 can be detachably inserted into the oil storage chamber 201 through the penetrating portion to atomize the smoke, the air adjusting member 6 is detachably provided on the oil reservoir main body 100, the air adjusting member is located at the periphery of the penetrating portion, and the air adjusting member 6 can adjust the size of the atomizing air flow by rotating on the oil reservoir main body 100. It should be noted that, after the above technical solution is adopted in this embodiment, the aerosol generating device 200 can be assembled by only three steps, and not only has a few components, a simple structure, high assembly efficiency, and high labor and material costs, but also has the function of adjusting the atomization airflow, and the atomization core 5 and the air adjustment member 6 can be detached, and are convenient to replace.

In some embodiments, the through-penetration is formed by the through-hole 301 and/or the channel. In the present embodiment, a through hole 301 and a channel are preferably adopted, wherein the through hole 301 and the channel are located on the same vertical line, and are corresponding and communicated, the through hole 301 is used for inserting the atomizing core 5 into the oil storage chamber 201, and the channel is used for positioning the conductive exposed end 501 at the lower end of the atomizing core 5 to prevent the atomizing core 5 from shifting.

In some embodiments, the atomizing core 5 has an electrically conductive exposed end 501 attached, and the electrically conductive exposed end 501 extends out of the oil reservoir 201 in the through portion. Wherein, electrically conductive exposed end 501 is used for fixing a position atomizing core 5 in the through portion, prevents that atomizing core 5 from appearing the skew in oil storage chamber 201, and electrically conductive exposed end 501 is used for playing electrically conductive connection effect simultaneously.

In some embodiments, a mist channel 507 is formed in the atomizing core 5, a heating core 506 is arranged in the mist channel 507, an air guide opening 502 is formed on the conductive exposed end 501, and the air guide opening 502 is communicated with the mist channel 507. It should be noted that the mist channel 507 is used for ventilating air and discharging smoke, the heating core 506 is used for heating smoke oil in the oil storage cavity 201 to generate smoke, and the air guide opening 502 is used for driving the smoke to flow towards the ventilating air in the mist channel 507.

In some embodiments, the outer wall of the air adjusting member 6 is provided with an anti-slip structure for increasing the friction force. Wherein, anti-skidding structure is used for increasing frictional force, takes place to slide when preventing to rotate and transfer piece 6 and makes and transfer piece 6 can not rotate, and wherein transfer piece 6 and make by annular metal material, hardness greatly can not deform.

In some embodiments, the non-slip feature comprises one of knurls, grooves 601, and bumps. The present embodiment preferably uses the groove 601, which has a large surface roughness and a strong friction force, and is designed such that the damper 6 can be formed by die-casting in a film.

In some embodiments, the oil reservoir main body 100 includes an oil storage chamber 2, an oil storage cavity 201 is formed in the oil storage chamber 2, a chamber base 3 for sealing the oil storage cavity 201 is arranged in an opening at the bottom end of the oil storage chamber 2, a through hole 301 corresponding to and communicating with the oil storage cavity 201 is formed in the chamber base 3, the chamber base 3 extends from the through hole 301 to form a connecting pipe 302 in a longitudinally protruding manner, the connecting pipe 302 has a pipe channel 303, the through hole 301 is communicated with the pipe channel 303, the through hole 301 and the pipe channel 303 form a penetrating part, and the conductive exposed end 501 extends out of the oil storage cavity 201 through the through hole 301 and is located in the pipe channel 303. It should be noted that the oil storage bin 2 and the bin base 3 are made of PCTG materials and are connected together in an ultrasonic press-fit welding mode, and the supplied materials are not required to be assembled as a combination of the two, wherein the oil storage cavity 201 is used for storing tobacco tar, the bin base 3 is used for sealing the oil storage cavity 201, the through hole 301 is used for enabling the atomizing core 5 to be inserted into the oil storage cavity 201 to atomize the tobacco tar, the connecting pipe 302 is used for installing the gas regulating piece 6 and enabling the gas regulating piece 6 to rotate on the outer wall of the connecting pipe 302, and the pipe channel 303 is used for accommodating the conductive exposed end 501 and positioning the conductive exposed end 501.

