WO2016123764A1 - 一种雾化组件及电子烟 - Google Patents
一种雾化组件及电子烟 Download PDFInfo
- Publication number
- WO2016123764A1 WO2016123764A1 PCT/CN2015/072240 CN2015072240W WO2016123764A1 WO 2016123764 A1 WO2016123764 A1 WO 2016123764A1 CN 2015072240 W CN2015072240 W CN 2015072240W WO 2016123764 A1 WO2016123764 A1 WO 2016123764A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- oil
- atomizing
- assembly
- oil storage
- chamber
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F15/00—Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor
- A24F15/01—Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor specially adapted for simulated smoking devices or cigarettes therefor
- A24F15/015—Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor specially adapted for simulated smoking devices or cigarettes therefor with means for refilling of liquid inhalable precursors
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/10—Devices using liquid inhalable precursors
Definitions
- the present invention relates to the field of electronic cigarettes, and more particularly to an atomizing assembly and an electronic cigarette.
- the electronic cigarette includes an atomizing component and a battery component
- the atomizing component includes an oil storage sleeve, and an atomizing core connected to one end of the oil storage sleeve, because the electronic cigarette glass fiber line is directly connected with the oil storage bottle
- the contact with the smoke oil does not have a buffering process of the liquid liquid.
- the liquid smoke easily penetrates into the atomizing core, causing the user to smoke the oil, and after adding the oil, the battery rod needs to be removed, and then the atomizing core is removed.
- the process is complicated. Frequent removal of the fuel rod to add smoke oil can cause looseness between the battery rod and the atomizer, resulting in unstable electrical connections and unstable smoke.
- vent hole for airflow
- the vent hole is distributed along the axial direction of the atomization assembly and communicates with the battery assembly, and the smoke oil in the atomization assembly passes through the vent hole. It flows into the inside of the battery pack, causing damage to the internal components of the battery pack.
- the technical problem to be solved by the present invention is to provide an atomizing component and an electronic cigarette in view of the above-mentioned drawbacks in the prior art.
- An atomization assembly for composing an electronic cigarette with a battery assembly, the atomization assembly includes an oil storage sleeve, and an atomization core is connected to one end of the oil storage sleeve, and the oil storage sleeve and the storage tank
- the atomization core is surrounded by an oil storage chamber for storing the smoke oil, and the end surface of the other end of the oil storage sleeve is formed with a fuel filler port, and the fuel filler port is provided with one end detachably connected to the oil storage sleeve.
- An oil retaining member, the other end of the oil retaining member is detachably connected With a nozzle;
- the atomization core includes an atomization seat, an atomization chamber is formed in the atomization seat, and the atomization chamber is provided with an insulation tube and an electric heating wire assembly mounted on the insulation tube,
- the electric heating wire assembly includes an oil guiding member for adsorbing the smoke oil in the oil storage chamber, and an electric heating wire for atomizing the oil in the oil guiding member; one end of the atomizing seat is connected with the battery An atomizing electrode assembly electrically connected to the component, the heating wire is disposed in the insulating tube and electrically connected to the atomizing electrode assembly, and the other end of the atomizing seat is sleeved with a vent pipe, and the vent pipe is away from the One end of the atomizing seat extends out of the fueling port and is elastically sealed with the oil retaining member;
- the atomization seat further has an oil storage member that is opposite to both ends of the oil guiding member and is made of an oil absorbing material, and the oil storage member is disposed along a longitudinal direction of the atomizing assembly.
- An oil passage is provided, and a sidewall of the vent pipe is provided with a oil passage hole that opens the oil storage chamber and the oil passage.
- the oil reservoir is sleeved between the atomizing seat and the snorkel
- the oil passage is a mounting groove provided on the atomization seat, and two ends of the oil guiding member respectively extend into the installation groove and abut against the oil storage member.
- the oil storage member is sleeved between the atomizing seat and the insulating tube
- the oil passage is an oil inlet hole provided on the atomization seat, and both ends of the oil guiding member abut against the oil storage member.
- the end surface of the vent pipe facing away from the battery assembly is provided with a smoke exhaust port that is electrically connected to the suction nozzle, and when the atomization assembly is vertical
- the smoke exhaust port on which the smog is placed is placed at least 1.5 mm above the fuel filler.
- a smoke oil condensation chamber communicating with the vent pipe is formed in the suction nozzle, and an air outlet hole is disposed at a cavity wall of the smoke oil condensation chamber, The mist atomized by the atomizing core flows through the vent pipe to the vent hole, and the condensed soot oil can be stored in the smog oil condensation chamber.
- a periphery of the air outlet hole is convexly disposed toward a side close to the atomizing core for blocking smoke oil entering the air outlet hole in the smoke oil condensation chamber.
- Annular boss is convexly disposed toward a side close to the atomizing core for blocking smoke oil entering the air outlet hole in the smoke oil condensation chamber.
- the oil retaining member is provided with a sliding groove facing the surface of the nozzle,
- the groove surface of the chute forms an angle of less than 90° with the axial direction of the atomizing assembly, so that the oil condensed in the smog condensation chamber flows back into the atomization chamber for secondary atomization.
- the oil retaining member is a hollow structure, and an inner wall of the oil retaining member is convexly provided with an annular protrusion, and the annular protrusion faces one of the oil storage chambers.
- An annular sealing plate is fixed to the side, and an end surface of the vent pipe elastically abuts against the sealing plate, and an outer circumferential surface of the vent pipe is in clearance with an inner circumferential surface of the oil retaining member.
- the outer side wall of the one end of the oil retaining member extending to the outside of the oil storing sleeve is provided with knurling for anti-slip.
- the atomizing electrode assembly includes a first inner electrode, and the first inner electrode is provided with a perforation communicating with the atomizing chamber, the perforations including each other a first through hole and a second through hole, the first through hole is disposed at an end of the first inner electrode toward the nozzle and disposed along a longitudinal direction of the atomizing assembly, and the second through hole is disposed at the
- the first inner electrode faces away from one end of the nozzle and is disposed along a lateral direction of the atomizing assembly, and the end surface of the first inner electrode facing the battery assembly is a closed surface.
- the atomizing electrode assembly further includes a connecting member for detachably connecting with the battery assembly, the connecting member is sleeved away from the oil storage sleeve One end of the nozzle is detachably connected to the atomizing seat.
- the present invention also provides an electronic cigarette comprising an interconnected battery assembly and an atomizing assembly, the atomizing assembly comprising an oil storage sleeve, an atomizing core is connected to one end of the oil storage sleeve, and the storage
- the oil jacket and the atomization core are enclosed with an oil storage chamber for storing the oil
- the end surface of the other end of the oil storage sleeve is formed with a fuel filler port
- the fuel filler port is provided with one end detachably connected to the reservoir
- An oil retaining member on the oil jacket, the other end of the oil retaining member is detachably connected with a suction nozzle;
- the atomization core includes an atomization seat, an atomization chamber is formed in the atomization seat, and the atomization chamber is provided with an insulation tube and an electric heating wire assembly mounted on the insulation tube,
- the electric heating wire assembly includes an oil guiding member for adsorbing the smoke oil in the oil storage chamber, and an electric heating wire for atomizing the oil in the oil guiding member; one end of the atomizing seat is connected with the battery
- An atomizing electrode assembly electrically connected to the component, the heating wire is disposed in the insulating tube and electrically connected to the atomizing electrode assembly, and the other end of the atomizing seat is sleeved with a vent pipe, and the vent pipe is away from the One end of the atomizing seat extends out of the fueling port and is elastically sealed with the oil retaining member
- the atomization seat further has an oil storage member that is opposite to the two ends of the oil guiding member and is made of an oil absorbing material, and the oil storage member is disposed along a longitudinal direction of the atomizing assembly.
- An oil passage is provided, and a sidewall of the vent pipe is provided with a oil passage hole that opens the oil storage chamber and the oil passage.
- the implementation of the atomization assembly and the electronic cigarette of the present invention has the following beneficial effects: First, by arranging an oil storage member made of an oil absorbing material on the atomization seat, the smoke in the oil storage chamber The oil penetrates into the oil guiding member through the oil storage member, so that the oil storage member forms a smoke oil buffer passage, which can avoid direct contact between the oil guiding member and the oil in the oil storage chamber, thereby avoiding a large amount of smoke oil in the oil storage chamber. Infiltrated into the oil guide.
- the side wall of the oil storage member is elastically sealed against the side wall of the atomization seat to prevent the smoke oil from flowing into the atomization chamber from the gap between the oil storage member and the atomization seat, thereby causing the user to smoke the smoke oil, thereby affecting User experience.
- the exhaust port of the vent pipe and the oil filler port of the oil storage sleeve are located on different height planes, so that when the atomizing assembly is vertically placed, the smoke exhaust port of the snorkel is added from the fuel filler port, and the exhaust port of the vent pipe is higher than the oil storage sleeve.
- the oil retaining member is provided with a sealing plate, and the venting pipe extends into the oil retaining member and elastically abuts against the sealing plate plate, so that the vent pipe is elastically sealed with the oil retaining member, thereby preventing the smoke oil from the snorkel Leakage in the gap with the oil retaining member affects the user experience.
- the structure of the atomizing assembly of the present application can be made more compact, easy to assemble, and effectively improve assembly efficiency.
- the end surface of the first inner electrode facing the battery assembly is a closed surface, and thus the present application abandons the prior art. a mode of intake of the bottom end of the inner electrode, and increasing the contact area between the bottom surface of the first inner electrode and the electrode in the battery rod, thereby preventing the smoke oil in the atomizing assembly from entering the inside of the battery assembly, thereby causing damage to the internal components of the battery assembly. defect.
