CN212787417U - Device for assisting in opening oil way and aerosol generating device - Google Patents

Abstract

The utility model relates to an aerosol produces the device field, specifically discloses a supplementary device and aerosol production device of opening oil circuit, supports through setting up connecting silica gel and holds in base silica gel with sealed atomizing core, avoids fluid to get into the problem that fluid that atomizing core brought leaks in advance. Simultaneously, when needs use, through the supplementary silica gel of pulling for connect silica gel and atomizing core and keep away from relatively, in order to partly expose atomizing core and realize the contact of the two in fluid, also will connect silica gel and atomizing core and keep away from relatively in order to open the oil inlet through the mode of pull, avoided the product in the in-process that does not use such as transportation or selling, because the extrusion of object, the unexpected problem that gets into in the atomizing core of fluid that the collision brought, further improved the stability of fluid seal.

Description

Device for assisting in opening oil way and aerosol generating device

Technical Field

The utility model relates to an aerosol produces the device field, in particular to supplementary device and aerosol production device of opening the oil circuit.

Background

The aerosol generating device is a portable device for replacing conventional cigarettes, and is generally formed by inserting a cigarette cartridge into a main machine to heat tobacco tar in the cigarette cartridge to form smoke so as to achieve a smoke discharging effect.

In existing aerosol generating devices, a cartridge is typically used to contain the oil, and the cartridge is typically contacted by the user as a mouthpiece of the device. Before the product is put into use, the cigarette bullet and the host computer separation set up to in-process that transports and sell keeps the leakproofness of cigarette bullet, prevents that fluid from leaking.

However, in the existing aerosol generating device, the oil is easily leaked from the mouthpiece portion of the aerosol generating device before the user uses the aerosol generating device.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that fluid easily leaked among the present current aerosol generating device, the utility model provides a supplementary device and aerosol generating device of opening the oil circuit.

The utility model solves the technical problem, and provides a technical scheme as follows: a device for assisting in opening an oil way comprises a suction nozzle, an air channel pipe, connecting silica gel, an atomizing core, base silica gel and auxiliary silica gel, wherein one end of the air channel pipe is inserted into one end of the connecting silica gel, the other end of the connecting silica gel is inserted into one end of the atomizing core, the other end of the atomizing core is inserted into the base silica gel, one end of the air channel pipe, which deviates from the connecting silica gel, is connected with the suction nozzle in an interference fit manner, one end of the auxiliary silica gel is abutted into the connecting silica gel, and the other end of the auxiliary silica gel is exposed out of the suction nozzle; a space for containing oil is formed in the suction nozzle, the air channel pipe, the connecting silica gel and the atomizing core are arranged in the suction nozzle, and the base silica gel is arranged at one end of the suction nozzle; one end of the connecting silica gel, which is close to the atomizing core, is provided with a connecting groove, and one end of the atomizing core is arranged in the connecting groove; an oil inlet is formed in one end, close to the connecting groove, of the atomizing core, and when the connecting groove is far away from the atomizing core, the oil inlet is exposed out of the connecting silica gel; the auxiliary silica gel comprises a supporting part and an extending part, the supporting part is supported by the connecting groove, the extending part sequentially penetrates through the connecting silica gel and the gas pipeline and is exposed out of the suction nozzle, when the auxiliary silica gel is moved to be far away from the atomizing core, the supporting part pulls the connecting silica gel to be far away from the atomizing core until the supporting part is separated from the connecting silica gel.

Preferably, a sealing groove is formed in one end, away from the connecting groove, of the connecting silica gel, and one end of the air channel pipe is inserted into the sealing groove; the caliber of the sealing groove is smaller than that of the connecting groove.

Preferably, the seal groove with be equipped with the step between the spread groove, work as connect silica gel to when the air flue pipe direction removed the default distance, the air flue pipe is close to connect silica gel one end support hold in on the step.

Preferably, the atomization core comprises a fixed section and an oil inlet section, the fixed section is inserted into the base silica gel, and the oil inlet section extends to be exposed out of the base silica gel; the oil inlet section is inserted into the connecting groove; the oil inlet is located on the oil inlet section, work as connect silica gel with during the base silica gel contact, the spread groove is sealed the oil inlet, work as connect silica gel keep away from during the base silica gel, the oil inlet expose in space in the suction nozzle.