In some embodiments, the outer wall of the connection tube 302 is formed with at least one notch 304, the notch 304 corresponds to and communicates with the air guide opening 502, the air adjusting member 6 is detachably sleeved on the outer wall of the connection tube 302, the sealing ring 4 is disposed between the inner wall of the air adjusting member 6 and the outer wall of the connection tube 302, the outer wall of the air adjusting member 6 is formed with at least one air inlet 602, and the air inlet 602 coincides with and communicates with the notch 304. The two notches 304 are preferably selected in this embodiment, that is, the notches are used for ventilating the air guide port 502 to enable air flow to enter the mist channel 507, and meanwhile, the conductive exposed end 501 can be exposed out of the notch 304, so that a finger can conveniently pull the conductive exposed end 501 through the notch 304 to pull the atomizing core 5 out of the oil storage cavity 201, wherein the sealing ring 4 is used for sealing a gap between the inner wall of the air adjusting piece 6 and the outer wall of the connecting pipe 302 to prevent air leakage, the size of the air inlet hole 602 can be changed by rotating the air adjusting piece 6 on the outer wall of the connecting pipe 302 to change the size of the air inlet amount to realize air adjustment, during operation, the air flow can enter from the air inlet hole 602, then sequentially pass through the notch 304 and the air guide port 502 to enter the mist channel 507, and then drive the heating core 506 in the mist channel 507 to heat smoke generated by smoke oil to flow.

In some embodiments, the top end of the oil storage bin 2 is provided with a smoke outlet 203, the oil storage bin 2 protrudes inwards from the smoke outlet 203 to the oil storage cavity 201 to form a smoke guide pipe 204, the smoke outlet 203 is communicated with the smoke guide pipe 204, the upper end of the atomizing core 5 is sleeved on the outer wall of the smoke guide pipe 204, and the smoke guide pipe 204 is communicated with the mist channel 507; oil filler point 202 has been seted up to oil storage bin 2 outer wall, and oil filler point 202 communicates with each other with oil storage chamber 201, and detachably is equipped with the oil blanket 1 that is used for sealed oil filler point 202 on the 2 outer walls of oil storage bin. It should be noted that the smoke generated by heating the smoke oil by the heating core 506 in the smoke passage 507 can be discharged from the smoke outlet 203 through the smoke guiding pipe 204 for the user to suck, the oil filling hole 202 is used for filling oil into the oil storage cavity 201, and the oil sealing plug 1 is used for sealing the oil filling hole 202 after the oil is filled.

In some embodiments, the bottom end of the conductive exposed end 501 is provided with an insulating member 504, a conductive connecting member 505 is disposed in the insulating member 504, the conductive connecting member 505 and the conductive exposed end 501 are both made of conductive metal, and the heating core 506 is electrically connected to the conductive connecting member 505 and the conductive exposed end 501; at least one oil inlet 503 is opened on the outer wall of the atomizing core 5, and the oil inlet 503 corresponds to the heating core 506. It should be noted that the insulating member 504 is made of rubber material and is used for isolating the conductive connecting member 505 and the conductive exposed end 501 and preventing the short circuit caused by the contact between the conductive connecting member 505 and the conductive exposed end 501, the aerosol generating device 200 is installed in an adaptive power supply device and then is connected with electricity, and then the heating core 506 is conducted to generate heat, and the oil inlet 503 is used for guiding the smoke oil in the oil storage chamber 201 into the heating core 506 to be heated and atomized.

As shown in fig. 1-11, embodiments of the present invention further provide a method of assembling an aerosol-generating device 200. In a method of assembling the aerosol-generating device 200, as in the embodiment shown in fig. 6, the steps of:

s110 providing a preassembled reservoir body 100;

s120 providing a preassembled atomizing core 5;

s130, providing a pre-assembly gas regulating part 6; and

s140, the aerosol generating device 200 is assembled by the oil reservoir body 100, the atomizing core 5, and the damper 6.

In the method of assembly of the aerosol-generating device 200, as in the embodiment shown in figure 7, the oil reservoir body 100 is pre-assembled by:

s210, providing an oil storage bin 2 with an oil filling hole 202, an oil storage cavity 201, a smoke outlet 203 and a smoke guide pipe 204, an oil sealing plug 1, a sealing ring 4 and a bin base 3 with a through hole 301 and a connecting pipe 302;

s220, mounting a bin base 3 at the bottom end of an oil storage bin 2 to form an oil storage cavity 201 in the oil storage bin 2, wherein a smoke outlet 203 is formed at the top end of the oil storage bin 2, a smoke guide pipe 204 is arranged in the oil storage cavity 201 and communicated with the smoke outlet 203, an oil filling hole 202 is formed in the outer wall of the oil storage bin 2, a through hole 301 is formed in the bin base 3 and communicated with the oil storage cavity 201, a connecting pipe 302 is arranged at the bottom of the bin base 3 and communicated with the through hole 301, and the outer wall of the connecting pipe 302 is provided with a notch 304;

s230, installing the oil seal plug 1 on the outer wall of the oil storage bin 2, so that the oil seal plug 1 seals the oil filling hole 202; and

s240, the sealing ring 4 is sleeved on the outer wall of the connecting pipe 302.