- FIG. 1 is an exploded view of an atomizing assembly provided by one of the preferred embodiments of the present invention
- FIG. 2 is a schematic structural view of the atomizing assembly shown in FIG. 1;
- FIG. 3 is a schematic structural view of an atomizing seat of the atomizing assembly shown in FIG. 2;
- FIG. 4 is a schematic structural view of a first inner electrode of the atomizing assembly shown in FIG. 2;
- FIG. 5 is a schematic structural view of an atomizing assembly according to a second embodiment of the present invention.
- FIG. 6 is a schematic structural view of an atomizing seat of the atomizing assembly shown in FIG. 5;
- FIG. 7 is a schematic structural view of a vent pipe of an atomizing assembly according to a third embodiment of the present invention.
- FIG. 8 is a schematic structural view of an atomizing assembly provided by a third embodiment of the present invention.
- an atomization assembly for forming an electronic cigarette in combination with a battery assembly (not shown) is provided in one of the preferred embodiments of the present invention, as shown in FIG. 2 .
- the atomizing assembly includes an oil cup assembly 2, and the oil cup assembly 2 includes an oil storage sleeve 21, and the oil storage sleeve 21 and the connecting member 23 are fixedly connected by a tensioning fit, and the inner wall of the connecting member 23 is detachable.
- connection is provided with an atomizing core 3, and the oil storage sleeve 21, the connecting member 23 and the atomizing core 3 are surrounded by an oil storage chamber 22 for storing the oil, and the oil storage opening is formed at the end of the oil storage sleeve 21 at the other end.
- An oil retaining member 4 detachably coupled to the oil storage jacket 21 is disposed, and the other end of the oil retaining member 4 is detachably coupled to the suction nozzle 1.
- the atomizing core 3 includes an atomizing seat 31, and an atomizing chamber 32 is formed in the atomizing chamber 31.
- the atomizing chamber 32 is provided with an insulating tube 36 and an electric heating wire assembly 33 mounted on the insulating tube 36.
- the heating wire assembly 33 includes an oil guiding member 331 for adsorbing the oil in the oil storage chamber 22, and a heating wire 332 for atomizing the oil in the oil guiding member 331; one end of the atomizing seat 31 is connected to the battery assembly.
- the atomizing base 31 is further provided with an oil storage member 37 which is opposite to both ends of the oil guiding member 331 and is made of an oil absorbing material.
- the oil storage member 37 is in the longitudinal direction of the atomizing assembly.
- the cylindrical body of the oil storage member 37 is elastically abutted against the atomizing seat 31, and the oil passage of the atomizing chamber 32 is provided with an oil passage for the oil in the oil storage chamber 22 to penetrate into the oil guiding member 331.
- the side wall of the vent pipe 34 is provided with a oil passage hole 341 that guides the oil storage chamber 22 and the oil passage.
- the oil in the oil storage chamber 22 is infiltrated into the oil guiding member 331 through the oil storage member 37, so that the oil storage member 37 Forming a smoke oil buffer passage can prevent the smoke oil on the oil guiding member 331 from being excessively smashed, and the oil on the oil guiding member 331 will seep into the atomizing chamber 32, and the smoke oil in the atomizing chamber 32 will enter.
- the oil guiding member 331 is in indirect contact with the oil in the oil storage chamber 22, thereby preventing the large amount of the oil in the oil storage chamber 22 from infiltrating into the oil guiding member 331, thereby improving the user's smoking of the electronic cigarette. The effect of the experience.
- the oil storage member 37 made of the oil absorbing material is substantially a cylindrical body, and the elastic sealing sleeve is disposed between the atomizing seat 31 and the vent pipe 34.
- the oil absorbing material may be a sponge or a fiber, and the material thereof is not specifically limited; and the oil storage member 37 may be rolled into a cylindrical structure by a sheet-like body, or the tubular structure may be integrally formed. .
- An oil passage for the oil in the oil storage chamber 22 to penetrate into the oil guiding member 331 is disposed at the cavity wall of the atomizing chamber 32, and both ends of the oil guiding member 331 respectively pass through the oil passage passage, and the oil storage member The 37 phase abuts so that the oil stored in the oil retaining member 37 penetrates into the oil guiding member 331.
- the side wall of the oil storage member 37 is elastically sealed against the side wall of the atomization seat 31 to prevent the smoke oil from flowing into the atomization chamber 32 from the gap between the oil storage member 37 and the atomization seat 31. And affect the user's experience.
- the atomizing core 3 includes an atomizing seat 31, an atomizing chamber 32, a heating wire assembly 33, a vent pipe 34, a misting electrode assembly 35, an insulating tube 36, and an oil reservoir 37.
- the atomization seat 31 is connected to one end of the oil storage sleeve 21 away from the suction nozzle 1, the atomization chamber 32 is disposed inside the atomization seat 31, and the insulation tube 36 is housed in the atomization chamber 32 and along the mist.
- the axial distribution of the assembly, the heating wire assembly 33 is mounted on the insulating tube 36, the venting tube 34 is sleeved at one end of the atomizing seat 31 near the nozzle 1, and the oil storage member 37 is sleeved on the venting tube 34 and the atomizing seat 31.
- the atomizing electrode assembly 35 is connected to one end of the atomizing seat 31 away from the nozzle 1 and is electrically connected to the battery pack.
- the atomizing seat 31 is detachably connected to the end of the oil storage sleeve 21 away from the suction nozzle 1 by a screw connection structure.
- the oil storage sleeve 21 is disposed at an end of the suction nozzle 1 and is provided with a connecting member 23, the connecting member.
- the outer side wall of the atomizing seat 31 is provided with an external thread structure adapted to the internal thread structure
- an oil passage for infiltrating the oil in the oil storage chamber 22 is provided at the cavity wall of the atomization chamber 32, and the oil passage is two relatively spaced installation slots. 311.
- the two mounting slots 311 are respectively disposed at one ends of the atomizing base 31 facing the nozzle 1.
- the oil storage member 37 is sleeved outside the atomization seat 31, and the side wall of the oil storage member 37 is elastically abutted against the side wall of the atomization seat 31, and the two ends of the oil guiding member 331 respectively extend from the two mounting grooves 311, and It is in contact with the oil storage member 37.
- the heating wire assembly 33 includes an oil guiding member 331 and an electric heating wire 332 (not labeled in the drawings).
- the oil guiding member 331 is made of an oil absorbing material, which is fixed on the insulating tube 36, and both ends of the oil guiding member 331 Abutting the oil storage member 37, the heating wire 332 is wound around the oil guiding member 331 and electrically connected to the battery assembly.
- the atomizing base 31 is made of a conductive material, and the heating wire 332 is placed in the insulating tube 36 to prevent the heating wire 332 from touching the cavity wall of the atomizing chamber 32 in the atomizing seat 31 to affect the heating wire.
- the stability of the 332 electrical connection avoids the problem that the amount of smoke is unstable due to the change in the resistance of the atomizing assembly due to the contact of the heating wire 33 2 with the wall of the atomizing chamber 32.
- the vent pipe 34 is sleeved outside the oil storage member 37, and is interference-fitted with the oil storage member 37, so that the oil storage member 37 elastically abuts against the atomization seat 31, and the smoke oil is prevented from the oil storage member 37 and the mist.
- the gap between the seats 31 leaks into the atomizing chamber 32 or the vent pipe 34, and the problem that the oil accumulator 37 leaks due to supersaturation of the soot oil is avoided. Since the gas pipe 34 is elastically sealed to the atomizing seat 31, the atomizing core 3 can be detached from the end of the oil reservoir 21 close to the suction nozzle 1.
- the side wall of the vent pipe 34 is provided with a oil passage 340 for guiding the oil passage on the atomization seat 31 and the oil reservoir 22, and the oil in the oil reservoir 22 passes through the oil.
- the hole 341 enters the oil storage member 37, it is infiltrated into the oil guiding member 331 through the oil retaining member 37.
- the vent pipe 34 is surrounded by an air flow passage for the airflow to flow into the mouthpiece 1, and the two ends of the vent pipe 34 are respectively elastically sealed with the atomizing seat 31 and the oil retaining member 4, and the heating wire assembly 33 The mist generated by the atomization flows into the nozzle 1 through the air flow passage and is sucked by the user.
- one end of the vent pipe 34 facing away from the battery assembly is a smoke exhaust port that is electrically connected to the suction nozzle 1.
- the smoke oil is dropped to the snorkel.
- the vent pipe 34 extends from the end of the suction nozzle 1 to the fuel filler port, that is, the smoke exhaust port of the vent pipe 34 and the fuel filler port of the oil storage jacket 21 are located on different heights of the plane, so that when the atomization assembly is vertical Straight placement
- the smoke exhaust port of the smog pipe 34 is added from the fuel filler port and is higher than the fuel filler port of the oil storage jacket 21.
- the outer peripheral wall of the vent pipe 34 blocks the smoke oil, thereby preventing the smoke oil from splashing into the vent pipe 34. Since the exhaust port of the vent pipe 34 and the fuel filler port of the oil storage jacket 21 have a height difference of 1.5 mm, the smoke exhaust port of the vent pipe 34 is physically separated from the fuel filler port of the oil storage jacket 21 and has a distinct position. Differentiate, it is convenient for users to add smoke oil.
- the venting port of the venting pipe 34 is at least 1.5 mm higher than the fueling port. It is preferably 4 mm to 6 mm so that the user can grip the misted core.
- the exhaust port of the vent pipe 34 is 5 mm above the fuel filler port.
- the insulating tube 36 is received in the atomizing chamber 32 and distributed along the axial direction of the atomizing assembly.
- the insulating tube 36 is provided with two oppositely disposed fixing holes (not labeled), and two of the oil guiding members 331 The end passes through the fixing hole and is mounted on the insulating tube 36.
