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WO2016134544A1 - 一种雾化组件及电子烟 - Google Patents

一种雾化组件及电子烟 Download PDF

Info

Publication number
WO2016134544A1
WO2016134544A1 PCT/CN2015/073426 CN2015073426W WO2016134544A1 WO 2016134544 A1 WO2016134544 A1 WO 2016134544A1 CN 2015073426 W CN2015073426 W CN 2015073426W WO 2016134544 A1 WO2016134544 A1 WO 2016134544A1
Authority
WO
WIPO (PCT)
Prior art keywords
oil
atomizing
assembly
sleeve
smoke
Prior art date
Application number
PCT/CN2015/073426
Other languages
English (en)
French (fr)
Inventor
刘秋明
向智勇
Original Assignee
惠州市吉瑞科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 惠州市吉瑞科技有限公司 filed Critical 惠州市吉瑞科技有限公司
Priority to PCT/CN2015/073426 priority Critical patent/WO2016134544A1/zh
Publication of WO2016134544A1 publication Critical patent/WO2016134544A1/zh

Links

Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/48Fluid transfer means, e.g. pumps
    • A24F40/485Valves; Apertures
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F15/00Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor
    • A24F15/01Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor specially adapted for simulated smoking devices or cigarettes therefor
    • A24F15/015Receptacles 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
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/44Wicks

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 assembly and a battery assembly
  • the atomizing assembly includes an oil storage sleeve, and an atomizing core connected to one end of the oil storage sleeve, the atomizing core being fixed in the oil storage sleeve.
  • the oil storage sleeve is provided with oil storage cotton for storing the oil, but the storage of the oil storage oil for a long period of time may cause the smoke oil to deteriorate, and the smoke oil is more likely to leak, so that the user can easily smoke the oil.
  • the technical problem to be solved by the present invention is to provide an atomizing assembly and an electronic cigarette in view of the above-mentioned drawbacks in the prior art.
  • an atomizing assembly for forming an electronic cigarette in combination with a battery assembly, the atomizing assembly including an oil storage assembly for storing the oil and the atomizing oil for atomizing the oil storage assembly
  • An atomization core assembly wherein the oil storage assembly is respectively provided with an oil storage chamber and a receiving chamber, and the oil storage chamber is provided at an end wall of one end of the receiving chamber for conducting the oil storage chamber and the Having a perforation of the chamber, at least one end of the atomizing core assembly being inserted into the receiving chamber and connected to a movable plug of the oil storage assembly;
  • the atomization core assembly is provided with an oil guiding tube inserted in the through hole, and one end of the oil guiding tube facing the oil storage chamber is a closed end, and the side wall of the oil guiding tube is provided with a joint
  • the atomizing core assembly is pushed to move in the direction of the oil storage chamber, so that the oil inlet hole communicates with the oil storage chamber to make the oil storage chamber
  • the smoky oil can flow into the atomizing core assembly.
  • the receiving chamber is provided with a means for preventing the atomizing core assembly from being a limiting mechanism for detaching from the accommodating cavity, and an elastic member abutting on the atomizing core assembly and providing the atomizing core assembly with an elastic force toward the limiting mechanism, so that when the battery assembly Connected to the atomizing assembly, the battery assembly is abutted on the atomizing core assembly, and the atomizing core assembly is moved toward the oil reservoir chamber to snore the oil inlet hole; The battery assembly releases the connection with the atomizing assembly, the elastic member pushes against the atomizing core assembly, moving the atomizing core assembly away from the oil reservoir, and the perforating The hole wall is further covered on the oil inlet hole.
  • the perforated hole wall is provided with an elastic layer made of a non-metallic material to elastically seal the oil guiding tube with the perforated hole wall.
  • the atomizing core assembly is provided with a smoke oil buffer plate made of an oil absorbing material, and the smoke oil buffer plate is disposed on one end of the oil guiding tube. .
  • an oil guide column for guiding oil and obstructing excessive transportation of the smoke oil is inserted into the inner cavity of the oil guiding tube.
  • the oil storage assembly includes an atomizing sleeve, an oil storage sleeve, a grease trap, a seal ring, a receiving sleeve and a connecting sleeve, and the oil storage sleeve is disposed on the In the atomization sleeve, the oil storage chamber is provided with the oil storage chamber, and one end of the oil storage sleeve facing away from the atomization core assembly is provided with a fuel filler port for adding smoke oil to the oil storage chamber.
  • the oil barrier is disposed at the other end of the oil storage sleeve, the sealing ring is sleeved in the oil barrier, the hollow region of the sealing ring forms the perforation;
  • the other end of the accommodating sleeve is connected to the connecting sleeve, and the inner space of the accommodating sleeve forms the accommodating cavity, and the connecting sleeve is formed with a hole for blocking the atomization.
  • the atomization sleeve and the oil storage sleeve are both made of a transparent material, and an annular smoke is formed between the atomization sleeve and the oil storage sleeve.
  • the passage, the atomized smoke of the atomizing core assembly is discharged through the smoke passage.
  • one end of the elastic member abuts against the oil repellency plate, and the other end of the elastic member abuts against the atomizing core assembly.
  • the elastic member is a spring, and the spring is sleeved on the oil guiding tube.
  • the atomizing core assembly includes a hollow atomizing seat, an atomizing cover, the oil guiding tube, a smoke oil buffer plate, an electrode assembly, and an electric heating wire assembly; The atomizing cover is sleeved at one end of the atomizing seat, the oil guiding tube is connected to the atomizing cover and communicates with the inner cavity of the atomizing seat, and the smoke oil buffer plate is made of an oil absorbing material.
  • the smoke oil buffer plate is disposed in the atomization cover and is disposed at one end of the oil guiding tube; the electrode assembly is inserted at an end of the atomization seat away from the oil guiding tube and is used for
  • the battery assembly is electrically connected, the heating wire assembly includes a smoke adsorbing member abutting the smoke oil buffer plate, and a heating wire for atomizing the smoke oil on the oil adsorbing member, the heating wire and the heating wire
  • the electrode assembly is electrically connected.
  • the smoke oil adsorbing member is an oil guiding rope that is erected on the atomizing seat.
  • the heating wire is wound around the oil guiding rope.
  • the smoke oil adsorbing member is an oil sucking column sleeved in the atomizing seat
  • the heating wire is wound in a column shape and sleeved outside the oil absorption column, and an outer circumferential surface of the oil absorption column is in contact with the heating wire.
  • the present invention also provides an electronic cigarette comprising an interconnected battery assembly and an atomizing assembly, the atomizing assembly comprising an oil storage assembly for storing smoke oil and for atomizing the oil storage assembly An atomizing core assembly of the smoky oil, wherein the oil storage assembly is respectively provided with an oil storage chamber and a accommodating chamber, and the oil storage chamber is provided at an end wall of one end of the accommodating chamber for conducting the oil storage chamber And at least one end of the atomizing core assembly is inserted into the receiving cavity and connected to a movable plug of the oil storage assembly;
  • the atomizing core assembly is provided with an oil guiding tube inserted in the through hole, and one end of the oil guiding tube facing the oil storage chamber is a closed end, and the side wall of the oil guiding tube is provided with a seat An oil inlet hole communicating with the inner cavity of the oil guiding pipe; in the non-working state, the perforated hole wall is disposed on the oil inlet hole to block the smoke oil in the oil storage chamber from entering the oil guiding pipe
  • the atomizing core assembly is pushed to move in the direction of the oil storage chamber, so that the oil inlet hole communicates with the oil storage chamber to make the oil storage chamber
  • the smoky oil can flow into the atomizing core assembly.
  • the implementation of the atomizing assembly and the electronic cigarette of the present invention has the following beneficial effects: First, the atomizing core assembly of the present application is movably inserted in the oil storage assembly, when the atomizing assembly is inoperative State ⁇ , guide The oil inlet hole on the oil pipe is blocked, and the oil in the oil storage chamber cannot enter the inside of the atomizing core assembly, so as to prevent the atomizing component from being in a non-working state, the smoke oil penetrates into the atomizing core assembly, so that the smoke oil is easily deteriorated and The problem of smoke oil leakage.
  • An oil supply port is disposed at an end of the oil storage chamber facing away from the receiving cavity, and the nozzle assembly is detachably inserted at the fueling port, and the nozzle assembly is elastically sealed with the fueling port.
  • the user removes the nozzle assembly and adds the smoky oil to the oil storage chamber through the fuel filler port.
  • the atomizing sleeve and the oil storage sleeve are made of a material that can be permeable to light, so that the user can view the remaining amount of the oil in the oil storage chamber.
  • an elastic layer made of a non-metallic material is disposed at the perforated wall of the sealing ring to elastically seal the oil guiding tube with the perforated hole wall.
  • a sealing member on the atomizing seat jacket not only the atomizing seat can be prevented from rotating at will, but also the gap between the atomizing seat and the accommodating sleeve can be sealed, the smoke oil leakage can be avoided, and the user experience can be improved.
  • the nozzle is detachably connected to the atomizing seat, and the user can detach the nozzle to clean the smoke liquid stored in the smoke oil condensation chamber to prevent the user from smoking and sucking the liquid.
