WO2016145613A1 - 一种雾化组件及电子烟 - Google Patents
一种雾化组件及电子烟 Download PDFInfo
- Publication number
- WO2016145613A1 WO2016145613A1 PCT/CN2015/074377 CN2015074377W WO2016145613A1 WO 2016145613 A1 WO2016145613 A1 WO 2016145613A1 CN 2015074377 W CN2015074377 W CN 2015074377W WO 2016145613 A1 WO2016145613 A1 WO 2016145613A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- oil
- assembly
- atomizing
- oil storage
- smoke
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
- A24F40/48—Fluid transfer means, e.g. pumps
- A24F40/485—Valves; Apertures
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F15/00—Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor
- A24F15/01—Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor specially adapted for simulated smoking devices or cigarettes therefor
- A24F15/015—Receptacles or boxes specially adapted for cigars, cigarettes, simulated smoking devices or cigarettes therefor specially adapted for simulated smoking devices or cigarettes therefor with means for refilling of liquid inhalable precursors
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/10—Devices using liquid inhalable precursors
Definitions
- the present invention relates to the field of electronic cigarettes, and more particularly to an atomizing assembly and an electronic cigarette.
- the electronic cigarette includes an atomizing component and a battery component, and the atomizing component adsorbs the smoke oil on the cotton storage oil to achieve the effect of solid oil and oil lock, and the electric heating wire assembly passes through the atomized oil storage cotton.
- the smoke oil on the smoke produces smoke, so when the smoke oil in the oil storage cotton is used up, the user cannot add the smoke oil, resulting in waste of resources.
- the cotton wool in the oil storage cotton will be decomposed into the smoke oil, which will cause the smoke oil to deteriorate, and ultimately affect the user's smoking taste.
- the prior art cannot isolate the smoke oil from contact with the moisture in the air, causing the smoke oil to absorb the moisture in the air, causing the smoke oil to deteriorate, affecting the user's experience, and the oil storage cotton is always
- the electric heating wire assembly supplies oil, which easily causes the electric heating wire component to leak oil due to supersaturation of the smoke oil.
- the existing electronic cigarette cannot control the flow rate of the smoke oil flowing into the heating wire assembly, which may cause the burning of cotton or the supersaturation of the smoke oil from the lower end of the atomizing assembly.
- 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 a nozzle assembly, an oil storage assembly for storing soot oil, and an active connection with the oil storage assembly and for An atomizing core assembly for atomizing the oil in the oil storage assembly, an end surface of one end of the oil storage assembly is formed with a fuel filler port, and the nozzle assembly is detachably connected at the fuel filler port, the oil storage An oil storage chamber is formed in the assembly, and an oil blocking plate is disposed at one end of the oil storage chamber facing the atomizing core assembly, and the oil guiding plate is provided with an oil guiding hole
- one end of the atomizing core assembly is inserted into the oil storage assembly and elastically abuts the oil separating plate, The other end of the atomizing core assembly extends outside the oil storage assembly, and one end of the atomizing core assembly inserted into the oil storage assembly is elastically sealed with the oil storage assembly, and the inner wall of the oil storage assembly a first holding portion is disposed on the outer wall of the atomizing core assembly and a second holding portion that is mutually engaged with the first holding portion to block the atomizing core assembly from the oil storage assembly Disassemble
- an end face of the atomization core assembly facing the oil barrier plate is provided with an oil inlet hole for introducing the smoke oil in the oil storage chamber into the atomization core assembly for atomization, and And a marble mechanism for controlling the introduction of the oil in the oil storage chamber into the atomization core assembly, the oil inlet hole corresponding to the position of the oil guiding hole, the atomizing core assembly and the storage
- the oil assembly is rotatably connected to control whether the marble mechanism is inserted into the oil guiding hole by controlling relative rotation between the oil storage assembly and the atomizing core assembly, thereby controlling the plugging of the oil guiding hole And controlling the oil inlet hole to be turned on or off.
- the oil storage assembly is provided with a first limiting portion
- the atomizing core assembly is provided with the first limiting portion for matching a second limiting portion for limiting the amplitude of rotation of the atomizing core assembly, wherein the first limiting portion limits the atomizing core after the atomizing core assembly is rotated by a predetermined amplitude relative to the oil storage assembly The assembly rotates to cause the oil inlet to be turned on or off.
- the first limiting portion is a first limiting post disposed on an end surface of the oil storage assembly and extending along a longitudinal direction of the oil storage assembly,
- the second limiting portion is an arcuate slot facing the first limiting post, and the first limiting post is movably inserted in the slot.
- the oil storage assembly includes a transparent oil storage sleeve and a fastening sleeve sleeved at one end of the oil storage sleeve, and the oil storage sleeve and the fastening sleeve Enclosing the first holding portion, the first holding portion is a card slot, and the second holding portion is protruded from an outer sidewall of the atomizing core assembly and is opposite to the card slot Corresponding blocking ring, the blocking ring is inserted in the card slot.
- an atomizing cover is disposed at one end of the atomizing core assembly facing the oil separating plate, and the atomizing cover includes an atomizing cover body and is fixed to the atomizing a vent pipe extending into the main body and extending into the oil storage assembly, the atomizing cover body is provided with a mounting hole for fixing the marble mechanism, and the mounting hole and the oil inlet hole surround the through hole The air tube is evenly distributed on the atomizing cover body.
- the marble mechanism includes a fixing member connected to the mounting hole, and a fixing groove is disposed at one end of the fixing member facing the oil separating plate, and the mounting An elastic member having one end connected to the bottom wall of the mounting groove is disposed in the slot, and the other end of the elastic member is connected with a positioning bead, the positioning bead Resilience abuts to the grease trap.
- the atomization core assembly includes a hollow atomization seat, the atomization cover, a smoke oil adsorption plate, an atomization electrode assembly, and an electrical connection to the atomization electrode.
- the atomizing cover body is sleeved outside the one end of the atomizing seat inserted into the oil storage assembly, and the vent pipe is rotatably inserted into the oil storage assembly,
- An atomizing electrode assembly is fixed at an end of the atomizing seat away from the nozzle assembly and electrically connected to the battery assembly, and the smoke oil adsorption plate is made of an oil absorbing material and is disposed on the atomizing seat And at one end, the oil adsorption plate elastically abuts against the atomizing cover, so that the oil in the oil storage chamber flows into the oil adsorption plate when the oil inlet hole is turned on, the electric heat A wire assembly is placed in the atomization seat and used to atomize the smoke oil in the soot adsorption plate.
- the oil inlet hole and the mounting hole respectively comprise two, between the two oil inlet holes and between the two mounting holes.
- the lines are perpendicular to each other.
- the oil inlet hole and the mounting hole respectively comprise two, between the two oil inlet holes and between the two mounting holes.
- the lines are parallel to each other.
- the outer side wall of the atomizing seat is sleeved with a first sealing member, and the first sealing member is elastically abutted to the inner wall of the oil storage assembly, so as to The atomizing core assembly is elastically sealed to the oil storage assembly.
- the nozzle assembly includes an oil retaining member and a suction nozzle, and one end of the oil retaining member is detachably coupled to the fuel filler opening and elastic with the fuel filler opening The seal is connected, and the nozzle is detachably connected to the other end of the oil retaining member.
- a smoke passage for discharging the mist atomized by the atomizing core assembly into the nozzle assembly is formed in the oil storage assembly, and the nozzle is inside the nozzle
- a smoke oil condensation chamber communicating with the smoke passage, wherein the chamber wall of the smoke oil condensation chamber is provided with an air outlet hole, so that the atomized mist of the atomization core assembly flows through the smoke passage to the chamber
- the pores are described, and the condensed smoke oil can be stored in the smoke oil condensation chamber.
- annular boss for blocking the smoke oil in the smoke oil condensation chamber is protruded from a periphery of the air outlet toward a side close to the atomizing core assembly.
- the present invention also provides an electronic cigarette comprising an interconnected battery assembly and an atomizing assembly, the atomizing assembly including a nozzle assembly, an oil storage assembly for storing soot oil, and an activity with the oil storage assembly Connected and used An atomizing core assembly for atomizing the oil in the oil storage assembly, an end surface of one end of the oil storage assembly is formed with a fuel filler port, and the nozzle assembly is detachably connected at the fuel filler port, the oil storage An oil storage chamber is formed in the assembly, the oil storage chamber is disposed at one end of the atomization core assembly with a grease barrier, and the oil barrier plate is provided with an oil guiding hole;
- one end of the atomizing core assembly is inserted into the oil storage assembly and elastically resists the oil separating plate, and the other end of the atomizing core assembly extends out of the oil storage assembly,
- One end of the atomizing core assembly inserted into the oil storage assembly is elastically sealed with the oil storage assembly, and the inner wall of the oil storage assembly is provided with a first holding portion, and the outer wall of the atomizing core assembly a second holding portion that is mutually engaged with the first holding portion to prevent the atomizing core assembly from being detached from the oil storage assembly;
- an end face of the atomization core assembly facing the oil barrier plate is provided with an oil inlet hole for introducing the smoke oil in the oil storage chamber into the atomization core assembly for atomization, and And a marble mechanism for controlling the introduction of the oil in the oil storage chamber into the atomization core assembly, the oil inlet hole corresponding to the position of the oil guiding hole, the atomizing core assembly and the storage
- the oil assembly is rotatably connected to control whether the marble mechanism is inserted into the oil guiding hole by controlling relative rotation between the oil storage assembly and the atomizing core assembly, thereby controlling the plugging of the oil guiding hole And controlling the oil inlet hole to be turned on or off.