- the heating wire 332 is wound around the oil guiding member 331 and located in the insulating tube 36. Since the atomizing seat 31 is made of a conductive material in the embodiment, the heating wire 332 is placed in the insulating tube 36 to avoid the heating wire 332. The contact with the atomizing seat 31 effectively improves the stability of the resistance of the heating wire 332.
- the atomizing electrode assembly 35 is coupled to one end of the atomizing holder 31 adjacent to the battery assembly, and the atomizing electrode assembly 35 includes a first inner electrode 351, a first insulating member 352, and a first outer electrode.
- the first outer electrode is a connecting member 23, and the atomizing seat 31 is made of a conductive material.
- One end of the heating wire 332 is electrically connected to the connecting member 23 through the atomizing base 31 to realize electrical connection with the battery assembly.
- the other end of the wire 332 is electrically connected to the battery assembly through the first inner electrode 351.
- the atomizing electrode assembly 35 may be two electrodes arranged side by side and isolated from each other, and the two ends of the heating wire 332 are respectively disposed with the two sides arranged side by side.
- the electrodes are electrically connected. Therefore, the structure thereof is not particularly limited as long as electrical energy can be transmitted.
- the outer side wall of the connecting member 23 is provided with at least one air inlet hole (not shown) through which the airflow enters the inside of the atomizing assembly.
- the first inner electrode 351 is provided with a through hole communicating with the air inlet hole, and the air flow sequentially flows through the air inlet hole and the through hole to enter the atomization cavity 32.
- the through hole includes a first through hole 354 and a second through hole 355 which are connected to each other, and the first through hole 354 is disposed on an end surface of the first inner electrode 351 facing the one end of the suction nozzle 1 and along the end surface.
- the second through hole 355 is disposed at an end of the first inner electrode 35 1 facing away from the suction nozzle 1 and disposed along a lateral direction of the atomizing assembly, the first inner electrode 351 facing the
- the end surface of the battery assembly is a closed surface. Therefore, the present application abandons the mode of the bottom end of the first inner electrode 351 in the prior art, and increases the contact area between the bottom surface of the first inner electrode 351 and the electrode in the battery rod, thereby avoiding The smoke oil in the atomizing assembly enters the interior of the battery assembly, thereby causing damage to the structure of the battery and the controller (not shown) in the battery assembly.
- the contact area of the first inner electrode 351 with the electrode of the battery assembly can be increased, thereby improving the first inner electrode 351 and the battery assembly. The stability of the electrical connection between them.
- the atomizing core 3 mainly includes an atomizing seat 31, an atomizing chamber 32, a heating wire assembly 33, a vent tube 34, an atomizing electrode assembly 35, an insulating tube 36, and an oil storage member 37. It is to be understood that the atomizing core 3 of the present application is not limited to the above structure, and may be other structures as long as it can atomize the smoke oil.
- the oil cup assembly 2 mainly includes an oil storage jacket 21, an oil reservoir chamber 22, and a connecting member 23.
- the oil storage sleeve 21 has a substantially cylindrical structure, and the connecting member 23 and the oil retaining member 4 are respectively connected to both ends of the oil storage jacket 21.
- An oil storage chamber 22 for storing the oil and smoke is enclosed between the oil storage sleeve 21, the connecting member 23 and the atomizing core 3.
- the oil storage sleeve 21 is Made of light transmissive material.
- the oil storage jacket 21 includes an oil storage jacket body 211 and a connecting sleeve 212 at an end of the oil storage jacket body 211.
- the oil reservoir body 211 and the connecting sleeve 212 may be integrally formed, and are not specifically limited herein.
- the connecting member 23 is inserted outside the end of the oil storage sleeve 21 adjacent to the battery assembly, the atomizing core 3 is detachably connected to the connecting member 23, and at least one air supply is provided on the outer side wall of the connecting member 23. Flow into the air intake inside the atomizing assembly.
- the atomizing core 3 is fixed to the connecting member 23 by means of a screw connection.
- the connecting member 23 can also adopt other detachable connecting structures, and the connecting member 23 can also be connected.
- Other connection structures such as elastic snap-in springs in the snap connection, may be provided. In the present embodiment, only the screw connection is taken as an example, and is not limited to the screw connection.
- the oil retaining member 4 is substantially hollow, and is detachably connected to one end of the oil storage sleeve 21 away from the battery assembly by a screw connection structure, and is elastically sealed with the vent pipe 34.
- the inner side wall of the oil storage sleeve 21 is provided with an internal thread structure
- the outer side wall of the oil retaining member 4 facing away from the end of the suction nozzle 1 is provided with the inner portion Threaded external thread structure.
- the outer side wall of the one end of the oil retaining member 4 extending to the outside of the oil storage jacket 21 is provided with knurling for anti-slip.
- annular protrusion 42 is protruded from an inner side wall of the oil retaining member 4, and the annular protrusion 42 is provided with a through hole 44 for conducting the nozzle 1 and the vent tube 34, and the electric heating wire assembly 33 is fogged. The generated smoke passes through the through hole 44, flows into the nozzle 1 from the vent pipe 34, and is sucked by the user.
- the annular protrusion 42 is fixed with a sealing plate 43 facing the side facing away from the suction nozzle 1, and the vent pipe 34 extends into the oil retaining member 4 and elastically abuts against the sealing plate 43 to make the snorkel 34 is elastically sealed with the oil retaining member 4 to prevent leakage of the oil from the gap between the vent pipe 34 and the oil retaining member 4 to affect the user experience.
- the gasket plate 43 By fixing the gasket plate 43 to the oil retaining member 4, the structure of the atomizing assembly of the present application can be made more compact and easy to assemble.
- the outer circumferential surface of the vent pipe 34 is clearance-fitted with the inner circumferential surface of the oil retaining member 4 so as not only to facilitate the disassembly and assembly of the oil retaining member 4, but also when the oil retaining member 4 is connected to the oil storage jacket 21
- the gap between the outer peripheral surface of the vent pipe 34 and the oil retaining member 4 discharges the air in the oil reservoir 22, thereby preventing the assembly of the oil retaining member 4 and the compressed air to press the oil in the oil reservoir 22 into the atomizing chamber 32.
- one end of the oil retaining member 4 extending out of the oil storage sleeve 21 is detachably connected to the suction nozzle 1 by a threaded structure.
- the inner side wall of the oil retaining member 4 is provided with an internal thread structure, and is sucked.
- the inner side wall of the mouth 1 is provided with an external thread structure adapted to the internal thread structure.
- the oil retaining member 4 can also adopt other detachable connecting structures, and other connecting structures can be disposed on the oil retaining member 4, such as elastic snapping in the snap connection.
- other connecting structures can be disposed on the oil retaining member 4, such as elastic snapping in the snap connection.
- only the screw connection is described as an example of the elastic piece or the like, and is not limited to the screw connection.
- the suction nozzle 1 is detachably connected to one end of the oil retaining member 4, and a smoke oil communicating with the exhaust port of the vent pipe 34 is formed between the suction nozzle 1 and the oil retaining member 4.
- the condensing chamber 10, the smoky liquid condensed on the smoking snorkel 34 flows along the airflow and is stored in the smog condensation chamber 10 in the suction nozzle 1. Since the suction nozzle 1 and the oil retaining member 4 are detachably connected, the user can determine ⁇ Disassemble the nozzle 1 to clean the smoke liquid stored in the smoke oil condensation chamber 10 to prevent the user from smoking and sucking the liquid.
- the air outlet hole 11 is provided at the cavity wall of the smoke oil condensation chamber 10 to facilitate the user to suck, and the smoke generated by the atomization of the atomization core 3 flows through the vent pipe 34 to the air outlet hole 11 ⁇ , the condensed smoke oil Stored in the smoke oil condensation chamber 10.
- the circumference of the air outlet 11 is convexly disposed on a side close to the atomizing core 3 for blocking the annular boss 12 stored in the oil condensing cavity 10 into the air outlet 11 to prevent the user from smoking. To the smoke oil.
- FIG. 5 and FIG. 6 illustrate an atomizing assembly provided by the second preferred embodiment of the present invention, which differs from the embodiment in the mounting position of the oil storage member 37 and the oil passage passage.
- the structure is different.
- the oil storage member 37 made of an oil absorbing material is substantially a cylindrical body, and is elastically sealed between the atomization seat 31 and the insulating tube 36 , and the side of the oil storage member 37.
- the wall is elastically sealed to the cavity wall of the atomizing chamber 32
- Both ends of the oil guiding member 331 are respectively mounted on the insulating tube 36 and abut against the oil storing member 37.
- the oil passage of the atomization chamber 32 is provided with an oil passage for the oil in the oil storage chamber 22 to penetrate into the oil guiding member 331. As shown in FIG. 6, the oil passage is disposed at the atomization seat.
- the oil inlet hole 312 on the outer side wall of the 31, and the oil inlet hole 312 includes two, and the two oil inlet holes 312 are disposed on the outer side wall of the atomization seat 31 with a relatively interval therebetween.
- the oil inlet hole 312 is disposed on the outer side wall of the atomizing seat 31 near one end of the suction nozzle 1, and is electrically connected to the oil passing hole 341 of the vent pipe 34, and is disposed in the oil storage chamber 22
- the smoky oil passes through the oil passage 341 and the oil inlet hole 312 in turn and flows into the oil storage member 37, and then penetrates into the oil guiding member 331 through the oil storage member 37.
- the sidewall of the oil storage member 37 is elastically sealed against the cavity wall of the atomization chamber 32 to prevent the smoke oil from flowing into the atomization chamber 32 from the gap between the oil reservoir 37 and the atomization chamber 32. And affect the user's experience.
- FIG. 7 and 8 illustrate an atomizing assembly provided by a preferred embodiment of the present invention, which differs from the embodiment in the structure of the oil retaining member 4 and the atomizing electrode assembly 35. different.