Preferably, an oil absorption cotton and a heating wire are arranged in the atomization core, the oil absorption cotton is laid on the inner surface of the atomization core, and the heating wire is in contact with the oil absorption cotton; when the oil liquid enters the oil inlet, the oil liquid is in contact with the oil absorption cotton.

Preferably, the atomizing core deviates from it is equipped with sealing silica gel to connect silica gel one end, sealing silica gel is sealed the atomizing core deviates from connect silica gel one end.

Preferably, a concave part is arranged in the base silica gel, and one end of the connecting groove, which is close to the base silica gel, is abutted against the concave part; the depressed part is in base silica gel surface forms an inclined plane structure.

Preferably, base silica gel deviates from atomizing core one end is equipped with the electrode nail, the electrode nail with atomizing core electricity is connected, the electrode nail peg graft in base silica gel surface.

The utility model also provides an aerosol generating device, it includes as above-mentioned arbitrary supplementary device of opening the oil circuit.

Compared with the prior art, the utility model provides a supplementary device and the aerosol generating device of opening the oil circuit have following advantage:

1. connect silica gel through setting up to support and hold in base silica gel with sealed atomizing core, avoid fluid to get into the problem that the fluid leaked that the atomizing core brought in advance. Simultaneously, when needs use, through the supplementary silica gel of pulling for connect silica gel and atomizing core and keep away from relatively, in order to partly expose atomizing core and realize the contact of the two in fluid, also will connect silica gel and atomizing core and keep away from relatively in order to open the oil inlet through the mode of pull, avoided the product in the in-process that does not use such as transportation or selling, because the extrusion of object, the unexpected problem that gets into in the atomizing core of fluid that the collision brought, further improved the stability of fluid seal.

2. Connect silica gel to deviate from spread groove one end is equipped with the seal groove, gas channel pipe one end peg graft in the seal groove, the bore of seal groove is less than the bore of spread groove, make support the portion of holding and arrange in when in the spread groove, support the portion of holding and support based on the bore difference of seal groove and spread groove and hold in the spread groove to the poor drive of bore through the two is connected silica gel and is removed, convenience of customers's operation.

3. Through setting up the step makes support of supplementary silica gel holds the portion can be based on step stable drive connects silica gel and keeps away from the atomizing core, simultaneously, works as connect silica gel and remove after predetermineeing the distance, can support on holding the step based on the gas channel pipe, avoid owing to connect silica gel migration distance overlength lead to with the problem of atomizing core separation, the user can directly stimulate supplementary silica gel and can, convenience of customers' use.

4. Through setting up the length of oil feed section is greater than predetermine the distance for the user is when the pulling is connected silica gel and is removed and predetermine the distance, the spread groove remains throughout sealed with being connected of oil feed section, avoids atomizing core to drop from connecting the silica gel, improves the stability of product use, has further avoided the leakage of fluid.

5. Through setting up the oil absorption is cotton for behind the fluid entering atomizing core, can improve the rate of utilization to fluid based on the cotton absorption fluid of oil absorption, also avoided in the use owing to lack the problem that the fluid that the oil absorption cotton leads to splashes, further avoided the leakage of fluid, improve product use and experience.

6. The atomizing core deviates from it is equipped with sealing silica gel to connect silica gel one end, sealing silica gel is sealed the atomizing core deviates from connect silica gel one end for the user is when using, and fluid gets into the atomizing in-core, can avoid fluid to leak based on sealing silica gel seals atomizing core one end.

7. Be equipped with the depressed part in the base silica gel, the spread groove is close to base silica gel one end support hold in on the depressed part, the depressed part is in base silica gel surface forms an inclined plane structure for oil inlet periphery side forms a sunk part, simultaneously, when combining the user to use, atomizing core is slant orientation down usually, makes fluid concentrate on atomizing core periphery side, and through setting up the depressed part makes the inclined plane structure of fluid accessible depressed part form the guide effect to concentrate fluid in the depressed part, especially when fluid volume is low excessively, less fluid can be preserved and in the depressed part, has improved the utilization ratio to fluid.