  • 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 a first state of the atomizing assembly shown in FIG. 2;
  • FIG. 3 is a schematic structural view of the second state of the atomizing assembly shown in FIG.
  • FIG. 4 is a schematic structural view of a grease trap of the atomizing assembly shown in FIG. 2;
  • Figure 5 is a schematic structural view of a sealing ring of the atomizing assembly shown in Figure 2;
  • FIG. 6 is a schematic structural view of an atomizing cover of the atomizing assembly shown in FIG. 3;
  • FIG. 7 is a schematic structural view of an atomizing seat of the atomizing assembly shown in FIG. 3;
  • FIG. 8 is a schematic structural view of an electric heating wire assembly of the atomizing assembly shown in FIG. 3;
  • FIG. 9 is a schematic structural view of an electronic cigarette according to a preferred embodiment of the present invention.
  • FIG. 10 is a schematic structural view of an atomizing assembly according to a second embodiment of the present invention.
  • FIG. 11 is a schematic structural view of an atomizing assembly according to a third embodiment of the present invention.
  • FIG. 12 is a schematic structural view of an atomizing assembly provided by a fourth embodiment of the present invention.
  • an atomizing assembly for forming an electronic cigarette in combination with a battery assembly 100 (shown in FIG. 9) is provided in one of the preferred embodiments of the present invention.
  • the assembly includes an oil storage assembly 2 for storing the smoke oil, an atomization core assembly 3 for atomizing the smoke oil in the oil storage assembly 2, and a nozzle assembly 1 connected to the end of the oil storage assembly 2.
  • an oil storage chamber 210 and a receiving chamber 240 are disposed in the oil storage assembly 2, and an oil storage chamber 210 is disposed at an end wall facing one end of the receiving chamber 240 for conducting the oil storage chamber 210 and At least one end of the atomizing core assembly 3 is inserted into the receiving cavity 240 and is connected to the movable plug of the oil storage assembly 2.
  • An oil supply port 210 is disposed at an end of the oil chamber 210 away from the accommodating chamber 240.
  • the nozzle assembly 1 is detachably inserted at the fuel filler port, and the nozzle assembly 1 is elastically sealed with the fuel filler port. When it is necessary to add the smoky oil sputum, the user removes the nozzle assembly 1 and adds the smoky oil to the oil reservoir 210 through the fuel filler port.
  • the atomizing core assembly 3 is provided with an oil guiding tube 32 inserted in the through hole 230.
  • One end of the oil guiding tube 32 facing the oil storage chamber 210 is a closed end, and the side wall of the oil guiding tube 32 is provided.
  • the hole wall of the through hole 230 is disposed on the oil inlet hole 321 to block the smoke oil in the oil storage chamber 210 from entering the oil guiding pipe 32.
  • the atomizing core assembly 3 is pushed toward the storage.
  • the oil chamber 210 moves in the direction to connect the oil inlet hole 321 with the oil reservoir 210 so that the oil in the oil reservoir 210 can flow into the atomizing core assembly 3.
  • the atomizing core assembly 3 of the present embodiment is movably inserted into the oil storage assembly 2, and the battery assembly 100 is connected to the atomizing assembly by using ⁇ , and the battery assembly 100 pushes the atomizing core assembly 3 toward the storage.
  • the oil chamber 210 moves in the direction and causes the oil guiding tube 32 to be inserted into the oil storage chamber 210.
  • the oil storage chamber 210 flows into the interior of the atomizing core assembly 3 through the oil inlet hole 3 21 on the side wall of the oil guiding tube 32.
  • the elastic member 26 on the oil guiding tube 32 pushes the atomizing core assembly 3 toward the side away from the oil storage chamber 210, so that the oil inlet hole 321 on the oil guiding tube 32 is blocked, and the oil is stored.
  • the smoke oil in the cavity 210 cannot enter the inside of the atomizing core assembly 3, and the soot is added to the oil storage chamber 210, and the smoke oil does not infiltrate into the atomizing core assembly 3.
  • the oil storage assembly 2 includes an atomizing sleeve 20, an oil storage jacket 21, a grease barrier 22, a seal ring 23, a receiving sleeve 24, a connecting sleeve 25, and an elastic member 26.
  • the oil storage sleeve 21 is sleeved in the atomization sleeve 20
  • the oil storage sleeve 20 is provided with an oil storage chamber 210
  • the oil barrier plate 22 is disposed at one end of the oil storage sleeve 20
  • the sealing ring 23 is sleeved
  • one end of the accommodating sleeve 24 is connected to the atomizing sleeve 20
  • the other end of the accommodating sleeve 24 is connected with the connecting sleeve 25 by screwing.
  • the inside of the accommodating sleeve 24 is formed with a accommodating cavity 240
  • the connecting sleeve 25 is formed.
  • One end away from the receiving sleeve 24 is used to connect to the battery assembly 100
  • the atomizing sleeve 20 is substantially a hollow cylindrical structure, and the nozzle assembly 1 and the accommodating sleeve 24 are respectively connected to both ends of the atomizing sleeve 20.
  • the atomizing sleeve 20 includes an atomizing sleeve body 202 and a misting sleeve connecting member 203 which are connected to each other, and the nozzle assembly 1 is detachably connected to the atomizing sleeve connecting member 203.
  • the atomizing sleeve body 202 and the atomizing sleeve connector 203 can also be an integrally formed structure, and the oil storage sleeve 21 and the atomizing sleeve 20 can also be an integrally formed structure.
  • the atomizing sleeve 20 is made of a material that can transmit light.
  • the oil storage sleeve 21 is also substantially a hollow cylindrical structure, which is embedded in the atomization sleeve 20, and the outer diameter of the oil storage sleeve 21 is smaller than the outer diameter of the atomization sleeve 20, so that the mist
  • An annular smoke passage 201 is formed between the sleeve 20 and the oil reservoir 21, and the mist generated by the atomization core assembly 3 is discharged through the smoke passage 201.
  • the oil storage sleeve 21 is made of a material that can transmit light.
  • the oil barrier 22 includes a main body 220 and a connecting portion 221, and the main body 220 has a substantially disk-like structure that abuts to a port of the oil storage sleeve 21 away from the end of the nozzle assembly 1, and is connected.
  • One end of the portion 221 is fixed to the main body 220, and the other end extends toward a side close to the nozzle assembly 1, and the connecting portion 221 is embedded in the oil storage sleeve 21 to prevent the oil in the oil reservoir 210 from leaking.
  • the oil barrier 22 can be integrally formed with the oil storage jacket 21.
  • the main body 220 is provided with a central hole 223 through which the atomizing core assembly 3 is disposed, and the sealing ring 23 is fixed in the central hole 223 to facilitate the movement of the atomizing core assembly 3 and the oil separating plate 22 The plugs are connected.
  • the main body 220 is provided with a plurality of vent holes 222 spaced apart from each other, and the plurality of vent holes 222 are evenly distributed around the central hole 223, and the vent holes 222 are connected to the smoke passage 201 in the atomizing sleeve 20. And for guiding the smoke passage 201 and the accommodating cavity 240 in the accommodating sleeve 24, the smoke generated by the atomization of the atomizing core assembly 3 passes through The vent 222 then enters the smoke passage 201.
  • the seal ring 23 is embedded in the central hole 223 of the oil shield 22, and the hollow portion of the seal ring 23 is formed with a perforation 230, and the oil guide tube 32 of the atomization core assembly 3 is movablely inserted. It is disposed in the through hole 230.
  • the hole of the hole 230 is provided with an elastic layer made of a non-metal material (not shown in the drawing)
  • the seal ring 23 is made of a soft material such as silicone rubber, and the inner wall of the seal ring 23 forms the elastic layer, that is, the seal ring 23 and the elastic layer have the same material and are integrally formed. It can be understood that, in other embodiments, the material of the sealing ring 23 and the elastic layer may be different, and an elastic layer made of a soft material such as silica gel is fixed on the inner wall of the sealing ring 23, or the perforation 230 is disposed at the On the oil barrier 22, the elastic layer is integrally formed with the oil barrier 22.
  • the accommodating sleeve 24 has a substantially cylindrical structure which is connected to one end of the atomizing sleeve 20 away from the nozzle assembly 1 and is in an interference fit with the atomizing sleeve 20.
  • a receiving chamber 240 is formed in the receiving sleeve 24, and the atomizing core assembly 3 is movably coupled within the receiving chamber 240.
  • the receiving cavity 240 is provided with a limiting mechanism for preventing the atomizing core assembly 3 from falling out of the receiving cavity 240.
  • the limiting mechanism is disposed in the connecting sleeve 25 and located in the receiving sleeve.
  • Limit step 251 at port 24 Specifically, one end of the limiting step 251 is fixed inside the connecting sleeve 25, and the other end extends toward the center line of the connecting sleeve 25.
  • the atomizing core assembly 3 abuts against the limiting step 251 to avoid the atomizing core assembly 3 from The accommodating chamber 240 is detached.
  • the connecting sleeve 25 is detachably connected to one end of the accommodating sleeve 24, and is used for detachable connection with the battery assembly 100, and the connecting sleeve 25 is provided with a device for preventing the atomizing core assembly 3 from being accommodated.
