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WO2016145656A1 - 一种雾化组件以及电子烟 - Google Patents

一种雾化组件以及电子烟 Download PDF

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Publication number
WO2016145656A1
WO2016145656A1 PCT/CN2015/074583 CN2015074583W WO2016145656A1 WO 2016145656 A1 WO2016145656 A1 WO 2016145656A1 CN 2015074583 W CN2015074583 W CN 2015074583W WO 2016145656 A1 WO2016145656 A1 WO 2016145656A1
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WO
WIPO (PCT)
Prior art keywords
atomizing
hole
electrode
oil
wire
Prior art date
Application number
PCT/CN2015/074583
Other languages
English (en)
French (fr)
Inventor
刘秋明
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/CN2015/074583 priority Critical patent/WO2016145656A1/zh
Priority to CN201590001298.6U priority patent/CN207653569U/zh
Publication of WO2016145656A1 publication Critical patent/WO2016145656A1/zh

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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
    • A24F40/46Shape or structure of electric heating means
    • 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

Definitions

  • the utility model relates to the field of electronic cigarettes, in particular to an atomization component and an electronic cigarette.
  • FIG. 1 is a partial cross-sectional structural view of the atomizing component in the prior art.
  • the atomizing component includes a fog capable.
  • the smoky oil is used to generate a smog of the electric heating wire 101.
  • the heating wire 101 is electrically connected to the first electronic wire 102 and the second electronic wire 103 at both ends.
  • the atomizing component further includes an outer electrode 104 and insulation which are nested with each other. Ring 105 and inner electrode 106;
  • the first electronic wire 102 is clamped by the inner electrode 106 and the insulating ring 105, and the second electronic wire 103 is clamped by the outer electrode 104 and the insulating ring 105, so that one end of the heating wire 101 passes through the first
  • the electron beam 102 is electrically connected to the inner electrode 106, and the other end of the heating wire 101 is electrically connected to the outer electrode 104 through the second electron line 103;
  • the defect of the prior art is that when the assembly is completed, the excess electronic wire head needs to be cut, but because the outer electrode 104 is small, the process of cutting is difficult, takes a long time, affects the production efficiency of the electronic cigarette, and As shown in FIG. 1, the distance between the outer electrode 104 and the inner electrode 106 is relatively close, the first electron line 102 is extremely easy to contact with the outer electrode 104, and the second electron line 103 is also extremely easy to contact with the inner electrode 106, thereby causing a short circuit. Affects the life of the atomizing component.
  • the utility model provides an atomization assembly and an electronic cigarette.
  • An atomizing assembly for forming an electronic cigarette in combination with a battery assembly, comprising: an atomizing sleeve and an electric heating wire disposed inside the atomizing sleeve for atomizing the smoke oil to generate smoke;
  • An atomizing electrode is interposed in the end of the sleeve, the atomizing electrode includes a hollow outer electrode, an inner electrode and an insulating ring, and the inner electrode is inserted in a central through hole of the outer electrode, and the insulating ring is inserted Provided between the outer electrode and the inner electrode such that the inner electrode, the insulating ring and the outer electrode are sequentially nested from the inside to the outside;
  • the two ends of the heating wire are electrically connected to the first electron line and the second electron line respectively, and the outer electrode is penetrated a first through hole is formed, and the first through hole is spaced apart from the center through hole of the outer electrode, so that the first electronic line is in a first preset state, and the first preset state is the first
  • An electronic wire is sequentially inserted between the insulating ring and the outer electrode and then bent into the first through hole such that an end of the first electron wire is received in the first through hole or through the a first perforation such that one end of the heating wire is electrically connected to the outer electrode through the first electron wire;
  • a second through hole is formed through the inner electrode, and the second through hole is spaced apart from the center through hole of the inner electrode, so that the second electronic wire is in a second preset state, the second preset a state in which the second electron beam sequentially passes between the insulating ring and the inner electrode, and the second through hole is bent and inserted into a central through hole of the inner electrode, so that the second electronic wire
  • the end portion is received in or through the center through hole of the inner electrode such that the other end of the heating wire is electrically connected to the inner electrode through the second electron line.
  • the inner electrode is provided with a groove facing away from the end surface of the heating wire, and the extending direction of the groove is perpendicular to the axial direction of the central through hole of the inner electrode, so as to pass through the second
  • the second electronic wire of the perforation can be received in the recess such that the second electronic wire is in the second predetermined state.
  • the axial direction of the first through hole is parallel to the axial direction of the central through hole of the outer electrode
  • the axial direction of the second through hole is disposed in parallel with the axial direction of the center through hole of the inner electrode.
  • the first through hole is a through hole formed in the outer electrode, and the first through hole has a circular, rectangular, trapezoidal, elliptical or irregular shape along a radial cross section of the first through hole;
  • the second through hole is a through hole formed in the inner electrode, and the second through hole has a circular, rectangular, trapezoidal, elliptical or irregular shape along a radial cross section of the second through hole;
  • the second through hole is a slit formed in the inner electrode, and the guiding of the cutting groove is parallel to an axial direction of the central through hole of the inner electrode, so that the second electron wire can be cut along the Leading the slot through the slot to cause the second electronic line to assume the second preset state;
  • the slit has a U shape along a radial cross section of the slit.
  • the atomizing sleeve is made of a transparent material, and the atomizing sleeve is detachably connected with the nozzle at an end of the atomizing electrode;
  • the atomizing sleeve is internally provided with a vent tube, and the vent tube is electrically connected to the nozzle, and an oil storage chamber for storing the oil is formed between the atomizing sleeve and the vent tube;
  • An atomizing core is inserted into the end of the atomizing sleeve near the atomizing electrode, and the atomizing core comprises an atomizing cover connected to the external electrode, and the atomizing cover is formed with fog. a chamber, the atomization chamber is electrically connected to the vent tube;
  • An oil passage hole is disposed through a sidewall of the atomization cover, and the oil passage hole is electrically connected to the atomization chamber and the oil reservoir, the atomization core further includes an oil guiding member and the a heating wire, an end of the oil guiding member is inserted into the oil storage chamber along a guide of the oil passage hole, and the oil guiding member is interference-fitted with the oil hole, and the heating wire is wound around The oil guiding member is arranged such that the heating wire has a spiral structure.
  • the atomization sleeve is provided with a concave annular groove away from the end of the nozzle, the atomization core further includes a connection sleeve, and the connection sleeve is disposed on the annular groove to The annular groove and the connecting sleeve are interference-fitted, the atomizing electrode is inserted into the end of the connecting sleeve away from the annular groove, and the outer electrode is connected to the connecting sleeve And interference fit.
  • an inner circumferential surface of the connecting sleeve is provided with an internal thread
  • an outer circumferential surface of the outer electrode and a position corresponding to the internal thread are provided with external threads to enable the external thread of the outer electrode to be threaded Connected to the internal thread of the connecting sleeve.
  • a first sealing member is formed in a circular shape, and the first sealing member is configured to prevent smoke oil in the oil storage chamber from flowing to the suction nozzle;
  • a second sealing member is formed between the atomizing cover and the vent pipe, and the second sealing member is configured to prevent the oil in the oil storage chamber from flowing into the atomization chamber ;
  • a third sealing member is formed between the outer electrode and the atomizing sleeve, and the third sealing member is for preventing the oil in the oil reservoir from flowing into the outer electrode.
  • the suction nozzle is provided with an oil storage chamber communicating with the vent pipe, and a cavity wall of the oil storage chamber is provided with an air outlet for discharging the smoke, so that the smoke of the electric heating wire is atomized.