- the implementation of the atomizing assembly and the electronic cigarette of the present invention has the following beneficial effects:
- the present application causes the oil storage assembly to rotate relative to the atomizing core assembly, and whether the marble mechanism is inserted or not
- the oil guiding hole further controls the plugging of the oil guiding hole and controls the oil inlet hole to be turned on or off, thereby avoiding leakage of the oil and better preservation of the oil, and preventing the oil from absorbing the moisture in the air.
- the problem that causes deterioration, or when adding smoke oil avoids the defect that the smoke oil flows out from the lower end of the atomizing core assembly at atmospheric pressure.
- the oil storage component is provided with a first limiting portion
- the atomizing seat is provided with a second limiting portion adapted to limit the rotation amplitude of the atomizing core assembly, which is adapted to the first limiting portion, so that After the atomizing core assembly is rotated relative to the oil storage assembly by a predetermined amplitude, the first limiting portion can restrict the rotation of the atomizing core assembly to turn the oil inlet hole into or off.
- 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 angle of the atomizing assembly shown in FIG. 1;
- FIG. 3 is a schematic structural view of a second angle of the atomizing assembly of FIG. 1; [0027] FIG.
- Figure 4 is an enlarged view of a portion A of the atomizing assembly shown in Figure 2;
- FIG. 5 is a schematic structural view of a fastening sleeve of the atomizing assembly shown in FIG. 2;
- FIG. 6 is a schematic structural view of an atomizing seat of the atomizing assembly shown in FIG. 2;
- FIG. 7 is a schematic structural view of an atomizing cover of the atomizing assembly shown in FIG. 2;
- FIG. 8 is a schematic structural view of an atomizing cover of an atomizing assembly according to a second embodiment of the present invention.
- FIG. 9 is a perspective view of an oil storage assembly and a nozzle assembly of an atomizing assembly according to a second preferred embodiment of the present invention.
- FIG. 10 is a schematic structural view of an oil storage sleeve and a grease trap 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 second embodiment of the present invention.
- the atomizing assembly includes a nozzle assembly 1, an oil storage assembly 2 for storing soot oil, and an active connection with the oil storage assembly 2 and for atomizing the oil storage assembly.
- the atomizing core assembly of the smoke oil in 2 is 3.
- the end surface of the oil storage assembly 2 is formed with a fuel filler port, and the nozzle assembly 1 is detachably connected to the fuel filler port, and an oil storage chamber 24 is formed in the oil storage assembly 2 for storing oil.
- the oil chamber 25 is disposed at one end of the cavity 24 facing the atomizing core assembly 3, and the oil guiding plate 25 is provided with an oil guiding hole 251.
- one end of the atomizing core assembly 3 is inserted into the oil storage assembly 2 and elastically resists the oil separating plate 25, and the other end of the atomizing core assembly 3 extends out of the oil storage assembly 2, and the atomizing core assembly 3 is inserted into the oil storage assembly 2 at one end and is elastically sealed with the oil storage assembly 2, and the inner wall of the oil storage assembly 2 is provided with a first holding portion 27, the outer wall of the atomizing core assembly 3 and the first holding portion 27 a second holding portion 36 that is held by each other to prevent the atomizing core assembly 3 from being detached from the oil storage assembly 2.
- the end surface of the atomizing core assembly 3 facing the oil-repellent plate 25 is provided with an oil inlet hole 323 for introducing the smoke oil in the oil storage chamber 24 into the atomizing core assembly 3 for atomization (as shown in FIG. 8).
- a marble mechanism 4 for preventing the smoke oil in the oil storage chamber 24 from being introduced into the atomization core assembly 3, the oil inlet hole 323 corresponding to the position of the oil guiding hole 251, the atomizing core
- the assembly 3 is rotatably coupled to the oil storage assembly 2 to control whether the marble mechanism 4 is inserted into the oil guiding hole 2 by controlling the relative rotation of the oil storage assembly 2 and the atomizing core assembly 3 51. Further controlling the through plugging of the oil guiding hole 251 and controlling the oil inlet hole 323 to be turned on or off.
- the atomizing core assembly 3 of the embodiment is rotatably connected to the oil storage assembly 2, and the connection between the oil storage assembly 2 and the atomizing core assembly 3 is provided for introducing the smoke oil in the oil storage chamber 24 into the atomization.
- the marble mechanism 4 is fixed to an end surface of the atomizing core assembly 3 facing the oil separating plate 25, and elastically resists the oil separating plate 25, and the marble mechanism 4 rotates relative to the atomizing core assembly 3 at the oil storage assembly 2.
- the plugging of the oil guiding hole 251 is controlled by its own elastic expansion and contraction.
- the oil storage assembly 2 or the atomizing core assembly 3 is rotated, so that the marble mechanism 4 blocks the oil guiding hole 251 to prevent the oil from flowing into the atomizing core assembly 3, Avoid the problem that the smoke oil absorbs the moisture in the air and cause deterioration, or when adding the smoke oil, avoid the defect that the smoke oil flows out from the lower end of the atomization core assembly at atmospheric pressure.
- the oil storage assembly 2 or the atomizing core assembly 3 is rotated to elastically abut the marble mechanism 4 to the end surface of the oil blocking plate 25, and the oil guiding hole 251 and the oil inlet hole 323 are formed at this time.
- the oil for the oil in the oil reservoir 24 flows into the smoke passage inside the atomizing core assembly 3 so that the oil can flow into the atomizing core assembly 3 through the oil passage.
- the utility model solves the problem that the electronic cigarette adopts the oil storage oil storage in the prior art, so that the storage time of the oil oil in the oil storage cavity is long, and the cotton wool in the oil storage cotton is decomposed into the smoke oil, thereby causing deterioration of the smoke oil.
- the technical problem and the long-term contact between the atomizing core component and the smoke oil in the oil storage cotton cause the oil storage of the atomizing core component to be over-saturated for a long time, thereby causing oil leakage, and realizing the oil storage without using the oil storage cotton, and using the electronic cigarette ( That is, smoking) ⁇ open the smoke oil passage, and when transporting or standing the electronic cigarette (ie, not smoking) Close the smoke oil passage to prevent leakage of smoke oil and prevent the smoke oil from coming into contact with the air to avoid the technical effect of deterioration and deterioration of the smoke oil after it contacts the air.
- the atomizing core assembly 3 includes an atomizing seat 31, an atomizing cover 32, a heating wire assembly 33, a smoke oil adsorption plate 34, an atomizing electrode assembly 35, a second holding portion 36, and a Second limit portion 37.
- the atomizing seat 31 is rotatably inserted into one end of the oil storage assembly 2 away from the nozzle assembly 1, and the atomizing cover 32 is sleeved at one end of the atomizing base 31 inserted into the oil storage assembly 2, and atomized
- the electrode assembly 35 is fixed at one end of the atomizing base 31 away from the nozzle assembly 1 and is electrically connected to the battery assembly.
- the smoke oil adsorption plate 34 is disposed at one end of the atomizing seat 31 and elastically abuts against the atomizing cover 32, and the heating wire
- the assembly 33 is placed in the atomization seat 31 and is used to atomize the smoke oil on the soot adsorption plate 34.
- the atomizing cover 32 includes an atomizing cover main body 321 and a vent pipe 322, and the atomizing cover main body 321 is sleeved outside the one end of the atomizing base 31 inserted into the oil storage assembly 2, and the vent pipe 322 One end is fixed to the atomizing cover main body 321, and the other end extends into the oil storage assembly 2.
- the mist generated by the electric heating wire assembly 33 is discharged through the venting pipe 322 such as the smoke passage 26 in the oil storage assembly 2.
- the atomizing cover body 321 is fixed outside the atomizing base 31 by the tensioning fit, so that when the oil storage assembly 2 and the atomizing core assembly 3 are relatively rotated, the atomizing cover 32 and the atomizing seat 31 are - Rotate.
- the atomizing cover body 321 is provided with an oil inlet hole 323 and a mounting hole 324, and the oil inlet hole 323 and the mounting hole 324 are evenly distributed around the vent pipe 322 on the atomizing cover body 321 .
- the oil inlet hole 323 is mainly used for introducing the smoke oil in the oil storage chamber 24 into the atomization core assembly 3 for atomization, and the installation hole 324 is mainly used for fixing the marble mechanism 4 .
