CN106307621B

CN106307621B - Photon atomizing cigarette

Info

Publication number: CN106307621B
Application number: CN201610985614.9A
Authority: CN
Inventors: 陈永宽; 吴俊�; 朱东来; 巩效伟; 韩熠; 张霞; 李寿波; 洪鎏; 李廷华
Original assignee: China Tobacco Yunnan Industrial Co Ltd
Current assignee: China Tobacco Yunnan Industrial Co Ltd
Priority date: 2016-11-09
Filing date: 2016-11-09
Publication date: 2023-06-09
Anticipated expiration: 2036-11-09
Also published as: CN106307621A

Abstract

The invention discloses a photon atomizing cigarette, and aims to provide a photon atomizing cigarette with long service life. The device comprises a tobacco stem, a ventilation cover, a battery component and an atomization device; the atomization device comprises a laser generation assembly and an atomization assembly; the laser generating assembly comprises a mounting seat which is arranged on the inner cavity of the smoke rod and provided with a gas passage, a laser which is arranged on the mounting seat and is electrically connected with the battery assembly, a light collecting pipe which is arranged at the emitting end of the laser and provided with a laser light collecting hole, and a collecting lens which is arranged at the other end of the light collecting pipe through an adjusting seat; the atomization assembly comprises an oil storage cylinder which is positioned on one side of emergent light rays of the condensing lens, provided with an oil storage cavity and used for isolating an inner cavity of the smoke rod, a light-gathering cover which is arranged on one end of the oil storage cylinder, faces the condensing lens and is used for receiving laser and provided with a photo-thermal conversion cavity, a wick which is wound on the outer wall of the light-gathering cover, an isolation cover which is positioned in the oil storage cylinder and used for covering and sealing the light-gathering cover, and an air guide pipe which is communicated with the isolation cover and extends to the other end of the oil storage cylinder.

Description

Photon atomizing cigarette

Technical Field

The invention relates to the technical field of novel cigarette equipment, in particular to a photon atomization cigarette.

Background

The existing electronic atomization cigarettes mostly adopt a smoke generating method that an electronic cigarette liquid in an atomizer is heated by a resistance wire and gasified, so that the requirements of electronic cigarette smoking are met. The method for heating the resistance wire is simple, convenient and easy to operate, but has high requirements on the reliability of electrical connection, so that the control of the production process is more complex, and the heating resistance wire is easy to blow in the use process, has low surface oxidation heat efficiency of the heating wire after multiple times of suction, and the like.

Disclosure of Invention

The invention overcomes the defects in the prior art and provides the photon atomizing cigarette which has the advantages of simple structure, high heating efficiency, more stable and reliable heating and durability.

In order to solve the technical problems, the invention is realized by the following technical scheme:

a photon atomization cigarette comprises a tubular cigarette stem, a ventilation cover arranged at the front end of the cigarette stem, and a battery assembly and an atomization device which are sequentially arranged in the cigarette stem from the front end to the rear end of the cigarette stem;

the atomization device comprises a laser generation assembly which is electrically connected with the battery assembly and is positioned in the tobacco rod, and an atomization assembly which is positioned in the tobacco rod and is used for receiving laser emitted by the laser generation assembly;

the laser generating assembly comprises a mounting seat which is arranged on the inner cavity of the smoke rod and provided with a gas passage, a laser which is arranged on the mounting seat and is electrically connected with the battery assembly, a light collecting pipe which is arranged at the emitting end of the laser and provided with a laser light collecting hole, and a collecting lens which is arranged at the other end of the light collecting pipe through an adjusting seat;

the atomization assembly comprises an oil storage cylinder which is positioned at one side of the emergent light of the condensing lens, provided with an oil storage cavity and used for blocking the inner cavity of the smoke rod, a condensing cover which is arranged at one end of the oil storage cylinder facing the condensing lens and provided with a photo-thermal conversion cavity and used for receiving laser, a oil guide rope which is wound on the outer wall of the condensing cover, an isolating cover which is positioned in the oil storage cylinder and used for covering and sealing the condensing cover, and an air guide pipe which is communicated with the isolating cover and extends to the other end of the oil storage cylinder;

the isolating cover is provided with an oil guide hole for the oil guide rope to pass through, and the oil guide rope passes through the oil guide hole of the isolating cover and enters the oil storage cavity of the oil storage cylinder;

and the condensing cover is provided with a ventilation structure for conducting the isolating cover and the smoke rod air inlet cavity, and the wall surface of the light-heat conversion cavity is coated with a black coating.