- the oil retaining member 4 is substantially hollow, and one end thereof is detachably connected to the oil filling port of the oil storage casing 21, and the suction nozzle 1 is detachably connected to the other end of the oil retaining member 4.
- the oil retaining member 4 is provided with a sliding groove 41 facing the surface of the suction nozzle 1, and the groove surface of the sliding groove 41 forms an angle of less than 90° with the axial direction of the atomizing assembly, so as to condense in the smoke oil.
- the smoke oil in the condensation chamber 10 flows back into the atomization chamber 32 for secondary atomization.
- the inner side wall of the oil retaining member 4 is convexly provided with an annular protrusion 42.
- the annular protrusion 42 is provided with a through hole 44 for conducting the nozzle 1 and the vent pipe 34, and the electric heating wire assembly 33 is fogged. The generated smoke passes through the through hole 44, flows into the nozzle 1 from the vent pipe 34, and is sucked by the user.
- the annular protrusion 42 is fixed with a sealing plate 43 facing the side facing away from the suction nozzle 1, and the vent pipe 34 extends into the oil retaining member 4 and elastically abuts against the sealing plate 43 to make the snorkel 34 is elastically sealed with the oil retaining member 4 to prevent leakage of the oil from the gap between the vent pipe 34 and the oil retaining member 4 to affect the user experience.
- the gasket plate 43 is fixed on the oil retaining member 4, which can make the structure of the atomizing assembly of the present application more compact, facilitate assembly, and effectively improve assembly efficiency.
- the outer side wall of the vent pipe 34 facing the one end of the suction nozzle 1 is provided with an annular flange 342, and the end surface of the annular flange 342 is elastically abutted against the gasket plate 43 to
- the contact area between the vent pipe 34 and the gasket plate 43 is increased, the stability of the connection between the vent pipe 34 and the gasket plate 43 is improved, and the leakage of the smoke oil from the gap between the vent pipe 34 and the oil retaining member 4 is prevented from being affected. user experience.
- the outer circumferential surface of the vent pipe 34 is in clearance with the inner circumferential surface of the oil retaining member 4 to facilitate the disassembly and assembly of the oil retaining member 4, and the assembly of the oil retaining member 4 ⁇ compressed air into the oil reservoir 22 is avoided.
- the smoke oil is pressed into the atomization chamber 32, which affects the user's experience.
- the oil retaining member 4 is detachably connected to one end of the oil storage sleeve 21 away from the battery assembly by a screw connection structure, and is elastically sealed with the vent pipe 34.
- the inner side wall of the oil storage sleeve 21 is provided with an internal thread structure
- the outer side wall of the oil retaining member 4 facing away from the end of the suction nozzle 1 is provided with an outer thread structure adapted to the internal thread.
- one end of the oil retaining member 4 extending out of the oil storage sleeve 21 is detachably connected to the suction nozzle 1 through a threaded structure.
- the inner side wall of the oil retaining member 4 is provided with an internal thread structure, and is sucked.
- the inner side wall of the mouth 1 is provided with an external thread structure adapted to the internal thread structure.
- the oil retaining member 4 can also be connected to the suction nozzle 1 and the oil storage sleeve 21 by using other detachable connecting structures, and other connecting structures can be disposed on the oil retaining member 4.
- other connecting structures can be disposed on the oil retaining member 4.
- an elastic engagement elastic piece or the like is used in the snap connection.
- only the screw connection is described as an example, and the connection is not limited to the screw connection.
- the atomizing electrode assembly 35 is coupled to an end of the atomizing holder 31 adjacent to the battery assembly, and the atomizing electrode assembly 35 includes a first inner electrode 351, a first insulating member 352, and a first outer electrode.
- the first outer electrode is an atomizing seat 31, and the atomizing seat 31 is made of a conductive material.
- One end of the atomizing seat 31 is inserted in the oil storage casing 21, and the atomizing seat 31 extends out of the oil storage casing 21.
- One end is detachably connected to the battery pack.