8. The outer peripheral side of the abutting part is of a chamfer or fillet structure, so that the abutting part is conveniently drawn out from the connecting groove and the air duct, the operation of a user is facilitated, and the problem that the connecting silica gel is remained in the suction nozzle and cannot be pulled out is solved.

Drawings

Fig. 1 is a schematic structural diagram of an auxiliary oil passage opening device according to a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the device for opening an oil path in an auxiliary manner according to the first embodiment of the present invention in a sealed state.

Fig. 3 is a schematic diagram of the structure of the oil inlet state in the device for opening the oil path in an assisting manner provided by the first embodiment of the present invention.

Fig. 4 is a schematic structural diagram of an atomizing core in the device for assisting in opening an oil path according to the first embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the device for opening an oil path with assistance of oil filling according to the first embodiment of the present invention.

Fig. 6 is a schematic structural view of the base silica gel installed after the completion of oil filling in the device for assisting in opening the oil path according to the first embodiment of the present invention.

Fig. 7 is a flowchart of an assembly method of a device for assisting in opening an oil passage according to a third embodiment of the present invention.

Fig. 8 is a schematic structural diagram of step S1 in an assembly method of a device for assisting in opening an oil passage according to a third embodiment of the present invention.

Fig. 9 is a schematic structural diagram of step S2 in the method for assembling the device for assisting in opening an oil passage according to the third embodiment of the present invention.

Fig. 10 is a schematic structural diagram of step S5 in the method for assembling the device for assisting in opening an oil passage according to the third embodiment of the present invention.

Description of reference numerals:

1-a device for assisting in opening an oil way,

11-a suction nozzle, wherein the suction nozzle is arranged on the suction nozzle,

12-an air channel pipe, wherein the air channel pipe,

13-connecting silica gel, 131-connecting groove, 132-sealing groove, 133-step,

14-atomizing core, 141-oil inlet, 142-fixed section, 143-oil inlet section, 144-oil absorption cotton, 145-heating wire, 146-sealing silica gel,

15-base silica gel, 151-concave part, 152-electrode nail,

16-auxiliary silicone, 161-holding part, 162-extension part.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Please combine fig. 1, fig. 2 and fig. 3, the first embodiment of the present invention provides a device 1 for assisting in opening an oil path, including a suction nozzle 11, an air duct 12, a connection silica gel 13, an atomization core 14, a base silica gel 15 and an auxiliary silica gel 16, the air duct 12, the connection silica gel 13, the atomization core 14 and the base silica gel 15 are sequentially inserted, that is, one end of the air duct 12 is inserted into one end of the connection silica gel 13, the other end of the connection silica gel 13 is inserted into one end of the atomization core 14, the other end of the atomization core 14 is inserted into the base silica gel 15, one end of the auxiliary silica gel 16 is supported and held in the connection silica gel 13, the other end is exposed out of the suction nozzle 11, and simultaneously, the air duct 12 deviates from the connection silica gel 13 one end and is connected with the suction nozzle 11 in.

It can be understood that the air channel pipe 12, the connecting silica gel 13 and the atomizing core 14 are sequentially communicated, after the user contacts the suction nozzle 11, smoke is formed in the atomizing core 14, and the smoke finally enters the oral cavity of the user from the suction nozzle 11 through the connecting silica gel 13 to the air channel pipe 12.

A space p for containing oil is formed in the suction nozzle 11, the air passage pipe 12, the connecting silica gel 13 and the atomizing core 14 are arranged in the suction nozzle 11, and the base silica gel 15 is arranged at one end of the suction nozzle 11. That is, the space p between the mouthpiece 11 and the airway tube 12, the connecting silica gel 13, and the atomizing core 14 is used for containing oil, and the oil can contact with the atomizing core 14 under the operation of the user.

One end of the connecting silica gel 13 close to the atomizing core 14 is provided with a connecting groove 131, and one end of the atomizing core 14 is arranged in the connecting groove 131.

An oil inlet 141 is formed in one end, close to the connecting groove 131, of the atomizing core 14, and when the connecting groove 131 is far away from the atomizing core 14, the oil inlet 141 is exposed out of the connecting silica gel 13.

