CN116098319B - A collection treatment facility for electron cigarette oil pocket - Google Patents

Abstract

The invention belongs to the field of electronic cigarette tobacco tar cavity collection and treatment, and particularly relates to a collection and treatment device for an electronic cigarette tobacco tar cavity.

Description

A collection treatment facility for electron cigarette oil pocket

Technical Field

The invention belongs to the field of collection and treatment of electronic cigarette tobacco tar cavities, and particularly relates to collection and treatment equipment for electronic cigarette tobacco tar cavities.

Background

An electronic cigarette is an electronic product that mimics a cigarette and has the same appearance, smoke, taste and feel as a cigarette. It is a product which is sucked by a user after the nicotine and the like are changed into steam by means of atomization and the like. The general electronic cigarette mainly comprises a smoke tube for containing nicotine solution, an evaporation device and a battery 3. The atomizer is powered by the battery rod, and can convert liquid nicotine in the cigarette bullet into fog, so that a user has a feeling similar to smoking when inhaling, and the effect of 'swallowing and spitting fog' is achieved.

The tobacco pipe that is arranged in the electron cigarette to adorn tobacco tar is disposable, because of having heater strip and hair inhale the material in the tobacco pipe, makes tobacco pipe itself have higher replacement cost. There are also multiple use smoke tubes to which tobacco tar is repeatedly added, but such smoke tubes can produce an odor after multiple use and heating to reduce the experience of smokers, and careful handling is required when tobacco tar is added to the smoke tube, and the time-consuming operation is less efficient.

In addition, tobacco tar remains in the replaced tobacco pipe, and fragments generated in the crushing treatment process of the replaced tobacco pipe can adhere to powder along with equipment due to the tobacco tar remaining in the tobacco pipe, so that the tobacco tar is difficult to clean, and the crushing effect is poor.

The invention designs a collection and treatment device for an electronic cigarette oil cavity, which solves the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses collection and treatment equipment for an electronic cigarette oil cavity, which is realized by adopting the following technical scheme.

The collecting and processing equipment for the electronic cigarette oil cavity comprises a cigarette holder, a suction sensor, a cover sleeve A, an external thread sleeve, a copper sleeve A, a copper column, a heating wire, a loop sleeve, a reset spring, a cigarette oil cavity, a battery rod, a copper sleeve B, a copper sleeve C and a hair suction material, wherein the cigarette holder with the suction nozzle is provided with a heating cavity with an open end, and the heating cavity is filled with the hair suction material and is provided with the suction sensor; the tail end of the heating cavity is in threaded fit with a cover sleeve A filled with capillary material, a copper sleeve A and a copper column with concentric axes are arranged in an external thread sleeve on the end face of the cover sleeve A, and the copper sleeve A and the copper column are respectively and electrically connected with two ends of a heating wire arranged in the cover sleeve A through wires; the external thread sleeve is in threaded fit with a battery rod, and a copper sleeve B and a copper sleeve C which are mutually insulated in a battery rod slot are respectively in electric connection fit with the copper sleeve A and the copper column; the heating cavity and the cover sleeve A are nested with a tobacco oil cavity for containing tobacco oil, the circumferentially uniform sliding grooves on the side wall of the cover sleeve A are radially and hermetically slid with a ring sleeve which is matched with the conical holes on the wall surface of the tobacco oil cavity to communicate the heating cavity with the tobacco oil cavity and is internally filled with wool absorbing materials, and the ring sleeve is nested with a reset spring for resetting the ring sleeve; the conical hole in the smoke oil cavity is filled with a capillary material; the fume chamber is fitted with a cover B closing its upper conical hole before it is mounted on the heating chamber.

As a further improvement of the technology, the device comprises a shell, rotating shafts A, crushing rollers, gears A, bristles, gears B, rotating shafts B and motors, wherein two horizontal hexagonal rotating shafts A which are parallel to each other and are opposite in rotating direction under synchronous driving of the motors are arranged in the shell, the upper end and the lower end of the shell are respectively provided with a feed inlet and a discharge outlet, a group of crushing rollers which are uniformly distributed at intervals in the axial direction are arranged on each rotating shaft A, and the crushing rollers on the two rotating shafts A are distributed in a staggered manner; a group of gears A which are in one-to-one correspondence with the crushing rollers on the adjacent rotating shafts A and have a rotation speed larger than that of the crushing rollers are rotatably matched on each rotating shaft A, and bristles densely distributed in the ring grooves B of the rims of the gears A are matched with the corresponding crushing rollers on the adjacent rotating shafts A; and a plurality of gears B which are meshed with the gears A on the corresponding rotating shafts A in a one-to-one correspondence manner are arranged on two rotating shafts B which are arranged in the shell, are in one-to-one correspondence with the rotating shafts A and are synchronously driven by the motor, and annular grooves C for accommodating bristles on the corresponding gears A are formed in the rims of the gears B.

