CN106418719B

CN106418719B - Atomizer of photon cigarette

Info

Publication number: CN106418719B
Application number: CN201610985566.3A
Authority: CN
Inventors: 吴俊�; 朱东来; 陈永宽; 韩熠; 李寿波; 张霞; 李廷华; 巩效伟
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: CN106418719A

Abstract

The invention discloses a photon cigarette atomizer, and aims to provide a simple and reliable photon cigarette atomizer. The device comprises an oil storage cylinder with an oil storage cavity, a light hood, an oil guide rope, an isolating cover and an air duct, wherein the front end of the oil storage cylinder is provided with a connecting part, the light hood is arranged on the end face of the front end of the oil storage cylinder and used for receiving a high-energy light source and realizing photo-thermal conversion, the oil guide rope is wound on the outer wall of the light hood, the isolating cover is positioned in the oil storage cylinder and covers and seals the light hood, and the air duct is communicated with the isolating cover and extends to the end face of the rear end of the oil storage cylinder; the opening end of the isolation cover faces the front 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 condensing cover is provided with a ventilation structure for conducting the shielding cover and the front end of the oil storage cylinder, and the wall surface of the light-heat conversion cavity is coated with a black coating. The invention can effectively improve the service life and reliability of the atomizer.

Description

Atomizer of photon cigarette

Technical Field

The invention relates to the technical field of electronic cigarettes, in particular to an atomizer of a photon cigarette.

Background

The prior atomizer is a device for atomizing liquid tobacco tar after heating to generate gaseous smoke under the state of electrifying and heating the resistance wire, and has higher requirements on connection reliability of the atomizer and a battery rod due to the fact that the resistance wire arranged in the atomizer is required to be heated, and simultaneously has higher requirements on connection, arrangement and installation processes of the resistance wire with heating function requirements in the atomizer.

Disclosure of Invention

The invention overcomes the defects in the prior art and provides the photon cigarette atomizer which has a simple structure, is more stable in operation, and is simple and reliable.

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

when in use, the atomizer of the photon cigarette is connected with a high-energy light source, absorbs the high-energy light source and converts the high-energy light source into a heat source; the device comprises an oil storage cylinder with an oil storage cavity, a light hood, an oil guide rope, an isolating cover and an air duct, wherein the front end of the oil storage cylinder is provided with a connecting part, the light hood is arranged on the front end face of the oil storage cylinder and used for receiving a high-energy light source and realizing photo-thermal conversion, the oil guide rope is wound on the outer wall of the light hood, the isolating cover is arranged in the oil storage cylinder and covers and seals the light hood, and the air duct is communicated with the isolating cover and extends to the rear end face of the oil storage cylinder;

the opening end of the isolation cover faces the front 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 condensing cover is provided with a ventilation structure for conducting the shielding cover and the front end of the oil storage cylinder, and the wall surface of the light-heat conversion cavity is coated with a black coating.

The front end face of the oil storage cylinder is provided with a mounting hole for sleeving the light condensing cover, the rear 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 isolation cover and a conducting hole at the front end of the oil storage cylinder.

The plug is a pipe body, the axis of the plug is perpendicular to the axis of the light-gathering cover, and the pipe hole of the plug forms a conducting hole and is communicated with the cavity of the light-gathering cover.

The plug is a cylinder and is detachably connected with the light condensing cover, and the axis of the through hole on the plug is perpendicular to the axis of the light condensing cover.

The light condensing cover is funnel-shaped; the front end face of the oil storage cylinder is provided with a through hole with the diameter smaller than the diameter of the opening end of the light-gathering cover and through which the high-energy light source passes; the opening end of the light condensing cover is lapped on the inner wall of the front end of the oil storage cylinder and covers the through hole; the rear end of the light gathering cover is closed, a reset spring is arranged at the rear end of the light gathering cover, and the other end of the reset spring is overlapped with the inner wall of the isolation cover.

The rear end of the light condensing cover is provided with a cylindrical part sleeved with the reset spring.

An annular part extending outwards is arranged on the outer wall of the front end of the light condensing cover; the inner wall of the front end of the oil storage cylinder is provided with a clamping ring which is clamped with the end part of the isolation cover.