- the marble mechanism 4 mainly includes a fixing member 41, a mounting groove 42, an elastic member 43, and a positioning bead 44.
- the fixing member 41 is detachably connected to the mounting hole 324 by a threaded structure.
- the mounting groove 42 is disposed on a side of the fixing member 41 facing the oil retaining plate 25.
- One end of the elastic member 43 is fixed at the bottom wall of the mounting groove 42.
- the positioning bead 44 is attached to the other end of the elastic member 43 so that the positioning bead 44 is elastically stretchable and coupled in the fixing member 41.
- the elastic member 43 may be a structure such as a spring or a spring.
- the oil storage assembly 2 and the atomizing core assembly 3 are relatively rotated, so that the positioning beads 44 elastically seal the oil guiding hole 251, since the positioning beads 44 can elastically expand and contract in the fixing member 41, Therefore, the sealing effect is good.
- the oil storage assembly 2 and the atomizing core assembly 3 are relatively rotated to elastically abut the positioning beads 44 to the end faces of the oil blocking plate 25.
- marbles mechanism of the present embodiment 4 not only block the oil, since the positioning ball 44 is elastically retractable within the fixed member 41, but also enhance the feel of the user during rotation. It can be understood that the marble mechanism 4 can also be an elastic sphere made of a non-metallic elastic material, and the structure thereof is not specifically limited.
- the oil guiding hole 251 includes two, and the two oil guiding holes 251 are spaced apart from each other along the radial direction of the oil blocking plate 25 on the oil separating plate 25.
- the atomizing cover body 321 is provided with two oil inlet holes 323 and two mounting holes 324, and the connection between the two oil inlet holes 323 and the two mounting holes 324
- the connecting lines are perpendicular to each other, that is, the two oil inlet holes 323 are spaced apart from each other along the radial direction of the atomizing cover main body 321 , and the two mounting holes 324 are spaced apart from each other along the radial direction of the atomizing cover main body 321 so that two The positioning beads 44 can just block the two oil guiding holes 251.
- the oil guiding area of the oil inlet hole 323 can be increased, and the oil guiding area of the oil inlet hole 323 is larger than the oil guiding oil.
- the oil inlet hole 323 has a circular arc shape in cross section.
- the atomizing base 31 is substantially a hollow cylindrical structure, and an atomizing chamber (not labeled) is formed inside, and the atomizing seat 31 is rotatably inserted into the oil storage assembly 2 And one end of the atomizing seat 31 inserted into the oil storage assembly 2 is elastically sealed with the inner wall of the oil storage assembly 2, and the atomizing cover 32 is fixed outside one end of the atomizing seat 31.
- the first sealing member 311 (shown in FIG. 3) is fixed on the outer sidewall of the atomizing seat 31, and the first sealing member 311 is elastically abutted against the inner wall of the oil storage assembly 2 to avoid smoke oil. Leakage is made from the junction of the atomizing seat 31 and the oil storage assembly 2.
- one end of the atomizing seat 31 adjacent to the suction nozzle 11 is provided with two relatively spaced mounting slots 312, and the heating wire assembly 33 is disposed in the two mounting slots 312.
- the outer side wall of the atomizing seat 31 is provided with a second holding portion 36 (shown in FIG. 4) for preventing the atomizing seat 31 from being detached from the oil storage assembly 2, on the inner wall of the oil storage assembly 2
- a first holding portion 27 corresponding to the second holding portion 36 is provided, and the second holding portion 36 is rotatably embedded in the first holding portion 27.
- the second holding portion 36 is a blocking ring fixed on the outer side wall of the atomizing seat 31, and the first holding portion 27 is a card slot provided on the inner wall of the oil storage assembly 2.
- the oil storage component 2 is provided with a first limiting portion 28 (shown in FIG. 5), and is disposed on the atomizing base 31.
- a second limiting portion 37 adapted to limit the amplitude of rotation of the atomizing core assembly 3 to be adapted to the first limiting portion 28, such that when the atomizing core assembly 3 is rotated relative to the oil storage assembly 2 by a predetermined amplitude,
- the first limiting portion 28 can restrict the rotation of the atomizing core assembly 3 to turn the oil inlet hole 323 on or off.
- the first limiting portion 28 is a first limiting post disposed on an end surface of the oil storage assembly 2 and extending along a longitudinal direction of the oil storage assembly 2, and the second limiting portion 37 is facing the first limiting column.
- the arcuate slot is defined by the slot on the atomizing base 31, and the first limiting post is movably inserted in the slot.
- the smoke oil adsorption plate 34 is substantially a disk-like structure made of an oil absorbing material, and the smoke oil adsorption plate 34 is disposed at one end of the atomization seat 31, and is elastic with the atomization cover 32.
- the abutment is such that the oil that is conducted through the oil inlet 323 in the oil storage chamber 24 can penetrate into the oil adsorbing plate 34.
- the oil absorbing material may be a sponge or a fiber, and the material thereof is not specifically limited.
- the smoke oil adsorption plate 34 is provided with a central hole (not labeled) communicating with the vent tube 322, and the smoke generated by the atomization of the heating wire assembly 33 passes through the central hole and the vent tube 322. It is discharged from the smoke passage 26 of the oil storage assembly 2 into the nozzle assembly 1.
- the smoke oil adsorption plate 34 not only functions to temporarily store the smoke oil, so that the smoke oil in the oil storage chamber 24 penetrates into the heating wire assembly 33 through the smoke oil adsorption plate 34.
- the smoke oil adsorption plate 34 can also act as a buffering smoke oil to prevent the smoke oil on the heating wire assembly 33 from being sucked out due to oversaturation and being sucked by the user.
- the smoke oil adsorbed in the heating wire assembly 33 can be more uniform, and the atomization effect is more uniform. Good, thus improving the user experience.
- the oil stored in the oil adsorption plate 34 can also make the heating wire assembly 33 work normally for a period of time, so that the heating wire assembly 33 does not quickly burn. The phenomenon.
- the heating wire assembly 33 is placed in an atomization chamber, which includes an oil guiding rope 331 and a heating wire 332.
- the oil guiding wire 331 is made of an oil absorbing material and is erected in the mounting groove 312.
- the two ends of the oil guiding wire 331 are respectively bent and extended to abut the oil adsorption plate 34, and the heating wire 332 is wound around the oil guiding wire 331. Both ends of the heating wire 332 are electrically connected to the atomizing electrode assembly 35, respectively.
- the atomizing electrode assembly 35 is connected to one end of the atomizing base 31 away from the nozzle assembly 1, and is used for The battery pack is electrically connected.
- the atomizing electrode assembly 35 includes an inner electrode 351, an insulator 352, and an outer electrode.
- the atomizing base 31 is made of a conductive material and serves as the outer electrode. Both ends of the heating wire 332 are electrically connected to the atomizing base 31 and the inner electrode 351, respectively, thereby achieving electrical connection with the battery assembly.
- the atomizing electrode assembly 35 can also be two electrodes arranged side by side and separated from each other, and two ends of the heating wire 332 are electrically connected to the two electrodes arranged in parallel. Therefore, the structure is not specifically limited as long as it can transmit electric energy.
- the inner electrode 351 is provided with a vent hole (not labeled) communicating with the atomization chamber, and the airflow from the battery assembly passes through the vent hole into the atomization chamber.
- the arrows in Figure 4 show the direction of flow of the airflow inside the atomizing assembly.
- the atomizing core assembly 3 includes an atomizing seat 31, an atomizing cover 32, a heating wire assembly 33, a smoke oil adsorption plate 34, an atomizing electrode assembly 35, a second holding portion 36, and a second Limiting portion 37. It is to be understood that the atomizing core assembly 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.
- the oil storage assembly 2 includes an oil storage jacket 21, a fastening sleeve 22, a connecting ring 23, an oil storage chamber 24, a grease trap 25, a smoke passage 26, a first retaining portion 27, and a first A limit portion 28.
- the fastening sleeve 22 and the connecting ring 23 are respectively connected to the two ends of the oil storage sleeve 21, and the oil storage sleeve 21 is internally formed with an oil storage chamber 24 and a smoke passage 26 which are separated from each other, and the two ends of the smoke passage 26 are respectively In communication with the atomizing core assembly 3 and the nozzle assembly 1, the oil reservoir 24 is evenly distributed around the smoke passage 26, and the oil barrier 25 is disposed at one end of the oil reservoir 24 toward the atomizing core assembly 3.
- the oil storage jacket 21 has a substantially cylindrical structure.
- the oil storage jacket 21 is made of a material that can transmit light.
- the end of the oil storage sleeve 21 away from the battery assembly is provided with a connecting ring 23, and the nozzle assembly 1 is detachably connected to the connecting ring 23.
- the oil storage sleeve 21 and the connecting ring 23 may also be an integrally formed structure, which is not specifically limited herein.