Preferably, the light condensing cover is funnel-shaped, the large end of the light condensing cover faces the light condensing lens, the oil storage cylinder is provided with a mounting hole for mounting the large end of the light condensing cover towards one end of the light condensing lens, the small end of the light condensing cover is provided with a plug for limiting the oil guiding rope, and the plug is provided with a conducting hole for conducting the isolation cover and the smoke rod air inlet cavity; the via hole is not coaxial with the incident laser, so that the laser emitted by the laser is not emitted through the via hole.

Preferably, the light condensing cover is funnel-shaped, and the large end of the light condensing cover faces the light condensing lens; the oil storage cylinder is provided with a through hole with the diameter smaller than the diameter of the large end of the light condensing cover towards one end of the light condensing lens for laser to pass through; the large end of the light condensing cover is lapped on the inner wall of one end of the oil storage cylinder facing the light condensing lens and covers the through hole; the small end of the light gathering cover is closed, a reset spring is arranged at the small end of the light gathering cover, and the other end of the reset spring is overlapped with the inner wall of the isolation cover.

Preferably, the small end of the light focusing cover is provided with a cylindrical part sleeved with the reset spring.

Preferably, the adjusting seat comprises a connecting pipe and an annular plate positioned at one end of the connecting pipe, the inner wall of the connecting pipe is in threaded connection with the outer wall of the condensing pipe, and the condensing lens is pressed on a hole of the annular plate through a check ring.

Preferably, an annular part extending outwards is arranged on the outer wall of the large end of the light condensing cover.

Preferably, a clamping ring which is clamped with the end part of the isolation cover is arranged on the inner wall of the oil storage cylinder facing one end of the collecting lens.

Preferably, a sealing ring for sealing the end of the isolation cover is arranged on the end surface of the oil storage cylinder, which is in contact with the isolation cover.

Preferably, a detachable cover body is arranged at one end of the oil storage cylinder opposite to the light condensing cover.

Preferably, the battery assembly includes a battery, and a wind pressure switch connected to the battery.

Compared with the prior art, the invention has the following advantages:

the invention adopts the cooperation of the laser and the heat collecting cover to realize heating, the heating mode has high reliability, the heating efficiency is not reduced after long-term use, the phenomena of oxidation and the like are avoided, and the high stability and the durability of the heating mode can be ensured.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic structural view of a first embodiment of the present invention.

Fig. 2 is a schematic view of the structure of the light-gathering cover in fig. 1.

Fig. 3 is an exploded view of a portion of the components of the atomizing assembly of fig. 1.

Fig. 4 is a schematic structural view of a second embodiment of the present invention.

Fig. 5 is a schematic view of the structure of the light-focusing cover in fig. 4.

Fig. 6 is an exploded view of a portion of the components of the atomizing assembly of fig. 4.

Wherein: the air-permeable cover 1, the smoke rod 2, the air pressure switch 3, the battery 4, the laser 5, the mounting seat 6, the vent hole 7, the light collecting pipe 8, the adjusting seat 9, the retainer ring 10, the light collecting lens 11, the light collecting cover 12, the oil guiding rope 13, the sealing ring 14, the isolation cover 15, the oil storage cylinder 16, the air duct 17, the cover 18, the reset spring 19, the black coating 121, the annular part 122, the circular pipe section 123, the taper pipe section 124, the plug 125, the through hole 126 and the cylindrical part 124'.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without any inventive effort, are intended to be within the scope of the invention.

In the following description, one end of the tobacco rod for the user to inhale is referred to as the rear end, and the other end is referred to as the front end.