In assembling the aerosol-generating device 200, as in the embodiment shown in fig. 8, the assembling of the aerosol-generating device 200 further comprises:

s310, the air adjusting member 6 is installed on the outer wall of the connecting pipe 302, such that the size of the atomization airflow can be adjusted by rotating the air adjusting member 6 on the connecting pipe 302, wherein the sealing ring 4 is located between the inner wall of the air adjusting member 6 and the outer wall of the connecting pipe 302, and the air adjusting member 6 has an air inlet corresponding to and communicating with the gap 304.

In the method of assembling aerosol-generating device 200, as in the embodiment shown in fig. 9, the method of assembling aerosol-generating device 200 further comprises:

s410, the atomizing core 5 is inserted into the oil storage cavity 201 from the connecting pipe 302, so that the upper end of the atomizing core 5 is connected to the lower end of the smoke guide pipe 204, and the aerosol generating device 200 is assembled, wherein the atomizing core 5 is internally provided with an aerosol channel 507 communicated with the smoke guide pipe 204, the aerosol channel 507 is internally provided with a heating core 506, the outer wall of the atomizing core 5 is provided with an oil inlet 503 corresponding to the heating core 506, the lower end of the atomizing core 5 is provided with a connected conductive exposed end 501, the conductive exposed end 501 is positioned in the connecting pipe 302, the conductive exposed outer wall is provided with an air guide port 502 communicated with the aerosol channel 507, the notch 304 is corresponding to and communicated with the air guide port 502, the bottom end of the conductive exposed end 501 is provided with an insulating part 504, the insulating part 504 is internally provided with a conductive connecting part 505, and the heating core 506 is electrically connected with the conductive connecting part 505 and the conductive exposed end 501.

In the method of assembling aerosol-generating device 200, the method of assembling aerosol-generating device 200 further comprises a step of detecting. As in the embodiment shown in fig. 10, the assembly method includes:

s510 providing a preassembled reservoir body 100;

s520 providing a preassembled atomizing core 5;

s530, providing a pre-assembly gas regulating part 6;

s540, assembling the oil reservoir main body 100, the atomizing core 5 and the air adjusting piece 6 into the aerosol generating device 200; and

s550, after assembling the aerosol generating device 200, detects whether the resistance of the atomizing core 5 is normal, and injects oil into the oil reservoir main body 100.

In the method of assembling the aerosol-generating device 200, the method of assembling the aerosol-generating device 200 further includes a detecting step. As in the embodiment shown in fig. 11, the assembly method includes:

s610 providing a preassembled oil reservoir body 100;

s620, providing a preassembled atomizing core 5;

s630 providing a pre-assembled plenum 6;

s640, assembling the oil reservoir main body 100, the atomizing core 5, and the damper 6 into the aerosol generating device 200; and

s650, after assembling the gas mist generator 200, detects whether the gas mist generator 200 is normally energized and operated and whether the oil reservoir body 100 leaks oil, in a state where the gas mist generator 200 is left standing, dropped, and at a high temperature and a low temperature.

The order of the individual steps in the embodiments of the present invention may be changed unless otherwise specified. The individual steps of the embodiments described above can also be combined with one another. And are not intended to be limiting herein.

The following detailed description is given by way of preferred embodiments.