- the fastening sleeve 22 is connected to one end of the oil storage sleeve 21 near the battery assembly, and the first between the fastening sleeve 22 and the oil storage sleeve 21 is arranged to prevent the atomization core assembly 3 from being detached from the oil storage assembly 2 A holding portion 27.
- the first holding portion 27 is a card slot structure
- the second holding portion 36 on the outer side wall of the atomizing base 31 is rotatably embedded in the In the card slot
- the second latching portion 36 is a blocking ring.
- the fastening sleeve 22 is sleeved on the outer side wall of the atomization seat 31, and then the second holding portion 36 is sleeved on the outer side wall of the atomization seat 31, and finally the oil storage sleeve 21 is inserted.
- the atomizing core assembly 3 is prevented from falling out of the oil storage jacket 21.
- the first limiting portion 28 is a first limiting post disposed on the end surface of the fastening sleeve 22 and extending along the longitudinal direction of the oil storage assembly 2, and the atomizing seat 31 is provided with the first limiting portion a limiting portion 28 is adapted to limit the rotation limit of the atomizing core assembly 3, and the second limiting portion is an arc-shaped slot, so that when the atomizing core assembly 3 is opposite After the oil storage assembly 2 is rotated by the preset amplitude, the first limiting portion 28 can restrict the rotation of the atomizing core assembly 3 to turn the oil inlet hole 323 on or off.
- the oil barrier 25 is disposed at one end of the oil reservoir 24 facing the atomizing core assembly 3.
- the oil barrier 25 is spaced apart from two oil guiding holes 251 disposed along the radial direction thereof, and the oil reservoir 24 is disposed.
- the smoke oil flows into the atomizing core assembly 3 through the oil guiding hole 251.
- the smoke passages 26 are distributed in the oil storage jacket 21 along the longitudinal direction of the atomizing assembly, and the two ends of the smoke passage 26 are respectively communicated with the atomizing core assembly 3 and the nozzle assembly 1, and the smoke generated by the atomizing of the electric heating wire assembly 33 From the smoke passage 26, it is discharged into the nozzle assembly 1.
- the vent tube 322 extends into the smoke passage 26 and is rotatably coupled to the smoke passage.
- the nozzle assembly 1 includes a suction nozzle 11, an oil retaining member 12, a second sealing member 13, and a third sealing member 14, and the smoke passage 26 communicates with the suction nozzle 11 through the oil retaining member 12. .
- One end of the oil retaining member 12 is detachably connected to the connecting ring 23 by a threaded structure, and the other end of the oil retaining member 12 is detachably connected to the suction nozzle 11 by a screw structure.
- a second sealing member 13 is fixed on the outer side wall of the blocking member 12, and the second sealing member 13 is elastically abutted to The inner wall of the oil storage jacket 21 .
- a third sealing member 14 is disposed between the oil retaining member 12 and the smoke passage 26, and the third sealing member 14 is elastically abutted respectively. It goes to the oil retaining member 12 and the smoke passage 26.
- the oil retaining member 12 can also be connected to the suction nozzle 11 and the connecting ring 23 by using other detachable connecting structures, and other connecting structures can be disposed on the oil retaining member 12.
- other connecting structures can be disposed on the oil retaining member 12.
- an elastic engagement elastic piece or the like is used in the snap connection.
- only the screw connection is described as an example, and the connection is not limited to the screw connection.
- the suction nozzle 11 is detachably connected to one end of the oil retaining member 12, and a smoke is formed between the suction nozzle 11 and the oil retaining member 12.
- the smoke passage condensing chamber 110 communicated with the mist passage 26, the smoky liquid condensed on the smoke passage 26 during the smoking flows along the airflow and is stored in the smog condensation chamber 110 in the suction nozzle 11, due to the suction nozzle 11 and the oil retaining member 12
- the detachable connection allows the user to remove the suction nozzle 11 to clean the smoke liquid remaining in the smoke oil condensation chamber 110, preventing the user from smoking the smoke liquid when smoking.
- the air outlet hole 111 is provided at the cavity wall of the smoke oil condensation chamber 110 to facilitate the user to suck, and the smoke generated by the atomization of the atomization core assembly 3 flows through the smoke passage 26 to the air outlet 111, the condensed smoke The 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 in the oil condensing chamber 110 to prevent the user from smoking the oil.
- FIG. 9, FIG. 10 and FIG. 11 illustrate an atomizing assembly provided by the second preferred embodiment of the present invention, which differs from the embodiment mainly in the atomizing core assembly 3.
- the structure is different, and there is no limiting portion for limiting the rotation amplitude of the atomizing core assembly 3 in this embodiment, and the atomizing core assembly 3 and the oil storage assembly 2 can be rotated by an arbitrary width.
- the atomizing core assembly 3 includes an atomizing seat 31, an atomizing cover 32, a heating wire assembly 33, a smoke adsorbing plate 34, an atomizing electrode assembly 35, and a second holding portion 36.
- the atomizing base 31 is rotatably inserted into one end of the oil storage assembly 2 away from the nozzle assembly 1, and one end of the atomizing base 31 inserted in the oil storage assembly 2 is elastically sealed with the oil storage assembly 2
- the atomizing cover 32 is sleeved at one end of the atomizing base 31 and inserted into the oil storage assembly 2, and the atomizing electrode assembly 35 is fixed at one end of the atomizing seat 31 away from the nozzle assembly 1 and is used for electrically connecting with the battery assembly, the smoke oil
- the adsorption plate 34 is disposed at one end of the atomization seat 31 and elastically abuts against the atomization cover 32.
- the heating wire assembly 33 is disposed in the atomization seat 31 and is used for atomizing the smoke oil on the smoke oil adsorption plate 34.
- the atomizing cover 32 includes an atomizing cover main body 321 and a vent pipe 322, and the atomizing cover main body 321 is sleeved outside the one end of the atomizing base 31 inserted into the oil storage assembly 2, and the vent pipe 322 One end is fixed to the atomizing cover main body 321, and the other end is extended to the oil storage assembly 2.
- the atomizing cover body 321 is provided with an oil inlet hole 323 and a mounting hole 324, and the oil inlet hole 323 and the mounting hole 324 are evenly distributed around the vent pipe 322 on the atomizing cover body 321 .
- the atomizing cover main body 321 is provided with two oil inlet holes 323 and two mounting holes 324, and the connection between the two oil inlet holes 323 and the connection between the two mounting holes 324.
- the lines are parallel to each other.
- two oil guiding holes 251 and two limiting slots 252 are respectively disposed on the oil blocking plate 25 at positions corresponding to the oil inlet hole 323 and the mounting hole 324.
- two limiting slots 252 are defined at one end of the oil blocking plate 25 facing the atomizing core assembly 3, and the limiting slot 252 is not connected to the oil reservoir 24, and two limits are provided.
- the line between the grooves 252 and the line between the two oil guiding holes 251 are parallel to each other.
- the two positioning beads 44 are just elastically abutted in the two limiting slots 252, and the two oil guiding holes 251 on the oil separating plate 25 are respectively
- the two oil inlet holes 323 are electrically connected, and the oil in the oil storage chamber 24 can flow out from the two oil guiding holes 251.
- the amount of the lubricating oil continuously continues to rotate the oil storage assembly 2 or the atomizing core assembly 3 by 90. °
- one of the two positioning beads 44 blocks the other one of the two oil guiding holes 251, and one of the two positioning beads 44 abuts to the two limits.
- the other of the two slots 252 is such that the soot can only flow out of one of the two oil guiding holes 251. Therefore, by rotating the oil storage assembly 2 or the atomizing core assembly 3, it is possible to control the degree of oil intake of the oil inlet hole 323 or to close the oil inlet hole 323 to meet the different needs of the user.
- the present application further provides an electronic cigarette including an interconnected battery assembly (not shown) and an atomizing assembly, wherein the battery assembly is prior art, and the atomizing assembly is the above The atomizing component described is not described here.
- the present application utilizes the oil storage assembly to rotate relative to the atomizing core assembly, and controls whether the marble mechanism is inserted into the oil guiding hole, thereby controlling the plugging of the oil guiding hole and controlling the advancement.
- the oil hole is turned on or off to avoid leakage of smoke oil and better preservation of the oil, and to avoid the problem of deterioration caused by the absorption of moisture in the air by the smoke oil, or to avoid the action of the smoke oil at atmospheric pressure when adding the smoke oil. Defects flowing from the lower end of the atomizing core assembly.
- the smoke oil adsorption plate not only functions to temporarily store the smoke oil, so that the smoke oil in the oil storage chamber penetrates into the electric heating wire assembly through the smoke oil adsorption plate. At the same time, the smoke oil adsorption plate can also act as a buffering of the smoke oil, and is prevented from being sucked by the user when the smoke oil on the electric wire assembly is exuded due to supersaturation.