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.

The rear end of the oil storage cylinder is provided with a detachable cover body.

And an oil filling hole with a hole plug is arranged on the end face of the rear end of the oil storage cylinder.

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

according to the atomizer, the condensing hood capable of collecting the incident high-energy light source and realizing photo-thermal conversion is arranged, so that high temperature is generated on a local area with a smaller area, energy required by atomizing liquid tobacco tar is provided, the installation of the whole atomizer is simplified, and the service life and reliability of the atomizer are effectively improved.

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 the components within the cartridge of fig. 1.

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

Fig. 5 is a schematic structural view of the light-focusing cover in fig. 4 after being connected with the plug.

Fig. 6 is an exploded view of the radome and plug of fig. 5.

Fig. 7 is a schematic structural view of a first embodiment of the present invention.

Fig. 8 is a schematic view of the structure of the light-focusing cover in fig. 7.

Fig. 9 is an exploded view of the components within the cartridge of fig. 7.

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 oil reservoir for the user to suck is referred to as a rear end, and the other end is referred to as a front end.

Example 1

The photon smoke atomizer shown in figures 1-3, when in use, is connected with a high energy light source, absorbs the high energy light source and converts it into a heat source; the solar energy light source device comprises an oil storage barrel 7 with an oil storage cavity, a connecting part 1 at the front end, a light hood 2 which is arranged on the front end face of the oil storage barrel 7 and is used for receiving a high-energy light source and realizing photo-thermal conversion, a light guide rope 4 which is wound on the outer wall of the light hood 2, a shielding cover 5 which is positioned in the oil storage barrel 7 and covers and seals the light hood 2, and an air guide pipe 8 which is communicated with the shielding cover 5 and extends to the rear end face of the oil storage barrel 7;

the opening end of the isolation cover 5 faces the front end of the oil storage cylinder 7; the isolation cover 5 is provided with

oil guide holes

51 and 52 for the oil guide rope 4 to pass through, and the oil guide rope 4 passes through the

oil guide holes

51 and 52 of the isolation cover 5 and enters the oil storage cavity of the oil storage cylinder 7; the oil guide rope 4 is matched with the

oil guide holes

51 and 52 in size so as to ensure that tobacco tar with certain viscosity in the oil storage barrel 7 can slowly reach the part wound on the outer wall of the light condensation cover 2 through the oil guide rope 4, and a large amount of tobacco tar can not directly pass through the

oil guide holes

51 and 52 to enter the isolation cover 5, so that the tobacco tar can not flow out of the air guide pipe 8 to cause leakage of cigarettes.

The light-condensing cover 2 is provided with a ventilation structure for conducting the front ends of the isolation cover 5 and the oil storage barrel 7, and the wall surface of the light-heat conversion cavity is coated with a black coating 21. The black coating 21 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 like, and the absorbance of the black coating 21 is 85-100%, so that the incident high-energy light source can be absorbed and converted into heat.

The light-gathering cover 2 comprises a cylindrical section 23 and a conical section 24, a mounting hole for sleeving the light-gathering cover 2 is formed in the end face of the front end of the oil storage barrel 7, a plug 25 for limiting the oil-guiding rope 4 is arranged at the rear end of the light-gathering cover 2, and a conducting isolation cover 5 and a conducting hole 26 at the front end of the oil storage barrel 7 are formed in the plug 25.

The plug 25 is a pipe body, the axis of the plug is perpendicular to the axis of the light-focusing cover 2, and the pipe hole of the plug forms a through hole 26 and is communicated with the cavity of the light-focusing cover 2. The through holes 26 can be mixed with the atomized smoke gas by using double side holes or using air flow passing through only one side hole according to the processing size or the forming condition so as to adjust the suction resistance of the whole photon atomized smoke.

An annular part 22 extending outwards is arranged on the outer wall of the front end of the light condensing cover 2; the annular portion 22 is used for a positioning adhesive or thermal adhesive mounting in a mounting hole of the cartridge 7. The inner wall of the front end of the oil storage barrel 7 is provided with a clamping ring which is clamped with the end part of the isolation cover 5, so that the isolation cover 5 is installed, and obviously, the isolation cover 5 can be connected with the oil storage barrel 7 in a threaded connection or bonding mode.