- the one end of the heating wire 332 is electrically connected to the battery assembly through the atomizing seat 31, and the other end of the heating wire 332 is electrically connected to the battery assembly through the first inner electrode 351.
- the first outer electrode may also be other structures, such as a conductive post sleeved between the first insulating member 352 and the atomizing seat 31, the conductive column One end is connected to the heating wire, The other end of the electric pole is directly electrically connected to the battery assembly, and the embodiment does not limit the specific structure of the first outer electrode.
- the atomizing seat 31 extends from the outer side wall of one end of the oil storage sleeve 21 and is provided with at least one air inlet hole 31.
- the airflow passes through the air inlet 313 and enters the interior of the atomizing assembly.
- the present application further provides an electronic cigarette comprising an interconnected battery assembly and an atomizing assembly, wherein the battery assembly is prior art, and the atomizing assembly is the atomizing assembly described above, I will not repeat them here.
- the side wall of the oil storage member is elastically sealed against the side wall of the atomization seat to prevent the smoke oil from flowing into the atomization chamber from the gap between the oil storage member and the atomization seat, thereby affecting the user experience. effect.
- the oil retaining member is provided with a sealing plate, and the venting pipe extends into the oil retaining member and elastically abuts against the sealing plate, so that the vent pipe is elastically sealed with the oil retaining member, thereby avoiding the oil smoke. Leakage from the gap between the vent pipe and the oil retaining member affects the user experience.
- the structure of the atomizing assembly of the present application can be made more compact, easy to assemble, and effectively improve assembly efficiency.
Landscapes
- Catching Or Destruction (AREA)
Abstract
一种雾化组件及电子烟,所述雾化组件包括储油套(21),所述储油套(21)的一端内连接有雾化芯(3),所述储油套(21)与所述雾化芯(3)围成有用于存储烟油的储油腔(22),所述储油套(21)另一端的端面形成有加油口,所述加油口处设置有一端可拆卸地连接在所述储油套(21)上的挡油件(4),所述挡油件(4)的另一端可拆卸地连接有吸嘴(1)。有益效果:通过在雾化座(31)上套设由吸油材料制成的储油件(37),储油腔(22)内的烟油通过储油件(37)渗入至导油件(331)内,使得该储油件(37)形成一烟油缓冲通道,可以避免导油件(331)与储油腔(22)内的烟油直接接触,从而避免储油腔(22)内的烟油大量渗入至导油件(331)内。
Description
说明书 发明名称:一种雾化组件及电子烟 技术领域
[0001] 本发明涉及电子烟领域, 更具体地说, 涉及一种雾化组件及电子烟。
背景技术
[0002] 现有技术中, 电子烟包括雾化组件和电池组件, 雾化组件包括储油套, 及连接 在储油套一端的雾化芯, 由于电子烟玻纤线直接与储油瓶中的烟油接触, 没有 一个烟液缓冲的过程, 烟液极易渗入到雾化芯内, 导致用户吸食到烟油, 且在 添加烟油吋, 需要拆下电池杆, 再取下雾化芯才能向雾化套内添加烟油, 过程 比较复杂。 且经常性的拆卸电池杆添加烟油会导致电池杆和雾化器之间容易松 动, 导致电连接不稳定和烟雾量不稳定。
[0003] 目前大多雾化组件的电极上设有供气流流通的通气孔, 该通气孔沿雾化组件的 轴向分布并与电池组件相连通, 雾化组件内的烟油会经过该通气孔流入电池组 件内部, 从而造成电池组件内部部件的损坏。
[0004] 由于雾化组件雾化烟油形成的烟雾会在通气管及吸嘴处冷凝, 现有技术中, 电 子烟的吸嘴处没有设置烟雾冷凝强, 使得冷凝的烟油不方便清理, 从而缩短电 子烟的使用寿命。
技术问题
[0005] 本发明要解决的技术问题在于, 针对现有技术中的上述缺陷, 提供一种雾化组 件及电子烟。
问题的解决方案
技术解决方案
[0006] 本发明解决其技术问题所采用的技术方案是:
[0007] 提供一种雾化组件, 用于与电池组件组成电子烟, 所述雾化组件包括储油套, 所述储油套的一端内连接有雾化芯, 所述储油套与所述雾化芯围成有用于存储 烟油的储油腔, 所述储油套另一端的端面形成有加油口, 所述加油口处设置有 一端可拆卸地连接在所述储油套上的挡油件, 所述挡油件的另一端可拆卸地连
接有吸嘴;
[0008] 所述雾化芯包括雾化座, 所述雾化座内形成有雾化腔, 所述雾化腔内设置有绝 缘管及架设在所述绝缘管上的电热丝组件, 所述电热丝组件包括用于吸附所述 储油腔内烟油的导油件, 及用于雾化所述导油件上烟油的电热丝; 所述雾化座 的一端连接有与所述电池组件电连接的雾化电极组件, 所述电热丝置于所述绝 缘管内并与所述雾化电极组件电连接, 所述雾化座的另一端套设有通气管, 所 述通气管远离所述雾化座的一端延伸出所述加油口并与所述挡油件弹性密封相 连;
[0009] 所述雾化座上还套设有与所述导油件的两端相抵并由吸油材料制成的储油件, 所述储油件为沿所述雾化组件的纵向设置的筒状体, 所述储油件的侧壁与所述 雾化座弹性抵接, 所述雾化腔的腔壁处设有供所述储油腔内的烟油渗入所述导 油件的过油通道, 所述通气管的侧壁上设有导通所述储油腔与所述过油通道的 过油孔。
[0010] 在本发明所述的雾化组件中, 所述储油件套设在所述雾化座与所述通气管之间
, 所述过油通道为设在所述雾化座上的安装槽, 所述导油件的两端分别延伸至 所述安装槽内并与所述储油件相抵接。
[0011] 在本发明所述的雾化组件中, 所述储油件套设在所述雾化座与所述绝缘管之间
, 所述过油通道为设在所述雾化座上的进油孔, 所述导油件的两端分别抵接至 所述储油件。
[0012] 在本发明所述的雾化组件中, 所述通气管背离所述电池组件的一端端面设置有 与所述吸嘴相导通的排烟口, 且当所述雾化组件竖直放置进行添加烟油吋所述 通气管的排烟口至少高出所述加油口 1.5mm。
[0013] 在本发明所述的雾化组件中, 所述吸嘴内形成有与所述通气管相连通的烟油冷 凝腔, 所述烟油冷凝腔的腔壁处设有出气孔, 以使所述雾化芯雾化的烟雾经过 所述通气管流动至所述出气孔吋, 冷凝的烟油能够存储在所述烟油冷凝腔内。
[0014] 在本发明所述的雾化组件中, 所述出气孔的周缘朝靠近所述雾化芯的一侧凸设 有用于阻隔所述烟油冷凝腔内烟油进入所述出气孔的环形凸台。
[0015] 在本发明所述的雾化组件中, 所述挡油件朝向所述吸嘴的表面设有滑槽, 所述
滑槽的槽面与所述雾化组件的轴向形成小于 90°的夹角, 以使冷凝在所述烟油冷 凝腔内的烟油流回所述雾化腔内进行二次雾化。
[0016] 在本发明所述的雾化组件中, 所述挡油件为中空结构, 所述挡油件的内壁凸设 有环形凸起, 所述环形凸起朝向所述储油腔的一侧固定有环形的密封垫板, 所 述通气管的端面与所述密封垫板弹性抵接, 所述通气管的外周面与所述挡油件 的内周面间隙配合。
[0017] 在本发明所述的雾化组件中, 所述挡油件延伸至所述储油套外的一端的外侧壁 上设有用于防滑的滚花。
[0018] 在本发明所述的雾化组件中, 所述雾化电极组件包括第一内电极, 所述第一内 电极设有与所述雾化腔相连通的穿孔, 所述穿孔包括相互连通的第一穿孔和第 二穿孔, 所述第一穿孔设在所述第一内电极朝向所述吸嘴的一端并沿所述雾化 组件的纵向设置, 所述第二穿孔设在所述第一内电极背离所述吸嘴的一端并沿 所述雾化组件的横向设置, 所述第一内电极面向所述电池组件的端面为封闭的 表面。
[0019] 在本发明所述的雾化组件中, 所述雾化电极组件还包括用于与所述电池组件可 拆卸连接的连接件, 所述连接件套设在所述储油套远离所述吸嘴的一端并与所 述雾化座可拆卸的连接。
[0020] 本发明还提供一种电子烟, 包括相互连接的电池组件和雾化组件, 所述雾化组 件包括储油套, 所述储油套的一端内连接有雾化芯, 所述储油套与所述雾化芯 围成有用于存储烟油的储油腔, 所述储油套另一端的端面形成有加油口, 所述 加油口处设置有一端可拆卸地连接在所述储油套上的挡油件, 所述挡油件的另 一端可拆卸地连接有吸嘴;