- the oil storage component is provided with a first limiting portion
- the atomizing seat is provided with a second limiting portion adapted to limit the rotation amplitude of the atomizing core assembly, which is matched with the first limiting portion
- the first limiting portion can restrict the rotation of the atomizing core assembly to turn the oil inlet hole into or off.
Landscapes
- Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
- Catching Or Destruction (AREA)
Abstract
一种雾化组件及电子烟,所述雾化组件包括吸嘴组件(1)、用于存储烟油的储油组件(2)及与所述储油组件(2)活动连接并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)一端的端面形成有加油口,所述吸嘴组件(1)可拆卸的连接在所述加油口处,所述储油组件(2)内形成有储油腔(24),所述储油腔(24)面向所述雾化芯组件(3)的一端设置有隔油板(25),所述隔油板(25)上开设有导油孔(251)。该雾化组件使储油组件(2)与雾化芯组件(3)发生相对转动,并通过弹珠机构(4)的弹性伸缩来控制导油孔(251)的通堵,进而控制进油孔(323)导通或关闭,从而避免烟油渗漏及较好地保存烟油。
Description
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, 雾化组件将烟油吸附在棉储油 上, 以实现固油、 锁油的效果, 电热丝组件通过雾化储油棉上的烟油来产生烟 雾, 因此当储油棉内的烟油使用完后, 用户无法添加烟油, 造成资源浪费。 并 且烟油在储油腔中的存储吋间较长后储油棉内的棉絮会分解到烟油内, 而导致 烟油变质, 最终影响用户的吸烟口感。 进一步的, 当不使用电子烟时, 现有技 术无法隔绝烟油不与空气中的水分接触, 造成烟油吸收空气中的水分导致烟油 变质, 影响用户的体验效果, 而储油棉一直向电热丝组件供油, 容易导致电热 丝组件因烟油过饱和而漏油的现象。 最后, 现有电子烟无法控制流入电热丝组 件的烟油的流量, 可能造成烧棉或因过饱和而导致烟油从雾化组件下端流出。 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, 所述雾化组件包括吸嘴 组件、 用于存储烟油的储油组件及与所述储油组件活动连接并用于雾化所述储 油组件内的烟油的雾化芯组件, 所述储油组件一端的端面形成有加油口, 所述 吸嘴组件可拆卸的连接在所述加油口处, 所述储油组件内形成有储油腔, 所述 储油腔面向所述雾化芯组件的一端设置有隔油板, 所述隔油板上开设有导油孔
[0006] 所述雾化芯组件的一端插设在所述储油组件内并与所述隔油板弹性相抵, 所述
雾化芯组件的另一端延伸出所述储油组件外, 所述雾化芯组件插设在所述储油 组件内的一端与所述储油组件弹性密封相连, 所述储油组件的内壁上设有第一 卡持部, 所述雾化芯组件的外壁上与所述第一卡持部相互卡持的第二卡持部, 以阻止所述雾化芯组件从所述储油组件上拆卸;
[0007] 所述雾化芯组件的面向所述隔油板的端面上设有用于将所述储油腔内的烟油导 入所述雾化芯组件内进行雾化的进油孔, 及用于控制所述储油腔内的烟油导入 所述雾化芯组件内的弹珠机构, 所述进油孔与所述导油孔的位置相对应, 所述 雾化芯组件与所述储油组件转动连接, 以使通过控制所述储油组件与所述雾化 芯组件发生相对转动, 来控制所述弹珠机构是否插入所述导油孔, 进而控制所 述导油孔的通堵及控制所述进油孔导通或关闭。
[0008] 在本发明所述的雾化组件, 所述储油组件上设置有第一限位部, 所述雾化芯组 件上设有与所述第一限位部相适配的用于限制所述雾化芯组件转动幅度的第二 限位部, 以使当所述雾化芯组件相对所述储油组件转动预设幅度后, 所述第一 限位部限制所述雾化芯组件转动而使所述进油孔导通或关闭。
[0009] 在本发明所述的雾化组件, 所述第一限位部为设置于所述储油组件的端面上并 沿所述储油组件的纵向延伸的第一限位柱, 所述第二限位部为面向所述第一限 位柱的呈弧形的插槽, 所述第一限位柱可活动的插设在所述插槽内。
[0010] 在本发明所述的雾化组件, 所述储油组件包括透明的储油套及套设在所述储油 套一端的紧固套, 所述储油套与所述紧固套间围成有所述第一卡持部, 所述第 一卡持部为卡槽, 所述第二卡持部为凸设在所述雾化芯组件的外侧壁上并与所 述卡槽相对应的阻挡环, 所述阻挡环插设在所述卡槽内。
[0011] 在本发明所述的雾化组件, 所述雾化芯组件面向所述隔油板的一端设置有雾化 盖, 所述雾化盖包括雾化盖主体及固定在所述雾化盖主体上并延伸至所述储油 组件内的通气管, 所述雾化盖主体上设有用于固定所述弹珠机构的安装孔, 所 述安装孔和所述进油孔环绕所述通气管均匀分布在所述雾化盖主体上。
[0012] 在本发明所述的雾化组件, 所述弹珠机构包括连接在所述安装孔内的固定件, 所述固定件面向所述隔油板的一端设有安装槽, 所述安装槽内设有一端连接在 所述安装槽底壁处的弹性件, 所述弹性件的另一端连接有定位珠, 所述定位珠
弹性抵接至所述隔油板。
[0013] 在本发明所述的雾化组件, 所述雾化芯组件包括中空的雾化座、 所述雾化盖、 烟油吸附板、 雾化电极组件及电连接至所述雾化电极组件的电热丝组件; 所述 雾化盖主体套设在所述雾化座插入至所述储油组件的一端外, 所述通气管可转 动的插设在所述储油组件内, 所述雾化电极组件固定在所述雾化座远离所述吸 嘴组件的一端并用于与所述电池组件电连接, 所述烟油吸附板由吸油材料制成 并盖设在所述雾化座的一端, 所述烟油吸附板弹性抵接至所述雾化盖, 以使当 所述进油孔导通时所述储油腔内的烟油流入所述烟油吸附板中, 所述电热丝组 件置于所述雾化座内并用于雾化所述烟油吸附板中的烟油。
[0014] 在本发明所述的雾化组件, 所述进油孔和所述安装孔均分别包括两个, 两个所 述进油孔之间的连线与两个所述安装孔之间的连线相互垂直。
[0015] 在本发明所述的雾化组件, 所述进油孔和所述安装孔均分别包括两个, 两个所 述进油孔之间的连线与两个所述安装孔之间的连线相互平行。
[0016] 在本发明所述的雾化组件, 所述雾化座的外侧壁套设有第一密封件, 所述第一 密封件弹性抵接至所述储油组件的内壁, 以使所述雾化芯组件与所述储油组件 弹性密封相连。
[0017] 在本发明所述的雾化组件, 所述吸嘴组件包括挡油件和吸嘴, 所述挡油件的一 端可拆卸的连接在所述加油口处并与所述加油口弹性密封相连, 所述吸嘴可拆 卸的连接在所述挡油件的另一端。
[0018] 在本发明所述的雾化组件, 所述储油组件内形成有用于将所述雾化芯组件雾化 的烟雾排出至所述吸嘴组件内的烟雾通道, 所述吸嘴内形成有与所述烟雾通道 相连通的烟油冷凝腔, 所述烟油冷凝腔的腔壁处设有出气孔, 以使所述雾化芯 组件雾化的烟雾经过所述烟雾通道流动至所述出气孔吋, 冷凝的烟油能够存储 在所述烟油冷凝腔内。
[0019] 在本发明所述的雾化组件, 所述出气孔的周缘朝靠近所述雾化芯组件的一侧凸 设有用于阻隔所述烟油冷凝腔内的烟油的环形凸台。
[0020] 本发明还提供一种电子烟, 包括相互连接的电池组件和雾化组件, 所述雾化组 件包括吸嘴组件、 用于存储烟油的储油组件及与所述储油组件活动连接并用于
雾化所述储油组件内的烟油的雾化芯组件, 所述储油组件一端的端面形成有加 油口, 所述吸嘴组件可拆卸的连接在所述加油口处, 所述储油组件内形成有储 油腔, 所述储油腔面向所述雾化芯组件的一端设置有隔油板, 所述隔油板上开 设有导油孔;
[0021] 所述雾化芯组件的一端插设在所述储油组件内并与所述隔油板弹性相抵, 所述 雾化芯组件的另一端延伸出所述储油组件外, 所述雾化芯组件插设在所述储油 组件内的一端与所述储油组件弹性密封相连, 所述储油组件的内壁上设有第一 卡持部, 所述雾化芯组件的外壁上与所述第一卡持部相互卡持的第二卡持部, 以阻止所述雾化芯组件从所述储油组件上拆卸;