  • the vent pipe flows to the vent, the condensed soot can be stored in the oil reservoir.
  • the oil reservoir cavity wall is located at a periphery of the air outlet toward a side of the vent pipe An annular boss for blocking the smoke oil is protruded;
  • An oil absorbing member made of an oil absorbing material is disposed in the oil storage chamber.
  • the atomizing cover is made of an elastic material or made of a ceramic tube.
  • the nozzle and the atomization sleeve are snap-fitted or screwed.
  • An electronic cigarette comprising an interconnected battery assembly and an atomizing assembly, wherein the atomizing assembly is the atomizing assembly of any of the above.
  • the utility model provides an atomization assembly and an electronic cigarette
  • the atomization assembly comprises an atomization sleeve and an electric heating wire
  • an end of the atomization sleeve is inserted with an atomization electrode
  • the atomization electrode comprises an inner
  • the inner electrode, the insulating ring and the outer electrode are nested in sequence; the first wire and the second wire are electrically connected to the two ends of the heating wire, and the first hole is opened through the outer electrode, so that the first An electronic wire is in a first preset state; or/and a second through hole is formed through the inner electrode such that the second electronic wire is in a second preset state.
  • the use of the atomizing assembly of the present invention is advantageous in that the end of the first electron wire is bent into the first perforation or through the first perforation, and/or the second electron The end of the wire is bent and inserted into or through the central through hole of the inner electrode, so that the end of the electronic wire can be directly inserted into a specific position without being cut, thereby effectively reducing the operation.
  • the case law appears normal use.
  • FIG. 1 is a partial cross-sectional structural view of an atomizing assembly in the prior art
  • FIG. 2 is a schematic cross-sectional structural view of a preferred embodiment of the atomizing assembly provided by the present invention
  • FIG. 3 is a schematic view showing a structure of an explosion connection of a preferred embodiment of the atomization assembly provided by the present invention
  • FIG. 4 is a schematic view showing the overall structure of a preferred embodiment of the external electrode provided by the present invention.
  • FIG. 5 is a schematic overall structural view of a preferred embodiment of an internal electrode according to the present invention.
  • FIG. 6 is a schematic view showing the overall structure of another preferred embodiment of the internal electrode provided by the present invention.
  • Figure 7 is a cross-sectional structural view showing another preferred embodiment of the atomizing assembly of the present invention.
  • FIG. 8 is a schematic view showing the overall structure of another preferred embodiment of the internal electrode provided by the present invention.
  • FIG. 9 is a cross-sectional structural view showing another preferred embodiment of the atomizing assembly provided by the present invention.
  • Embodiment 1 The present embodiment provides an atomization assembly capable of effectively preventing short circuit and improving assembly efficiency of an atomizing assembly
  • the atomization assembly of the embodiment is used to form an electronic cigarette in combination with a battery assembly, and the atomization assembly is used to atomize the smoke oil to form smoke for the user to smoke;
  • FIG. 2 is a cross-sectional structural view of a preferred embodiment of the atomization assembly provided by the present invention.
  • 3 is a schematic view showing a structure of an explosion connection of a preferred embodiment of the atomization assembly provided by the present invention;
  • the atomization assembly includes:
  • the heating wire 202 is fixed inside the atomizing sleeve 201, and the embodiment is not limited to how the heating wire 202 is fixed inside the atomizing sleeve 201;
  • the axial direction of the heating wire 202 is perpendicular to the axial direction of the atomizing sleeve 201 as an example, and is not limited as long as the heating wire 202 can atomize the smoke oil to form smoke.
  • the axial direction of the heating wire 202 may also be parallel to the axial direction of the atomizing sleeve 201, and for example, the axial direction of the heating wire 202 may also be 0 before the axial direction of the atomizing sleeve 201. Any angle between 90 degrees and 90 degrees;
  • the atomizing electrode 300 is inserted into the end of the atomizing sleeve 201;
  • the atomizing electrode 300 is electrically connected to the heating wire 202 such that the heating wire 202 and the battery assembly form a power-on loop through the atomizing electrode 300;
  • the atomizing electrode 300 includes:
  • the hollow outer electrode 301, the inner electrode 302, and the insulating ring 303 that is, the outer electrode 301, the inner electrode 302, and the insulating ring 303 are each provided with a center through hole.
  • the inner electrode 302 is inserted in a central through hole of the outer electrode 301, and the insulating ring 303 is interposed between the outer electrode 301 and the inner electrode 302 so that the inner portion
  • the electrode 302, the insulating ring 303 and the outer electrode 301 are sequentially nested from the inside to the outside.
  • the first heating wire 202 is electrically connected to the first electronic wire 203 and the second electronic wire 204;
  • a first through hole 304 is defined through the outer electrode 301, and the first through hole 304 is spaced apart from the center through hole of the outer electrode 301 to make the first electronic line 203 is in a first preset state, wherein the first preset state is that the first electronic wire 203 sequentially passes between the insulating ring 303 and the outer electrode 301, and then is bent and inserted into the first through hole.
  • the end of the first electronic wire 203 is received in the first through hole 304, so that one end of the heating wire 202 is electrically connected to the outer electrode 301 through the first electronic wire 203; It is understood that in other embodiments, the end of the first electronic wire 203 may also be disposed to pass through the first through hole 304.
  • a second through hole 305 is defined through the inner electrode 302, and the second through hole 305 is spaced apart from the center through hole of the inner electrode 302 to make the second electronic wire
  • the second preset state is that the second electronic line 204 sequentially passes between the insulating ring 303 and the inner electrode 302, and the second through hole 305 is bent backward. Folding into the central through hole of the inner electrode 302 such that an end of the second electron wire 204 is received in a central through hole of the inner electrode 302 such that the other end of the heating wire 202 passes through the
  • the second electron line 204 is electrically connected to the inner electrode 302. It can be understood that in other embodiments, the end of the second electron line 204 can also be disposed through the central through hole of the inner electrode 302.
  • the first through hole 304 is disposed on the outer electrode 301, and the specific structure of the first through hole 304 and the first electronic wire 203 are specifically different from those provided with the first through hole 304.
  • the electrode 301 is electrically connected, as described above, and will not be described here;
  • the second through hole 305 is not disposed on the inner electrode 302, so that the second electronic wire 204 is inserted between the insulating ring 303 and the inner electrode 302 to pass the The insulating ring 303 and the inner electrode 302 clamp the second electron line 204;
  • the second electrode 305 is disposed on the inner electrode 302, and the specific structure of the second through hole 305 and the second electronic wire 204 are specifically disposed inside the second through hole 305.
  • the electrode 302 is electrically connected, as described above, and will not be described here;
  • the first through hole 304 is not disposed on the outer electrode 301, so that the first electronic wire 203 is inserted between the insulating ring 303 and the outer electrode 301 to pass the The insulating ring 303 and the outer electrode 301 clamp the first electron line 203;
  • the specific structure of the atomizing assembly shown in this embodiment is advantageous in that the end of the first electronic wire 203 is inserted into the first through hole 304, and/or the second electric
  • the end of the sub-wire 204 is inserted into the central through hole of the inner electrode 302, so that the end of the electronic wire can be directly inserted into a specific position without being cut, thereby effectively reducing the operation steps and avoiding cutting the electron.
  • the possibility of damage to the remaining components of the atomizing component due to improper operation, and the assembly time can be effectively reduced, thereby improving the assembly efficiency;
  • the first electronic wire 203 since the end of the first electronic wire 203 is inserted into the first through hole 304, the first electronic wire 203 and the inner portion are effectively avoided.