Example 1

The photon atomization cigarette shown in fig. 1-3 comprises a tubular cigarette rod 2, a transparent or semitransparent ventilation cover 1 arranged at the front end of the cigarette rod 2, and a battery assembly and an atomization device which are sequentially arranged in the cigarette rod 2 from the front end to the rear end of the cigarette rod 2;

the atomization device comprises a laser generation assembly which is electrically connected with the battery assembly and is positioned in the tobacco rod 2, and an atomization assembly which is positioned in the tobacco rod 2 and is used for receiving laser emitted by the laser generation assembly;

the laser generating assembly comprises a mounting seat 6 which is arranged on the inner cavity of the smoke rod 2 and provided with a gas-passing hole 7, a laser 5 which is arranged on the mounting seat 6 and is electrically connected with the battery assembly, a light-gathering tube 8 which is arranged at the emitting end of the laser 5 and provided with a laser light-gathering hole, and a light-gathering lens 11 which is arranged at the other end of the light-gathering tube 8 through an adjusting seat 9;

the atomization assembly comprises an oil storage cylinder 16 which is positioned at one side of the light emergent from the condenser 11 and provided with an oil storage cavity and used for blocking the inner cavity of the smoke rod 2, a light-gathering cover 12 which is arranged at one end of the oil storage cylinder 16 facing the condenser 11 and provided with a photo-thermal conversion cavity and used for receiving laser, a wick 13 which is wound on the outer wall of the light-gathering cover 12, a shielding cover 15 which is positioned in the oil storage cylinder 16 and used for shielding and sealing the light-gathering cover 12, and an air guide pipe 17 which is communicated with the shielding cover 15 and extends to the other end of the oil storage cylinder;

the isolating cover 15 is provided with

oil guide holes

151 and 152 for the oil guide rope 13 to pass through, and the oil guide rope 13 passes through the

oil guide holes

151 and 152 of the isolating cover 15 and enters the oil storage cavity of the oil storage cylinder 16; the oil guide rope 13 is matched with the

oil guide holes

151 and 152 in size so as to ensure that tobacco tar with certain viscosity in the oil storage cylinder 16 can slowly reach the part wound on the outer wall of the light condensation cover 12 through the oil guide rope 13, and a large amount of tobacco tar can not directly pass through the

oil guide holes

151 and 152 to enter the isolation cover 15, so that the tobacco tar can not flow out of the air guide pipe 17 to cause leakage of cigarettes.

The light-condensing cover 12 is provided with a ventilation structure for conducting the isolation cover 15 and the air inlet cavity of the tobacco rod 2, and the wall surface of the light-heat conversion cavity is coated with a black coating 121. The black coating 121 is a carburized layer, a synthetic resin coating, a nano carbon coating or black ceramic coating with high heat conduction and heat resistance of more than or equal to 400 ℃ and the absorbance of 85-100%, so that incident high-power laser is absorbed and converted into heat.

The light-gathering cover 12 is funnel-shaped, the large end of the light-gathering cover faces the light-gathering lens 11, the funnel-shaped light-gathering cover 12 comprises a circular pipe section 123 and a taper pipe section 124, a mounting hole for mounting the large end of the light-gathering cover 12 is formed in one end of the oil storage cylinder 16, which faces the light-gathering lens 11, a plug 125 for limiting the oil-guiding rope 13 is arranged at the small end of the light-gathering cover 12, and a conducting hole 126 for conducting the isolation cover 15 and the gas inlet cavity of the tobacco rod 2 is formed in the plug 125; the via hole 126 is not coaxial with the incident laser light, so that the laser light emitted from the laser 5 is not emitted through the via hole 126. The plug 125 of this embodiment is tubular, the inner hole thereof is communicated with the photothermal conversion cavity to form a T-shaped line passage, and the cavity thereof forms a through hole 126 of the plug 125. It is apparent that the plug 125 may have other shapes, such as a sphere with a via 126, or an L-shaped tube, etc., which function to enclose a high power laser light beam. The through holes 126 can be mixed with the atomized smoke gas by using double-sided holes or using air flow passing through only one side hole according to the size or the forming condition of the through holes so as to adjust the suction resistance of the whole photon atomized smoke.