  • a limiting step 251 is detached from the cavity 240.
  • the connecting sleeve 25 is detachably connected to the receiving sleeve 24 by screwing, and the detachable connecting manner between the connecting sleeve 25 and the battery assembly 100 is also a threaded connection.
  • other detachable connection structures can be adopted between the connecting sleeve 25 and the accommodating sleeve 24 or the battery assembly 100, and other connecting structures can be disposed on the connecting sleeve 25, for example, in the snap connection.
  • only the screw connection is described as an example of the elastic engagement elastic piece or the like, and is not limited to the screw connection.
  • the elastic member 26 is located in the accommodating cavity, and both ends of the elastic member 26 are elastically resisted on the oil dam plate 23 and the atomizing core assembly 3, respectively.
  • the elastic member 26 is mainly used to provide the atomizing core assembly 3 with a direction toward the limiting mechanism.
  • the elastic force is such that when the battery assembly 100 is connected to the atomizing assembly, the battery assembly 100 can be resisted on the atomizing core assembly 3, and the atomizing core assembly 3 is moved toward the oil reservoir chamber 210 to punch the oil hole 321 .
  • the elastic member 26 When the battery assembly 100 is released from the connection with the atomizing assembly, the elastic member 26 is pushed against the atomizing core assembly 3 to move the atomizing core assembly 3 away from the oil reservoir 210, and the hole wall of the through hole 230 is re-covered. On the oil inlet hole 321 .
  • the elastic member 26 is a spring structure that is sleeved outside the oil guiding tube 32. It can be understood that the elastic member 26 can also be a spring piece or a silicone sleeve or the like as long as it can provide elastic force. Of course, in other embodiments, the elastic member 26 may not be provided, but the atomizing core assembly 3 may be clamped by the elastic layer to restrict the sliding of the atomizing core assembly 3 arbitrarily.
  • the oil storage assembly 2 includes an atomizing sleeve 20, an oil storage jacket 21, a grease barrier 22, a seal ring 23, a receiving sleeve 24, a connecting sleeve 25, and an elastic member 26. It can be understood that the oil storage assembly 2 of the present application is not limited to the above structure, and may be other structures as long as the atomization core assembly 3 can be movably connected in the oil storage assembly 2, and can store the smoke oil. can.
  • the atomizing core assembly 3 includes an atomizing seat 30, an atomizing cover 31, an oil guiding tube 32, a smoke oil buffer plate 33, an electrode assembly 34, and a heating wire assembly 35.
  • the atomizing cover 31 is sleeved at one end of the atomizing base 30 near the nozzle assembly 1, and the oil guiding tube 32 is connected to one end of the atomizing cover 31 near the nozzle assembly 1, and the oil guiding tube 32 and the atomizing seat
  • the inner chambers of 30 are connected.
  • the smoke oil buffer plate 33 is housed in the atomizing cover 31 and is disposed at one end of the oil guiding pipe 32.
  • the heating wire assembly 35 is mounted on the atomizing seat 31 and abuts against the smoke oil buffer plate 33.
  • the electrode assembly 34 is inserted at one end of the atomizing holder 30 away from the nozzle assembly 1 and is used for electrical connection with the battery assembly 100.
  • the atomizing base 30 is generally a hollow cylindrical structure that is movably inserted into the receiving sleeve 24. Specifically, the atomizing base 30 is provided with two mounting slots 301 toward one end of the nozzle assembly 1 , and the two mounting slots 310 are respectively spaced apart from each other at the end of the atomizing base 30 facing the nozzle assembly 1 and facing away from each other. One side of the nozzle assembly 1 extends, and both ends of the heating wire assembly 35 are respectively mounted on the bottom of the mounting groove 301.
  • the outer side wall of the atomization base 30 is provided with an annular card slot 303.
  • the annular card slot 303 is provided with a sealing member 304.
  • the sealing member 304 is fixed in the annular card slot 303 and abuts to accommodate The inner side wall of the sleeve 24 (shown in Figure 3).
  • the sealing member 304 By providing the sealing member 304 on the atomizing seat 30, it is possible to prevent the atomizing seat 30 from being freely rotated.
  • the gap between the atomizing seat 30 and the accommodating sleeve 24 can also be sealed to avoid leakage of smoke oil and improve the user experience.
  • the atomizing seat 30 may be A limiting protrusion 302 that abuts against an end surface of the atomizing cover 31 is protruded from the outer side wall.
  • the atomizing cover 31 is sleeved outside the one end of the atomizing base 30 near the nozzle assembly 1, and abuts against the limiting protrusion 302 on the misting seat 30.
  • One end of the atomizing cover 31 facing away from the nozzle assembly 1 is provided with two relatively spaced apart card slots 311, and the two card slots 311 are respectively disposed at two ends of the heating wire assembly 35.
  • the atomizing cover 31 is provided with a through hole (not labeled), and one end of the oil guiding tube 32 is fixed on the circumferential side edge of the through hole, and is used for conducting the oil guiding tube 32 and the atomizing seat 30.
  • the accommodation space is provided.
  • the oil guiding tube 32 is substantially cylindrical, and one end of the oil guiding tube 32 is fixed on the atomizing cover 31, and the other end extends toward the side close to the nozzle assembly 1, and the sealing ring 23
  • the inner perforations 230 are connected by movable plugs.
  • One end of the oil guiding pipe 32 facing the nozzle assembly is a closed end, and the inner oil chamber 320 is communicated with the receiving space in the atomizing seat 30.
  • the outer wall of the oil guiding pipe 32 is disposed with the inner cavity 320.
  • the oil inlet hole 321 and the oil in the oil reservoir 210 enter the oil guiding pipe 32 through the oil inlet hole 321 .
  • the atomizing cover 31 and the oil guiding tube 32 are integrally formed. It can be understood that, in the embodiment, the atomizing cover 31 and the oil guiding tube 32 can be fixedly connected by other means, such as sticking. Pick up, or solder, etc.
  • the smoke oil buffer plate 33 is made of an oil absorbing material, and the smoke oil buffer plate 33 is disposed at one end of the oil guiding pipe 32 and between the atomizing cover 31 and the atomizing seat 30.
  • the smoke oil entering from the oil inlet hole 321 is stored on the smoke oil buffer plate 33, and both ends of the smoke oil adsorbing member 351 of the heating wire assembly 35 abut against the smoke oil buffer plate 33, respectively, so as to be stored in the smoke oil buffer.
  • the smoke oil in the plate 33 penetrates into the smoke adsorbing member 351.
  • the smog buffer plate 33 is a non-woven fabric. It can be understood that the smoky oil buffer plate 33 can also be a sponge or a fiber, and the material thereof is not specifically limited.
  • the heating wire assembly 35 includes a smoke adsorbing member 351 and a heating wire 352, and the oil adsorbing member 351 is an oil guiding rope made of an oil absorbing material, which is fixed at the bottom of the mounting groove 301, and the oil is smoked.
  • the adsorbing member 351 is mainly used for adsorbing the smoke oil flowing into the soot buffer plate 33.
  • the heating wire 352 is wound around the oil adsorbing member 351 and electrically connected to the battery assembly 100.
  • the heating wire 351 is mainly used for atomizing the smoke oil on the smoke adsorbing member 351. As shown in FIG.
  • the electrode assembly 34 is fixed at one end of the atomizing base 30 near the battery assembly, the electrode assembly 34 includes an inner electrode 341 and an insulating member 342, and the inner electrode 341 and the insulating member 342 are sequentially embedded from the inside to the outside. It is disposed on the atomization seat 30.
  • the connecting sleeve 25, the receiving sleeve 24, the oil separating plate 22, the elastic member 26 and the atomizing cover 31 are respectively metal conductive members, and one end of the heating wire 352 passes through the atomizing cover 31 and the elastic member in sequence. 26.
  • the oil barrier 22, the connecting sleeve 25 and the receiving sleeve 24 are electrically connected to the battery assembly 100, and the other end of the heating wire 352 is electrically connected to the battery assembly 100 through the inner electrode 341.
  • the atomizing core 3 mainly comprises an atomizing seat 30, an atomizing cover 31, an oil guiding tube 32, a smoke oil buffering plate 33, an electrode assembly 34 and an electric heating wire assembly 35. 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 and be movably connected in the oil storage assembly 2.
  • nozzle assembly 1 The specific structure of the nozzle assembly 1 will be described in detail in conjunction with the embodiment shown in Figs. 1, 2 and 3.
  • the nozzle assembly 1 includes a suction nozzle 11 and a connecting seat 12 which are detachably connected to each other, and one end of the connecting seat 12 is detachably connected to the atomizing sleeve 20, and the suction nozzle 11 is detachably connected. At the other end of the connector block 12.
  • the connecting base 12 includes a connecting base body 121 and an inserting portion 122.
  • the connecting seat main body 121 is detachably connected to one end of the atomizing sleeve 30 through a threaded connection structure, and the embedded portion 122 is connected to the oil storage sleeve 21.
  • the end of the inserting portion 122 facing the oil reservoir 210 is a closed end for sealing the oil reservoir 210 to prevent the smoke oil from leaking into the nozzle 11.