As a further improvement of the technology, the heating cavity is conical and matched with the conical surface A on the tobacco tar cavity, and the tobacco tar cavity is nested and fixed on the internal thread sleeve of the heating cavity by the thread sleeve.

As a further improvement of the technology, the pillar stand in the cover sleeve A is provided with the copper rod A and the copper rod B which are respectively electrically connected with the copper sleeve A and the copper column through the lead wires, the copper rod B and the copper rod C which is arranged on the copper rod A are respectively electrically connected with the two ends of the heating wire, the heating wire is ensured to enter the heating cavity in a longitudinal stretching state, and then the heating wire can uniformly heat tobacco tar adsorbed by the hair absorbing material in the heating cavity along the longitudinal direction.

As a further improvement of the technology, the tail end of the tobacco tar cavity is provided with a conical surface B matched with the annular sleeve, so that the interference of the annular sleeve protruding out of the cover sleeve A when the tobacco tar cavity is nested on the heating cavity is avoided, and meanwhile, the annular sleeve is ensured to shrink inwards towards the sliding groove under the action of the conical surface B and then can be in sealing butt joint with a corresponding conical hole under the action of a reset spring.

As a further development of the technology, the gear a is mounted on the respective shaft a by means of bearings.

As a further improvement of the technology, gears C are arranged on the two rotating shafts A, and two gears D which are mutually meshed and arranged on the shell are correspondingly meshed with the two gears C one by one; the two rotating shafts B are provided with gears F, two gears E which are meshed with each other are arranged between each gear F and the corresponding side gear C, and the gears F and the corresponding side gears C are meshed with the corresponding two gears E in a one-to-one correspondence manner; the gear G on the output shaft of the motor is meshed with a gear C.

Compared with the traditional electronic cigarette and tobacco tar cavity recovery equipment, the tobacco tar cavity is disposable, the tobacco tar cavity is more convenient to replace, the tobacco tar cavity is not provided with the heating wire and a plurality of capillary materials, the heating wire is arranged in the cover sleeve, and most of the capillary materials are arranged in the cigarette holder, so that the replacement cost of the tobacco tar cavity is lower. Meanwhile, the temperature of the heating wire can be increased or reduced by the suction sensor in the cigarette holder according to the size of the suction force of smoking, so that the tobacco tar entering the heating cavity through the tobacco tar cavity through the loop is heated and combusted to a corresponding degree by the heating wire according to the size of the suction force.

According to the invention, the cigarette holder and the battery rod can be freely connected, and when the cigarette holder needs to be cleaned, the cover sleeve A is screwed down, so that the suction nozzle is more convenient and quick to clean, and the odor generated in the cigarette holder due to long-time heating is avoided.

The tobacco tar cavity collecting and processing equipment can effectively prevent tobacco tar cavity fragments from adhering to the crushing roller of the equipment, so that the crushing efficiency of the crushing equipment on the tobacco tar cavity with residual tobacco tar therein is improved.

The invention has simple structure and better use effect.

Drawings

Fig. 1 is a schematic cross-sectional view of an electronic cigarette.

Fig. 2 is a schematic cross-sectional view of a smoke chamber and mouth end portion of a mouthpiece.

Fig. 3 is a schematic cross-sectional view of the heating chamber, cover a, collar and tobacco tar chamber fit on the mouthpiece.

Fig. 4 is a schematic cross-sectional view of the cover sleeve a.

Fig. 5 is a schematic cross-sectional view of a tobacco tar chamber.

Fig. 6 is a schematic cross-sectional view of the cooperation of the smoke chamber and the cover sleeve B.

Fig. 7 is a schematic cross-sectional view of a tobacco tar chamber collection treatment device.

Fig. 8 is a schematic cross-sectional view of two sets of pulverizing rolls in cooperation with a corresponding set of gears a in a tobacco tar chamber collecting and treating apparatus.

Fig. 9 is a schematic cross-sectional view showing the distribution of the pulverizing roller and the gear a in the tobacco tar chamber collecting and treating apparatus.

Fig. 10 is a schematic diagram of the cooperation of gear a and gear B.