The auxiliary silica gel 16 includes a supporting portion 161 and an extending portion 162, the supporting portion 161 is supported by the connecting groove 131, and the extending portion 162 sequentially passes through the connecting silica gel 13, the atomizing core 14 and the air duct and is exposed to the nozzle 11.

During the use, connect silica gel 13 and support and hold on base silica gel 15 (support the state as shown in fig. 2) to seal atomizing core 14 in connecting groove 131, make fluid and atomizing core 14 separation setting in the suction nozzle 11, when the product is in the transportation or is sold, fluid and atomizing core 14 are in the separation state all the time, have avoided the leakage of fluid. When the user uses the oil atomizer, the auxiliary silica gel 16 is pulled (e.g., the extending portion 162 is pulled in the direction of a in fig. 3), so that the abutting portion 161 drives the connecting silica gel 13 to be away from the atomizing core 14 (e.g., the extending portion 162 is pulled in the direction of b in fig. 3), so that the atomizing core 14 is partially exposed in the oil, at this time, the oil can enter the atomizing core 14 through the oil inlet 141 (e.g., the oil inlet 141 in the direction of c in fig. 3), and finally the auxiliary silica gel 16 is.

It can be understood that the connection silica gel 13 is arranged to abut against the base silica gel 15 to seal the atomizing core 14, so that the problem of oil leakage caused by the fact that oil enters the atomizing core 14 in advance is avoided. Meanwhile, when the oil-liquid seal device is needed to be used, the auxiliary silica gel 16 is pulled, so that the connecting silica gel 13 and the atomizing core 14 are relatively far away, the atomizing core 14 is partially exposed in oil liquid to achieve contact of the two, namely the connecting silica gel 13 and the atomizing core 14 are relatively far away to open the oil inlet 141 in a pulling mode, the problem that the oil liquid accidentally enters the atomizing core 14 due to extrusion and collision of objects in the process of unused products such as transportation or selling is avoided, and the stability of oil-liquid seal is further improved.

It can be understood that, since the connection silica gel 13 and the auxiliary silica gel 16 are made of silica gel materials, the two can be separated from each other after being abutted against each other based on the deformation of the soft material, that is, after the user applies the pulling force of the auxiliary silica gel 16, the auxiliary silica gel 16 can be pulled out of the connection silica gel 13 through the deformation of the connection silica gel 13 to separate the two.

Optionally, as an embodiment, the outer peripheral side of the abutting portion 161 is a chamfered or rounded structure, so that the abutting portion 161 can be conveniently pulled out from the connecting groove 131 and the air duct 12, which facilitates the user operation and avoids the problem that the connecting silicone 16 remains in the suction nozzle 11 and cannot be pulled out.

With reference to fig. 1 and fig. 2, a sealing groove 132 is disposed at an end of the connecting silica gel 13 away from the connecting groove 131, an end of the air duct tube 12 is inserted into the sealing groove 132, and an aperture of the sealing groove 132 is smaller than an aperture of the connecting groove 131, so that when the abutting portion 161 is disposed in the connecting groove 131, the abutting portion 161 abuts against the connecting groove 131 based on an aperture difference between the sealing groove 132 and the connecting groove 131, and when the user pulls the extending portion 162, the auxiliary silica gel 16 drives the connecting silica gel 13 to move away from the atomizing core 14, so as to expose the atomizing core 14 in the oil.

A step 133 is disposed between the sealing groove 132 and the connecting groove 131, and when the connecting silicone 13 moves toward the air duct pipe 12 by a predetermined distance d1, one end of the air duct pipe 12 close to the connecting silicone 13 abuts against the step 133.

It can be understood that when the user pulls the auxiliary silica gel 16 to move the connecting silica gel 13 away from the atomizing core 14, the distance between the connecting silica gel 13 and the air channel tube 12 decreases, the user continues to pull the auxiliary silica gel 16 to make one end of the air channel tube 12 abut against the step 133 (as in the abutting state in fig. 3), at this time, the connecting silica gel 13 stops moving under the abutting action of the air channel tube 12, and the abutting portion 161 is disengaged from the abutting action of the step 133 under the pulling force of the user of the auxiliary silica gel 16, and is pulled out from the connecting silica gel 13 until the air channel tube 12 is completely pulled out, so that the use can be started.