  • an elastic sealing ring 123 is fixed on the outer side wall of the inserting portion 122, and the elastic sealing ring 123 elastically abuts against the oil storage sleeve.
  • a non-slip knurling structure (not shown) may be disposed on the outer side wall of the connecting seat main body 121.
  • the suction nozzle 11 is detachably connected to one end of the atomization seat 12 through a threaded structure, and the smoke oil condensation chamber 110 communicating with the smoke passage 201 is formed in the suction nozzle 11, and the smoke passage is smoked.
  • the condensed soot liquid flowing in 201 flows along the airflow and is stored in the smoke oil condensing chamber 110. Since the suction nozzle 11 is detachably connected with the atomizing seat 12, the user can detach the suction nozzle 11 to clean the smoke oil condensation.
  • the liquid smoke remaining in the cavity 110 prevents the user from smoking and sucking the liquid.
  • the air vent 111 is provided at the cavity wall of the smog condensation chamber 110 to facilitate the user to suck, and the smoke generated by the atomization of the atomization core assembly 3 flows along the smoke passage 201 to the air outlet 111 ⁇ , condensed
  • the smoke oil is stored in the smoke oil condensation chamber 110.
  • the peripheral edge of the air outlet 111 protrudes from the side close to the atomizing core assembly 3 with an annular boss 112 for blocking the smoke oil to prevent the user from smoking the smoke oil.
  • FIG. 10 shows an atomizing assembly provided by a second preferred embodiment of the present invention, which differs from one of the embodiments in the structure of the nozzle assembly 1 and the oil storage assembly 2.
  • the atomizing sleeve 20, the accommodating sleeve 24 and the connecting sleeve 25 of the oil storage assembly 2 are integrally formed.
  • the inner side wall of the atomizing sleeve 20 is provided with an internal thread structure, and the battery assembly 100 is detachably connected to the misting sleeve 20 directly through the internal thread structure.
  • the oil storage sleeve 21 has a structure of one end opening, that is, one end of the oil storage sleeve 21 facing the suction nozzle 11 is a closed end, and one end of the oil storage sleeve 21 facing away from the suction nozzle 11 is a mouth end, the oil barrier 22 is embedded in the mouth of the mouth.
  • the nozzle assembly 1 includes a suction nozzle 11 having an integral structure with the oil storage assembly 2, and an inner wall of the suction nozzle 11 is provided with an air outlet 111 and a circumference of the air outlet 111.
  • An annular boss 112 for blocking the smoke oil is protruded toward the side edge.
  • FIG. 11 shows an atomizing assembly provided in a third preferred embodiment of the present invention, which differs from one of the embodiments in the structure of the oil guiding tube 32 of the atomizing core assembly 3.
  • an oil guiding column 322 is inserted into the inner cavity 320 of the oil guiding tube 32, and the oil guiding rod 322 is mainly used for guiding oil, and obstructing excessive transportation of smoke oil in the oil storage chamber 210 to the smoke.
  • the oil cache plate 33 is inside.
  • FIG. 12 illustrates an atomizing assembly provided by a preferred embodiment of the present invention, which differs from one of the embodiments in the structure of the atomizing core assembly 3.
  • the atomizing core assembly 3 does not include the soot buffer plate 33, and one end of the heating wire assembly 35 is fixed in the atomizing seat 30, and the other end of the heating wire assembly 35 is inserted into the oil guiding tube 32. Inside the cavity 320.
  • the heating wire assembly 35 includes a smoke adsorbing member 351 and a heating wire 352, and the oil adsorbing member 351 is an oil sucking column made of an oil absorbing material.
  • One end of the oil absorption column is fixed in the atomization seat 30, and the other end is elastically inserted into the inner cavity 320 of the oil guiding pipe 32, and the smoke oil in the oil storage chamber 210 directly infiltrates into the oil absorption column through the oil inlet hole 321 .
  • the heating wire 352 is wound in a column shape and is sleeved outside the oil absorption column, and the outer peripheral surface of the oil absorption column and the heating wire
  • the heating wire 352 fits.
  • the heating wire 352 is attached to the outer sidewall of the smoke adsorbing member 351, so that the length of the heating wire 352 can be greatly increased, thereby increasing the contact area between the heating wire 352 and the smoke adsorbing member 351.