  • the electrode 302 is in contact with, and/or, because the end of the second electron beam 204 is inserted into the central through hole of the inner electrode 302, the end of the second electronic wire 204 is effectively avoided.
  • the outer electrode 301 is in contact, thereby effectively avoiding the occurrence of a short circuit inside the atomizing assembly, and avoiding the occurrence of the fact that the atomizing assembly cannot be normally used due to the internal short circuit of the atomizing assembly.
  • Embodiment 2 This embodiment further details the specific structure of the outer electrode 301 and the inner electrode 302:
  • the inner electrode 302 faces away from the electric heat as shown in FIGS. 6 and 7.
  • the end surface of the wire 202 is provided with a groove 601.
  • FIG. 6 is an overall structural diagram of the inner electrode 302 with the groove 601
  • FIG. 7 is an atomizing assembly provided with the inner electrode 302 shown in FIG. Schematic diagram of the cross-section;
  • the extending direction of the groove 601 is perpendicular to the axial direction of the central through hole of the inner electrode 302 so as to pass through the second of the second through hole 305.
  • the electronic wire 204 can be received in the recess 601, so that the second electronic wire 204 is in the second preset state, and the second preset state is shown in the first embodiment, specifically in the implementation. None will be repeated in the example.
  • An advantage of this arrangement is that when the battery assembly is assembled on the atomizing assembly, the end of the battery assembly contacts the end of the inner electrode because the inner electrode faces away from the
  • the end surface of the heating wire 202 is provided with a recess 601, so that the second electronic wire 204 is received in the recess 601, and the end of the battery component cannot contact the second electronic wire 204, so that Without the blocking action of the second electronic wire 204, the battery assembly can be smoothly assembled to the atomizing assembly, and the battery assembly is not in contact with the second electronic wire 204, thereby effectively avoiding
  • the battery assembly may pinch off the second electronic wire 204 and the battery component may come into contact with the second electronic wire 204 during the assembly of the electronic cigarette and subsequent use of the atomizing assembly. Wear and tear.
  • first through hole 304 and the second through hole 305 The specific structure of the first through hole 304 and the second through hole 305 will be described in detail below:
  • the axial direction of the first through hole 304 is parallel to the axial direction of the central through hole of the outer electrode 301;
  • the axial direction of the second through hole 305 is parallel to the axial direction of the central through hole of the inner electrode 302. .
  • the arrangement of the first electronic wire 203 can be facilitated by inserting the end of the first electronic wire 203 into the first through hole 304, and the second electronic wire 204 can be inserted through the second through hole 305 to be inserted therein.
  • the center of the electrode 302 is in the through hole;
  • the first through hole 304 is a through hole formed in the outer electrode 301;
  • the first through hole 304 has a circular, rectangular, trapezoidal, elliptical or irregular shape along a radial cross section of the first through hole 304;
  • the specific shape of the cross section of the first through hole 304 along the radial direction of the first through hole 304 is not limited in this embodiment, as long as the first electronic wire 203 can be smoothly inserted into the first through hole 304. .
  • the second through hole 305 is a through hole formed in the inner electrode 302, and the second through hole 305 is circular in a radial cross section along the second through hole 305. , rectangular, trapezoidal, elliptical or irregular shape;
  • the specific shape of the cross section of the second through hole 305 along the radial direction of the second through hole 305 is not limited in this embodiment, as long as the second electronic wire 204 can be smoothly inserted into the second through hole 305. .
  • the second through hole 305 is a slit 305 formed in the inner electrode 302
  • FIG. 8 is an overall structure of the inner electrode 302 in which the slit 305 is opened.
  • FIG. 9 is a schematic cross-sectional structural view of an atomizing assembly provided with the internal electrode 302 shown in FIG. 8;
  • the guiding of the slot 305 is parallel to the axial direction of the central through hole of the inner electrode 302, so that the second electronic wire 204 can pass through the slot 305 along the guiding of the slot 305. ,so that The second electronic line 204 is in the second preset state, and the second preset state is shown in the first embodiment, which is not described in detail in this embodiment.
  • the slit 305 has a U shape along a radial cross section of the slit.
  • the specific shape of the transverse groove of the slot 305 along the radial direction of the slot is not limited as long as the second electronic wire 204 can along the slot.
  • the orientation of the 305 is in the second preset state.
  • the second preset state is shown in the first embodiment, and is not described in this embodiment.
  • the second through hole 305 is a slit 305 formed in the inner electrode 302
  • the speed of the second electronic wire 204 passing through the second through hole 305 is effectively raised, thereby further improving the assembly fog.
  • Embodiment 3 in this embodiment, how the heating wire 202 is specifically disposed inside the atomizing sleeve 201 is described. It should be clarified that how the heating wire 202 is specifically disposed in the mist in this embodiment.
  • the inside of the casing 201 is described by way of example and not limitation, as long as the heating wire 202 can atomize the smoke oil to form smoke.
  • the atomizing sleeve 201 is made of a transparent material, and the end of the atomizing sleeve 201 away from the atomizing electrode 300 is detachably connected with a nozzle 801;
  • the nozzle 801 and the atomizing sleeve 201 are engaged or screwed, wherein if the nozzle 801 and the atomizing sleeve 201 are snap-fitted, the nozzle 801 can be
  • the inner peripheral surface is provided with a convex bone
  • an inner circumferential surface of the atomization sleeve 201 is provided with a slide rail and a positioning groove communicating with the slide rail to enable the convex bone to slide along the guide rail of the slide rail
  • the suction nozzle 801 and the atomizing sleeve 201 are engaged with each other when the convex bone is slid to the positioning groove.
  • the outer circumferential surface of the suction nozzle 801 is provided with an external thread, and the atomization
  • the inner peripheral surface of the sleeve is provided with internal threads for screwing the suction nozzle 801 to the atomizing sleeve 201, and also, for example, as shown in FIGS. 2 and 3, the suction nozzle 801 and the atomization
  • the sleeve 201 is inserted and removed, that is, the end of the atomization sleeve 201 is formed as an inner groove 802, and the nozzle 801 can be inserted into the inner groove 802 to realize the A detachable connection between the nozzle 801 and the atomizing sleeve 201.
  • the suction nozzle 801 and the groove wall of the inner groove 802 may be non-removable tensioning and fixing connection, etc., and the connection manner thereof is not specifically limited herein.
  • the atomizing sleeve 201 is internally provided with a vent tube 803, and the vent tube 803 is electrically connected to the nozzle 801, and the atomizing sleeve 201 and the vent tube 803 are formed for An oil storage chamber 804 storing the smoke oil;
  • the atomizing sleeve 201 is made of a transparent material, so that the user can view the amount of the remaining oil in the oil storage chamber 804 through the transparent atomizing sleeve 201 at any time, thereby avoiding the user in the oil storage chamber 804.
  • the atomizing assembly is still used, so that the heating wire 202 is burnt due to insufficient absorption of sufficient oil to damage the atomizing assembly and to allow the user to pump harmful gases. Appearance.
  • the liquid smoke oil is stored directly in the oil storage chamber 804 to increase the amount of smoke stored in the oil storage chamber 804.
  • the atomizing sleeve 201 is inserted near the end of the atomizing electrode 300 with an atomizing core 704;
  • the atomizing core 704 includes an atomizing cover 805 connected to the outer electrode 301, and an atomizing cavity 806 is formed in the atomizing cover 805, and the atomizing cavity 806 is electrically connected to the ventilation pipe 803. Setting
  • the atomizing cover 805 is made of an elastic material or made of a ceramic tube.