The adjusting seat 9 comprises a connecting pipe and an annular plate positioned at one end of the connecting pipe, the inner wall of the connecting pipe is in threaded connection with the outer wall of the condensing pipe 8, and the condensing lens 11 is pressed on a hole of the annular plate through a check ring 10. The focal length of the condensing lens 11 is from the optical center of the convex lens to the tip of the photo-thermal conversion cavity so as to obtain the maximum laser power, and when the tobacco stem obtains the maximum atomized smoke by rotating the position of the adjusting seat 9 in the axial direction of the tobacco stem 2 in actual test or debugging, the position of the adjusting seat 9 is fixed by adding a locknut or gluing on the outer spiral surface of the laser condensing cavity 8 so as to prevent the position change during transportation and influence the laser atomized power; when mass production is carried out, the distance from the laser condensing cavity 8 and the condensing lens 11 to the tail end part of the photo-thermal conversion cavity 12 can be designed and customized according to the focal length parameter of the condensing lens 11 so as to ensure the reduction and debugging process and obtain the maximum atomization power.

An outwardly extending annular portion 122 is provided on the outer wall of the large end of the housing 12. The annular portion 122 and the circular tube segment 123 are used for a location-based adhesive or thermal adhesive mounting in the mounting hole of the cartridge 16.

The inner wall of the oil storage cylinder 16 facing one end of the condenser 11 is provided with a clamping ring clamped with the end part of the isolation cover 15, so that the isolation cover 15 is installed, and obviously, the isolation cover 15 can be connected with the oil storage cylinder 16 through a threaded connection or bonding mode.

The end face of the oil storage cylinder 16, which is in contact with the isolation cover, is provided with a sealing ring 14 for sealing the end part of the isolation cover 15, and the sealing ring 14 can seal the joint of the taper pipe section 124 of the light condensation cover 12 and the mounting hole of the oil storage cylinder 16.

The detachable cover 16 is arranged at one end of the oil storage cylinder 16 opposite to the light condensing cover 12, so that the oil storage cylinder 16 can be conveniently opened to add smoke liquid.

The battery assembly includes a battery 4, and a wind pressure switch 3 connected to the battery 4. It will be apparent that other commonly used power supply components may be used, such as manual switches or touch switches.

The laser 5 is a semiconductor laser of small volume, although a helium-neon laser may be used.

When the mouth end of the cigarette has the sucked air flow, the external air enters the cigarette stem 2 from the semitransparent or transparent ventilation cover 1, passes through the ventilation holes 7 distributed on the mounting seat 6, passes through the photothermal conversion cavity of the light-gathering cover 12, enters the isolation cover 15 through the through holes 126 on the end plugs 125, then enters the air guide pipe 17, and is sucked by smokers; when the air flow enters the front end of the smoke rod 2 to trigger the air pressure switch 3, meanwhile, an LED lamp on the end face of the air pressure switch 3 is lighted (set according to the needs), and the light of the LED lamp can radiate from the surface of the ventilation cover 1 at the front end; at the same time, the wind pressure switch 3 controls the energy in the battery 4 so that the laser 5 obtains voltage conduction; after the laser 5 is conducted, a beam of laser is emitted, the laser reaches the condenser lens 11 through the condensing hole of the condenser tube 8, the laser is converged through the condenser lens 11 arranged on the end face of the adjusting seat 9, the laser irradiates the inner surface of the photo-thermal conversion cavity of the condenser cover 12, after the converged high-power laser irradiates the photo-thermal conversion cavity, the end part of the photo-thermal conversion cavity rapidly heats, a large amount of heat is directly conducted to the outer annular conical surface of the photo-thermal conversion cavity through the photo-thermal conversion cavity, so that tobacco tar on the oil guide rope 13 wrapped in the outer annular conical surface shape of the outer annular conical surface is directly gasified to form atomized smoke, and finally the atomized smoke reaches the air guide tube 17 through the isolating cover 15 and is inhaled into the oral cavity by a smoker.