[0021] 所述雾化芯包括雾化座, 所述雾化座内形成有雾化腔, 所述雾化腔内设置有绝 缘管及架设在所述绝缘管上的电热丝组件, 所述电热丝组件包括用于吸附所述 储油腔内烟油的导油件, 及用于雾化所述导油件上烟油的电热丝; 所述雾化座 的一端连接有与所述电池组件电连接的雾化电极组件, 所述电热丝置于所述绝 缘管内并与所述雾化电极组件电连接, 所述雾化座的另一端套设有通气管, 所 述通气管远离所述雾化座的一端延伸出所述加油口并与所述挡油件弹性密封相
连;
[0022] 所述雾化座上还套设有与所述导油件的两端相抵并由吸油材料制成的储油件, 所述储油件为沿所述雾化组件的纵向设置的筒状体, 所述储油件的侧壁与所述 雾化座弹性抵接, 所述雾化腔的腔壁处设有供所述储油腔内的烟油渗入所述导 油件的过油通道, 所述通气管的侧壁上设有导通所述储油腔与所述过油通道的 过油孔。
发明的有益效果
有益效果
[0023] 综上所述, 实施本发明的雾化组件及电子烟, 具有以下有益效果: 首先, 通过 在雾化座上套设由吸油材料制成的储油件, 储油腔内的烟油通过储油件渗入至 导油件内, 使得该储油件形成一烟油缓冲通道, 可以避免导油件与储油腔内的 烟油直接接触, 从而避免储油腔内的烟油大量渗入至导油件内。 其次, 储油件 的侧壁与雾化座的侧壁弹性密封相抵, 以避免烟油从储油件与雾化座间的缝隙 中流入雾化腔内, 而导致用户吸食到烟油, 影响用户的体验效果。 第三, 通气 管的排烟口与储油套的加油口位于不同高度的平面上, 以使当雾化组件竖直放 置从加油口添加烟油吋通气管的排烟口高于储油套的加油口, 在添加烟油的过 程中, 即使不小心发生烟油飞溅的情况, 通气管的外周壁会将烟油挡住, 从而 避免烟油飞溅进入通气管内, 且从远离电池组件的一端添加烟油及拆卸雾化芯 , 可避免现有技术中电池组件与雾化组件容易松动的问题。 第四, 挡油件上设 有密封垫板, 通气管延伸至挡油件内并与该密封垫板弹性抵接, 以使通气管与 挡油件弹性密封相连, 从而避免烟油从通气管与挡油件的缝隙中泄漏而影响用 户体验, 通过将密封垫板固定在挡油件上, 可以使本申请雾化组件的结构更紧 凑, 便于组装, 有效提高装配效率。 最后, 由于第一内电极的所述第一穿孔和 第二穿孔不在一条轴线上, 所述第一内电极面向所述电池组件的端面为封闭的 表面, 因而本申请摒弃了现有技术中第一内电极底端进气的模式, 且增加了第 一内电极底面与电池杆中的电极的接触面积, 避免了雾化组件内的烟油进入电 池组件内部, 而造成电池组件内部部件损坏的缺陷。
对附图的简要说明
附图说明
[0024] 下面将结合附图及实施例对本发明作进一步说明, 附图中:
[0025] 图 1是本发明较佳实施例之一提供的雾化组件的爆炸图;
[0026] 图 2是图 1所示雾化组件的结构示意图;
[0027] 图 3是图 2所示雾化组件的雾化座的结构示意图;
[0028] 图 4是图 2所示雾化组件的第一内电极的结构示意图;
[0029] 图 5是本发明较佳实施例之二提供的雾化组件的结构示意图;
[0030] 图 6是图 5所示雾化组件的雾化座的结构示意图;
[0031] 图 7是本发明较佳实施例之三提供的雾化组件的通气管的结构示意图;
[0032] 图 8是本发明较佳实施例之三提供的雾化组件的结构示意图。
本发明的实施方式
[0033] 为了使本发明的目的、 技术方案及优点更加清楚明白, 以下结合附图及实施例 , 对本发明进行进一步详细说明。 应当理解, 此处所描述的具体实施例仅仅用 以解释本发明, 并不用于限定本发明。
[0034] 如图 1所示, 本发明较佳实施例之一提供的一种雾化组件, 该雾化组件用于与 电池组件 (图上未示出) 组合形成电子烟, 如图 2所示, 所述雾化组件包括油杯 组件 2, 该油杯组件 2包括储油套 21, 所述储油套 21与连接件 23通过涨紧配合固 定连接, 所述连接件 23的内壁可拆卸的连接有雾化芯 3, 储油套 21、 连接件 23及 雾化芯 3围成有用于存储烟油的储油腔 22, 储油套 21另一端的端面形成有加油口 , 加油口处设置有一端可拆卸地连接在储油套 21上的挡油件 4, 挡油件 4的另一 端可拆卸地连接有吸嘴 1。
[0035] 其中, 雾化芯 3包括雾化座 31, 雾化座 31内形成有雾化腔 32, 雾化腔 32内设置 有绝缘管 36及架设在绝缘管 36上的电热丝组件 33, 电热丝组件 33包括用于吸附 储油腔 22内烟油的导油件 331, 及用于雾化导油件 331上烟油的电热丝 332; 雾化 座 31的一端连接有与电池组件电连接的雾化电极组件 35, 电热丝 332置于绝缘管 36内并与雾化电极组件 35电连接, 雾化座 31的另一端套设有通气管 34, 通气管 3 4远离雾化座 31的一端延伸出所述加油口并与挡油件 4弹性密封相连。
[0036] 如图 2所示, 雾化座 31上还套设有与导油件 331的两端相抵并由吸油材料制成的 储油件 37, 储油件 37为沿雾化组件的纵向设置的筒状体, 储油件 37的侧壁与雾 化座 31弹性抵接, 雾化腔 32的腔壁处设有供储油腔 22内的烟油渗入导油件 331的 过油通道, 通气管 34的侧壁上设有导通储油腔 22与过油通道的过油孔 341。
[0037] 通过在雾化座 31上套设由吸油材料制成的储油件 37, 储油腔 22内的烟油通过储 油件 37渗入至导油件 331内, 使得该储油件 37形成一烟油缓冲通道, 可以避免当 导油件 331上烟油过多吋, 导油件 331上的烟油将会渗至雾化腔 32内, 渗人雾化 腔 32内的烟油进入通气管 34后被用户吸食, 导油件 331与储油腔 22内的烟油间接 接触, 从而避免储油腔 22内的烟油大量渗入至导油件 331内, 从而提高了用户吸 食电子烟的体验效果。
[0038] 具体的, 本实施例中, 由吸油材料制成的储油件 37大致为筒状体, 其弹性密封 的套设在雾化座 31与通气管 34之间。 其中, 所述吸油材料可以是海绵或纤维等 , 其材料不作具体限定; 且所述储油件 37可以是由片状体卷成所述筒状结构, 也可以是一体成型所述筒状结构。 雾化腔 32的腔壁处设有供储油腔 22内的烟油 渗入导油件 331的过油通道, 导油件 331的两端分别穿过所述过油通道, 并与储 油件 37相抵接, 以使储油件 37内存储的烟油渗入至导油件 331内。
[0039] 优选地, 储油件 37的侧壁与雾化座 31的侧壁弹性密封相抵, 以避免烟油从储油 件 37与雾化座 31间的缝隙中流入雾化腔 32内, 而影响用户的体验效果。
[0040] 结合图 2、 图 3和图 4所示的实施例对雾化芯 3的具体结构进行详细说明。
[0041] 如图 2所示, 雾化芯 3包括雾化座 31、 雾化腔 32、 电热丝组件 33、 通气管 34、 雾 化电极组件 35、 绝缘管 36和储油件 37。
[0042] 其中, 雾化座 31连接在储油套 21远离吸嘴 1的一端内, 雾化腔 32幵设在雾化座 3 1内部, 绝缘管 36收容在雾化腔 32内并沿雾化组件的轴向分布, 电热丝组件 33架 设在绝缘管 36上, 通气管 34套设在雾化座 31靠近吸嘴 1的一端, 储油件 37套设在 通气管 34与雾化座 31之间, 雾化电极组件 35连接在雾化座 31远离吸嘴 1的一端并 与电池组件电连接。
[0043] 雾化座 31通过螺纹连接结构可拆卸的连接在储油套 21远离吸嘴 1的一端内, 具 体的, 储油套 21远离吸嘴 1的一端外套设有连接件 23, 连接件 23的内侧壁上幵设
有内螺纹结构, 雾化座 31的外侧壁上设有与该内螺纹结构相适配的外螺纹结构
[0044] 进一步的, 结合图 3所示, 雾化腔 32的腔壁处设有供储油腔 22内的烟油渗入的 过油通道, 该过油通道为两个相对间隔设置的安装槽 311, 两个安装槽 311分别 幵设在雾化座 31朝向吸嘴 1的一端。 储油件 37套设在雾化座 31外, 且储油件 37的 侧壁与雾化座 31的侧壁弹性抵接, 导油件 331的两端分别延伸出两个安装槽 311 , 并与储油件 37相抵接。
[0045] 电热丝组件 33包括导油件 331和电热丝 332 (图上均未标号) , 导油件 331由吸 油材料制成, 其固定在绝缘管 36上, 且导油件 331的两端分别与储油件 37相抵接 , 电热丝 332缠绕在该导油件 331上, 并与电池组件电连接。 本实施例中, 雾化 座 31由导电材料制得, 将电热丝 332置于绝缘管 36内, 以避免电热丝 332触碰到 雾化座 31中雾化腔 32的腔壁而影响电热丝 332电连接的稳定性, 避免了电热丝 33 2因触碰到雾化腔 32的腔壁使雾化组件的电阻变化而导致烟雾量不稳定的问题。
[0046] 通气管 34套设在储油件 37外, 并与储油件 37过盈配合, 以使得储油件 37与雾化 座 31弹性抵接, 避免烟油从储油件 37与雾化座 31之间的缝隙间泄漏至雾化腔 32 或通气管 34内, 且避免储油件 37因烟油过饱和而导致烟油渗漏的问题。 由于通 气管 34与雾化座 31弹性密封相连, 故雾化芯 3可从储油套 21靠近吸嘴 1的一端拆 卸。
[0047] 优选地, 通气管 34的侧壁上设有导通雾化座 31上的过油通道与储油腔 22的过油 孔 341, 储油腔 22内的烟油穿过该过油孔 341后进入储油件 37, 再通过储油件 37 渗入导油件 331内。
[0048] 优选地, 通气管 34围成有用于供气流流通至烟嘴 1内的气流通道, 且通气管 34 的两端分别与雾化座 31和挡油件 4弹性密封相连, 电热丝组件 33雾化产生的烟雾 经过该气流通道流入吸嘴 1内被用户吸食。
[0049] 优选地, 本实施例中, 通气管 34背离电池组件的一端为与吸嘴 1相导通的排烟 口, 为了避免从加油口处添加烟油吋将烟油滴落到通气管 34内, 影响用户的体 验效果。 如图 2所示, 通气管 34靠近吸嘴 1的一端延伸出加油口, 即通气管 34的 排烟口与储油套 21的加油口位于不同高度的平面上, 以使当雾化组件竖直放置
从加油口添加烟油吋通气管 34的排烟口高于储油套 21的加油口。 故在添加烟油 的过程中, 即使不小心发生烟油飞溅的情况, 通气管 34的外周壁会将烟油挡住 , 从而避免烟油飞溅进入通气管 34内。 由于通气管 34的排烟口与储油套 21的加 油口之间具有 1.5mm的高度差, 将通气管 34的排烟口与储油套 21的加油口之间物 理隔离并具有明显的位置区分, 可以方便用户添加烟油。
[0050] 优选地, 当雾化组件竖直放置并从储油套 21的加油口添加烟油吋通气管 34的排 烟口至少高出加油口 1.5mm。 优选为 4 mm至 6 mm, 以便于用户夹持取出所述雾 化芯。 本实施例中, 通气管 34的排烟口高出加油口 5mm。