It can be understood that by arranging the step 133, the supporting portion 161 of the auxiliary silica gel 16 can stably drive the connecting silica gel 13 to be away from the atomizing core 14 based on the step 133, and meanwhile, after the connecting silica gel 13 moves by the preset distance d1, the connecting silica gel 13 can be supported on the step 133 based on the air channel pipe 12, so that the problem of separation from the atomizing core 14 due to the overlong moving distance of the connecting silica gel 13 is avoided, and a user can directly pull the auxiliary silica gel 16, which is convenient for the user to use.

Referring to fig. 2 and 3, the atomizing core 14 includes a fixing section 142 and an oil inlet section 143, the fixing section 142 is inserted into the base silica gel 15, the oil inlet section 143 extends to be exposed out of the base silica gel 15, and the length of the oil inlet section 143 is greater than the preset distance d 1. The oil inlet section 143 is inserted into the connecting groove 131.

The oil inlet 141 is arranged on the oil inlet section 143, when the connecting silica gel 13 contacts with the base silica gel 15, the connecting groove 131 seals the oil inlet 141, and when the connecting silica gel 13 is far away from the base silica gel 15, the oil inlet 131 is exposed in the space inside the suction nozzle 11, that is, the oil inlet 141 is exposed in oil, and the oil can enter the atomizing core 14 through the oil inlet 141.

It can be understood that the length of the oil inlet section 143 is greater than the preset distance d1, so that when the user pulls the connecting silica gel 13 to move the preset distance d1, the connecting groove 131 is always kept sealed with the connection of the oil inlet section 143, the atomizing core 14 is prevented from falling off from the connecting silica gel 13, the use stability of the product is improved, and the leakage of oil is further avoided.

Referring to fig. 4, an oil absorption cotton 144 and a heating wire 145 are disposed in the atomizing core 14, the oil absorption cotton 144 is laid on the inner surface of the atomizing core 14, the heating wire 145 contacts with the oil absorption cotton 144, and when the oil enters the oil inlet 141, the oil contacts with the oil absorption cotton 144.

It can be understood that through setting up the oil absorption cotton 144 for behind the fluid entering atomizing core 14, can improve the rate of utilization to fluid based on the oil absorption cotton 144 absorbs fluid, also avoided in the use owing to lack the problem that fluid that the oil absorption cotton 144 leads to splashes, further avoided the leakage of fluid, improve product use and experience.

The atomizing core 14 deviates from one end of connecting silica gel 13 and is equipped with sealing silica gel 146 (as shown in fig. 1), and sealing silica gel 146 seals atomizing core 14 and deviates from one end of connecting silica gel 13 for when the user is using, fluid gets into atomizing core 14 in, can be based on sealing silica gel 146 seals atomizing core 14 one end, avoids fluid to leak.

Please continue to combine fig. 1 and fig. 2, a recessed portion 151 is disposed in the base silica gel 15, one end of the connecting groove 131 close to the base silica gel 15 abuts against the recessed portion 151, the recessed portion 151 forms an inclined surface structure on the surface of the base silica gel 15, so that a recessed area is formed on the outer peripheral side of the oil inlet 141, meanwhile, when the oil atomizer is used by a user, the atomizing core 14 is usually inclined downward, so that the oil is concentrated on the outer peripheral side of the atomizing core 14, and by disposing the recessed portion 151, the oil can form a guiding effect (as shown in a direction c in fig. 3) through the inclined surface structure of the recessed portion 141, and the oil is concentrated in the recessed portion 151, especially when the oil amount is too low, less oil can be retained in the recessed portion 151, thereby improving the utilization rate of.

Base silica gel 15 deviates from atomizing core 14 one end and is equipped with electrode nail 152, and electrode nail 152 is connected with atomizing core 14 electricity, and electrode nail 152 pegs graft in base silica gel 15 surface, and atomizing core 14 can be based on electrode nail 152 and external power source is connected.