Example two

The photon atomization cigarette shown in fig. 4-6 comprises a tubular cigarette rod 2, a ventilation cover 1 arranged at the front end of the cigarette rod 2, and a battery component and an atomization device which are sequentially arranged in the cigarette rod 2 from the front end to the rear end of the cigarette rod 2;

the isolating cover 15 is provided with oil guide holes 151 and 152 for the oil guide rope 13 to pass through, and the oil guide rope 13 passes through the oil guide holes 151 and 152 of the isolating cover 15 and enters the oil storage cavity of the oil storage cylinder 16;

the light-condensing cover 12 is provided with a ventilation structure for conducting the isolation cover 15 and the air inlet cavity of the tobacco rod 2, and the wall surface of the light-heat conversion cavity is coated with a black coating 121.

Wherein, the light condensing cover 12 is funnel-shaped and the big end faces the light condensing lens 11, the funnel-shaped light condensing cover 12 is a cone pipe section 124, obviously, the structure of the light condensing cover in the first embodiment can also be adopted; the oil storage cylinder 16 is provided with a through hole with the diameter smaller than the diameter of the large end of the light condensing cover 12 towards one end of the light condensing lens 11 for passing laser; the large end of the light condensing cover 12 is lapped on the inner wall of the oil storage cylinder 16 facing one end of the light condensing lens 11 and covers the through hole; the small end of the light gathering cover 12 is closed, the end is provided with a return spring 19, and the other end of the return spring 19 is overlapped with the inner wall of the isolation cover 15. The pressure of the return spring 19 makes the light-gathering cover 12 attached to the side end surface of the oil storage cylinder 16 to realize airtight contact.

The small end of the light-gathering cover 12 is provided with a cylindrical part 124' sleeved with the reset spring 19.

The adjusting seat 9 comprises a connecting pipe and an annular plate with an annular part 122 positioned at one end of the connecting pipe, the inner wall of the connecting pipe is in threaded connection with the outer wall of the condensing pipe 8, and the condensing lens 11 is pressed on a hole of the annular plate through a check ring 10.

The outer wall of the large end of the light gathering cover 12 is provided with an outwardly extending annular portion 122, thereby increasing the contact area with the side end surface of the oil storage barrel 16 and ensuring effective sealing.

The inner wall of the oil storage cylinder 16 facing one end of the condenser 11 is provided with a clamping ring which is clamped with the end part of the isolation cover 15.

The end face of the oil storage cylinder 16, which is in contact with the isolation cover, is provided with a sealing ring 14 for sealing the end of the isolation cover 15, and the sealing ring 14 also serves as a sealing element for sealing the end face of the light gathering cover 12, which is in contact with the oil storage cylinder 16.

The battery assembly includes a battery 4, and a wind pressure switch 3 connected to the battery 4.