  • An oil passage 807 is disposed through a sidewall of the atomization cover 805, and the oil passage 807 is electrically connected to the atomization chamber 806 and the oil reservoir 804;
  • the atomizing core 704 further includes an oil guiding member 808 and the heating wire 202;
  • An end of the oil guiding member 808 made of an oil guiding material is inserted into the oil reservoir 804 along a guide of the oil passage hole 807, and the oil guiding member 808 is interspersed with the oil passing hole 807.
  • the oil guiding member 808 is firmly inserted into the oil passage hole 807.
  • the heating wire 202 is wound around the oil guiding member 808, so that the heating wire 202 has a spiral structure.
  • the axial direction of the heating wire 202 having a spiral structure and the atomization are performed.
  • the axial direction of the sleeve 201 is described as an example. It should be understood that the angle between the axial direction of the heating wire 202 and the axial direction of the atomizing sleeve 201 is not limited in this embodiment;
  • the end of the atomizing sleeve 201 away from the nozzle 801 is provided with a concave annular groove 809, and the atomizing core 704 further includes a connecting sleeve 810, and the connecting sleeve 810 is sleeved in the The annular groove 809 is disposed such that the annular groove 809 and the connecting sleeve 810 are interference fit;
  • the advantage of providing the connecting sleeve 810 is that the heat generated by the heating wire 202 in the end portion of the nozzle 801 from the end of the nozzle 801 is prevented from being generated by the atomizing jacket 201.
  • the end portion of the atomizing sleeve 201 can be effectively prevented from being radially expanded by the connecting sleeve 810, and the radial direction of the atomizing sleeve 201 is avoided.
  • the expansion causes the occurrence of looseness between the various devices, effectively improving the service life of the atomizing assembly.
  • the atomizing electrode 300 is interposed in the end of the connecting sleeve 810 away from the annular groove 809, and the outer electrode 301 is connected to the connecting sleeve 810 in a plugged manner.
  • the inner circumferential surface of the connecting sleeve 810 is provided with an internal thread 811, and an outer circumferential surface of the outer electrode 301 and a position corresponding to the internal thread 811 are provided with external threads 812 to make the outer electrode 301
  • the external thread 812 can be threaded onto the internal thread 811 of the coupling sleeve 810.
  • a first sealing member 813 having a circular shape is disposed between the suction nozzle 801 and the vent tube 803, and the first sealing member 813 is configured to prevent the oil in the oil reservoir 804 from flowing to the Nozzle 801;
  • An annular seal 814 is disposed between the atomization cover 805 and the vent tube 803, and the second seal 814 is configured to prevent the smoke oil in the oil reservoir 804 from flowing to the chamber In the atomization chamber 806;
  • a third sealing member 815 having a circular shape is disposed between the outer electrode 301 and the atomizing sleeve 201, and the third sealing member 815 is configured to prevent the oil in the oil reservoir 804 from flowing to the outside. Inside the electrode 301.
  • nozzle 801 The specific structure of the nozzle 801 provided in the present embodiment which can effectively prevent the user from pumping the condensed smoke oil is described in detail below with reference to FIG. 7 :