Particularly, please combine fig. 5 and fig. 6, the utility model discloses the product that the supplementary device 1 of opening the oil circuit that the first embodiment provided corresponds is when assembling, can assemble air duct pipe 12 in advance and peg graft on suction nozzle 11, again will connect silica gel 13 and peg graft at air duct pipe 12, and reserve the clearance of the two, peg graft supplementary silica gel 16 again, support to hold portion 161 in spread groove 131, can carry out the oiling toward the space in suction nozzle 11 this moment, until the oil mass reaches and connects silica gel 13 one end can (like oil liquid highest position e in fig. 6), lock base silica gel 15 in suction nozzle 11 one end at last, accomplish the assembly to the product, moreover, the steam generator is simple in structure, high convenience and quickness, and manpower is saved, and the production efficiency of the product is improved.

The utility model discloses the second embodiment provides an aerosol produces device, and it includes the host computer and opens the device 1 of oil circuit as the supplementary as provided in the above-mentioned first embodiment, and the supplementary device 1 of opening the oil circuit is pegged graft on the host computer, and the host computer provides the electric energy for the supplementary device 1 of opening the oil circuit.

Referring to fig. 7 to 10, a third embodiment of the present invention provides an assembling method of an auxiliary oil passage opening device, including the following steps:

step S1: inserting one end of the connecting silica gel on the air channel pipe, wherein a preset distance is reserved between the step of the connecting silica gel and the air channel pipe;

step S2: inserting auxiliary silica gel into the connecting silica gel, wherein one end of the auxiliary silica gel is propped against the connecting silica gel, and the other end of the auxiliary silica gel penetrates through the air channel pipe and is exposed out of the suction nozzle;

step S3: injecting oil into the suction nozzle, wherein the liquid level of the oil mass is lower than one end of the connecting silica gel;

step S4: inserting an atomizing core into the base silica gel, wherein one end of the atomizing core extends to the surface of the base silica gel; and

step S5: inserting the base silica gel into one end of the suction nozzle, covering the atomizing core by the connecting silica gel, extending the atomizing core to the surface of the base silica gel part, and abutting the connecting silica gel on the base silica gel.

It is understood that, in step S1, the air duct 12 is integrally formed with the suction nozzle 11, one end of the air duct 12 is connected to the suction nozzle 11, and the other end is plugged with the connection silicone 13. The preset distance d1 is reserved between the step 133 and the air duct 12, so that when a user pulls away the auxiliary silica gel 16 on a subsequent product, the connecting silica gel 13 is moved to open the atomizing core 14 to contact with the oil.

It can be understood that in step S2, one end of the auxiliary silicone rubber 16 is abutted against the step 133, and the other end thereof passes through the connecting silicone rubber 13 and the air duct 12 and is exposed to the suction nozzle 11.

It can be understood that, in step S3, the space formed in the nozzle 11 is used for containing oil, and the highest level of the oil is not higher than one end of the connecting silicone 13 (as shown in fig. 10, oil level e), so as to avoid excessive oil entering the interior of the connecting silicone 13.

It can be understood that in steps S4 and S5, one end of the atomizing core 14 is fixed on the base silica gel 15, and the other end is inserted into the connecting silica gel 13 and is completely sealed by the connecting silica gel 13 to cover the oil inlet 141, and meanwhile, the connecting silica gel 13 abuts against the base silica gel 15 to seal the atomizing core 14.

It can be understood that the utility model discloses the third embodiment provides an assembly method of supplementary device of opening oil circuit for when the assembly, realize the disconnect-type assembly of atomizing core and fluid, also in whole assembling process, atomizing core and fluid are the detached state, have avoided atomizing core and fluid contact, have improved the device and to the sealing stability of fluid, improve the product yield.