[0022] 所述雾化芯组件的面向所述隔油板的端面上设有用于将所述储油腔内的烟油导 入所述雾化芯组件内进行雾化的进油孔, 及用于控制所述储油腔内的烟油导入 所述雾化芯组件内的弹珠机构, 所述进油孔与所述导油孔的位置相对应, 所述 雾化芯组件与所述储油组件转动连接, 以使通过控制所述储油组件与所述雾化 芯组件发生相对转动, 来控制所述弹珠机构是否插入所述导油孔, 进而控制所 述导油孔的通堵及控制所述进油孔导通或关闭。
发明的有益效果
有益效果
[0023] 综上所述, 实施本发明的雾化组件及电子烟, 具有以下有益效果: 首先, 本申 请使储油组件与雾化芯组件发生相对转动, 并通过弹珠机构是否插入所述导油 孔, 进而控制所述导油孔的通堵及控制所述进油孔导通或关闭, 从而避免烟油 渗漏及较好地保存烟油, 同时避免烟油吸收空气中的水分而导致变质的问题, 或者当添加烟油时, 避免烟油在大气压的作用从雾化芯组件下端流出的缺陷。 其次, 当用户不使用电子烟时, 使储油组件与雾化芯组件发生相对转动, 以使 定位珠将导油孔弹性密封住, 由于定位珠能够在固定件内弹性伸缩, 因此密封 效果好。 最后, 储油组件上设置有第一限位部, 雾化座上设置有与该第一限位 部相适配的用于限制雾化芯组件转动幅度的第二限位部, 以使当雾化芯组件相 对储油组件转动预设幅度后, 第一限位部能够限制雾化芯组件转动而使进油孔 导通或关闭。
对附图的简要说明
附图说明
[0024] 下面将结合附图及实施例对本发明作进一步说明, 附图中:
[0025] 图 1是本发明较佳实施例之一提供的雾化组件的爆炸图;
[0026] 图 2是图 1所示雾化组件的第一角度的结构示意图;
[0027] 图 3是图 1所示雾化组件的第二角度的结构示意图;
[0028] 图 4是图 2所示雾化组件的 A部放大图;
[0029] 图 5是图 2所示雾化组件的紧固套的结构示意图;
[0030] 图 6是图 2所示雾化组件的雾化座的结构示意图;
[0031] 图 7是图 2所示雾化组件的雾化盖的结构示意图;
[0032] 图 8是本发明较佳实施例之二提供的雾化组件的雾化盖的结构示意图;
[0033] 图 9是本发明较佳实施例之二提供的雾化组件的储油组件和吸嘴组件的立体图
[0034] 图 10是本发明较佳实施例之二提供的雾化组件的储油套和隔油板的结构示意图
[0035] 图 11是本发明较佳实施例之二提供的雾化组件的结构示意图。
发明实施例
本发明的实施方式
[0036] 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。
[0037] 图 1~图7示出了本发明较佳实施例之一提供的一种雾化组件, 所述雾化组件用 于与电池组件 (图上未示出) 组合形成电子烟, 如图 1所示, 雾化组件包括吸嘴 组件 1、 用于存储烟油的储油组件 2及与储油组件 2活动连接并用于雾化储油组件
2内的烟油的雾化芯组件 3。
[0038] 如图 2所示, 储油组件 2—端的端面形成有加油口, 吸嘴组件 1可拆卸的连接在 所述加油口处, 储油组件 2内形成有储油腔 24, 储油腔 24面向雾化芯组件 3的一 端设置有隔油板 25 , 隔油板 25上开设有导油孔 251。
[0039] 进一步的, 雾化芯组件 3的一端插设在储油组件 2内并与隔油板 25弹性相抵, 雾 化芯组件 3的另一端延伸出储油组件 2外, 雾化芯组件 3插设在储油组件 2内的一 端与储油组件 2弹性密封相连, 储油组件 2的内壁上设有第一卡持部 27, 雾化芯 组件 3的外壁上与第一卡持部 27相互卡持的第二卡持部 36, 以阻止雾化芯组件 3 从储油组件 2上拆卸。
[0040] 雾化芯组件 3的面向隔油板 25的端面上设有用于将储油腔 24内的烟油导入雾化 芯组件 3内进行雾化的进油孔 323 (如图 8所示) , 及用于避免储油腔 24内的烟油 导入雾化芯组件 3内的弹珠机构 4, 所述进油孔 323与所述导油孔 251的位置相对 应, 所述雾化芯组件 3与所述储油组件 2转动连接, 以使通过控制所述储油组件 2 与所述雾化芯组件 3发生相对转动, 来控制所述弹珠机构 4是否插入所述导油孔 2 51 , 进而控制所述导油孔 251的通堵及控制所述进油孔 323导通或关闭。
[0041] 本实施例的雾化芯组件 3可转动的与储油组件 2相连, 储油组件 2与雾化芯组件 3 的连接处设置有用于将储油腔 24内的烟油导入雾化芯组件 3内进行雾化的进油孔 323, 及用于避免储油腔 24内的烟油导入雾化芯组件 3内的弹珠机构 4。 其中, 弹 珠机构 4固定在雾化芯组件 3面向隔油板 25的一端面, 并与隔油板 25弹性相抵, 弹珠机构 4在储油组件 2与雾化芯组件 3发生相对转动的过程中, 通过自身的弹性 伸缩来控制导油孔 251的通堵。
[0042] 当用户不使用电子烟吋, 旋转储油组件 2或雾化芯组件 3 , 以使弹珠机构 4将导 油孔 251堵住, 避免烟油流入雾化芯组件 3内, 同吋避免烟油吸收空气中的水分 而导致变质的问题, 或者当添加烟油吋, 避免烟油在大气压的作用从雾化芯组 件下端流出的缺陷。 当用户使用电子烟时, 旋转储油组件 2或雾化芯组件 3 , 以 使弹珠机构 4弹性抵接至隔油板 25的端面上, 此时导油孔 251与进油孔 323间形成 了供储油腔 24内的烟油流入雾化芯组件 3内部的烟油通道, 以使烟油能够穿过该 烟油通道流入雾化芯组件 3内。 本申请解决了现有技术中电子烟采用储油棉储油 , 使得烟油在储油腔中的存储时间较长后储油棉内的棉絮会分解到烟油内, 而 导致烟油变质的技术问题和雾化芯组件与储油棉内的烟油长期接触使雾化芯组 件储油长期过饱和而产生漏油的问题, 实现了不采用储油棉进行储油, 在使用 电子烟 (即抽烟) 吋打开烟油通道, 以及在运输或静置电子烟 (即不抽烟) 时
关闭烟油通道, 防止烟油渗漏, 同时防止烟油与空气接触, 以避免烟油接触空 气后变味变质的技术效果。
[0043] 结合图 3、 图 4、 图 5、 图 6和图 7所示的实施例对雾化芯组件 3和弹珠机构 4的具 体结构进行详细说明。
[0044] 如图 3所示, 雾化芯组件 3包括雾化座 31、 雾化盖 32、 电热丝组件 33、 烟油吸附 板 34、 雾化电极组件 35、 第二卡持部 36和第二限位部 37。
[0045] 其中, 雾化座 31可转动的插设在储油组件 2远离吸嘴组件 1的一端内, 雾化盖 32 套设在雾化座 31插入至储油组件 2的一端, 雾化电极组件 35固定在雾化座 31远离 吸嘴组件 1的一端并用于与电池组件电连接, 烟油吸附板 34盖设在雾化座 31的一 端并与雾化盖 32弹性抵接, 电热丝组件 33置于雾化座 31内并用于雾化烟油吸附 板 34上的烟油。
[0046] 如图 7所示, 雾化盖 32包括雾化盖主体 321和通气管 322, 雾化盖主体 321套设在 雾化座 31插入至储油组件 2的一端外, 通气管 322的一端固定在雾化盖主体 321上 , 另一端延伸至储油组件 2内, 电热丝组件 33雾化产生的烟雾通过该通气管 322 排如储油组件 2内的烟雾通道 26内。 本实施例中, 雾化盖主体 321通过涨紧配合 固定在雾化座 31外, 以使当储油组件 2与雾化芯组件 3发生相对转动时, 雾化盖 3 2与雾化座 31—起转动。
[0047] 进一步的, 雾化盖主体 321上设有进油孔 323和安装孔 324, 且进油孔 323和安装 孔 324环绕通气管 322均匀分布在雾化盖主体 321上。 其中, 进油孔 323主要用于 将储油腔 24内的烟油导入雾化芯组件 3内进行雾化, 安装孔 324主要用于固定弹 珠机构 4。
[0048] 结合图 4所示, 弹珠机构 4主要包括固定件 41、 安装槽 42、 弹性件 43和定位珠 44 。 其中, 固定件 41通过螺纹结构可拆卸的连接在安装孔 324内, 安装槽 42幵设在 固定件 41朝向挡油板 25的一侧, 弹性件 43的一端固定在安装槽 42的底壁处, 定 位珠 44连接在弹性件 43的另一端, 以使定位珠 44可弹性伸缩的连接在固定件 41 内。 本实施例中, 弹性件 43可以为弹簧或弹片等结构。 当用户不使用电子烟时 , 使储油组件 2与雾化芯组件 3发生相对转动, 以使定位珠 44将导油孔 251弹性密 封住, 由于定位珠 44能够在固定件 41内弹性伸缩, 因此密封效果好。 当用户使