  • the oil suction chamber 705 is connected to the suction pipe 803;
  • the chamber wall of the oil storage chamber 705 is provided with an air outlet 706 for exhausting smoke, so that when the mist atomized by the heating wire 202 flows through the air tube 803 to the air outlet 706, the condensed smoke oil can
  • the deposit is stored in the oil reservoir 705 to prevent the user from pumping to the condensed smoke oil to affect the health of the user.
  • the wall of the oil reservoir 705 is located at a periphery of the air outlet 706, and a ring boss 707 for blocking the smoke oil is protruded toward a side of the air pipe 803;
  • the annular boss 707 can further prevent the possibility of smoke oil leaking from the inside of the oil reservoir 705 into the air outlet 706 to be sucked by the user.
  • the oil storage chamber 705 can be provided with an oil sucking member made of an oil absorbing material, thereby making The smoke oil condensed in the oil reservoir 705 can be completely adsorbed on the oil sucker, further avoiding the possibility of the user sucking the condensed smoke oil.
  • the present invention also provides an electronic cigarette, which is formed by combining an atomizing component and a battery component, and the specific structure of the atomizing component can be seen in the first embodiment and the second embodiment, specifically
  • the specific structure of the battery assembly is not limited in the present invention as long as the battery assembly can supply power to the atomization assembly, so that the atomization assembly atomizes the smoke oil to form smoke. can.

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Abstract

一种雾化组件以及电子烟,所述雾化组件包括雾化套(201)以及电热丝(202);所述雾化套(201)的端部插设雾化电极(300),所述雾化电极(300)包括内电极(302),绝缘环(303)和外电极(301);所述电热丝(202)两端分别电连接有第一电子线(203)和第二电子线(204),贯穿所述外电极(301)开设有第一穿孔(304),以使所述第一电子线(203)呈第一预设状态;或/和,贯穿所述内电极(302)开设有第二穿孔(305),以使所述第二电子线(204)呈第二预设状态。可有效减少操作的步骤,避免操作不当而对雾化组件其余器件造成损坏的可能;还可有效避免雾化组件内部出现短路的情况。

Description

一种雾化组件以及电子烟 技术领域
本实用新型涉及电子烟领域,尤其涉及的是一种雾化组件以及电子烟。
背景技术
现有技术中的雾化组件的具体结构可参见图1所示,其中,图1为现有技术中的雾化组件的局部剖面结构示意图,由图1所示可知,雾化组件包括能够雾化烟油以生成烟雾的电热丝101,所述电热丝101两端电连接有第一电子线102和第二电子线103,所述雾化组件还包括相互嵌套设置的外电极104、绝缘环105以及内电极106;
具体在装配过程中,第一电子线102通过内电极106和绝缘环105夹紧,第二电子线103通过外电极104和绝缘环105夹紧,则使得电热丝101的一端通过所述第一电子线102与所述内电极106电连接,电热丝101的另一端通过所述第二电子线103与所述外电极104电连接;
现有技术的缺陷在于,装配完成时,需要将多余的电子线头剪断,但是因外电极104较小,使得剪断的过程比较困难,耗时时间长,影响了电子烟的生产效率,而且如图1所示可知,外电极104和内电极106的距离较近,则第一电子线102极容易与外电极104接触,且第二电子线103也极容易与内电极106接触,从而造成短路,影响了雾化组件的寿命。
实用新型内容
本实用新型提供了一种雾化组件以及电子烟。
一种雾化组件,用于与电池组件组合形成电子烟,其中,包括:雾化套以及设置在所述雾化套内部的用于雾化烟油以生成烟雾的电热丝;所述雾化套的端部插设雾化电极,所述雾化电极包括中空的外电极、内电极以及绝缘环,且所述内电极插设在所述外电极的中心通孔内,所述绝缘环插设在所述外电极和所述内电极之间,以使所述内电极,所述绝缘环和所述外电极由内而外依次嵌套设置;
所述电热丝两端分别电连接有第一电子线和第二电子线,贯穿所述外电极 开设有第一穿孔,且所述第一穿孔与所述外电极的中心通孔隔离设置,以使所述第一电子线呈第一预设状态,所述第一预设状态为所述第一电子线依次穿过所述绝缘环和所述外电极之间后弯折插入所述第一穿孔,使得所述第一电子线的端部容纳在所述第一穿孔内或穿过所述第一穿孔,以使所述电热丝的一端通过所述第一电子线与所述外电极电连接;
或/和,
贯穿所述内电极开设有第二穿孔,且所述第二穿孔与所述内电极的中心通孔隔离设置,以使所述第二电子线呈第二预设状态,所述第二预设状态为所述第二电子线依次穿过所述绝缘环和所述内电极之间、所述第二穿孔后弯折插入所述内电极的中心通孔内,使得所述第二电子线的端部容纳在所述内电极的中心通孔内或穿过所述内电极的中心通孔,以使所述电热丝的另一端通过所述第二电子线与所述内电极电连接。
优选的,所述内电极背向所述电热丝的端面开设有凹槽,且所述凹槽的延伸方向与所述内电极的中心通孔的轴向垂直,以使穿出所述第二穿孔的所述第二电子线能够容纳在所述凹槽内,使得所述第二电子线呈所述第二预设状态。
优选的,
所述第一穿孔的轴向与所述外电极的中心通孔的轴向平行设置;
所述第二穿孔的轴向与所述内电极的中心通孔的轴向平行设置。
优选的,
所述第一穿孔为所述外电极上开设的通孔,且所述第一穿孔沿所述第一穿孔的径向的横截面呈圆形、矩形、梯形、椭圆形或不规则形状;
所述第二穿孔为所述内电极上开设的通孔,且所述第二穿孔沿所述第二穿孔的径向的横截面呈圆形、矩形、梯形、椭圆形或不规则形状;
或,
所述第二穿孔为所述内电极上开设的切槽,且所述切槽的导向与所述内电极的中心通孔的轴向平行,以使所述第二电子线能够沿所述切槽的导向穿过所述切槽,以使所述第二电子线呈所述第二预设状态;
所述切槽沿所述切槽的径向的横街面呈U形。
优选的,
所述雾化套由透明材质制成,且所述雾化套远离所述雾化电极的端部可拆卸连接有吸嘴;
所述雾化套内插设有通气管,且所述通气管与所述吸嘴导通设置,所述雾化套和所述通气管之间形成有用于存储烟油的储油腔;
所述雾化套靠近所述雾化电极的端部插设有雾化芯,且所述雾化芯包括与所述外电极插接相连的雾化盖,所述雾化盖内形成有雾化腔,所述雾化腔与所述通气管导通设置;