Fig. 11 is a schematic sectional view of a crushing roller driving structure.

Reference numerals in the figures: 1. a cigarette holder; 2. a suction nozzle; 3. a heating chamber; 4. a suction sensor; 5. a fixed rod; 6. an internal thread sleeve; 7. a cover sleeve A; 8. a chute; 9. a ring groove A; 10. an external thread sleeve; 11. copper bush A; 12. copper columns; 13. a copper rod A; 14. a copper rod B; 15. a copper rod C; 16. a heating wire; 17. a wire; 18. a ring sleeve; 19. a return spring; 20. a compression spring ring; 21. a smoke oil cavity; 22. conical surface A; 23. conical surface B; 24. taper holes; 25. a battery pole; 26. copper bush B; 27. copper bush C; 28. a cover sleeve B; 29. a capillary material; 30. a housing; 31. a feed inlet; 32. a discharge port; 33. a rotating shaft A; 34. a pulverizing roller; 35. a gear A; 36. a ring groove B; 37. brushing; 38. a bearing; 39. a gear B; 40. a ring groove C; 41. a rotating shaft B; 42. a gear C; 43. a gear D; 44. a gear E; 45. a gear F; 46. a gear G; 47. and a motor.

Detailed Description

The drawings are schematic representations of the practice of the invention to facilitate understanding of the principles of operation of the structure. The specific product structure and the proportional size are determined according to the use environment and the conventional technology.

As shown in fig. 1, 2 and 3, the cigarette holder comprises a cigarette holder 1, a suction sensor 4, a cover sleeve A7, an external thread sleeve 10, a copper sleeve A11, a copper column 12, a heating wire 16, a ring sleeve 18, a return spring 19, a smoke cavity 21, a battery rod 25, a copper sleeve B26, a copper sleeve C27 and a hair absorbing material 29, wherein the cigarette holder 1 with the suction nozzle 2 is provided with a heating cavity 3 with an open end, and the heating cavity 3 is filled with the hair absorbing material 29 and is provided with the suction sensor 4; as shown in fig. 1 and 3, the tail end of the heating cavity 3 is in threaded fit with a cover sleeve A7 filled with a capillary material 29, a copper sleeve A11 and a copper column 12 with concentric axes are arranged in an external thread sleeve 10 on the end surface of the cover sleeve A7, and the copper sleeve A11 and the copper column 12 are respectively and electrically connected with two ends of a heating wire 16 arranged in the cover sleeve A7 through wires 17; the external thread sleeve 10 is in threaded fit with a battery rod 25, and a copper sleeve B26 and a copper sleeve C27 which are mutually insulated in a slot of the battery rod 25 are respectively in electric connection fit with the copper sleeve A11 and the copper column 12; a tobacco tar cavity 21 for containing tobacco tar is nested outside the heating cavity 3 and the cover sleeve A7; as shown in fig. 3, 4 and 5, a ring sleeve 18 which is matched with a conical hole 24 on the wall surface of the oil smoke cavity 21 to communicate the heating cavity 3 with the oil smoke cavity 21 and is internally filled with a wool absorbing material 29 is radially and hermetically slid in a circumferentially uniform chute 8 on the side wall of the cover sleeve A7, and a reset spring 19 for resetting the ring sleeve 18 is nested on the ring sleeve 18; as shown in fig. 3 and 6, the conical hole 24 in the smoke oil cavity 21 is filled with a capillary material 29; the fume chamber 21 is fitted with a cover B28 closing the upper conical hole 24 before it is mounted on the heating chamber 3.

As shown in fig. 7 and 8, the device comprises a shell 30, a rotating shaft A33, crushing rollers 34, a gear A35, bristles 37, a gear B39, a rotating shaft B41 and a motor 47, wherein as shown in fig. 7 and 9, two parallel horizontal hexagonal rotating shafts A33 with opposite rotating directions under the synchronous driving of the motor 47 are arranged in the shell 30 with a feeding hole 31 and a discharging hole 32 at the upper end and the lower end respectively, a group of crushing rollers 34 which are uniformly distributed at intervals in the axial direction are arranged on each rotating shaft A33, and the crushing rollers 34 on the two rotating shafts A33 are distributed in a staggered manner; as shown in fig. 8, 9 and 10, a group of gears a35 which are in one-to-one correspondence with the crushing rollers 34 on the adjacent rotating shafts a33 and have a rotation speed larger than that of the crushing rollers 34 are rotatably matched on each rotating shaft a33, and bristles 37 densely distributed in a ring groove B36 of the rim of the gears a35 are matched with the corresponding crushing rollers 34 on the adjacent rotating shafts a 33; a plurality of gears B39 which are meshed with the gears A35 on the corresponding rotating shafts A33 in a one-to-one correspondence are arranged on two rotating shafts B41 which are arranged in the shell 30, are in one-to-one correspondence with the rotating shafts A33 and are synchronously driven by a motor 47, and annular grooves C40 for accommodating bristles 37 on the corresponding gears A35 are formed in the rims of the gears B39.