The end face of the oil storage cylinder 7, which is in contact with the isolation cover 5, is provided with a sealing ring 3 for sealing the end part of the isolation cover 5. And meanwhile, the sealing ring 3 can also seal the connection part of the light condensing cover 2 and the mounting hole of the oil storage barrel 7.

The rear end of the oil storage barrel 7 is provided with a detachable cover body 10, so that the disassembly, assembly and replacement of the components in the oil storage barrel 7 are facilitated.

The oil filling holes 11 with the hole plugs 12 are arranged on the end face of the rear end of the oil storage barrel 7, two oil filling holes are arranged in this embodiment, one oil filling hole is used for adding oil, and the other oil filling hole is used for discharging air of the oil storage barrel when the oil is added, so that the addition of tobacco tar is facilitated.

The outer wall of the air duct 8 is provided with a check ring 9 which is overlapped with the cover body 10, so that the positioning of the isolation cover 5 is realized.

The light shield may be made of copper, aluminum, etc. with high thermal conductivity, and the incident high energy light source is converted to high temperature of the nebulizable smoke at the distal tip by a black coating of the inner wall of its cavity.

The through hole on the plug can not only block the damage of the high-energy light source to the human tissue caused by direct irradiation, but also adjust the suction resistance during the suction of the atomized smoke, and can also be used as a source of a control signal of the photon smoke rod connected with the front end.

When the solar energy light source is in work, the high-energy light source irradiates in the photo-thermal conversion cavity of the light-gathering cover, after the photo-thermal conversion cavity irradiates by the converged high-energy light source, the end part of the solar energy light source rapidly heats, a large amount of heat is directly conducted to the outer ring conical surface of the light-gathering cover through the photo-thermal conversion cavity, so that tobacco tar on the oil guide rope wrapped in the shape of the outer ring conical surface of the oil guide rope is directly gasified to form atomized smoke, and finally the atomized smoke is inhaled by consumers under the isolation and guide of the isolation cover and the air guide pipe.

Example two

The photon smoke atomizer shown in fig. 4-6, when in use, is connected with a high energy light source, absorbs the high energy light source and converts it into a heat source; the solar energy light source device comprises an oil storage barrel 7 with an oil storage cavity, a connecting part 1 at the front end, a light hood 2 which is arranged on the front end face of the oil storage barrel 7 and is used for receiving a high-energy light source and realizing photo-thermal conversion, a light guide rope 4 which is wound on the outer wall of the light hood 2, a shielding cover 5 which is positioned in the oil storage barrel 7 and covers and seals the light hood 2, and an air guide pipe 8 which is communicated with the shielding cover 5 and extends to the rear end face of the oil storage barrel 7;

oil guide holes

The light-gathering cover 2 is funnel-shaped, a mounting hole for sleeving the light-gathering cover 2 is formed in the front end face of the oil storage barrel 7, a plug 25 for limiting the oil-guiding rope 4 is arranged at the rear end of the light-gathering cover 2, and a conducting isolation cover 5 and a conducting hole 26 at the front end of the oil storage barrel 7 are formed in the plug 25.

The plug 25 is a cylinder and is detachably connected with the light-condensing cover 2, and the axis of the through hole 26 on the plug is perpendicular to the axis of the light-condensing cover 2.

The end face of the oil storage cylinder 7, which is in contact with the isolation cover 5, is provided with a sealing ring 3 for sealing the end part of the isolation cover 5. And the sealing ring 3 can also seal the joint of the taper pipe section of the light condensing cover 2 and the mounting hole of the oil storage barrel 7.

When the rear end of the light-focusing cover is connected with the upper plug 25, in order to ensure that the light-heat conversion cavity of the light-focusing cover and the outside air exchange do not cause overlarge suction resistance of the whole photon atomized cigarette, a through hole with the air permeability smaller than 1mm is required to be drilled on the plane of the plug, so that the suction of the whole photon atomized cigarette can be ensured, the reliable connection between the plug and the light-focusing cover can be ensured while the light-heat conversion cavity is communicated, the plug 26 can not accidentally fall off from the light-focusing cover during storage and use, and the incident high-energy light source can be blocked while ventilation is carried out, so that the body of a smoker is prevented from being damaged by penetrating out of the air duct 8, and on the other hand, the light-focusing cover is also used as an auxiliary fixing measure of the oil-guiding rope 4 on the light-focusing cover, and the upper oil-guiding rope 4 is prevented from sliding off from the light-focusing cover during production, storage or use.