Compared with the prior art, the utility model provides a supplementary device of opening oil circuit has following advantage:

connect silica gel through setting up to support and hold in base silica gel with sealed atomizing core, avoid fluid to get into the problem that the fluid leaked that the atomizing core brought in advance. Simultaneously, when needs use, through the supplementary silica gel of pulling for connect silica gel and atomizing core and keep away from relatively, in order to partly expose atomizing core and realize the contact of the two in fluid, also will connect silica gel and atomizing core and keep away from relatively in order to open the oil inlet through the mode of pull, avoided the product in the in-process that does not use such as transportation or selling, because the extrusion of object, the unexpected problem that gets into in the atomizing core of fluid that the collision brought, further improved the stability of fluid seal.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (9)

1. The utility model provides a supplementary device that opens oil circuit which characterized in that: the device comprises a suction nozzle, an air channel pipe, connecting silica gel, an atomizing core, base silica gel and auxiliary silica gel, wherein one end of the air channel pipe is inserted into one end of the connecting silica gel, the other end of the connecting silica gel is inserted into one end of the atomizing core, the other end of the atomizing core is inserted into the base silica gel, one end of the air channel pipe deviated from the connecting silica gel is connected with the suction nozzle in an interference fit manner, one end of the auxiliary silica gel is supported in the connecting silica gel, and the other end of the auxiliary silica gel is exposed out of the suction nozzle;

a space for containing oil is formed in the suction nozzle, the air channel pipe, the connecting silica gel and the atomizing core are arranged in the suction nozzle, and the base silica gel is arranged at one end of the suction nozzle;

one end of the connecting silica gel, which is close to the atomizing core, is provided with a connecting groove, and one end of the atomizing core is arranged in the connecting groove;

an oil inlet is formed in one end, close to the connecting groove, of the atomizing core, and when the connecting groove is far away from the atomizing core, the oil inlet is exposed out of the connecting silica gel;

the auxiliary silica gel comprises a supporting part and an extending part, the supporting part is supported by the connecting groove, the extending part sequentially penetrates through the connecting silica gel and the gas pipeline and is exposed out of the suction nozzle, when the auxiliary silica gel is moved to be far away from the atomizing core, the supporting part pulls the connecting silica gel to be far away from the atomizing core until the supporting part is separated from the connecting silica gel.

2. The device for opening an oil path in an auxiliary manner as defined in claim 1, wherein: a sealing groove is formed in one end, away from the connecting groove, of the connecting silica gel, and one end of the air channel pipe is inserted into the sealing groove;

the caliber of the sealing groove is smaller than that of the connecting groove.

3. The device for opening an oil path in an auxiliary manner as claimed in claim 2, wherein: the seal groove with be equipped with the step between the spread groove, work as connect silica gel to when the air flue pipe direction removed the default distance, the air flue pipe is close to connect silica gel one end support hold in on the step.

4. The device for opening an oil path in an auxiliary manner as defined in claim 3, wherein: the atomizing core comprises a fixed section and an oil inlet section, the fixed section is inserted into the base silica gel, and the oil inlet section extends and is exposed out of the base silica gel;

the oil inlet section is inserted into the connecting groove;

the oil inlet is located on the oil inlet section, work as connect silica gel with during the base silica gel contact, the spread groove is sealed the oil inlet, work as connect silica gel keep away from during the base silica gel, the oil inlet expose in space in the suction nozzle.

5. The device for opening an oil path in an auxiliary manner as defined in claim 1, wherein: the atomizing core is internally provided with oil absorption cotton and a heating wire, the oil absorption cotton is paved on the inner surface of the atomizing core, and the heating wire is in contact with the oil absorption cotton;

when the oil liquid enters the oil inlet, the oil liquid is in contact with the oil absorption cotton.

6. The device for opening an oil path in an auxiliary manner as defined in claim 5, wherein: the atomizing core deviates from it is equipped with sealing silica gel to connect silica gel one end, sealing silica gel is sealed the atomizing core deviates from connect silica gel one end.

7. The device for opening an oil path in an auxiliary manner as defined in claim 1, wherein: a concave part is arranged in the base silica gel, and one end of the connecting groove, which is close to the base silica gel, is abutted against the concave part;

the depressed part is in base silica gel surface forms an inclined plane structure.

8. The device for opening an oil path in an auxiliary manner as defined in claim 1, wherein: base silica gel deviates from atomizing core one end is equipped with the electrode nail, the electrode nail with atomizing core electricity is connected, the electrode nail peg graft in base silica gel surface.

9. An aerosol generating device, comprising: the device comprises a device for assisting in opening the oil way according to any one of claims 1 to 8.

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