  • the amount of smoke of the electronic cigarette is relatively stable.
  • the outer side wall of the oil adsorbing member 351 elastically abuts against the inner cavity 320 of the oil guiding tube 32 to prevent the leakage of the oil, so that the oil seal is good.
  • the present application also provides an electronic cigarette.
  • the electronic cigarette includes a battery assembly 100 and an atomizing assembly that are connected to each other.
  • the air inlet hole of the electronic cigarette (not labeled on the drawing) is disposed on the outer side wall of the end of the battery assembly 100 away from the suction nozzle 11, and as shown in FIG. 3, the inner electrode 341 is provided with the axial direction of the atomizing assembly.
  • the through hole 342 communicates with the internal space of the atomizing seat 30.
  • Fig. 9 is a view showing the flow direction of the internal airflow of the electronic cigarette of the present invention. Since the battery assembly 100 is a prior art, the atomizing assembly is the atomizing assembly described above, and thus will not be described herein.
  • the atomizing core assembly of the present application is movably inserted in the oil storage assembly.
  • the elastic member on the oil guiding tube pushes the atomizing core assembly away from the oil storage chamber.
  • One side movement causes the oil inlet hole on the oil guiding pipe to be blocked, and the oil in the oil storage chamber cannot enter the inside of the atomizing core assembly to prevent the atomizing assembly from being in a non-working state, and the smoke oil penetrates into the atomizing core assembly.
  • a fuel filler port is disposed at an end of the oil storage chamber facing away from the accommodating chamber, and the nozzle assembly is detachably inserted at the fuel filler port, and the nozzle assembly is elastically sealed with the fuel filler port.
  • the atomizing sleeve and the oil storage sleeve are both made of a light-permeable material to facilitate the user to check the remaining amount of the oil in the oil storage chamber.
  • An elastic layer made of a non-metallic material is disposed at the perforated wall of the seal ring to elastically seal the oil guide tube to the perforated hole wall.
  • the nozzle is detachably connected with the atomizing seat, and the user can fix the nozzle to remove the smoke liquid stored in the smoke oil condensation chamber to prevent the user from smoking and sucking the liquid.

Landscapes

  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)

Abstract

一种雾化组件及电子烟,所述雾化组件包括用于存储烟油的储油组件(2)及用于雾化所述储油组件(2)内的烟油的雾化芯组件(3),所述储油组件(2)内分别设置有储油腔(210)及容纳腔(240),所述储油腔(210)面向所述容纳腔(240)的一端的端壁处设有用于导通所述储油腔(210)和所述容纳腔(240)的穿孔(230),所述雾化芯组件(3)的至少一端插设在所述容纳腔(240)内并与所述储油组件(2)可活动的插接相连;当雾化组件处于非工作状态时,导油管(32)上的弹性件(26)推动雾化芯组件(3)朝远离储油腔(210)的一侧运动,使得导油管(32)上的进油孔(321)被堵塞,储油腔(210)内的烟油无法进入雾化芯组件(3)内部,避免雾化组件处于非工作状态时,烟油渗入至雾化芯组件(3)。

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, 该雾化芯固定在储油套内。 储油套内设置有用于存储 烟油的储油棉, 但是储油棉存储烟油的吋间过长吋, 会导致烟油变质, 且烟油 较容易泄露, 以致用户容易吸食到烟油。
技术问题
[0003] 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
[0004] 本发明解决其技术问题所采用的技术方案是:
[0005] 提供一种雾化组件, 用于与电池组件组合形成电子烟, 所述雾化组件包括用于 存储烟油的储油组件及用于雾化所述储油组件内的烟油的雾化芯组件, 所述储 油组件内分别设置有储油腔及容纳腔, 所述储油腔面向所述容纳腔的一端的端 壁处设有用于导通所述储油腔和所述容纳腔的穿孔, 所述雾化芯组件的至少一 端插设在所述容纳腔内并与所述储油组件可活动的插接相连;
[0006] 所述雾化芯组件设置有插设在所述穿孔内的导油管, 所述导油管面向所述储油 腔的一端为封闭端, 所述导油管的侧壁上设有与所述导油管的内腔相连通的进 油孔; 在非工作状态吋, 所述穿孔的孔壁盖设在所述进油孔上以阻挡所述储油 腔内的烟油进入所述导油管, 当需要雾化烟油吋, 推动所述雾化芯组件朝所述 储油腔的方向运动, 使所述进油孔与所述储油腔相连通, 以使所述储油腔内的 烟油能够流入所述雾化芯组件内。
[0007] 在本发明所述的雾化组件中, 所述容纳腔内设有用于阻止所述雾化芯组件从所 述容纳腔中脱落的限位机构, 及抵持在所述雾化芯组件上并向所述雾化芯组件 提供朝向所述限位机构方向的弹力的弹性件, 以使当所述电池组件与所述雾化 组件相连吋所述电池组件抵持在所述雾化芯组件上, 并使所述雾化芯组件向所 述储油腔方向运动以打幵所述进油孔; 当所述电池组件解除与所述雾化组件的 连接吋, 所述弹性件推抵所述雾化芯组件, 使所述雾化芯组件朝远离所述储油 腔的方向运动, 而使所述穿孔的孔壁再盖设在所述进油孔上。
[0008] 在本发明所述的雾化组件中, 所述穿孔的孔壁处设有由非金属材料制成的弹性 层, 以使所述导油管与所述穿孔的孔壁弹性密封相连。
[0009] 在本发明所述的雾化组件中, 所述雾化芯组件内设置有由吸油材料制成的烟油 缓存板, 所述烟油缓存板盖设于所述导油管的一端上。
[0010] 在本发明所述的雾化组件中, 所述导油管的内腔中插设有用于导油及阻碍烟油 过度输送的导油柱。
[0011] 在本发明所述的雾化组件中, 所述储油组件包括雾化套、 储油套、 隔油板、 密 封环、 容纳套及连接套, 所述储油套套设在所述雾化套内, 所述储油套内设置 有所述储油腔, 所述储油套背离所述雾化芯组件的一端设有用于向所述储油腔 添加烟油的加油口, 所述隔油板盖设在所述储油套的另一端, 所述密封环套设 在所述隔油板内, 所述密封环的中空区域形成所述穿孔; 所述容纳套的一端与 所述雾化套插接相连, 所述容纳套的另一端与所述连接套插接相连, 所述容纳 套的内部空间形成所述容纳腔, 所述连接套内形成有用于阻碍所述雾化芯组件 从所述容纳腔中脱落的限位台阶, 所述连接套远离所述容纳套的一端用于与所 述电池组件相连。
[0012] 在本发明所述的雾化组件中, 所述雾化套与所述储油套均为透明材料制件, 所 述雾化套与所述储油套之间形成有环形的烟雾通道, 所述雾化芯组件雾化的烟 雾通过所述烟雾通道排出。
[0013] 在本发明所述的雾化组件中, 所述弹性件的一端抵持在所述隔油板上, 所述弹 性件的另一端与所述雾化芯组件相抵持。