[0051] 绝缘管 36收容在雾化腔 32内并沿雾化组件的轴向分布, 绝缘管 36上幵设有两个 相对设置的固定孔 (图上未标号) , 导油件 331的两端穿过该固定孔并架设在绝 缘管 36上。 电热丝 332缠绕在该导油件 331上, 并位于绝缘管 36内, 由于本实施 例中雾化座 31由导电材料制得, 将电热丝 332纳置在绝缘管 36内能够避免电热丝 332与雾化座 31触碰, 有效提高电热丝 332阻值的稳定性。
[0052] 雾化电极组件 35连接在雾化座 31靠近电池组件的一端, 雾化电极组件 35包括第 一内电极 351、 第一绝缘件 352和第一外电极。 本实施例中, 第一外电极为连接 件 23, 雾化座 31由导电材料制得, 电热丝 332的一端通过雾化座 31与连接件 23电 连接, 以实现与电池组件的电连接, 电热丝 332的另一端通过第一内电极 351实 现与电池组件的电连接。
[0053] 可以理解的是, 在其它实施例中, 所述雾化电极组件 35可以是并列设置并相互 隔离的两个电极, 所述电热丝 332的两端分别与并列设置的所述两个电极电连接 。 因此, 其结构不作具体限定, 只要能够传输电能即可。
[0054] 优选地, 连接件 23的外侧壁上幵设有至少一个进气孔 (图上未示出) , 气流经 过该进气孔后进入雾化组件内部。
[0055] 优选地, 第一内电极 351幵设有与该进气孔相连通的穿孔, 气流依次流经该进 气孔和穿孔后进入雾化腔 32内。 结合图 4所示, 本实施例中, 穿孔包括相互连通 的第一穿孔 354和第二穿孔 355, 第一穿孔 354幵设在第一内电极 351朝向吸嘴 1的 一端的端面上并沿所述雾化组件的纵向设置, 第二穿孔 355幵设在第一内电极 35 1背离吸嘴 1的一端并沿所述雾化组件的横向设置, 所述第一内电极 351面向所述
电池组件的端面为封闭的表面, 因而本申请摒弃了现有技术中第一内电极 351底 端进气的模式, 且增加了第一内电极 351底面与电池杆中的电极的接触面积, 避 免了雾化组件内的烟油进入电池组件内部, 从而造成电池组件内的电池和控制 器 (图上均未示出) 等结构的损坏。
[0056] 此外, 由于第一内电极 351背离吸嘴 1的一端的端面为实心结构, 故可以增加第 一内电极 351与电池组件的电极的接触面积, 从而提高第一内电极 351与电池组 件之间电连接的稳定性。
[0057] 本实施例中, 雾化芯 3主要包括雾化座 31、 雾化腔 32、 电热丝组件 33、 通气管 3 4、 雾化电极组件 35、 绝缘管 36和储油件 37。 可以理解的是, 本申请的雾化芯 3 并不限定于上述结构, 还可以是其它结构, 只要其能雾化烟油即可。
[0058] 结合图 2所示的实施例对吸嘴 1、 挡油件 4和油杯组件 2的具体结构进行详细说明
[0059] 如图 2所示, 油杯组件 2主要包括储油套 21、 储油腔 22和连接件 23。 其中, 储油 套 21大致为圆筒状结构, 连接件 23和挡油件 4分别连接在储油套 21的两端。 储油 套 21、 连接件 23及雾化芯 3之间围成有用于存储烟油的储油腔 22, 为了方便用户 査看储油腔 22内烟油的余量, 储油套 21由可透光的材料制得。 在本实施例中, 所述储油套 21包括储油套本体 211及位于所述储油套本体 211端部的连接套 212。 当然, 所述储油套本体 211与所述连接套 212可以为一体成型结构, 在此不作具 体限定。
[0060] 连接件 23插设在储油套 21靠近电池组件的一端外, 雾化芯 3可拆卸的连接在该 连接件 23上, 且连接件 23的外侧壁上幵设有至少一个供气流流入雾化组件内部 的进气孔。 本实施例中, 雾化芯 3采用螺纹连接的方式固定在连接件 23上, 可以 理解的是, 在其它实施例中, 连接件 23还可以采用其它可拆卸连接结构, 则连 接件 23上还可设置其它连接结构, 例如卡扣连接中具有弹性的卡合弹片等, 本 实施例中仅以螺纹连接为例进行说明, 并不限定于螺纹连接。
[0061] 如图 2所示, 挡油件 4大致为中空结构, 其通过螺纹连接结构可拆卸的连接在储 油套 21远离电池组件的一端, 并与通气管 34弹性密封相连。 具体的, 储油套 21 的内侧壁上设有内螺纹结构, 挡油件 4背离吸嘴 1的一端的外侧壁上设有与该内
螺纹相适配的外螺纹结构。
[0062] 优选地, 挡油件 4延伸至储油套 21外的一端的外侧壁上设有用于防滑的滚花。
[0063] 优选地, 挡油件 4的内侧壁上凸设有环形凸起 42, 该环形凸起 42上设有用于导 通吸嘴 1和通气管 34的通孔 44, 电热丝组件 33雾化产生的烟雾穿过该通孔 44, 从 通气管 34流入吸嘴 1内被用户吸食。
[0064] 优选地, 环形凸起 42朝向背离吸嘴 1的一侧固定有密封垫板 43, 通气管 34延伸 至挡油件 4内并与该密封垫板 43弹性抵接, 以使通气管 34与挡油件 4弹性密封相 连, 从而避免烟油从通气管 34与挡油件 4的缝隙中泄漏而影响用户体验。 通过将 密封垫板 43固定在挡油件 4上, 可以使本申请雾化组件的结构更紧凑, 便于组装
, 有效提高装配效率。
[0065] 优选地, 通气管 34的外周面与挡油件 4的内周面间隙配合, 以使不仅方便挡油 件 4的拆装, 而且当挡油件 4与储油套 21连接吋通过通气管 34的外周面与挡油件 4 之间的间隙将储油腔 22内的空气排出, 从而避免组装挡油件 4吋压缩空气将储油 腔 22内的烟油压入雾化腔 32内, 而影响用户的体验效果。
[0066] 优选地, 挡油件 4延伸出储油套 21的一端通过螺纹结构与吸嘴 1可拆卸的连接, 本实施例中, 挡油件 4的内侧壁上设有内螺纹结构, 吸嘴 1的内侧壁上设有与该 内螺纹结构相适配的外螺纹结构。
[0067] 可以理解的是, 在其它实施例中, 挡油件 4还可以采用其它可拆卸连接结构, 则挡油件 4上还可设置其它连接结构, 例如卡扣连接中具有弹性的卡合弹片等, 本实施例中仅以螺纹连接为例进行说明, 并不限定于螺纹连接。
[0068] 如图 2所示, 吸嘴 1可拆卸的连接在挡油件 4的一端, 吸嘴 1与挡油件 4之间内形 成有与通气管 34的排烟口相连通的烟油冷凝腔 10, 吸烟吋通气管 34上凝结的烟 液顺着气流流入并存储在吸嘴 1内的烟油冷凝腔 10内, 由于吸嘴 1与挡油件 4可拆 卸的连接, 用户可以定吋将吸嘴 1拆卸下来以清理烟油冷凝腔 10内存留的烟液, 防止用户抽烟吋吸到烟液。
[0069] 优选地, 烟油冷凝腔 10的腔壁处设有出气孔 11, 以方便用户吸食, 雾化芯 3雾 化产生的烟雾经过通气管 34流动至出气孔 11吋, 冷凝的烟油存储在烟油冷凝腔 1 0内。
[0070] 优选地, 出气孔 11的周缘朝靠近雾化芯 3的一侧凸设有用于阻隔存储在烟油冷 凝腔 10内烟油进入出气孔 11内的环形凸台 12, 以避免用户吸食到烟油。
[0071] 图 5和图 6示出了本发明较佳实施例之二提供的一种雾化组件, 其与实施例之一 的不同之处在于储油件 37的安装位置及过油通道的结构不同。
[0072] 如图 5所示, 由吸油材料制成的储油件 37大致为筒状体, 其弹性密封的套设在 雾化座 31与绝缘管 36之间, 且储油件 37的侧壁与雾化腔 32的腔壁弹性密封相连
。 导油件 331的两端分别架设在绝缘管 36上, 并与储油件 37相抵接。
[0073] 雾化腔 32的腔壁处幵设有供储油腔 22内的烟油渗入导油件 331的过油通道, 结 合图 6所示, 该过油通道为幵设在雾化座 31的外侧壁上的进油孔 312, 且该进油 孔 312包括两个, 两个进油孔 312相对间隔的设置在雾化座 31的外侧壁上。
[0074] 本实施例中, 进油孔 312幵设在雾化座 31靠近吸嘴 1的一端的外侧壁上, 并与通 气管 34上的过油孔 341相导通, 储油腔 22内的烟油依次经过该过油孔 341和进油 孔 312后流入储油件 37内, 再通过储油件 37渗入导油件 331内。
[0075] 优选地, 储油件 37的侧壁与雾化腔 32的腔壁弹性密封相抵, 以避免烟油从储油 件 37与雾化腔 32间的缝隙中流入雾化腔 32内, 而影响用户的体验效果。
[0076] 图 7和图 8示出了本发明较佳实施例之三提供的一种雾化组件, 其与实施例之一 的不同之处在于挡油件 4和雾化电极组件 35的结构不同。
[0077] 如图 8所示, 挡油件 4大致为中空结构, 其一端可拆卸的连接在储油套 21的加油 口处, 吸嘴 1可拆卸的连接在挡油件 4的另一端。
[0078] 优选地, 挡油件 4朝向吸嘴 1的表面设有滑槽 41, 该滑槽 41的槽面与雾化组件的 轴向形成小于 90°的夹角, 以使冷凝在烟油冷凝腔 10内的烟油流回雾化腔 32内进 行二次雾化。
[0079] 优选地, 挡油件 4的内侧壁上凸设有环形凸起 42, 该环形凸起 42上设有用于导 通吸嘴 1和通气管 34的通孔 44, 电热丝组件 33雾化产生的烟雾穿过该通孔 44, 从 通气管 34流入吸嘴 1内被用户吸食。
[0080] 优选地, 环形凸起 42朝向背离吸嘴 1的一侧固定有密封垫板 43, 通气管 34延伸 至挡油件 4内并与该密封垫板 43弹性抵接, 以使通气管 34与挡油件 4弹性密封相 连, 从而避免烟油从通气管 34与挡油件 4的缝隙中泄漏而影响用户体验。 通过将
密封垫板 43固定在挡油件 4上, 可以使本申请雾化组件的结构更紧凑, 便于组装 , 有效提高装配效率。
[0081] 优选地, 结合图 7所示, 通气管 34朝向吸嘴 1的一端的外侧壁上设有环形凸缘 34 2, 该环形凸缘 342的端面与密封垫板 43弹性抵接, 以增加通气管 34与密封垫板 4 3之间的接触面积, 提高通气管 34与密封垫板 43之间连接的稳定性, 避免烟油从 通气管 34与挡油件 4的缝隙中泄漏而影响用户体验。
[0082] 优选地, 通气管 34的外周面与挡油件 4的内周面间隙配合, 以方便挡油件 4的拆 装, 避免组装挡油件 4吋压缩空气将储油器 22内的烟油压入雾化腔 32内, 而影响 用户的体验效果。
[0083] 本实施例中, 挡油件 4通过螺纹连接结构可拆卸的连接在储油套 21远离电池组 件的一端, 并与通气管 34弹性密封相连。 具体的, 储油套 21的内侧壁上设有内 螺纹结构, 挡油件 4背离吸嘴 1的一端的外侧壁上设有与该内螺纹相适配的外螺 纹结构。
[0084] 进一步的, 挡油件 4延伸出储油套 21的一端通过螺纹结构与吸嘴 1可拆卸的连接 , 本实施例中, 挡油件 4的内侧壁上设有内螺纹结构, 吸嘴 1的内侧壁上设有与 该内螺纹结构相适配的外螺纹结构。
[0085] 可以理解的是, 在其它实施例中, 挡油件 4还可以采用其它可拆卸连接结构分 别与吸嘴 1和储油套 21相连, 则挡油件 4上还可设置其它连接结构, 例如卡扣连 接中具有弹性的卡合弹片等, 本实施例中仅以螺纹连接为例进行说明, 并不限 定于螺纹连接。