As shown in fig. 1, 5 and 6, the heating chamber 3 is conical and matched with a conical surface a22 on the smoke chamber 21, and an internal thread sleeve 6 for embedding and fixing the smoke chamber 21 in the heating chamber 3 is nested on the cigarette holder 1 in a threaded manner.

As shown in fig. 1 and 3, a copper rod a13 and a copper rod B14 which are respectively electrically connected with the copper sleeve a11 and the copper column 12 through a lead 17 are installed on a column base in the cover sleeve A7, the copper rod B14 and a copper rod C15 installed on the copper rod a13 are respectively electrically connected with two ends of the heating wire 16, the heating wire 16 is ensured to enter the heating cavity 3 in a longitudinally stretched state, and then the heating wire 16 can uniformly heat tobacco tar adsorbed by the capillary material 29 in the heating cavity 3 along the longitudinal direction.

As shown in fig. 3 and 5, the tail end of the tobacco tar cavity 21 is provided with a conical surface B23 matched with the annular sleeve 18, so that interference of the tobacco tar cavity 21 by the annular sleeve 18 protruding out of the cover sleeve A7 when the tobacco tar cavity is nested on the heating cavity 3 is avoided, and meanwhile, the annular sleeve 18 can be in sealing butt joint with a corresponding conical hole 24 under the action of the reset spring 19 after being contracted inwards towards the chute 8 under the action of the conical surface B23.

As shown in fig. 8 and 9, the gear a35 is mounted on the corresponding rotation shaft a33 through a bearing 38.

As shown in fig. 7 and 11, the two rotating shafts a33 are respectively provided with a gear C42, and two gears D43 which are mutually meshed and arranged on the housing 30 are in one-to-one corresponding meshing with the two gears C42; the two rotating shafts B41 are provided with gears F45, two gears E44 meshed with each other are arranged between each gear F45 and the corresponding side gear C42, and the gears F45 and the corresponding side gears C42 are meshed with the corresponding two gears E44 in a one-to-one correspondence manner; the gear G46 on the output shaft of the motor 47 meshes with a gear C42.

As shown in fig. 3 and 4, the return spring 19 is a compression spring. The return spring 19 is positioned in the annular groove A9 of the inner wall of the corresponding chute 8. One end of the return spring 19 is connected with the inner wall of the annular groove A9, and the other end is connected with the pressure spring ring 20 on the corresponding annular sleeve 18.

The working flow of the invention is as follows: in the initial state, the smoke chamber 21 is not mounted on the cigarette holder 1, the cover sleeve A7 is not connected with the battery rod 25, all the ring sleeves 18 protrude out of the cover sleeve A7, and the reset springs 19 on the ring sleeves 18 are in a compressed state.

The assembly flow of the cigarette holder 1, the cover sleeve A7, the battery rod 25 and the oil cavity 21 is as follows:

the cap A7 is screwed on the end of the cigarette holder 1 to seal the end of the cigarette holder 1, and the heating wire 16 in the cap A7 is longitudinally inserted into the capillary material 29 in the cigarette holder 1.

Then, the battery rod 25 is inserted and mounted on the external thread sleeve 10 of the cover sleeve A7 through thread fit, the copper sleeve A11 on the inner wall of the external thread sleeve 10 is in plug-in electric connection with the copper sleeve B26 in the slot on the battery rod 25, the copper column 12 in the external thread sleeve 10 is in plug-in electric connection with the copper sleeve C27 in the slot on the battery rod 25, and therefore the battery rod 25 supplies power to the heating wire 16.

Then, the internal thread sleeve 6 on the cigarette holder 1 is screwed down, the smoke cavity 21 is axially nested and inserted outside the heating cavity 3 of the cigarette holder 1, and the smoke cavity 21 is fixed outside the heating cavity 3 through the internal thread sleeve 6.

During the process of installing the smoke chamber 21 outside the heating chamber 3, the conical surface B23 at the tail end of the smoke chamber 21 interacts with all the loops 18 on the cover sleeve A7 and causes all the loops 18 to shrink inwards towards the corresponding sliding grooves 8, and the return springs 19 on the loops 18 are further compressed.