[0014] 在本发明所述的雾化组件中, 所述弹性件为弹簧, 所述弹簧套设在所述导油管 上。 [0015] 在本发明所述的雾化组件中, 所述雾化芯组件包括中空的雾化座、 雾化盖、 所 述导油管、 烟油缓存板、 电极组件及电热丝组件; 所述雾化盖套设在所述雾化 座的一端, 所述导油管与所述雾化盖相连并与所述雾化座的内腔相连通, 所述 烟油缓存板由吸油材料制成, 所述烟油缓存板容置于所述雾化盖内并盖设在所 述导油管的一端; 所述电极组件插设在所述雾化座远离所述导油管的一端并用 于与所述电池组件电连接, 所述电热丝组件包括与所述烟油缓存板抵接的烟油 吸附件及用于雾化所述烟油吸附件上的烟油的电热丝, 所述电热丝与所述电极 组件电连接。
[0016] 在本发明所述的雾化组件中, 所述烟油吸附件为架设在所述雾化座上的导油绳
, 所述电热丝缠绕在所述导油绳上。
[0017] 在本发明所述的雾化组件中, 所述烟油吸附件为套设在所述雾化座内的吸油柱
, 所述电热丝缠绕呈柱状并套设在所述吸油柱外, 所述吸油柱的外周面与所述 电热丝相贴合。
[0018] 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 件包括用于存储烟油的储油组件及用于雾化所述储油组件内的烟油的雾化芯组 件, 所述储油组件内分别设置有储油腔及容纳腔, 所述储油腔面向所述容纳腔 的一端的端壁处设有用于导通所述储油腔和所述容纳腔的穿孔, 所述雾化芯组 件的至少一端插设在所述容纳腔内并与所述储油组件可活动的插接相连;
[0019] 所述雾化芯组件设置有插设在所述穿孔内的导油管, 所述导油管面向所述储油 腔的一端为封闭端, 所述导油管的侧壁上设有与所述导油管的内腔相连通的进 油孔; 在非工作状态吋, 所述穿孔的孔壁盖设在所述进油孔上以阻挡所述储油 腔内的烟油进入所述导油管, 当需要雾化烟油吋, 推动所述雾化芯组件朝所述 储油腔的方向运动, 使所述进油孔与所述储油腔相连通, 以使所述储油腔内的 烟油能够流入所述雾化芯组件内。
发明的有益效果
有益效果
[0020] 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, 本申 请雾化芯组件可活动的插设在储油组件内, 当雾化组件处于非工作状态吋, 导 油管上的进油孔被堵塞, 储油腔内的烟油无法进入雾化芯组件内部, 避免雾化 组件处于非工作状态吋, 烟油渗入至雾化芯组件, 以导致烟油容易变质及烟油 泄露的问题。 储油腔背离容纳腔的一端设有加油口, 吸嘴组件可拆卸的插设在 该加油口处, 且吸嘴组件与该加油口弹性密封相连。 当需要添加烟油吋, 用户 将吸嘴组件拆下, 并通过该加油口向储油腔内添加烟油。 其次, 雾化套和储油 套均由可透光的材料制得, 以方便用户査看储油腔内烟油的余量。 第三, 密封 环的穿孔的孔壁处设置有由非金属材料制成的弹性层, 以使导油管与穿孔的孔 壁弹性密封相连。 第四, 通过在雾化座外套设密封件, 不仅可以避免雾化座随 意转动, 还可以密封雾化座与容纳套之间的缝隙, 避免烟油泄露, 提高用户体 验效果。 最后, 吸嘴与雾化座可拆卸的连接, 用户可以定吋将吸嘴拆卸下来以 清理烟油冷凝腔内存留的烟液, 防止用户抽烟吋吸到烟液。
对附图的简要说明
附图说明
[0021] 下面将结合附图及实施例对本发明作进一步说明, 附图中:
[0022] 图 1是本发明较佳实施例之一提供的雾化组件的爆炸图;
[0023] 图 2图 1所示雾化组件第一状态的结构示意图;
[0024] 图 3图 1所示雾化组件第二状态的结构示意图;
[0025] 图 4是图 2所示雾化组件的隔油板的结构示意图;
[0026] 图 5是图 2所示雾化组件的密封环的结构示意图;
[0027] 图 6是图 3所示雾化组件的雾化盖的结构示意图;
[0028] 图 7是图 3所示雾化组件的雾化座的结构示意图;
[0029] 图 8是图 3所示雾化组件的电热丝组件的结构示意图;
[0030] 图 9是本发明较佳实施例之一提供的电子烟的结构示意图;
[0031] 图 10是本发明较佳实施例之二提供的雾化组件的结构示意图;
[0032] 图 11是本发明较佳实施例之三提供的雾化组件的结构示意图;
[0033] 图 12是本发明较佳实施例之四提供的雾化组件的结构示意图。
本发明的实施方式 [0034] 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。
[0035] 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 100 (结合图 9所示) 组合形成电子烟, 该雾化组件包括用于存储烟油 的储油组件 2、 用于雾化储油组件 2内的烟油的雾化芯组件 3, 及连接在储油组件 2—端的吸嘴组件 1。
[0036] 如图 2所示, 储油组件 2内分别设置有储油腔 210及容纳腔 240, 储油腔 210面向 容纳腔 240的一端的端壁处设有用于导通储油腔 210和容纳腔 240的穿孔 230, 雾 化芯组件 3的至少一端插设在该容纳腔 240内并与储油组件 2可活动的插接相连。 储油腔 210背离容纳腔 240的一端设有加油口, 吸嘴组件 1可拆卸的插设在该加油 口处, 且吸嘴组件 1与该加油口弹性密封相连。 当需要添加烟油吋, 用户将吸嘴 组件 1拆下, 并通过该加油口向储油腔 210内添加烟油。
[0037] 如图 3所示, 雾化芯组件 3设置有插设在穿孔 230内的导油管 32, 导油管 32面向 储油腔 210的一端为封闭端, 导油管 32的侧壁上设有与导油管 32的内腔 320相连 通的进油孔 321。 在非工作状态吋, 穿孔 230的孔壁盖设在进油孔 321上以阻挡储 油腔 210内的烟油进入导油管 32, 当需要雾化烟油吋, 推动雾化芯组件 3朝储油 腔 210的方向运动, 使进油孔 321与储油腔 210相连通, 以使储油腔 210内的烟油 能够流入雾化芯组件 3内。
[0038] 本实施例的雾化芯组件 3可活动的插设在储油组件 2内, 使用吋, 将电池组件 10 0连接在雾化组件上, 电池组件 100推动雾化芯组件 3朝储油腔 210的方向运动, 并使得导油管 32插入至储油腔 210内, 储油腔 210通过导油管 32侧壁上的进油孔 3 21流入雾化芯组件 3内部。 当雾化组件处于非工作状态吋, 导油管 32上的弹性件 26推动雾化芯组件 3朝远离储油腔 210的一侧运动, 使得导油管 32上的进油孔 321 被堵塞, 储油腔 210内的烟油无法进入雾化芯组件 3内部, 这吋向储油腔 210内添 加烟油吋, 烟油就不会从渗入至雾化芯组件 3。
[0039] 结合图 1、 图 2、 图 3、 图 4和图 5所示的实施例对储油组件 2的具体结构进行详细 说明。 [0040] 如图 2所示, 储油组件 2包括雾化套 20、 储油套 21、 隔油板 22、 密封环 23、 容纳 套 24、 连接套 25和弹性件 26。
[0041] 其中, 储油套 21套设在雾化套 20内, 储油套 20内设置有储油腔 210, 隔油板 22 盖设在储油套 20的一端, 密封环 23套设在隔油板 22内, 容纳套 24的一端与雾化 套 20插接相连, 容纳套 24的另一端与连接套 25通过螺纹插接相连, 容纳套 24的 内部形成有容纳腔 240, 连接套 25远离容纳套 24的一端用于与电池组件 100相连
[0042] 如图 2所示, 雾化套 20大致为中空圆筒状结构, 吸嘴组件 1和容纳套 24分别连接 在雾化套 20的两端。 本实施例中, 雾化套 20包括相互连接的雾化套本体 202和雾 化套连接件 203, 吸嘴组件 1与该雾化套连接件 203可拆卸的连接。 可以理解的是 , 在其它实施例中, 雾化套本体 202和雾化套连接件 203还可以为一体成型结构 , 所述储油套 21与雾化套 20也可以为一体成型结构。 为了方便用户査看储油腔 2 10内烟油的余量, 雾化套 20由可透光的材料制得。
[0043] 进一步的, 储油套 21也大致为中空的圆筒状结构, 其嵌设在雾化套 20内, 且储 油套 21的外径小于雾化套 20的外径大小, 使得雾化套 20和储油套 21之间形成环 形的烟雾通道 201, 雾化芯组件 3雾化产生的烟雾通过该烟雾通道 201排出。 优选 的, 为了方便用户査看储油腔 210内烟油的余量, 储油套 21由可透光的材料制得
[0044] 结合图 4所示, 隔油板 22包括主体 220和连接部 221, 主体 220大致为圆盘状结构 , 其抵接至储油套 21远离吸嘴组件 1的一端的端口处, 连接部 221的一端固定在 该主体 220上, 另一端朝靠近吸嘴组件 1的一侧延伸, 且连接部 221嵌设在储油套 21内, 以避免储油腔 210内的烟油泄露。 可以理解的是, 所述隔油板 22可以与所 述储油套 21为一体成型结构。
[0045] 优选的, 主体 220上设有供雾化芯组件 3穿设的中心孔 223, 密封环 23固定在该 中心孔 223内, 以方便雾化芯组件 3与该隔油板 22可活动的插接相连。
[0046] 优选的, 主体 220上间隔幵设有多个通气孔 222, 多个通气孔 222相互均匀的环 绕中心孔 223分布, 且该通气孔 222与雾化套 20内的烟雾通道 201相连通, 并用于 导通烟雾通道 201与容纳套 24内的容纳腔 240, 雾化芯组件 3雾化产生的烟雾穿过 该通气孔 222后进入烟雾通道 201内。
[0047] 结合图 5所示, 密封环 23嵌设在隔油板 22的中心孔 223内, 且密封环 23的中空区 域形成有穿孔 230, 雾化芯组件 3的导油管 32可活动的插设在该穿孔 230中。
[0048] 优选的, 该穿孔 230的孔壁处设置有由非金属材料制成的弹性层 (图上未示出
) , 以使导油管 32与穿孔 230的孔壁弹性密封相连。 本实施例中, 密封环 23由硅 胶等软质材料制得, 密封环 23的内壁形成该弹性层, 即密封环 23和弹性层的材 质相同并为一体成型结构。 可以理解的是, 在其它实施例中, 密封环 23和弹性 层的材质可以不同, 由硅胶等软质材料制得的弹性层固定在密封环 23的内壁上 , 或者所述穿孔 230设置在所述隔油板 22上, 所述弹性层与所述隔油板 22—体成 型。
[0049] 如图 2所示, 容纳套 24大致为圆筒状结构, 其连接在雾化套 20远离吸嘴组件 1的 一端, 并与该雾化套 20过盈配合。 容纳套 24内形成有容纳腔 240, 雾化芯组件 3 可活动的连接在该容纳腔 240内。
[0050] 优选的, 容纳腔 240内设有用于阻止雾化芯组件 3从容纳腔 240中脱落的限位机 构, 本实施例中, 该限位机构为设置在连接套 25内并位于容纳套 24端口处的限 位台阶 251。 具体的, 限位台阶 251的一端固定在连接套 25内部, 另一端朝连接 套 25的中心线方向延伸, 雾化芯组件 3抵接至该限位台阶 251, 以避免雾化芯组 件 3从容纳腔 240中脱落。