用电子烟时, 使储油组件 2与雾化芯组件 3发生相对转动, 以使定位珠 44弹性抵 接至隔油板 25的端面上。 进一步的, 本实施例的弹珠机构 4不仅能够堵油, 由于 定位珠 44能够在固定件 41内弹性伸缩, 还能增强用户旋转过程中的手感。 可以 理解的是, 所述弹珠机构 4也可以是由非金属弹性材料制成的弹性球体, 其结构 不作具体限定。
[0049] 本实施例中, 导油孔 251包括两个, 两个导油孔 251沿隔油板 25的径向相对间隔 的开设在隔油板 25上。 相应的, 如图 7所示, 雾化盖主体 321上设有两个进油孔 3 23和两个安装孔 324, 且两个进油孔 323之间的连线与两个安装孔 324之间的连线 相互垂直, 即两个进油孔 323沿雾化盖主体 321的径向相对间隔的开设, 两个安 装孔 324沿雾化盖主体 321的径向相对间隔的开设 , 以使两个定位珠 44恰好能将 两个导油孔 251堵住。
[0050] 优选的, 为了使储油腔 24内的烟油更顺畅的流入进油孔 323内, 可以增大进油 孔 323的导油面积, 使进油孔 323的导油面积大于导油孔 251的面积。 本实施例中 , 进油孔 323的横截面呈圆弧形。
[0051] 如图 6所示, 雾化座 31大致为中空的柱体结构, 其内部形成有雾化腔 (图上未 标号) , 雾化座 31可转动的插设在储油组件 2内, 且雾化座 31插入至储油组件 2 的一端与储油组件 2的内壁弹性密封相连, 雾化盖 32固定在雾化座 31的一端外。
[0052] 优选的, 雾化座 31的外侧壁上固定有第一密封件 311 (结合图 3所示) , 该第一 密封件 311与储油组件 2的内壁弹性抵接, 以避免烟油从雾化座 31与储油组件 2的 连接处泄露。
[0053] 优选的, 雾化座 31靠近吸嘴 11的一端设有两个相对间隔设置的安装槽 312, 电 热丝组件 33架设在两个安装槽 312内。
[0054] 优选的, 雾化座 31的外侧壁设置有用于阻止雾化座 31从储油组件 2上拆卸的第 二卡持部 36 (结合图 4所示) , 储油组件 2的内壁上设有与该第二卡持部 36相对 应的第一卡持部 27 , 第二卡持部 36可转动的嵌设在第一卡持部 27内。 本实施例 中, 第二卡持部 36为固定在雾化座 31的外侧壁上的阻挡环, 第一卡持部 27为设 在储油组件 2内壁上的卡槽。
[0055] 优选的, 储油组件 2上设置有第一限位部 28 (结合图 5所示) , 雾化座 31上设置
有与该第一限位部 28相适配的用于限制雾化芯组件 3转动幅度的第二限位部 37 , 以使当雾化芯组件 3相对储油组件 2转动预设幅度后, 第一限位部 28能够限制雾 化芯组件 3转动而使进油孔 323导通或关闭。 当第一限位部 28沿顺时针方向转过 预设幅度后, 进油孔 323与导油孔 251恰好相互导通; 当第一限位部 28沿逆吋针 方向转过预设幅度后, 导油孔 251恰好被定位珠 44堵住。 本实施例中, 第一限位 部 28为设置于储油组件 2的端面上并沿储油组件 2的纵向延伸的第一限位柱, 第 二限位部 37为面向第一限位柱的呈弧形的插槽, 插槽开设在雾化座 31上, 第一 限位柱可活动的插设在该插槽内。
[0056] 如图 3所示, 烟油吸附板 34大致为圆板状结构, 其由吸油材料制成, 烟油吸附 板 34盖设在雾化座 31的一端, 并与雾化盖 32弹性抵接, 以使当进油孔 323导通吋 储油腔 24内的烟油能够渗入烟油吸附板 34中。 本实施例中, 所述吸油材料可以 是海绵或纤维等, 其材料不作具体限定。
[0057] 优选的, 烟油吸附板 34上开设有与通气管 322相连通的中心孔 (图上未标号) , 电热丝组件 33雾化产生的烟雾穿过该中心孔和通气管 322后, 从储油组件 2的 烟雾通道 26中排出至吸嘴组件 1内。
[0058] 本实施例中, 烟油吸附板 34不仅起到暂存烟油的作用, 使得储油腔 24内的烟油 通过烟油吸附板 34渗入电热丝组件 33内。 同时, 烟油吸附板 34还可以起到缓冲 烟油的作用, 避免当电热丝组件 33上的烟油因过饱和而渗出而被用户吸食。
[0059] 进一步的, 由于由于储油腔 24内的烟油需要通过烟油吸附板 34才能扩散到电热 丝组件 33中, 可以使电热丝组件 33内吸附的烟油更均匀, 雾化效果更好, 从而 提高用户的体验效果。 此外, 当储油腔 24内的烟油用完后, 烟油吸附板 34内存 储的烟油还能使电热丝组件 33正常工作一段吋间 , 使电热丝组件 33不会很快产 生烧焦的现象。
[0060] 如图 3所示, 电热丝组件 33置于雾化腔内, 其包括导油绳 331和电热丝 332。 其 中, 导油绳 331由吸油材料制成并架设在安装槽 312内, 导油绳 331的两端分别折 弯延伸并抵接至烟油吸附板 34 , 电热丝 332缠绕在导油绳 331上, 电热丝 332的两 端分别与雾化电极组件 35电连接。
[0061] 如图 3所示, 雾化电极组件 35连接在雾化座 31远离吸嘴组件 1的一端, 并用于与
电池组件电连接。 雾化电极组件 35包括内电极 351、 绝缘件 352和外电极。 本实 施例中, 雾化座 31由导电材料制得, 并用作所述外电极, 电热丝 332的两端分别 与雾化座 31和内电极 351电连接, 从而实现与电池组件的电连接。
[0062] 可以理解的是, 在其它实施例中, 雾化电极组件 35还可以是并列设置并相互隔 离的两个电极, 电热丝 332的两端分别与并列设置的两个电极电连接。 因此, 其 结构不作具体限定, 只要能够传输电能即可。
[0063] 优选的, 内电极 351上开设有与雾化腔相连通的通气孔 (图上未标号) , 从电 池组件传来的气流经过所述通气孔进入雾化腔内。 图 4中箭头示出了雾化组件内 部气流的流通方向。
[0064] 本实施例中, 雾化芯组件 3包括雾化座 31、 雾化盖 32、 电热丝组件 33、 烟油吸 附板 34、 雾化电极组件 35、 第二卡持部 36和第二限位部 37。 可以理解的是, 本 申请的雾化芯组件 3并不限定于上述结构, 还可以是其它结构, 只要其能雾化烟 油即可。
[0065] 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和吸嘴组件 1的具 体结构进行详细说明。
[0066] 如图 2所示, 储油组件 2包括储油套 21、 紧固套 22、 连接环 23、 储油腔 24、 隔油 板 25、 烟雾通道 26、 第一卡持部 27和第一限位部 28。
[0067] 其中, 紧固套 22和连接环 23分别连接在储油套 21的两端, 储油套 21内部形成有 相互隔离的储油腔 24和烟雾通道 26, 烟雾通道 26的两端分别与雾化芯组件 3和吸 嘴组件 1相连通, 储油腔 24环绕烟雾通道 26均匀分布, 隔油板 25设在储油腔 24朝 向雾化芯组件 3的一端。
[0068] 如图 2所示, 储油套 21大致为圆筒状结构, 为了方便用户査看储油腔 24内烟油 的余量, 储油套 21由可透光的材料制得。 其中, 储油套 21远离电池组件的一端 设有连接环 23, 吸嘴组件 1可拆卸的连接在该连接环 23上。 当然, 在其它实施例 中, 储油套 21与连接环 23还可以为一体成型结构, 在此不作具体限定。
[0069] 紧固套 22连接在储油套 21靠近电池组件的一端, 且紧固套 22与储油套 21之间围 成有用于阻止雾化芯组件 3从储油组件 2上拆卸的第一卡持部 27。 本实施例中, 第一卡持部 27为卡槽结构, 雾化座 31外侧壁上的第二卡持部 36可转动的嵌设在
该卡槽内, 该第二卡持部 36为阻挡环。 组装时, 首先将紧固套 22套设在雾化座 3 1的外侧壁上, 其次将第二卡持部 36套设在雾化座 31的外侧壁上, 最后将储油套 21插设在紧固套 22内, 从而避免雾化芯组件 3从储油套 21中脱落。
[0070] 本实施例中, 第一限位部 28为设置在紧固套 22的端面上并沿储油组件 2的纵向 延伸的第一限位柱, 雾化座 31上设置有与该第一限位部 28相适配的用于限制雾 化芯组件 3转动幅度的第二限位部 37 , 该第二限位部为呈弧形的插槽, 以使当雾 化芯组件 3相对储油组件 2转动预设幅度后, 第一限位部 28能够限制雾化芯组件 3 转动而使进油孔 323导通或关闭。
[0071] 隔油板 25设在储油腔 24朝向雾化芯组件 3的一端, 隔油板 25上间隔开设有两个 沿其径向相对设置的导油孔 251 , 储油腔 24内的烟油通过该导油孔 251流入雾化 芯组件 3内。