The same manner as in the first embodiment is used.

Example III

The photon smoke atomizer of figures 7-9, in use, is connected to a high energy light source, absorbing the high energy light source and converting it into a heat source; the solar energy light source device comprises an oil storage barrel 7 with an oil storage cavity, a connecting part 1 at the front end, a light hood 2 which is arranged on the front end face of the oil storage barrel 7 and is used for receiving a high-energy light source and realizing photo-thermal conversion, a light guide rope 4 which is wound on the outer wall of the light hood 2, a shielding cover 5 which is positioned in the oil storage barrel 7 and covers and seals the light hood 2, and an air guide pipe 8 which is communicated with the shielding cover 5 and extends to the rear end face of the oil storage barrel 7;

the opening end of the isolation cover 5 faces the front end of the oil storage cylinder 7; the isolation cover 5 is provided with oil guide holes 51 and 52 for the oil guide rope 4 to pass through, and the oil guide rope 4 passes through the oil guide holes 51 and 52 of the isolation cover 5 and enters the oil storage cavity of the oil storage cylinder 7; the oil guide rope 4 is matched with the oil guide holes 51 and 52 in size so as to ensure that tobacco tar with certain viscosity in the oil storage barrel 7 can slowly reach the part wound on the outer wall of the light condensation cover 2 through the oil guide rope 4, and a large amount of tobacco tar can not directly pass through the oil guide holes 51 and 52 to enter the isolation cover 5, so that the tobacco tar can not flow out of the air guide pipe 8 to cause leakage of cigarettes.

The light condensing cover 2 is funnel-shaped; the front end face of the oil storage barrel 7 is provided with a through hole with the diameter smaller than the diameter of the opening end of the light-gathering cover 2 and through which the high-energy light source passes; the opening end of the light condensing cover 2 is lapped on the inner wall of the front end of the oil storage cylinder 7 and covers the through hole; the rear end of the light condensing cover 2 is closed, the end is provided with a return spring 13, and the other end of the return spring 13 is lapped with the inner wall of the isolation cover 5. The elasticity of the return spring 13 is based on the fact that the dome is just pressed against the sealing ring 3 and is airtight, the cover 10 is in threaded connection with the housing 7, the air duct 8 presses the whole dome by the pre-tightening force on the cover 10 through the retainer ring 9 fixedly connected to the air duct, and therefore the acting force of the return spring 13 pressed on the dome can be adjusted within a certain range.

The rear end of the light condensing cover 2 is provided with a cylindrical part 24' sleeved with the return spring 13, so that the return spring is effectively positioned.

An annular part 22 extending outwards is arranged on the outer wall of the front end of the light condensing cover 2; thereby increasing the contact area with the side end surface of the oil reservoir 7 and ensuring effective sealing. The inner wall of the front end of the oil storage barrel 7 is provided with a clamping ring which is clamped with the end part of the isolation cover 5, so that the isolation cover 5 is installed, and obviously, the isolation cover 5 can be connected with the oil storage barrel 7 in a threaded connection or bonding mode.

The end face of the oil storage cylinder 7, which is in contact with the isolation cover 5, is provided with a sealing ring 3 for sealing the end part of the isolation cover 5. The sealing ring 3 also serves as a sealing element for sealing the end face of the light-gathering cover 2 and the oil storage cylinder 7 in a contact manner.

The light shield may be made of copper, aluminum, etc. with high thermal conductivity, and the incident high energy light source is converted to high temperature of the nebulizable smoke at the distal tip by a black coating of the inner wall of its cavity. The preferred clearance delta between the outer edge of the circular ring part and the inner wall of the isolation cover is less than or equal to 0.3mm, so that the reliability of the mechanism after assembly is ensured.