When the smoke-absorbing cavity 21 is completely inserted into the heating cavity 3, all the annular sleeves 18 are in sealing butt joint with the conical holes 24 on the conical surface A22 of the smoke-absorbing cavity 21 under the reset action of the corresponding reset springs 19, so that smoke-absorbing materials 29 at the conical holes 24 can be passed through by smoke-absorbing oil in the smoke-absorbing cavity 21. The capillary material 29 in the ring sleeve 18 and the capillary material 29 in the cover sleeve A7 are uniformly adsorbed in the capillary material 29 in the heating chamber 3 and uniformly heated and burned by the heating wire 16 in a longitudinally stretched state.

When the cigarette holder 1, the cover sleeve A7, the battery rod 25 and the tobacco tar cavity 21 are assembled, the suction sensor 4 in the cigarette holder 1 can control the temperature of the heating wire 16 according to the suction force of people smoking, so that the temperature of the heating wire 16 rises when the suction force is large and burns more tobacco tar to generate more smoke sucked by workers, and the temperature of the heating wire 16 drops when the suction force is small and burns less tobacco tar to generate less smoke sucked by the workers.

In the invention, the tobacco tar chamber 21 is recycled to be a disposable consumable part when the consumption of the tobacco tar in the tobacco tar chamber is finished, and the recycling cost of the tobacco tar chamber 21 is low because the heating wire 16 and other parts are not arranged in the tobacco tar chamber.

And the inner cavity of the cigarette holder 1 is adhered with a large amount of tobacco tar due to long-time use, so that the experience effect of the cigarette holder 1 in the use process is reduced, at the moment, the battery rod 25 and the cover sleeve A7 can be detached to clean the inner wall of the cigarette holder 1, and after the inner wall is cleaned, a new capillary material 29 is refilled in the heating cavity 3 of the cigarette holder 1, so that the peculiar smell is prevented from being generated during long-time use in the cigarette holder 1.

The use flow of the fume chamber 21 collecting and processing device is as follows:

when the smoke oil chamber 21 detached from the cigarette holder 1 is recovered and crushed, the motor 47 is started, the motor 47 drives one rotating shaft A33 to rotate through the gear G46 and the gear C42, the rotating shaft A33 drives a group of crushing rollers 34 on the rotating shaft A33 to synchronously rotate, the rotating shaft A33 drives the other rotating shaft A33 to rotate through the two gears D43, and the rotating directions of the two rotating shafts A33 are opposite and the speeds are equal.

The two rotating shafts A33 drive the corresponding side rotating shafts B41 to rotate through the corresponding gears C42, the corresponding side two gears E44 and the corresponding side gears F45 respectively, the two rotating shafts B41 drive a group of gears A35 on the corresponding side rotating shafts A33 to rotate through a group of corresponding gears B39 respectively, the rotating direction of the gears A35 is the same as the rotating direction of the crushing roller 34 on the corresponding rotating shaft A33, and the rotating speed of the gears A35 is larger than the rotating speed of the crushing roller 34 on the corresponding rotating shaft A33.

Bristles 37 on a set of gears a35 on each shaft a33 clean the teeth of a set of pulverizing rollers 34 on the other shaft a 33.

The oil chamber 21 is placed above the two pulverizing rollers 34 through the feed port 31 of the housing 30, the oil chamber 21 is pulverized by the two pulverizing rollers 34 through between the two pulverizing rollers 34 by the two pulverizing rollers 34, and the pulverized pieces of the oil chamber 21 are partially adhered to the teeth of the pulverizing rollers 34 due to the adhering of the oil thereto.

Fragments of the oil smoke chamber 21 adhered to the roller teeth are brushed away by the bristles 37 on the corresponding gear A35 on the other rotating shaft A33 in the process of rotating along with the rotating shaft A33, so that the two crushing rollers 34 are ensured not to adhere to fragments of the oil smoke chamber 21.

In summary, the beneficial effects of the invention are as follows: according to the invention, the tobacco tar cavity 21 is disposable, the tobacco tar cavity 21 is more convenient to replace, the tobacco tar cavity 21 is not provided with the heating wire 16 and a plurality of capillary materials 29, the heating wire 16 is positioned in the cover sleeve, and most of the capillary materials 29 are positioned in the cigarette holder 1, so that the replacement cost of the tobacco tar cavity 21 is lower. Meanwhile, the temperature of the heating wire 16 can be increased or decreased by the suction sensor 4 in the cigarette holder 1 according to the magnitude of the smoking suction force, so that the tobacco tar entering the heating cavity 3 through the tobacco tar cavity 21 and the loop 18 is heated and combusted to a corresponding degree by the heating wire 16 according to the magnitude of the suction force.