As shown in fig. 1 to 5, the aerosol-generating device 200 of the present invention includes: the oil seal device comprises an oil seal plug 1, an oil storage bin 2, a bin base 3, a seal ring 4, an atomizing core 5 and an air adjusting piece 6, wherein the atomizing core 5 is provided with a conductive exposed end 501 connected with the atomizing core 5 for playing an electric connection role, a fog channel 507 formed in the atomizing core 5 is used for ventilating air flow and discharging smoke, a heating core 506 arranged in the fog channel 507 is used for heating smoke oil to generate smoke, the conductive exposed end 501 is provided with an air guide port 502, the air guide port 502 is communicated with the fog channel 507 and used for guiding air into the fog channel 507, the bottom end of the conductive exposed end 501 is provided with an insulating piece 504 for playing an isolation role, a conductive connecting piece 505 arranged in the insulating piece 504 is used for playing a conductive connection role, the heating core 506 is electrically connected with the conductive connecting piece 505 and the conductive exposed end 501, the outer wall of the atomizing core 5 is provided with four oil inlet holes 503 for feeding oil, the oil inlet holes 503 correspond to the heating core 506, an oil storage cavity 201 formed in the oil storage bin 2 is used for storing smoke oil, the bin base 3 is arranged in an opening at the bottom end of the oil storage bin 2 and used for sealing the oil storage cavity 201, a through hole 301 corresponding to and communicated with the oil storage cavity 201 is formed in the bin base 3, the bin base 3 extends from the through hole 301 to protrude from the lower end of the bin base 3 to form a connecting pipe 302, the connecting pipe 302 is provided with a pipe passage 303, the through hole 301 is communicated with the pipe passage 303, the atomizing core 5 is inserted into the oil storage cavity 201 from the pipe passage 303 through the through hole 301, the conductive exposed end 501 extends out of the oil storage cavity 201 from the through hole 301 and extends into the pipe passage 303 of the connecting pipe 302 for positioning, the outer wall of the connecting pipe 302 is provided with two notches 304, the notches 304 correspond to and are communicated with the air guide ports 502 for air flow, the air adjusting piece 6 is detachably sleeved on the outer wall of the connecting pipe 302 and used for rotating the air adjusting piece 6 to adjust the air flow, the sealing ring 4 is arranged between the inner wall of the air adjusting piece 6 and the outer wall of the connecting pipe 302, the oil storage cavity is used for sealing a gap between the oil storage cavity and the oil storage cavity to prevent air leakage, the outer wall of the air adjusting piece 6 is provided with two air inlet holes 602, the air inlet holes 602 are overlapped with the notches 304 and communicated with the notches for air inlet, the outer wall of the air adjusting piece 6 is further provided with a plurality of grooves 601 for increasing friction force when the air adjusting piece 6 rotates on the outer wall of the connecting pipe 302 for air adjustment, the top end of the oil storage cavity 2 is provided with a smoke outlet 203 for smoke discharge, the oil storage cavity 2 protrudes inwards from the smoke outlet 203 to form a smoke guide pipe 204 and is also used for ventilation and smoke discharge, the smoke outlet 203 is communicated with the smoke guide pipe 204, the upper end of the atomizing core 5 is sleeved on the outer wall of the smoke guide pipe 204 to enable the smoke guide pipe 204 to be communicated with a smoke channel 507 and used for discharging smoke generated by heating of the heating core 506 in the smoke channel 507 from the smoke outlet 203 for a user to suck, the outer wall of the oil storage cavity 2 is provided with an oil injection hole 202, the oil injection hole 202 is communicated with the oil storage cavity 201 and is detachably installed on the outer wall of the oil storage cavity 2 for sealing the oil hole 202.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. 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 (16)