贯穿所述雾化盖的侧壁设置有过油孔,且所述过油孔与所述雾化腔以及所述储油腔导通设置,所述雾化芯还包括导油件和所述电热丝,所述导油件的端部沿所述过油孔的导向插入所述储油腔内,且所述导油件与所述过油孔过盈配合,所述电热丝缠绕设置在所述导油件上,以使所述电热丝呈螺旋形结构。
优选的,所述雾化套远离所述吸嘴的端部设置有内凹的环形凹槽,所述雾化芯还包括有连接套,所述连接套套设在所述环形凹槽上,以使所述环形凹槽和所述连接套过盈配合,所述连接套远离所述环形凹槽的端部内插设有所述雾化电极,且所述外电极与所述连接套插接相连并过盈配合。
优选的,所述连接套的内周面设置有内螺纹,所述外电极的外周面且与所述内螺纹对应的位置设置有外螺纹,以使所述外电极的所述外螺纹能够螺纹连接至所述连接套的所述内螺纹上。
优选的,
所述吸嘴和所述通气管之间设置有呈圆环形的第一密封件,所述第一密封件用于防止所述储油腔内的烟油流通至所述吸嘴;
所述雾化盖与所述通气管之间设置有呈圆环形的第二密封件,所述第二密封件用于防止所述储油腔内的烟油流通至所述雾化腔内;
所述外电极和雾化套之间设置有呈圆环形的第三密封件,所述第三密封件用于防止所述储油腔内的烟油流通至所述外电极内。
优选的,所述吸嘴内开设有与所述通气管相连通的蓄油腔,所述蓄油腔的腔壁设有供烟雾排出的出气孔,以使所述电热丝雾化的烟雾经所述通气管流通至所述出气孔时,冷凝的烟油能够储蓄在所述蓄油腔内。
优选的,所述蓄油腔腔壁位于所述出气孔的周缘处朝向所述通气管的一侧 凸设有用于阻隔烟油的环形凸台;
和/或,
所述蓄油腔内纳置有由吸油材料制成的吸油件。
优选的,所述雾化盖由弹性材质制成或由陶瓷管制成。
优选的,所述吸嘴和所述雾化套卡合连接或者螺纹连接。
一种电子烟,包括相互连接的电池组件和雾化组件,其中,所述雾化组件为上述任一项所述的雾化组件。
本实用新型提供了一种雾化组件以及电子烟,所述雾化组件包括雾化套以及电热丝;所述雾化套的端部插设雾化电极,所述雾化电极包括由内而外依次嵌套设置内电极,绝缘环和外电极;所述电热丝两端分别电连接有第一电子线和第二电子线,贯穿所述外电极开设有第一穿孔,以使所述第一电子线呈第一预设状态;或/和,贯穿所述内电极开设有第二穿孔,以使所述第二电子线呈第二预设状态。采用本实用新型所示的雾化组件的优势在于,因第一电子线的端部弯折后插入所述第一穿孔内或穿过所述第一穿孔,和/或,所述第二电子线的端部弯折后插入至所述内电极的中心通孔内或穿过所述中心穿孔,从而使得无需剪断电子线的端部,直接插入特定的位置即可,从而有效的减少了操作的步骤,避免在剪断电子线的过程中,因操作不当而对雾化组件其余器件造成损坏的可能,而且能够有效的减少装配时间,进而提升了装配的效率;因第一电子线的端部插入所述第一穿孔内,则有效的避免了所述第一电子线与所述内电极接触,和/或,因所述第二电子线的端部插入至所述内电极的中心通孔内,则有效的避免了所述第二电子线的端部与所述外电极接触,从而有效避免了雾化组件内部出现短路的情况的出现,避免因雾化组件内部短路而使得雾化组件无法正常使用的情况的出现。
附图说明
图1为现有技术中的雾化组件的局部剖面结构示意图;
图2为本实用新型所提供的雾化组件的一种较佳实施例剖面结构示意图;
图3为本实用新型所提供的雾化组件的一种较佳实施例爆炸连接结构示意图;
图4为本实用新型所提供的外电极的一种较佳实施例整体结构示意图;
图5为本实用新型所提供的内电极的一种较佳实施例整体结构示意图;
图6为本实用新型所提供的内电极的另一种较佳实施例整体结构示意图;
图7为本实用新型所提供的雾化组件的另一种较佳实施例剖面结构示意图;
图8为本实用新型所提供的内电极的另一种较佳实施例整体结构示意图;
图9为本实用新型所提供的雾化组件的另一种较佳实施例剖面结构示意图。
具体实施方式
实施例一,本实施例提供了一种能够有效的防止短路且能够提升雾化组件装配效率的雾化组件;
本实施例所述的雾化组件用于与电池组件组合形成电子烟,且所述雾化组件用于雾化烟油以形成烟雾,以供用户吸食;
首先结合图2和图3所示对本实施例所提供的雾化组件的具体结构进行详细说明,其中,图2为本实用新型所提供的雾化组件的一种较佳实施例剖面结构示意图,图3为本实用新型所提供的雾化组件的一种较佳实施例爆炸连接结构示意图;
由图2和图3所示可知,所述雾化组件包括:
雾化套201以及设置在所述雾化套201内部的用于雾化烟油以生成烟雾的电热丝202;
本实施例中,所述电热丝202固定在所述雾化套201内部,且本实施例对所述电热丝202具体是如何固定在所述雾化套201内部的不做限定;
由图2所示,所述电热丝202的轴向与所述雾化套201的轴向垂直为举例进行说明,不做限定,只要所述电热丝202能够雾化烟油以形成烟雾即可,例如,所述电热丝202的轴向还可与所述雾化套201的轴向平行,还例如所述电热丝202的轴向还可与所述雾化套201的轴向之前呈0度至90度之间的任意角度;
所述雾化套201的端部插设雾化电极300;
其中,所述雾化电极300与所述电热丝202电连接,以使通过所述雾化电极300使得所述电热丝202与所述电池组件形成通电回路;
更具体的,所述雾化电极300包括:
中空的外电极301、内电极302以及绝缘环303,即所述外电极301、所述内电极302以及所述绝缘环303均设置有中心通孔。
更具体的,所述内电极302插设在所述外电极301的中心通孔内,所述绝缘环303插设在所述外电极301和所述内电极302之间,以使所述内电极302,所述绝缘环303和所述外电极301由内而外依次嵌套设置。
以下对本实施例中的所述电热丝202是如何与所述雾化电极300电连接的进行详细说明:
所述电热丝202两端分别电连接有第一电子线203和第二电子线204;
本实施例的电连接方式有三种;
第一种:
结合图2和图4所示,贯穿所述外电极301开设有第一穿孔304,且所述第一穿孔304与所述外电极301的中心通孔隔离设置,以使所述第一电子线203呈第一预设状态,其中,所述第一预设状态为所述第一电子线203依次穿过所述绝缘环303和所述外电极301之间后弯折插入所述第一穿孔304,使得所述第一电子线203的端部容纳在所述第一穿孔304内,以使所述电热丝202的一端通过所述第一电子线203与所述外电极301电连接;可以理解的是,在其它实施例中,所述第一电子线203的端部也可以设置为穿过所述第一穿孔304。
即在具体装配过程中;
1、首先将所述第一电子线203电连接至所述电热丝202的一端;
2、将所述第一电子线203穿过所述绝缘环303和所述外电极301之间,较佳的,为提升装配而成的雾化组件结构的稳定性,可通过所述绝缘环303和所述外电极301夹紧所述第一电子线203;
3、将所述第一电子线203的端部弯折插入至所述第一穿孔304内。
结合图2和图5所示,贯穿所述内电极302开设有第二穿孔305,且所述第二穿孔305与所述内电极302的中心通孔隔离设置,以使所述第二电子线 204呈第二预设状态,其中,所述第二预设状态为所述第二电子线204依次穿过所述绝缘环303和所述内电极302之间、所述第二穿孔305后弯折插入所述内电极302的中心通孔内,使得所述第二电子线204的端部容纳在所述内电极302的中心通孔内,以使所述电热丝202的另一端通过所述第二电子线204与所述内电极302电连接。可以理解的是,在其它实施例中,所述第二电子线204的端部也可以设置为穿过所述内电极302的中心通孔。
即在具体装配过程中;
1、首先将所述第二电子线204电连接至所述电热丝202的另一端;
2、将所述第二电子线204穿过所述绝缘环303和所述内电极302之间,较佳的,为提升装配而成的雾化组件结构的稳定性,可通过所述绝缘环303和所述内电极302夹紧所述第二电子线204;
3、将穿过所述绝缘环303和所述内电极302之间的所述第二电子线204穿过所述第二穿孔305;
4、将穿过所述第二穿孔305的所述第二电子线204的端部弯折插入至所述内电极302的中心通孔内。
第二种,所述外电极301上设置有所述第一穿孔304,所述第一穿孔304的具体结构以及所述第一电子线203具体是如何与设置有所述第一穿孔304的外电极301实现电连接的,请见上述所述,此处不再赘述;
本种设置方式中,所述内电极302上不设置所述第二穿孔305,以使所述第二电子线204插入至所述绝缘环303和所述内电极302之间,以通过所述绝缘环303和所述内电极302夹紧所述第二电子线204;