[0051] 如图 2所示, 连接套 25可拆卸的连接在容纳套 24的一端, 并用于与电池组件 100 可拆卸的连接, 且连接套 25内设置有用于阻止雾化芯组件 3从容纳腔 240中脱落 的限位台阶 251。
[0052] 本实施例中, 连接套 25采用螺纹连接的方式与容纳套 24可拆卸的连接, 且连接 套 25与电池组件 100之间可拆卸的连接方式也为螺纹连接。 可以理解的是, 在其 它实施例中, 连接套 25与容纳套 24或电池组件 100间还可以采用其它可拆卸连接 结构, 则连接套 25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。
[0053] 如图 2所示, 弹性件 26位于容纳腔内, 弹性件 26的两端分别弹性抵持在隔油板 2 3与雾化芯组件 3上。 弹性件 26主要用于向雾化芯组件 3提供朝向限位机构方向的 弹力, 以使当电池组件 100与雾化组件相连吋, 电池组件 100能够抵持在雾化芯 组件 3上, 并使雾化芯组件 3向储油腔 210方向运动以打幵进油孔 321。 当电池组 件 100解除与雾化组件的连接吋, 弹性件 26推抵雾化芯组件 3, 使雾化芯组件 3朝 远离储油腔 210的方向运动, 而使穿孔 230的孔壁再盖设在进油孔 321上。
[0054] 本实施例中, 弹性件 26为弹簧结构, 其套设在导油管 32外。 可以理解的是, 弹 性件 26还可以是弹片或硅胶套管等, 其只要能够提供弹力即可。 当然, 在其它 实施例中, 也可以无需设置所述弹性件 26, 而是通过所述弹性层夹持所述雾化 芯组件 3, 以限制所述雾化芯组件 3任意滑动。
[0055] 本实施例中, 储油组件 2包括雾化套 20、 储油套 21、 隔油板 22、 密封环 23、 容 纳套 24、 连接套 25和弹性件 26。 可以理解的是, 本申请的储油组件 2并不限定于 上述结构, 还可以是其它结构, 只要雾化芯组件 3能够可活动的连接在该储油组 件 2内, 并能存储烟油即可。
[0056] 结合图 1图 2、 图 3、 图 6、 图 7和图 8所示的实施例对雾化芯组件 3的具体结构进 行详细说明。
[0057] 如图 3所示, 雾化芯组件 3包括雾化座 30、 雾化盖 31、 导油管 32、 烟油缓存板 33 、 电极组件 34和电热丝组件 35。
[0058] 其中, 雾化盖 31套设在雾化座 30靠近吸嘴组件 1的一端, 导油管 32连接在雾化 盖 31靠近吸嘴组件 1的一端上, 且导油管 32与雾化座 30的内腔相连通。 烟油缓存 板 33容置于雾化盖 31内并盖设在导油管 32的一端, 电热丝组件 35架设在雾化座 3 1上并抵接至烟油缓存板 33。 电极组件 34插设在雾化座 30远离吸嘴组件 1的一端 , 并用于与电池组件 100电连接。
[0059] 结合图 7所示, 雾化座 30大致为中空的柱体结构, 其可活动的插设在容纳套 24 内。 具体的, 雾化座 30朝向吸嘴组件 1的一端设有两个安装槽 301, 两个安装槽 3 01分别相对间隔的幵设在雾化座 30朝向吸嘴组件 1的一端, 并朝远离吸嘴组件 1 的一侧延伸, 电热丝组件 35的两端分别架设在该安装槽 301的底部。
[0060] 优选的, 雾化座 30的外侧壁上设置有环形卡槽 303, 该环形卡槽 303内设置有密 封件 304, 该密封件 304固定在环形卡槽 303内, 并抵接至容纳套 24的内侧壁 (如 图 3所示) 。 通过在雾化座 30外套设密封件 304, 不仅可以避免雾化座 30随意转 动, 还可以密封雾化座 30与容纳套 24之间的缝隙, 避免烟油泄露, 提高用户体 验效果。
[0061] 优选的, 由于雾化盖 31套设在雾化座 30外, 并抵持在电热丝组件 35上, 为了避 免雾化盖 31过度挤压电热丝组件 35, 可以在雾化座 30的外侧壁上凸设与雾化盖 3 1的端面相抵持的限位凸部 302。
[0062] 结合图 6所示, 雾化盖 31套设在雾化座 30靠近吸嘴组件 1的一端外, 并抵接至雾 化座 30上的限位凸部 302上。 雾化盖 31背离吸嘴组件 1的一端设有两个相对间隔 设置的卡槽 311, 两个卡槽 311分别卡设在电热丝组件 35的两端。
[0063] 优选的, 雾化盖 31上设有通孔 (图上未标号) , 导油管 32的一端固定在该通孔 的周向侧缘, 并用以导通导油管 32与雾化座 30的容纳空间。
[0064] 结合图 6所示, 导油管 32大致为圆筒状结构, 导油管 32的一端固定在雾化盖 31 上, 另一端朝靠近吸嘴组件 1的一侧延伸, 并与密封环 23内的穿孔 230可活动的 插接相连。 导油管 32面向吸嘴组件的一端为密闭端, 导油管 32内设有与雾化座 3 0内的容纳空间相连通的内腔 320, 导油管 32的外侧壁上设置有与该内腔 320相连 通的进油孔 321, 储油腔 210内的烟油通过该进油孔 321进入导油管 32内。
[0065] 本实施例中, 雾化盖 31与导油管 32为一体成型结构, 可以理解的是, 在其实施 例中, 雾化盖 31与导油管 32还可以采用其他方式固定连接, 如粘接、 或焊接等
[0066] 如图 3所示, 烟油缓存板 33由吸油材料制成, 烟油缓存板 33盖设在导油管 32的 一端并位于雾化盖 31与雾化座 30之间。 从进油孔 321进入的烟油存储在该烟油缓 存板 33上, 电热丝组件 35的烟油吸附件 351的两端分别抵接至该烟油缓存板 33上 , 使得存储在烟油缓存板 33内的烟油渗入至该烟油吸附件 351。 本实施例中, 烟 油缓存板 33为无纺布, 可以理解的是, 烟油缓存板 33还可以为海绵或纤维等, 其材料不作具体限定。
[0067] 结合图 8所示, 电热丝组件 35包括烟油吸附件 351和电热丝 352, 烟油吸附件 351 由吸油材料制成的导油绳, 其固定在安装槽 301的底部, 烟油吸附件 351主要用 于吸附流入烟油缓存板 33上的烟油。 电热丝 352缠绕在该烟油吸附件 351上, 并 与电池组件 100电连接, 电热丝 351主要用于雾化烟油吸附件 351上的烟油。 [0068] 如图 3所示, 电极组件 34固定在雾化座 30靠近电池组件的一端, 电极组件 34包 括内电极 341和绝缘件 342, 且内电极 341和绝缘件 342由内到外依次嵌设在雾化 座 30上。
[0069] 本实施例中, 连接套 25、 容纳套 24、 隔油板 22、 弹性件 26和雾化盖 31分别为金 属导电件, 电热丝 352的一端依次通过上述雾化盖 31、 弹性件 26、 隔油板 22、 连 接套 25和容纳套 24, 实现与电池组件 100的电连接, 电热丝 352的另一端通过内 电极 341实现与电池组件 100的电连接。
[0070] 本实施例中, 雾化芯 3主要包括雾化座 30、 雾化盖 31、 导油管 32、 烟油缓存板 3 3、 电极组件 34和电热丝组件 35。 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, 只要其能雾化烟油并可活动的连接在储油组件 2 内即可。
[0071] 结合图 1、 图 2和图 3所示的实施例对吸嘴组件 1的具体结构进行详细说明。
[0072] 如图 3所示, 吸嘴组件 1包括相互可拆卸连接的吸嘴 11和连接座 12, 连接座 12的 一端可拆卸的连接在雾化套 20上, 吸嘴 11可拆卸的连接在连接座 12的另一端。
[0073] 其中, 连接座 12包括连接座主体 121和嵌入部 122, 连接座主体 121通过螺纹连 接结构可拆卸的连接在雾化套 30的一端, 嵌入部 122与储油套 21插接相连, 嵌入 部 122朝向储油腔 210的一端为密闭端, 以用来密封该储油腔 210, 避免烟油泄露 至吸嘴 11内。
[0074] 优选的, 为了避免烟油从嵌入部 122与储油套 21的连接处泄露, 嵌入部 122的外 侧壁上固定有弹性密封圈 123, 该弹性密封圈 123弹性抵接至储油套 21的内侧壁
[0075] 优选的, 在需要将连接座 12取出或装载吋, 为了方便用户旋转连接座 12, 可以 在连接座主体 121的外侧壁上设置防滑的滚花结构 (图上未标号) 。
[0076] 如图 3所示, 吸嘴 11通过螺纹结构可拆卸的连接在雾化座 12的一端, 吸嘴 11内 形成有与烟雾通道 201相连通的烟油冷凝腔 110, 吸烟吋烟雾通道 201上凝结的烟 液顺着气流流入并存储在该烟油冷凝腔 110内, 由于吸嘴 11与雾化座 12可拆卸的 连接, 用户可以定吋将吸嘴 11拆卸下来以清理烟油冷凝腔 110内存留的烟液, 防 止用户抽烟吋吸到烟液。 [0077] 优选的, 烟油冷凝腔 110的腔壁处设有出气孔 111, 以方便用户吸食, 雾化芯组 件 3雾化产生的烟雾顺着烟雾通道 201流动至出气孔 111吋, 冷凝的烟油存储在该 烟油冷凝腔 110内。
[0078] 优选的, 出气孔 111的周缘朝靠近雾化芯组件 3的一侧凸设有用于阻隔烟油的环 形凸台 112, 以避免用户吸食到烟油。
[0079] 图 10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 同之处在于吸嘴组件 1和储油组件 2的结构不同。
[0080] 如图 10所示, 储油组件 2的雾化套 20、 容纳套 24与连接套 25为一体成型的结构
。 雾化套 20的内侧壁设有内螺纹结构, 电池组件 100直接通过该内螺纹结构与雾 化套 20可拆卸的连接。
[0081] 进一步的, 储油套 21为一端幵口的结构, 即储油套 21朝向吸嘴 11的一端为密闭 端, 储油套 21背离吸嘴 11的一端为幵口端, 隔油板 22嵌设在该幵口端内。
[0082] 如图 10所示, 吸嘴组件 1包括吸嘴 11, 该吸嘴 11与储油组件 2为一体成型的结构 , 且吸嘴 11的内壁设有出气孔 111, 出气孔 111的周向侧缘凸设有用于阻隔烟油 的环形凸台 112。
[0083] 图 11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 同之处在于雾化芯组件 3的导油管 32的结构不同。
[0084] 如图 11所示, 导油管 32的内腔 320中插设有导油柱 322, 该导油柱 322主要用于 导油, 及阻碍储油腔 210内的烟油过度输送至烟油缓存板 33内。
[0085] 图 12示出了本发明较佳实施例之四提供的一种雾化组件, 其与实施例之一的不 同之处在于雾化芯组件 3的结构不同。
[0086] 如图 12所示, 雾化芯组件 3不包括烟油缓存板 33, 且电热丝组件 35的一端固定 在雾化座 30内, 电热丝组件 35的另一端插设至导油管 32的内腔 320内。