When a consumer sucks the photon atomizer of the embodiment, negative pressure in the oral cavity of the consumer is firstly transmitted into a smaller closed space formed by the sealing ring 3 and the isolation cover 5 through the air duct 7, a force directed to the rear end in one direction is formed on the largest outer circle of the light condensation cover 2 and one side close to the conical outer surface, at the moment, the elasticity of the reset spring 13 subtracts a part of the force of the negative pressure, so that the light condensation cover 2 moves towards the mouth end of the photon atomizer, the closed small environment is opened, the front end is communicated with the air pressure in the isolation cover relatively at rest, the high-energy light source beam input at the front end heats in the closed black material in the light condensation cover 2 to gasify tobacco tar on the outer wall of the conical surface of the ring to generate smoke, after the consumer sucks enough atomized smoke, the pressure in the atomizing cavity is zero, the light condensation cover 2 is attached and sealed with the wall surface of the oil storage cylinder under the elasticity of the reset spring 13, and the process of sucking one port of electronic smoke is completed.

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. When in use, the atomizer of the photon cigarette is connected with a high-energy light source, absorbs the high-energy light source and converts the high-energy light source into a heat source; the method is characterized in that: the device comprises an oil storage cylinder with an oil storage cavity, a light hood, an oil guide rope, an isolating cover and an air duct, wherein the front end of the oil storage cylinder is provided with a connecting part, the light hood is arranged on the front end face of the oil storage cylinder and used for receiving a high-energy light source and realizing photo-thermal conversion, the oil guide rope is wound on the outer wall of the light hood, the isolating cover is arranged in the oil storage cylinder and covers and seals the light hood, and the air duct is communicated with the isolating cover and extends to the rear end face of the oil storage cylinder;

the condensing cover is provided with a conducting isolation cover and a ventilation structure at the front end of the oil storage cylinder, and the wall surface of the photo-thermal conversion cavity is coated with a black coating;

the light-gathering cover is funnel-shaped, a through hole with the diameter smaller than that of the opening end of the light-gathering cover and through which the high-energy light source passes is formed in the end face of the front end of the oil storage barrel, and the opening end of the light-gathering cover is lapped on the inner wall of the front end of the oil storage barrel and covers the through hole;

the rear end of the light-gathering cover is provided with a plug of the limiting oil-guiding rope, and the plug is provided with a conducting isolation cover and a conducting hole at the front end of the oil storage cylinder.

2. A photonic smoke atomizer according to claim 1, characterized in that: and a mounting hole for sleeving the light condensing cover is formed in the front end face of the oil storage cylinder.

3. A photonic smoke atomizer according to claim 2, characterized in that: the plug is a pipe body, the axis of the plug is perpendicular to the axis of the light-gathering cover, and the pipe hole of the plug forms a conducting hole and is communicated with the cavity of the light-gathering cover.

4. A photonic smoke atomizer according to claim 2, characterized in that: the plug is a cylinder and is detachably connected with the light condensing cover, and the axis of the through hole on the plug is perpendicular to the axis of the light condensing cover.

5. A photonic smoke atomizer according to claim 1, characterized in that: the rear end of the light gathering cover is closed, a reset spring is arranged at the rear end of the light gathering cover, and the other end of the reset spring is overlapped with the inner wall of the isolation cover.

6. The photonic smoke atomizer of claim 5, wherein: the rear end of the light condensing cover is provided with a cylindrical part sleeved with the reset spring.

7. A photonic smoke atomizer according to any one of claims 1 to 6, characterized in that: an annular part extending outwards is arranged on the outer wall of the front end of the light condensing cover; the inner wall of the front end of the oil storage cylinder is provided with a clamping ring which is clamped with the end part of the isolation cover.

8. A photonic smoke atomizer according to any one of claims 1 to 6, characterized in that: 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.

9. A photonic smoke atomizer according to any one of claims 1 to 6, characterized in that: the rear end of the oil storage cylinder is provided with a detachable cover body.

10. A photonic smoke atomizer according to any one of claims 1 to 6, characterized in that: and an oil filling hole with a hole plug is arranged on the end face of the rear end of the oil storage cylinder.