第三种,所述内电极302上设置有所述第二穿孔305,所述第二穿孔305的具体结构以及所述第二电子线204具体是如何与设置有所述第二穿孔305的内电极302实现电连接的,请见上述所述,此处不再赘述;
本种设置方式中,所述外电极301上不设置所述第一穿孔304,以使所述第一电子线203插入至所述绝缘环303和所述外电极301之间,以通过所述绝缘环303和所述外电极301夹紧所述第一电子线203;
由上述设置方式可见,采用本实施例所示的雾化组件的具体结构的优势在于,因第一电子线203的端部插入所述第一穿孔304内,和/或,所述第二电 子线204的端部插入至所述内电极302的中心通孔内,从而使得无需剪断电子线的端部,直接插入特定的位置即可,从而有效的减少了操作的步骤,避免在剪断电子线的过程中,因操作不当而对雾化组件其余器件造成损坏的可能,而且能够有效的减少装配时间,进而提升了装配的效率;
更佳的是,采用本实施例所示的雾化组件,因第一电子线203的端部插入所述第一穿孔304内,则有效的避免了所述第一电子线203与所述内电极302接触,和/或,因所述第二电子线204的端部插入至所述内电极302的中心通孔内,则有效的避免了所述第二电子线204的端部与所述外电极301接触,从而有效避免了雾化组件内部出现短路的情况的出现,避免因雾化组件内部短路而使得雾化组件无法正常使用的情况的出现。
实施例二,本实施例对所述外电极301和所述内电极302的具体结构进行进一步的详细说明:
较佳的,为避免当电池组件组装至所述雾化组件上时,所述电池组件与所述电子线接触,则如图6和图7所示,所述内电极302背向所述电热丝202的端面开设有凹槽601,其中,图6为带有所述凹槽601的所述内电极302的整体结构示意图,图7为设置有图6所示的内电极302的雾化组件的剖面结构示意图;
为能够容纳所述第二电子线204,则所述凹槽601的延伸方向与所述内电极302的中心通孔的轴向垂直,以使穿出所述第二穿孔305的所述第二电子线204能够容纳在所述凹槽601内,使得所述第二电子线204呈所述第二预设状态,所述第二预设状态请详见实施例一所示,具体在本实施例中不做赘述。
采用本种设置方式的优势在于,将所述电池组件组装在所述雾化组件上时,所述电池组件的端部与所述内电极的端部接触,因所述内电极背向所述电热丝202的端面开设有凹槽601,则使得所述第二电子线204收容在所述凹槽601内,则所述电池组件的端部无法接触到所述第二电子线204,使得因无所述第二电子线204的阻挡作用,则使得所述电池组件能够顺利组装至所述雾化组件上,而且因所述电池组件与所述第二电子线204不接触,从而有效的避免了在装配电子烟的过程中以及后续使用雾化组件的过程中,所述电池组件会夹断所述第二电子线204以及所述电池组件因与所述第二电子线204接触而出现 磨损的情况。
以下对所述第一穿孔304和所述第二穿孔305的具体结构进行详细说明:
为更好的保障所述第一穿孔304与所述外电极301的中心通孔隔离设置,则所述第一穿孔304的轴向与所述外电极301的中心通孔的轴向平行设置;
以及为更好的保障所述第二穿孔305与所述内电极302的中心通孔隔离设置,则所述第二穿孔305的轴向与所述内电极302的中心通孔的轴向平行设置。
采用上述设置方式可便于将所述第一电子线203的端部插入所述第一穿孔304内,以及便于将所述第二电子线204穿过所述第二穿孔305以插入至所述内电极302的中心通孔内;
需明确的是,上述为举例进行说明,不做限定,只要所述第一穿孔304与所述外电极301的中心通孔隔离设置以及所述第二穿孔305与所述内电极302的中心通孔隔离设置即可。
较佳的,如图4所示,所述第一穿孔304为所述外电极301上开设的通孔;
具体的,所述第一穿孔304沿所述第一穿孔304的径向的横截面呈圆形、矩形、梯形、椭圆形或不规则形状;
本实施例对所述第一穿孔304沿所述第一穿孔304的径向的横截面的具体形状不做限定,只要所述第一电子线203能够顺利插入所述第一穿孔304内即可。
如图5或图6所示,所述第二穿孔305为所述内电极302上开设的通孔,且所述第二穿孔305沿所述第二穿孔305的径向的横截面呈圆形、矩形、梯形、椭圆形或不规则形状;
本实施例对所述第二穿孔305沿所述第二穿孔305的径向的横截面的具体形状不做限定,只要所述第二电子线204能够顺利插入所述第二穿孔305内即可。
较佳的如图8和图9所示,所述第二穿孔305为所述内电极302上开设的切槽305,图8为开设有所述切槽305的所述内电极302的整体结构示意图,图9为设置有图8所示的内电极302的雾化组件的剖面结构示意图;
具体的,所述切槽305的导向与所述内电极302的中心通孔的轴向平行,以使所述第二电子线204能够沿所述切槽305的导向穿过所述切槽305,以使 所述第二电子线204呈所述第二预设状态,所述第二预设状态请详见实施例一所示,具体在本实施例中不做赘述。
较佳的,所述切槽305沿所述切槽的径向的横街面呈U形。
需明确的是,本实施例对所述切槽305沿所述切槽的径向的横街面的具体形状为举例说明不做限定,只要所述第二电子线204能够沿所述切槽305的导向以呈所述第二预设状态即可,所述第二预设状态详见实施例一所示,在本实施例中不做赘述。
可见,若所述第二穿孔305为所述内电极302上开设的切槽305,则有效的提升所述第二电子线204穿过所述第二穿孔305的速度,则进一步提升了装配雾化组件的效率。
实施例三,本实施例对所述电热丝202具体是如何设置在所述雾化套201内部的进行说明,需明确的是,本实施例对所述电热丝202具体如何设置在所述雾化套201内部的举例进行说明,不做限定,只要所述电热丝202能够雾化烟油以形成烟雾即可。
以下结合图2和图3所示对所述雾化组件的具体结构进行详细说明:
所述雾化套201由透明材质制成,且所述雾化套201远离所述雾化电极300的端部可拆卸连接有吸嘴801;
具体的,所述吸嘴801和所述雾化套201卡合连接或者螺纹连接,其中,若所述吸嘴801和所述雾化套201卡合连接,则可在所述吸嘴801的内周面设置有凸骨,在所述雾化套201的内周面设置有滑轨以及与所述滑轨连通的定位槽,以使所述凸骨能够沿所述滑轨的导向进行滑动,直至所述凸骨滑动至所述定位槽时,所述吸嘴801和所述雾化套201卡合连接,还例如,所述吸嘴801的外周面设置有外螺纹,所述雾化套的内周面设置有内螺纹,以使所述吸嘴801螺纹连接至所述雾化套201上,还例如,如图2和图3所示,所述吸嘴801与所述雾化套201之间为插拔连接,即在所述雾化套201的端部形成为内凹槽802,则可将所述吸嘴801插设在所述内凹槽802上,以实现所述吸嘴801与所述雾化套201之间的可拆卸连接。当然,所述吸嘴801与所述内凹槽802的槽壁之间可以为不可拆卸的涨紧配合固定连接等,其连接方式在此不作具体限定。
具体的,所述雾化套201内插设有通气管803,且所述通气管803与所述吸嘴801导通设置,所述雾化套201和所述通气管803之间形成有用于存储烟油的储油腔804;
较佳的,因所述雾化套201由透明材质制成,则使得用户通过透明的雾化套201随时查看所述储油腔804内剩余的烟油量,避免了用户在储油腔804内烟油不足的情况下依旧使用雾化组件,而使得电热丝202因吸收不到足量的烟油而烧焦,以损坏雾化组件以及以使用户抽吸到有害的气体的可能的情况的出现。
较佳的,可直接在所述储油腔804内存储呈液态的烟油,以提升所述储油腔804所存储的烟油量。
所述雾化套201靠近所述雾化电极300的端部插设有雾化芯704;
所述雾化芯704包括与所述外电极301插接相连的雾化盖805,所述雾化盖805内形成有雾化腔806,所述雾化腔806与所述通气管803导通设置;
较佳的,所述雾化盖805由弹性材质制成或由陶瓷管制成。
贯穿所述雾化盖805的侧壁设置有过油孔807,且所述过油孔807与所述雾化腔806以及所述储油腔804导通设置;
具体的,所述雾化芯704还包括导油件808和所述电热丝202;
由导油材质制成的所述导油件808的端部沿所述过油孔807的导向插入所述储油腔804内,且所述导油件808与所述过油孔807过盈配合,以使所述导油件808稳固插设在所述过油孔807内。
所述电热丝202缠绕设置在所述导油件808上,以使所述电热丝202呈螺旋形结构,本实施例以呈螺旋形结构的所述电热丝202的轴向与所述雾化套201的轴向垂直为例进行说明,需明确是的,所述电热丝202的轴向与所述雾化套201轴向之间的角度在本实施例中不做限定;
进一步的,所述雾化套201远离所述吸嘴801的端部设置有内凹的环形凹槽809,所述雾化芯704还包括有连接套810,所述连接套810套设在所述环形凹槽809上,以使所述环形凹槽809和所述连接套810过盈配合;