According to the invention, the cigarette holder 1 and the battery rod 25 can be freely connected, and when the cigarette holder 1 needs to be cleaned, the cover sleeve A7 is screwed down, so that the cleaning of the suction nozzle 2 is more convenient and quick, and the odor generated in the cigarette holder 1 due to long-time heating is avoided.

The collecting and processing equipment for the tobacco tar cavities 21 can effectively prevent fragments of the tobacco tar cavities 21 from adhering to the crushing roller 34 of the equipment, so that the crushing efficiency of the crushing equipment on the tobacco tar cavities 21 with residual tobacco tar is improved.

Claims (1)

1. A collection treatment facility for electron cigarette oil pocket, its characterized in that: the grinding machine comprises a shell, rotating shafts A, grinding rollers, gears A, bristles, gears B, rotating shafts B and a motor, wherein two horizontal hexagonal rotating shafts A which are parallel to each other and are opposite in rotating direction under synchronous driving of the motor are arranged in the shell, the upper end and the lower end of the shell are respectively provided with a feed inlet and a discharge outlet, a group of grinding rollers which are uniformly distributed at intervals in the axial direction are arranged on each rotating shaft A, and the grinding rollers on the two rotating shafts A are distributed in a staggered manner; a group of gears A which are in one-to-one correspondence with the crushing rollers on the adjacent rotating shafts A and have a rotation speed larger than that of the crushing rollers are rotatably matched on each rotating shaft A, and bristles densely distributed in the ring grooves B of the rims of the gears A are matched with the corresponding crushing rollers on the adjacent rotating shafts A; a plurality of gears B which are meshed with the gears A on the corresponding rotating shafts A in a one-to-one correspondence manner are arranged on two rotating shafts B which are arranged in the shell, are in one-to-one correspondence with the rotating shafts A and are synchronously driven by the motor, and ring grooves C for accommodating bristles on the corresponding gears A are formed in the rims of the gears B;

the gear A is arranged on a corresponding rotating shaft A through a bearing;

the two rotating shafts A are respectively provided with a gear C, and two gears D which are mutually meshed and arranged on the shell are correspondingly meshed with the two gears C one by one; the two rotating shafts B are provided with gears F, two gears E which are meshed with each other are arranged between each gear F and the corresponding side gear C, and the gears F and the corresponding side gears C are meshed with the corresponding two gears E in a one-to-one correspondence manner; the gear G on the motor output shaft is meshed with a gear C;

the using flow of the tobacco tar cavity collecting and treating equipment is as follows:

when the tobacco tar cavity detached from the cigarette holder is recovered and crushed, the motor is started, the motor drives one rotating shaft A to rotate through the gear G and the gear C, the rotating shaft A drives a group of crushing rollers on the rotating shaft A to synchronously rotate, the rotating shaft A drives the other rotating shaft A to rotate through the two gears D, and the rotating directions of the two rotating shafts A are opposite and the speeds are equal;

the two rotating shafts A drive the corresponding side rotating shafts B to rotate through the corresponding gears C, the corresponding side two gears E and the corresponding side gears F respectively, the two rotating shafts B drive a group of gears A on the corresponding side rotating shafts A to rotate through a group of corresponding gears B respectively, the rotating direction of the gears A is the same as that of the crushing rollers on the corresponding rotating shafts A, and the rotating speed of the gears A is larger than that of the crushing rollers on the corresponding rotating shafts A;

the brush hair on a group of gears A on each rotating shaft A cleans the roller teeth of a group of crushing rollers on the other rotating shaft A;

the tobacco tar cavity is placed above the two crushing rollers through the feed inlet of the shell, the tobacco tar cavity is crushed by the two crushing rollers under the action of the two crushing rollers, and crushed tobacco tar cavity fragments are partially adhered to the roller teeth of the crushing rollers due to the tobacco tar attached to the tobacco tar cavity fragments;

the tobacco tar cavity fragments adhered to the roller teeth are brushed and cleaned by the brush hair on the corresponding gear A on the other rotating shaft A in the process of rotating along with the rotating shaft A, so that the tobacco tar cavity fragments are prevented from adhering to the two crushing rollers.