[0087] 具体的, 电热丝组件 35包括烟油吸附件 351和电热丝 352, 该烟油吸附件 351为 由吸油材料制成的吸油柱。 该吸油柱的一端固定在雾化座 30内, 另一端弹性插 设至导油管 32的内腔 320内, 从储油腔 210内的烟油通过进油孔 321直接渗入至该 吸油柱内。 电热丝 352缠绕呈柱状并套设在吸油柱外, 吸油柱的外周面与电热丝
352相贴合。 [0088] 本实施例中, 电热丝 352与烟油吸附件 351的外侧壁相贴合, 使得电热丝 352的 长度能够大幅度增加, 从而增大电热丝 352与烟油吸附件 351的接触面积, 以形 成更多烟雾, 且电热丝 352不容易受到挤压, 电子烟的烟雾量较稳定。
[0089] 此外, 烟油吸附件 351的外侧壁与导油管 32的内腔 320弹性抵接, 以阻止烟油泄 露, 使得烟油密封性好。
[0090] 本申请还提供一种电子烟, 如图 9所示, 该电子烟包括相互连接的电池组件 100 和雾化组件。 电子烟的进气孔 (图上未标号) 幵设在电池组件 100远离吸嘴 11的 一端的外侧壁上, 结合图 3所示, 内电极 341上幵设有沿雾化组件的轴向贯穿的 过气孔 342, 该过气孔 342与雾化座 30的内部空间相连通。 图 9示出了本发明电子 烟内部气流的流动方向。 由于电池组件 100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。
[0091] 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:
[0092] ( 1) 本申请雾化芯组件可活动的插设在储油组件内, 当雾化组件处于非工作 状态吋, 导油管上的弹性件推动雾化芯组件朝远离储油腔的一侧运动, 使得导 油管上的进油孔被堵塞, 储油腔内的烟油无法进入雾化芯组件内部, 避免雾化 组件处于非工作状态吋, 烟油渗入至雾化芯组件。 储油腔背离容纳腔的一端设 有加油口, 吸嘴组件可拆卸的插设在该加油口处, 且吸嘴组件与该加油口弹性 密封相连。 当需要添加烟油吋, 用户将吸嘴组件拆下, 并通过该加油口向储油 腔内添加烟油。
[0093] (2) 雾化套和储油套均由可透光的材料制得, 以方便用户査看储油腔内烟油 的余量。
[0094] (3) 密封环的穿孔的孔壁处设置有由非金属材料制成的弹性层, 以使导油管 与穿孔的孔壁弹性密封相连。
[0095] (4) 通过在雾化座外套设密封件, 不仅可以避免雾化座随意转动, 还可以密 封雾化座与容纳套之间的缝隙, 避免烟油泄露, 提高用户体验效果。
[0096] (5) 吸嘴与雾化座可拆卸的连接, 用户可以定吋将吸嘴拆卸下来以清理烟油 冷凝腔内存留的烟液, 防止用户抽烟吋吸到烟液。
[0097] 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 (100) 组合形成电子烟, 其特征 在于: 所述雾化组件包括用于存储烟油的储油组件 (2) 及用于雾 化所述储油组件 (2) 内的烟油的雾化芯组件 (3) , 所述储油组 件 (2) 内分别设置有储油腔 (210) 及容纳腔 (240) , 所述储油 腔 (210) 面向所述容纳腔 (240) 的一端的端壁处设有用于导通 所述储油腔 (210) 和所述容纳腔 (240) 的穿孔 (230) , 所述雾 化芯组件 (3) 的至少一端插设在所述容纳腔 (240) 内并与所述 储油组件 (2) 可活动的插接相连;
所述雾化芯组件 (3) 设置有插设在所述穿孔 (230) 内的导油管
(32) , 所述导油管 (32) 面向所述储油腔 (210) 的一端为封闭 端, 所述导油管 (32) 的侧壁上设有与所述导油管 (32) 的内腔
(320) 相连通的进油孔 (321) ; 在非工作状态吋, 所述穿孔 (2 30) 的孔壁盖设在所述进油孔 (321) 上以阻挡所述储油腔 (210 ) 内的烟油进入所述导油管 (32) , 当需要雾化烟油吋, 推动所 述雾化芯组件 (3) 朝所述储油腔 (210) 的方向运动, 使所述进 油孔 (321) 与所述储油腔 (210) 相连通, 以使所述储油腔 (210 ) 内的烟油能够流入所述雾化芯组件 (3) 内。
[权利要求 2] 根据权利要求 1所述的雾化组件, 其特征在于, 所述容纳腔 (240
) 内设有用于阻止所述雾化芯组件 (3) 从所述容纳腔 (240) 中 脱落的限位机构, 及抵持在所述雾化芯组件 (3) 上并向所述雾化 芯组件 (3) 提供朝向所述限位机构方向的弹力的弹性件 (26) , 以使当所述电池组件 (100) 与所述雾化组件相连吋所述电池组件
( 100) 抵持在所述雾化芯组件 (3) 上, 并使所述雾化芯组件 (3 ) 向所述储油腔 (210) 方向运动以打幵所述进油孔 (321) ; 当 所述电池组件 (100) 解除与所述雾化组件的连接吋, 所述弹性件
(26) 推抵所述雾化芯组件 (3) , 使所述雾化芯组件 (3) 朝远 离所述储油腔 (210) 的方向运动, 而使所述穿孔 (230) 的孔壁 再盖设在所述进油孔 (321) 上。
[权利要求 3] 根据权利要求 1或 2所述的雾化组件, 其特征在于, 所述穿孔 (230
) 的孔壁处设有由非金属材料制成的弹性层, 以使所述导油管 (3 2) 与所述穿孔 (230) 的孔壁弹性密封相连。
[权利要求 4] 根据权利要求 1或 2所述的雾化组件, 其特征在于, 所述雾化芯组 件 (3) 内设置有由吸油材料制成的烟油缓存板 (33) , 所述烟油 缓存板 (33) 盖设于所述导油管 (32) 的一端上。
[权利要求 5] 根据权利要求 1或 2所述的雾化组件, 其特征在于, 所述导油管 (3
2) 的内腔 (320) 中插设有用于导油及阻碍烟油过度输送的导油 柱 (322) 。
[权利要求 6] 根据权利要求 2所述的雾化组件, 其特征在于, 所述储油组件 (2
) 包括雾化套 (20) 、 储油套 (21) 、 隔油板 (22) 、 密封环 (2
3) 、 容纳套 (24) 及连接套 (25) , 所述储油套 (21) 套设在所 述雾化套 (20) 内, 所述储油套 (21) 内设置有所述储油腔 (210 ) , 所述储油套 (21) 背离所述雾化芯组件 (3) 的一端设有用于 向所述储油腔 (210) 添加烟油的加油口, 所述隔油板 (22) 盖设 在所述储油套 (21) 的另一端, 所述密封环 (23) 套设在所述隔 油板 (22) 内, 所述密封环 (23) 的中空区域形成所述穿孔 (230 ) ; 所述容纳套 (24) 的一端与所述雾化套 (20) 插接相连, 所 述容纳套 (24) 的另一端与所述连接套 (25) 插接相连, 所述容 纳套 (24) 的内部空间形成所述容纳腔 (240) , 所述连接套 (25 ) 内形成有用于阻碍所述雾化芯组件 (3) 从所述容纳腔 (240) 中脱落的限位台阶 (251) , 所述连接套 (25) 远离所述容纳套 ( 24) 的一端用于与所述电池组件 (100) 相连。
[权利要求 7] 根据权利要求 6所述的雾化组件, 其特征在于, 所述雾化套 (20) 与所述储油套 (21) 均为透明材料制件, 所述雾化套 (20) 与所 述储油套 (21) 之间形成有环形的烟雾通道 (201) , 所述雾化芯 组件 (3) 雾化的烟雾通过所述烟雾通道 (201) 排出。
[权利要求 8] 根据权利要求 7所述的雾化组件, 其特征在于, 所述弹性件 (26) 的一端抵持在所述隔油板 (22) 上, 所述弹性件 (26) 的另一端 与所述雾化芯组件 (3) 相抵持。
[权利要求 9] 根据权利要求 8所述的雾化组件, 其特征在于, 所述弹性件 (26) 为弹簧, 所述弹簧套设在所述导油管 (32) 上。
[权利要求 10] 根据权利要求 1或 2所述的雾化组件, 其特征在于, 所述雾化芯组 件 (3) 包括中空的雾化座 (30) 、 雾化盖 (31) 、 所述导油管 ( 32) 、 烟油缓存板 (33) 、 电极组件 (34) 及电热丝组件 (35) ; 所述雾化盖 (31) 套设在所述雾化座 (30) 的一端, 所述导油 管 (32) 与所述雾化盖 (31) 相连并与所述雾化座 (30) 的内腔 相连通, 所述烟油缓存板 (33) 由吸油材料制成, 所述烟油缓存 板 (33) 容置于所述雾化盖 (31) 内并盖设在所述导油管 (32) 的一端; 所述电极组件 (100) 插设在所述雾化座 (30) 远离所述 导油管 (32) 的一端并用于与所述电池组件 (100) 电连接, 所述 电热丝组件 (35) 包括与所述烟油缓存板 (33) 抵接的烟油吸附 件 (351) 及用于雾化所述烟油吸附件 (351) 上的烟油的电热丝
(352) , 所述电热丝 (352) 与所述电极组件 (100) 电连接。
[权利要求 11] 根据权利要求 10所述的雾化组件, 其特征在于, 所述烟油吸附件
(351) 为架设在所述雾化座 (30) 上的导油绳, 所述电热丝 (35
2) 缠绕在所述导油绳上。
[权利要求 12] 根据权利要求 10所述的雾化组件, 其特征在于, 所述烟油吸附件
(351) 为套设在所述雾化座 (30) 内的吸油柱, 所述电热丝 (35 2) 缠绕呈柱状并套设在所述吸油柱外, 所述吸油柱的外周面与所 述电热丝 (352) 相贴合。
[权利要求 13] 一种电子烟, 包括相互连接的电池组件 (100) 和雾化组件, 其特 征在于: 所述雾化组件包括用于存储烟油的储油组件 (2) 及用于 雾化所述储油组件 (2) 内的烟油的雾化芯组件 (3) , 所述储油 组件 (2) 内分别设置有储油腔 (210) 及容纳腔 (240) , 所述储 油腔 (210) 面向所述容纳腔 (240) 的一端的端壁处设有用于导 通所述储油腔 (210) 和所述容纳腔 (240) 的穿孔 (230) , 所述 雾化芯组件 (3) 的至少一端插设在所述容纳腔 (240) 内并与所 述储油组件 (2) 可活动的插接相连;
所述雾化芯组件 (3) 设置有插设在所述穿孔 (230) 内的导油管 (32) , 所述导油管 (32) 面向所述储油腔 (210) 的一端为封闭 端, 所述导油管 (32) 的侧壁上设有与所述导油管 (32) 的内腔
(320) 相连通的进油孔 (321) ; 在非工作状态吋, 所述穿孔 (2 30) 的孔壁盖设在所述进油孔 (321) 上以阻挡所述储油腔 (210 ) 内的烟油进入所述导油管 (32) , 当需要雾化烟油吋, 推动所 述雾化芯组件 (3) 朝所述储油腔 (210) 的方向运动, 使所述进 油孔 (321) 与所述储油腔 (210) 相连通, 以使所述储油腔 (210 ) 内的烟油能够流入所述雾化芯组件 (3) 内。
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