设置有所述连接套810的优势在于,避免雾化套201远离所述吸嘴801的端部内的电热丝202在雾化烟油过程中所生成的热会造成所述雾化套201 的端部发生径向膨胀,则本实施例中,通过所述连接套810可有效的避免所述雾化套201的端部发生径向的膨胀,避免因所述雾化套201发生径向膨胀而使得各个器件之间发生松脱情况的出现,有效的提升了雾化组件的使用寿命。
所述连接套810远离所述环形凹槽809的端部内插设有所述雾化电极300,且所述外电极301与所述连接套810插接相连。
具体的,所述连接套810的内周面设置有内螺纹811,所述外电极301的外周面且与所述内螺纹811对应的位置设置有外螺纹812,以使所述外电极301的所述外螺纹812能够螺纹连接至所述连接套810的所述内螺纹811上。
以下对本实施例所示的所述雾化组件是如何提升密封效果的进行详细说明,请继续参见图2至图3所示;
所述吸嘴801和所述通气管803之间设置有呈圆环形的第一密封件813,所述第一密封件813用于防止所述储油腔804内的烟油流通至所述吸嘴801;
所述雾化盖805与所述通气管803之间设置有呈圆环形的第二密封件814,所述第二密封件814用于防止所述储油腔804内的烟油流通至所述雾化腔806内;
所述外电极301和雾化套201之间设置有呈圆环形的第三密封件815,所述第三密封件815用于防止所述储油腔804内的烟油流通至所述外电极301内。
以下结合图7所示对本实施例所提供的能够有效的防止用户抽吸到冷凝的烟油的吸嘴801的具体结构进行详细说明:
所述吸嘴801内开设有与所述通气管803相连通的蓄油腔705;
所述蓄油腔705的腔壁设有供烟雾排出的出气孔706,以使所述电热丝202雾化的烟雾经所述通气管803流通至所述出气孔706时,冷凝的烟油能够储蓄在所述蓄油腔705内,以避免用户抽吸到冷凝的烟油,以影响用户的身体健康。
较佳的,所述蓄油腔705腔壁位于所述出气孔706的周缘处朝向所述通气管803的一侧凸设有用于阻隔烟油的环形凸台707;
通过所述环形凸台707可进一步避免烟油从所述蓄油腔705内泄漏至所述出气孔706内以被用户抽吸的可能。
更佳的,所述蓄油腔705内可纳置有由吸油材料制成的吸油件,从而使得 冷凝在所述蓄油腔705内的烟油能够完全吸附在所述吸油件上,进一步避免了用户抽吸到冷凝的烟油的可能。
本实用新型还提供了一种电子烟,所述电子烟由雾化组件和电池组件组合以形成,且所述雾化组件的具体结构可参见实施例一和实施例二所示,具体在此处不再赘述,所述电池组件的具体结构在本实用新型中不做限定,只要所述电池组件能够为所述雾化组件供电,以使所述雾化组件雾化烟油以形成烟雾即可。
以上实施例仅用以说明本发明的技术方案,而非对其限制;尽管参照前述实施例对本发明进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换;而这些修改或者替换,并不使相应技术方案的本质脱离本发明各实施例技术方案的精神和范围。

Claims (13)

  1. 一种雾化组件,用于与电池组件组合形成电子烟,其特征在于,包括:雾化套以及设置在所述雾化套内部的用于雾化烟油以生成烟雾的电热丝;所述雾化套的端部插设雾化电极,所述雾化电极包括中空的外电极、内电极以及绝缘环,且所述内电极插设在所述外电极的中心通孔内,所述绝缘环插设在所述外电极和所述内电极之间,以使所述内电极,所述绝缘环和所述外电极由内而外依次嵌套设置;
    所述电热丝两端分别电连接有第一电子线和第二电子线,贯穿所述外电极开设有第一穿孔,且所述第一穿孔与所述外电极的中心通孔隔离设置,以使所述第一电子线呈第一预设状态,所述第一预设状态为所述第一电子线依次穿过所述绝缘环和所述外电极之间后弯折插入所述第一穿孔,使得所述第一电子线的端部容纳在所述第一穿孔内或穿过所述第一穿孔,以使所述电热丝的一端通过所述第一电子线与所述外电极电连接;
    或/和,
    贯穿所述内电极开设有第二穿孔,且所述第二穿孔与所述内电极的中心通孔隔离设置,以使所述第二电子线呈第二预设状态,所述第二预设状态为所述第二电子线依次穿过所述绝缘环和所述内电极之间、所述第二穿孔后弯折插入所述内电极的中心通孔内,使得所述第二电子线的端部容纳在所述内电极的中心通孔内或穿过所述内电极的中心通孔,以使所述电热丝的另一端通过所述第二电子线与所述内电极电连接。
  2. 根据权利要求1所述的雾化组件,其特征在于,所述内电极背向所述电热丝的端面开设有凹槽,且所述凹槽的延伸方向与所述内电极的中心通孔的轴向垂直,以使穿出所述第二穿孔的所述第二电子线能够容纳在所述凹槽内,使得所述第二电子线呈所述第二预设状态。
  3. 根据权利要求1所述的雾化组件,其特征在于,
    所述第一穿孔的轴向与所述外电极的中心通孔的轴向平行设置;
    所述第二穿孔的轴向与所述内电极的中心通孔的轴向平行设置。
  4. 根据权利要求1所述的雾化组件,其特征在于,
    所述第一穿孔为所述外电极上开设的通孔,且所述第一穿孔沿所述第一穿 孔的径向的横截面呈圆形、矩形、梯形、椭圆形或不规则形状;
    所述第二穿孔为所述内电极上开设的通孔,且所述第二穿孔沿所述第二穿孔的径向的横截面呈圆形、矩形、梯形、椭圆形或不规则形状;
    或,
    所述第二穿孔为所述内电极上开设的切槽,且所述切槽的导向与所述内电极的中心通孔的轴向平行,以使所述第二电子线能够沿所述切槽的导向穿过所述切槽,以使所述第二电子线呈所述第二预设状态;
    所述切槽沿所述切槽的径向的横街面呈U形。
  5. 根据权利要求1所述的雾化组件,其特征在于,
    所述雾化套由透明材质制成,且所述雾化套远离所述雾化电极的端部可拆卸连接有吸嘴;
    所述雾化套内插设有通气管,且所述通气管与所述吸嘴导通设置,所述雾化套和所述通气管之间形成有用于存储烟油的储油腔;
    所述雾化套靠近所述雾化电极的端部插设有雾化芯,且所述雾化芯包括与所述外电极插接相连的雾化盖,所述雾化盖内形成有雾化腔,所述雾化腔与所述通气管导通设置;
    贯穿所述雾化盖的侧壁设置有过油孔,且所述过油孔与所述雾化腔以及所述储油腔导通设置,所述雾化芯还包括导油件和所述电热丝,所述导油件的端部沿所述过油孔的导向插入所述储油腔内,且所述导油件与所述过油孔过盈配合,所述电热丝缠绕设置在所述导油件上,以使所述电热丝呈螺旋形结构。
  6. 根据权利要求5所述的雾化组件,其特征在于,所述雾化套远离所述吸嘴的端部设置有内凹的环形凹槽,所述雾化芯还包括有连接套,所述连接套套设在所述环形凹槽上,以使所述环形凹槽和所述连接套过盈配合,所述连接套远离所述环形凹槽的端部内插设有所述雾化电极,且所述外电极与所述连接套插接相连。
  7. 根据权利要求6所述的雾化组件,其特征在于,所述连接套的内周面设置有内螺纹,所述外电极的外周面且与所述内螺纹对应的位置设置有外螺纹,以使所述外电极的所述外螺纹能够螺纹连接至所述连接套的所述内螺纹上。
  8. 根据权利要求5所述的雾化组件,其特征在于,
    所述吸嘴和所述通气管之间设置有呈圆环形的第一密封件,所述第一密封件用于防止所述储油腔内的烟油流通至所述吸嘴;
    所述雾化盖与所述通气管之间设置有呈圆环形的第二密封件,所述第二密封件用于防止所述储油腔内的烟油流通至所述雾化腔内;
    所述外电极和雾化套之间设置有呈圆环形的第三密封件,所述第三密封件用于防止所述储油腔内的烟油流通至所述外电极内。
  9. 根据权利要求5所述的雾化组件,其特征在于,所述吸嘴内开设有与所述通气管相连通的蓄油腔,所述蓄油腔的腔壁设有供烟雾排出的出气孔,以使所述电热丝雾化的烟雾经所述通气管流通至所述出气孔时,冷凝的烟油能够储蓄在所述蓄油腔内。
  10. 根据权利要求9所述的雾化组件,其特征在于,所述蓄油腔腔壁位于所述出气孔的周缘处朝向所述通气管的一侧凸设有用于阻隔烟油的环形凸台;
    和/或,
    所述蓄油腔内纳置有由吸油材料制成的吸油件。
  11. 根据权利要求5所述的雾化组件,其特征在于,所述雾化盖由弹性材质制成或由陶瓷管制成。
  12. 根据权利要求5所述的雾化组件,其特征在于,所述吸嘴和所述雾化套卡合连接或者螺纹连接。
  13. 一种电子烟,包括相互连接的电池组件和雾化组件,其特征在于,所述雾化组件为权利要求1所述的雾化组件。
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