1. An aerosol generating device, characterized in that it comprises an oil reservoir main body, an atomizing core, and an air regulator, an oil storage chamber is formed in the oil reservoir main body, and an oil storage cavity is formed on the oil reservoir main body. A penetrating portion communicating with the oil storage chamber, through which the atomizing core can be detachably inserted into the oil storage chamber to atomize the e-liquid, and the air regulator is detachably arranged on the main body of the oil storage , and the air regulating member is located on the periphery of the penetration portion, and the air regulating member can adjust the size of the atomized air flow by rotating on the main body of the oil reservoir. 2. The aerosol generating device according to claim 1, wherein the penetration part is formed by a through hole and/or a channel. 3 . The aerosol generating device according to claim 1 , wherein the atomizing core has a connected exposed conductive end, and the exposed conductive end protrudes from the oil storage chamber and is located in the through portion. 4 . 4. The aerosol generating device according to claim 3, wherein a mist channel is formed in the atomizing core, a heating core is arranged in the mist channel, and an air guide port is opened on the conductive exposed end, so that The air guide port communicates with the mist channel. 5 . The aerosol generating device according to claim 1 , wherein the outer wall of the air-regulating member is provided with a non-slip structure for increasing friction. 6 . 6. The aerosol generating device according to claim 5, wherein the anti-slip structure comprises one of knurls, grooves, and bumps. 7. The aerosol generating device according to claim 4, wherein the main body of the oil reservoir includes an oil storage bin, the oil storage cavity is formed in the oil storage bin, and the bottom end of the oil storage bin is open A bin base for sealing the oil storage chamber is provided inside, and a through hole corresponding to and communicating with the oil storage chamber is opened on the bin base, and the bin base extends longitudinally from the through hole to form a A connecting pipe, the connecting pipe has a pipe passage, the through hole communicates with the pipe passage, the through hole and the pipe passage form the penetrating part, and the conductive exposed end protrudes through the through hole The oil storage cavity is located in the tube channel. 8. The aerosol generating device according to claim 7, wherein at least one notch is opened on the outer wall of the connecting pipe, the notch corresponds to and communicates with the air guide port, and the gas regulating member is detachably sleeved On the outer wall of the connecting pipe, a sealing ring is provided between the inner wall of the air regulating member and the outer wall of the connecting pipe, and at least one air inlet is opened on the outer wall of the air regulating member, and the air inlet is connected to the gap. coincident and interlinked. 9. The aerosol generating device according to claim 7, wherein a smoke outlet is opened at the top of the oil storage tank, and the oil storage tank protrudes from the smoke outlet into the oil storage cavity A smoke guide pipe is formed, the smoke outlet is connected to the smoke guide pipe, the upper end of the atomizing core is sleeved on the outer wall of the smoke guide pipe, and the smoke guide pipe communicates with the mist channel; An oil injection hole is opened on the outer wall of the oil storage bin, and the oil injection hole communicates with the oil storage cavity, and an oil sealing plug for sealing the oil injection hole is detachably provided on the outer wall of the oil storage bin. 10. The aerosol generating device according to claim 3, characterized in that, an insulator is provided at the bottom of the conductive exposed end, and a conductive connector is provided inside the insulator, and the conductive connector and the conductive The exposed ends are all made of conductive metal material, and the heating core is electrically connected to the conductive connector and the conductive exposed end; The outer wall of the atomizing core is provided with at least one oil inlet hole corresponding to the heating core. 11. A method for assembling an aerosol generating device, comprising the following steps: Supplied pre-assembled with reservoir body; Provide pre-assembled atomizing core; Provide pre-assembled air conditioning parts; and The main body of the oil reservoir, the atomizing core, and the air regulator are assembled into an aerosol generating device. 12. The assembly method according to claim 11, wherein the main body of the oil reservoir is pre-assembled in the following manner: Provide oil storage bin with oil filling hole, oil storage chamber, smoke outlet, smoke guide pipe, oil sealing plug, sealing ring, and bin base with through holes and connecting pipes; Install the bin base on the bottom of the oil storage bin so that an oil storage cavity is formed in the oil storage bin, wherein the smoke outlet is opened at the top of the oil storage bin, and the smoke guide pipe is set The oil storage cavity communicates with the smoke outlet, the oil injection hole is opened on the outer wall of the oil storage bin, and the through hole is opened on the base of the bin to communicate with the oil storage cavity. The connecting pipe is arranged at the bottom of the base of the warehouse and communicates with the through hole, and the outer wall of the connecting pipe has a gap; Installing the oil sealing plug on the outer wall of the oil storage tank, so that the oil sealing plug seals the oil injection hole; and The sealing ring is sleeved on the outer wall of the connecting pipe. 13. The assembly method according to claim 12, further comprising installing the air regulating member on the outer wall of the connecting pipe, so that the air regulating member can rotate on the connecting pipe to adjust the atomization airflow Size, wherein, the sealing ring is located between the inner wall of the air-regulating member and the outer wall of the connecting pipe, and the air-regulating member has an air inlet corresponding to and communicating with the notch. 14. The assembly method according to claim 13, further comprising inserting the atomizing core from the connecting pipe into the oil storage chamber, so that the upper end of the atomizing core is connected to the smoke guide pipe The lower end, so as to assemble the aerosol generating device, wherein, the atomization core has a mist channel connected with the smoke guide pipe, the mist channel has a heating core, and the outer wall of the atomization core has a The oil inlet hole corresponding to the heating core, the lower end of the atomizing core has a connected conductive exposed end, the conductive exposed end is located in the connecting pipe, and the conductive exposed outer wall is opened to communicate with the mist channel The air guide port, the gap corresponds to and communicates with the air guide port, the bottom of the conductive exposed end is provided with an insulator, the insulator is provided with a conductive connector, and the heating core is connected to the conductive connector It is electrically connected with the conductive exposed end. 15 . The assembly method according to claim 11 , wherein after the aerosol generating device is assembled, it is detected whether the resistance of the atomizing core is normal, and the main body of the oil reservoir is filled with oil. 16. The assembly method according to claim 11, characterized in that, after assembling the aerosol generating device, the aerosol generating device is left standing, dropped, at high temperature and low temperature, and the aerosol is detected Whether the generating device is normally ventilated and energized, and whether the main body of the oil reservoir is leaking oil.

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