[0086] 如图 8所示, 雾化电极组件 35连接在雾化座 31靠近电池组件的一端, 雾化电极 组件 35包括第一内电极 351、 第一绝缘件 352和第一外电极。 本实施例中, 第一 外电极为雾化座 31, 雾化座 31由导电材料制得, 雾化座 31的一端插设在储油套 2 1内, 雾化座 31延伸出储油套 21的一端与电池组件可拆卸的连接。 其中, 电热丝 332的一端通过雾化座 31实现与电池组件的电连接, 电热丝 332的另一端通过第 一内电极 351实现与电池组件的电连接。
[0087] 可以理解的是, 在其它实施例中, 第一外电极还可以为其它结构, 如套设在第 一绝缘件 352和所述雾化座 31之间的导电柱, 该导电柱的一端与电热丝相连, 导
电柱的另一端直接与电池组件电连接, 本实施例并不限定第一外电极的具体结 构。
[0088] 优选地, 雾化座 31延伸出储油套 21的一端的外侧壁上幵设有至少一个进气孔 31
3, 气流经过该进气孔 313后进入雾化组件内部。
[0089] 本申请还提供一种电子烟, 该电子烟包括相互连接的电池组件和雾化组件, 其 中, 所述电池组件为现有技术, 雾化组件为上述所述的雾化组件, 故在此不再 赘述。
[0090] 综上所述, 实施本发明的雾化组件及电子烟, 具有以下有益效果:
[0091] ( 1) 通过在雾化座上套设由吸油材料制成的储油件, 储油腔内的烟油通过储 油件渗入至导油件内, 使得该储油件形成一烟油缓冲通道, 可以避免导油件与 储油腔内的烟油直接接触, 从而避免储油腔内的烟油大量渗入至导油件内。
[0092] (2) 储油件的侧壁与雾化座的侧壁弹性密封相抵, 以避免烟油从储油件与雾 化座间的缝隙中流入雾化腔内, 而影响用户的体验效果。
[0093] (3) 通气管的排烟口与储油套的加油口位于不同高度的平面上, 以使当雾化 组件竖直放置从加油口添加烟油吋通气管的排烟口高于储油套的加油口, 在添 加烟油的过程中, 即使不小心发生烟油飞溅的情况, 通气管的外周壁会将烟油 挡住, 从而避免烟油飞溅进入通气管内。
[0094] (4) 挡油件上设有密封垫板, 通气管延伸至挡油件内并与该密封垫板弹性抵 接, 以使通气管与挡油件弹性密封相连, 从而避免烟油从通气管与挡油件的缝 隙中泄漏而影响用户体验, 通过将密封垫板固定在挡油件上, 可以使本申请雾 化组件的结构更紧凑, 便于组装, 有效提高装配效率。
[0095] (5) 由于第一内电极的所述第一穿孔和第二穿孔不在一条轴线上, 所述第一 内电极面向所述电池组件的端面为封闭的表面, 因而本申请摒弃了现有技术中 第一内电极底端进气的模式, 且增加了第一内电极底面与电池杆中的电极的接 触面积, 避免了雾化组件内的烟油进入电池组件内部, 而造成电池组件内部部 件损坏的缺陷。
[0096] 虽然本发明是通过具体实施例进行说明的, 本领域技术人员应当明白, 在不脱 离本发明范围的情况下, 还可以对本发明进行各种变换及等同替代。 另外, 针
对特定情形或材料, 可以对本发明做各种修改, 而不脱离本发明的范围。 因此 , 本发明不局限于所公幵的具体实施例, 而应当包括落入本发明权利要求范围 内的全部实施方式。
Claims
权利要求书
[权利要求 1] 一种雾化组件, 用于与电池组件组成电子烟, 其特征在于, 所述 雾化组件包括储油套 (21) , 所述储油套 (21) 的一端内连接有 雾化芯 (3) , 所述储油套 (21) 与所述雾化芯 (3) 围成有用于 存储烟油的储油腔 (22) , 所述储油套 (21) 另一端的端面形成 有加油口, 所述加油口处设置有一端可拆卸地连接在所述储油套 (21) 上的挡油件 (4) , 所述挡油件 (4) 的另一端可拆卸地连 接有吸嘴 (1) ;
所述雾化芯 (3) 包括雾化座 (31) , 所述雾化座 (31) 内形成有 雾化腔 (32) , 所述雾化腔 (32) 内设置有绝缘管 (36) 及架设 在所述绝缘管 (36) 上的电热丝组件 (33) , 所述电热丝组件 (3 3) 包括用于吸附所述储油腔 (22) 内烟油的导油件 (331) , 及 用于雾化所述导油件 (331) 上烟油的电热丝 (332) ; 所述雾化 座 (31) 的一端连接有与所述电池组件电连接的雾化电极组件 (3 5) , 所述电热丝 (332) 置于所述绝缘管 (36) 内并与所述雾化 电极组件 (35) 电连接, 所述雾化座 (31) 的另一端套设有通气 管 (34) , 所述通气管 (34) 远离所述雾化座 (31) 的一端延伸 出所述加油口并与所述挡油件 (4) 弹性密封相连;
所述雾化座 (31) 上还套设有与所述导油件 (331) 的两端相抵并 由吸油材料制成的储油件 (37) , 所述储油件 (37) 为沿所述雾 化组件的纵向设置的筒状体, 所述储油件 (37) 的侧壁与所述雾 化座 (31) 弹性抵接, 所述雾化腔 (32) 的腔壁处设有供所述储 油腔 (22) 内的烟油渗入所述导油件 (331) 的过油通道, 所述通 气管 (34) 的侧壁上设有导通所述储油腔 (22) 与所述过油通道 的过油孔 (341) 。
[权利要求 2] 根据权利要求 1所述的雾化组件, 其特征在于, 所述储油件 (37) 套设在所述雾化座 (31) 与所述通气管 (34) 之间, 所述过油通 道为设在所述雾化座 (31) 上的安装槽 (311) , 所述导油件 (33
1) 的两端分别延伸至所述安装槽 (311) 内并与所述储油件 (37
) 相抵接。
根据权利要求 1所述的雾化组件, 其特征在于, 所述储油件 (37) 套设在所述雾化座 (31) 与所述绝缘管 (36) 之间, 所述过油通 道为设在所述雾化座 (31) 上的进油孔 (312) , 所述导油件 (33 1) 的两端分别抵接至所述储油件 (37) 。
根据权利要求 1所述的雾化组件, 其特征在于, 所述通气管 (34) 背离所述电池组件的一端端面设置有与所述吸嘴 (1) 相导通的排 烟口, 且当所述雾化组件竖直放置进行添加烟油吋所述通气管 (3 4) 的排烟口至少高出所述加油口 1.5mm。
根据权利要求 1所述的雾化组件, 其特征在于, 所述吸嘴 (1) 内 形成有与所述通气管 (34) 相连通的烟油冷凝腔 (10) , 所述烟 油冷凝腔 (10) 的腔壁处设有出气孔 (11) , 以使所述雾化芯 (3 ) 雾化的烟雾经过所述通气管 (34) 流动至所述出气孔 (11) 吋 , 冷凝的烟油能够存储在所述烟油冷凝腔 (10) 内。
根据权利要求 5所述的雾化组件, 其特征在于, 所述出气孔 (11) 的周缘朝靠近所述雾化芯 (3) 的一侧凸设有用于阻隔所述烟油冷 凝腔 (10) 内烟油进入所述出气孔 (11) 的环形凸台 (12) 。 根据权利要求 5所述的雾化组件, 其特征在于, 所述挡油件 (4) 朝向所述吸嘴 (1) 的表面设有滑槽 (41) , 所述滑槽 (41) 的槽 面与所述雾化组件的轴向形成小于 90°的夹角, 以使冷凝在所述烟 油冷凝腔 (10) 内的烟油流回所述雾化腔 (32) 内进行二次雾化 根据权利要求 1所述的雾化组件, 其特征在于, 所述挡油件 (4) 为中空结构, 所述挡油件 (4) 的内壁凸设有环形凸起 (42) , 所 述环形凸起 (42) 朝向所述储油腔 (22) 的一侧固定有环形的密 封垫板 (43) , 所述通气管 (34) 的端面与所述密封垫板 (43) 弹性抵接, 所述通气管 (34) 的外周面与所述挡油件 (4) 的内周
面间隙配合。
[权利要求 9] 根据权利要求 1所述的雾化组件, 其特征在于, 所述挡油件 (4) 延伸至所述储油套 (21) 外的一端的外侧壁上设有用于防滑的滚 化。
[权利要求 10] 根据权利要求 1所述的雾化组件, 其特征在于, 所述雾化电极组件
(35) 包括第一内电极 (351) , 所述第一内电极 (351) 设有与 所述雾化腔 (32) 相连通的穿孔, 所述穿孔包括相互连通的第一 穿孔 (354) 和第二穿孔 (355) , 所述第一穿孔 (354) 设在所述 第一内电极 (351) 朝向所述吸嘴 (1) 的一端并沿所述雾化组件 的纵向设置, 所述第二穿孔 (355) 设在所述第一内电极 (351) 背离所述吸嘴 (1) 的一端并沿所述雾化组件的横向设置, 所述第 一内电极 (351) 面向所述电池组件的端面为封闭的表面。
[权利要求 11] 根据权利要求 10所述的雾化组件, 其特征在于, 所述雾化电极组 件 (35) 还包括用于与所述电池组件可拆卸连接的连接件 (23) , 所述连接件 (23) 套设在所述储油套 (21) 远离所述吸嘴 (1) 的一端并与所述雾化座 (31) 可拆卸的连接。
[权利要求 12] —种电子烟, 包括相互连接的电池组件和雾化组件, 其特征在于
, 所述雾化组件包括储油套 (21) , 所述储油套 (21) 的一端内 连接有雾化芯 (3) , 所述储油套 (21) 与所述雾化芯 (3) 围成 有用于存储烟油的储油腔 (22) , 所述储油套 (21) 另一端的端 面形成有加油口, 所述加油口处设置有一端可拆卸地连接在所述 储油套 (21) 上的挡油件 (4) , 所述挡油件 (4) 的另一端可拆 卸地连接有吸嘴 (1) ;
所述雾化芯 (3) 包括雾化座 (31) , 所述雾化座 (31) 内形成有 雾化腔 (32) , 所述雾化腔 (32) 内设置有绝缘管 (36) 及架设 在所述绝缘管 (36) 上的电热丝组件 (33) , 所述电热丝组件 (3 3) 包括用于吸附所述储油腔 (22) 内烟油的导油件 (331) , 及 用于雾化所述导油件 (331) 上烟油的电热丝 (332) ; 所述雾化
座 (31) 的一端连接有与所述电池组件电连接的雾化电极组件 (3 5) , 所述电热丝 (332) 置于所述绝缘管 (36) 内并与所述雾化 电极组件 (35) 电连接, 所述雾化座 (31) 的另一端套设有通气 管 (34) , 所述通气管 (34) 远离所述雾化座 (31) 的一端延伸 出所述加油口并与所述挡油件 (4) 弹性密封相连;
所述雾化座 (31) 上还套设有与所述导油件 (331) 的两端相抵并 由吸油材料制成的储油件 (37) , 所述储油件 (37) 为沿所述雾 化组件的纵向设置的筒状体, 所述储油件 (37) 的侧壁与所述雾 化座 (31) 弹性抵接, 所述雾化腔 (32) 的腔壁处设有供所述储 油腔 (22) 内的烟油渗入所述导油件 (331) 的过油通道, 所述通 气管 (34) 的侧壁上设有导通所述储油腔 (22) 与所述过油通道 的过油孔 (341) 。
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