When a consumer sucks photon atomized smoke in the embodiment, negative pressure in the oral cavity of the consumer is firstly transmitted into a smaller closed space formed by a sealing ring and a shielding cover 15 through an air duct 17, a acting force pointing to the rear end (tail end) of a smoke rod in the direction is formed on the outer surface of a light-gathering cover 12, at the moment, the elastic force of a return spring 19 is subtracted by a part of the acting force of the negative pressure, the light-gathering cover 12 moves towards the direction of a cigarette holder, airtight contact between the light-gathering cover 12 and the end face of an oil storage cylinder 16 is opened, a wind pressure switch 3 at the front end of the smoke is sensed to change the air pressure, the wind pressure switch 3 controls a laser 5 to be conducted, a laser beam is emitted, the laser beam is absorbed and converted into heat by a black coating 121 in a photo-thermal conversion cavity of the light-gathering cover 12 under the focusing effect of the light-gathering lens 11, smoke oil on the light-gathering cover is heated to be gasified to generate smoke, after the consumer sucks enough atomized smoke, the negative pressure in the photon atomized smoke is absorbed by the consumer, the light-gathering cover 12 is contacted with the side end face of the oil storage cylinder 16 again under the elastic force of the return spring 19, and the smoke is sucked by the side of the light-gathering cover, and the smoke is sucked to finish a smoke sucking process.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. A photon atomization cigarette comprises a tubular cigarette stem, a ventilation cover arranged at the front end of the cigarette stem, and a battery assembly and an atomization device which are sequentially arranged in the cigarette stem from the front end to the rear end of the cigarette stem; the method is characterized in that: the atomization device comprises a laser generation assembly which is electrically connected with the battery assembly and is positioned in the tobacco rod, and an atomization assembly which is positioned in the tobacco rod and is used for receiving laser emitted by the laser generation assembly; the laser generating assembly comprises a mounting seat which is arranged on the inner cavity of the smoke rod and provided with a gas passage, a laser which is arranged on the mounting seat and is electrically connected with the battery assembly, a light collecting pipe which is arranged at the emitting end of the laser and provided with a laser light collecting hole, and a collecting lens which is arranged at the other end of the light collecting pipe through an adjusting seat; the atomization assembly comprises an oil storage cylinder which is positioned at one side of the emergent light of the condensing lens, provided with an oil storage cavity and used for blocking the inner cavity of the smoke rod, a condensing cover which is arranged at one end of the oil storage cylinder facing the condensing lens and provided with a photo-thermal conversion cavity and used for receiving laser, a oil guide rope which is wound on the outer wall of the condensing cover, an isolating cover which is positioned in the oil storage cylinder and used for covering and sealing the condensing cover, and an air guide pipe which is communicated with the isolating cover and extends to the other end of the oil storage cylinder; the isolating cover is provided with an oil guide hole for the oil guide rope to pass through, and the oil guide rope passes through the oil guide hole of the isolating cover and enters the oil storage cavity of the oil storage cylinder; the oil storage cylinder is provided with a mounting hole for mounting the large end of the light condensing cover towards one end of the light condensing lens, the small end of the light condensing cover is provided with a plug for limiting the oil guiding rope, and the plug is provided with a conducting hole for conducting the isolation cover and the smoke rod air inlet cavity; the via hole is not coaxial with the incident laser, so that the laser emitted by the laser is not emitted through the via hole, and the wall surface of the photothermal conversion cavity is coated with a black coating.

2. A photon atomizing cigarette according to claim 1, wherein: the light condensing cover is funnel-shaped, and the large end of the light condensing cover faces the light condensing lens; the oil storage cylinder is provided with a through hole with the diameter smaller than the diameter of the large end of the light condensing cover towards one end of the light condensing lens for laser to pass through; the large end of the light condensing cover is lapped on the inner wall of one end of the oil storage cylinder facing the light condensing lens and covers the through hole; the small end of the light gathering cover is closed, a reset spring is arranged at the small end of the light gathering cover, and the other end of the reset spring is overlapped with the inner wall of the isolation cover.

3. A photon atomizing cigarette according to claim 2, wherein: the small end of the light focusing cover is provided with a cylindrical part sleeved with the reset spring.

4. A photon aerosol plume as claimed in any one of claims 1 to 3, wherein: the adjusting seat comprises a connecting pipe and an annular plate positioned at one end of the connecting pipe, the inner wall of the connecting pipe is in threaded connection with the outer wall of the condensing pipe, and the condensing lens is pressed on a hole of the annular plate through a check ring.

5. A photon aerosol plume as claimed in any one of claims 1 to 3, wherein: an annular part extending outwards is arranged on the outer wall of the large end of the light condensing cover.

6. A photon aerosol plume as claimed in any one of claims 1 to 3, wherein: the inner wall of the oil storage cylinder facing one end of the collecting lens is provided with a clamping ring which is clamped with the end part of the isolation cover.

7. A photon aerosol plume as claimed in any one of claims 1 to 3, wherein: the end face of the oil storage cylinder, which is contacted with the isolation cover, is provided with a sealing ring for sealing the end part of the isolation cover.

8. A photon aerosol plume as claimed in any one of claims 1 to 3, wherein: one end of the oil storage cylinder, which is opposite to the light condensing cover, is provided with a detachable cover body.

9. A photon aerosol plume as claimed in any one of claims 1 to 3, wherein: the battery assembly comprises a battery and a wind pressure switch connected with the battery.