[0072] 烟雾通道 26沿雾化组件的纵向分布在储油套 21内, 烟雾通道 26的两端分别与雾 化芯组件 3和吸嘴组件 1相连通, 电热丝组件 33雾化产生的烟雾从该烟雾通道 26 排入吸嘴组件 1内。 本实施例中, 通气管 322延伸至烟雾通道 26内, 并与烟雾通 道可转动的连接。
[0073] 如图 2所示, 吸嘴组件 1包括吸嘴 11、 挡油件 12、 第二密封件 13和第三密封件 14 , 烟雾通道 26穿过挡油件 12与吸嘴 11相连通。
[0074] 挡油件 12的一端与连接环 23通过螺纹结构可拆卸的连接 , 挡油件 12的另一端通 过螺纹结构与吸嘴 11可拆卸的连接。 为了避免储油腔 24内的烟油从挡油件 12与 储油套 21的连接处泄漏, 阻挡件 12的外侧壁上固定有第二密封件 13 , 该第二密 封件 13弹性抵接至储油套 21的内壁。 进一步的, 为了避免烟油从挡油件 12与烟 雾通道 26的连接处泄漏, 挡油件 12与烟雾通道 26之间套设有第三密封件 14, 该 第三密封件 14分别弹性抵接至挡油件 12与烟雾通道 26上。
[0075] 可以理解的是, 在其它实施例中, 挡油件 12还可以采用其它可拆卸连接结构来 分别与吸嘴 11和连接环 23相连, 则挡油件 12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。
[0076] 吸嘴 11可拆卸的连接在挡油件 12的一端, 吸嘴 11与挡油件 12之间内形成有与烟
雾通道 26相连通的烟油冷凝腔 110, 吸烟时烟雾通道 26上凝结的烟液顺着气流流 入并存储在吸嘴 11内的烟油冷凝腔 110内, 由于吸嘴 11与挡油件 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 户抽烟时吸到烟液。
[0077] 优选地, 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雾化产生的烟雾经过烟雾通道 26流动至出气孔 111时, 冷凝的烟油存储在烟 油冷凝腔 110内。
[0078] 优选地, 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冷凝 腔 110内的烟油的环形凸台 112 , 以避免用户吸食到烟油。
[0079] 图 8、 图 9、 图 10和图 11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主要在于雾化芯组件 3的结构不同 , 并且本实施例中没 有用于限制雾化芯组件 3的转动幅度的限位部, 雾化芯组件 3与储油组件 2间可以 转动任意幅度。
[0080] 如图 11所示, 雾化芯组件 3包括雾化座 31、 雾化盖 32、 电热丝组件 33、 烟油吸 附板 34、 雾化电极组件 35和第二卡持部 36。
[0081] 其中, 雾化座 31可转动的插设在储油组件 2远离吸嘴组件 1的一端内, 雾化座 31 插设在储油组件 2内的一端与储油组件 2弹性密封相连, 雾化盖 32套设在雾化座 3 1插入至储油组件 2的一端, 雾化电极组件 35固定在雾化座 31远离吸嘴组件 1的一 端并用于与电池组件电连接, 烟油吸附板 34盖设在雾化座 31的一端并与雾化盖 3 2弹性抵接, 电热丝组件 33至于雾化座 31内并用于雾化烟油吸附板 34上的烟油。
[0082] 如图 8所示, 雾化盖 32包括雾化盖主体 321和通气管 322, 雾化盖主体 321套设在 雾化座 31插入至储油组件 2的一端外, 通气管 322的一端固定在雾化盖主体 321上 , 另一端延伸至储油组件 2内。 雾化盖主体 321上设有进油孔 323和安装孔 324, 且进油孔 323和安装孔 324环绕通气管 322均匀分布在雾化盖主体 321上。
[0083] 本实施例中, 雾化盖主体 321上设有两个进油孔 323和两个安装孔 324, 两个进 油孔 323之间的连线与两个安装孔 324之间的连线相互平行。 相对应的, 隔油板 2 5上与所述进油孔 323和安装孔 324相对应的位置处分别幵设有两个导油孔 251和 两个限位槽 252。
[0084] 结合图 9和图 10所示, 两个限位槽 252开设在隔油板 25面向雾化芯组件 3的一端 , 限位槽 252与储油腔 24不连通, 且两个限位槽 252之间的连线与两个导油孔 251 之间的连线相互平行。
[0085] 当旋转储油组件 2或雾化芯组件 3 , 使两个定位珠 44恰好将两个导油孔 251堵住 吋, 此时烟油不能从储油腔 24内流出。 继续将储油组件 2或雾化芯组件 3转动 90° , 此时两个定位珠 44中的一个定位珠 44将两个导油孔 251中的一个导油孔 251堵 住, 两个定位珠 44中的另一个定位珠 44抵接至两个限位槽 252中的一个限位槽 25 2内, 使得烟油只能从两个导油孔 251中的另一个导油孔 251中流出。 继续将储油 组件 2或雾化芯组件 3转动 90°, 两个定位珠 44恰好弹性抵接在两个限位槽 252内, 此时隔油板 25上的两个导油孔 251分别与两个进油孔 323相导通, 储油腔 24内的 烟油可以从两个导油孔 251中流出, 此时的烟油量最大继续将储油组件 2或雾化 芯组件 3转动 90° , 此时两个定位珠 44中的一个定位珠 44将两个导油孔 251中的另 一个导油孔 251堵住, 两个定位珠 44中的一个定位珠 44抵接至两个限位槽 252中 的另一个限位槽 252内, 使得烟油只能从两个导油孔 251中的一个导油孔 251中流 出。 因此, 通过旋转储油组件 2或雾化芯组件 3, 可以控制进油孔 323的进油程度 或关闭所述进油孔 323 , 以满足用户的不同需求。
[0086] 本申请还提供一种电子烟, 该电子烟包括相互连接的电池组件 (图上未示出) 和雾化组件, 其中, 所述电池组件为现有技术, 雾化组件为上述所述的雾化组 件, 故在此不再赘述。
[0087] 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:
[0088] ( 1) 本申请利用储油组件与雾化芯组件发生相对转动, 并通过控制弹珠机构 是否插入所述导油孔, 进而控制所述导油孔的通堵及控制所述进油孔导通或关 闭, 从而避免烟油渗漏及较好地保存烟油, 同时避免烟油吸收空气中的水分而 导致变质的问题, 或者当添加烟油时, 避免烟油在大气压的作用从雾化芯组件 下端流出的缺陷。
[0089] (2) 当用户不使用电子烟吋, 使储油组件与雾化芯组件发生相对转动, 以使 定位珠将导油孔弹性密封住, 由于定位珠能够在固定件内弹性伸缩, 因此密封 效果好。
[0090] (3) 烟油吸附板不仅起到暂存烟油的作用, 使得储油腔内的烟油通过烟油吸 附板渗入电热丝组件内。 同时, 烟油吸附板还可以起到缓冲烟油的作用, 避免 当电热丝组件上的烟油因过饱和而渗出而被用户吸食。
[0091] (4) 储油组件上设置有第一限位部, 雾化座上设置有与该第一限位部相适配 的用于限制雾化芯组件转动幅度的第二限位部, 以使当雾化芯组件相对储油组 件转动预设幅度后, 第一限位部能够限制雾化芯组件转动而使进油孔导通或关 闭。
[0092] 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开的具体实施例, 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 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, 所述雾化组件包括吸嘴组件 (1 ) 、 用于存储烟油的储油组件 (2 ) 及与所述储油组件 (2) 活动连接并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) —端的端面 形成有加油口, 所述吸嘴组件 (1 ) 可拆卸的连接在所述加油口处 , 所述储油组件 (2) 内形成有储油腔 (24) , 所述储油腔 (24) 面向所述雾化芯组件 (3) 的一端设置有隔油板 (25) , 所述隔油 板 (25) 上开设有导油孔 (251 ) ;
所述雾化芯组件 (3) 的一端插设在所述储油组件 (2) 内并与所 述隔油板 (25) 弹性相抵, 所述雾化芯组件 (3) 的另一端延伸出 所述储油组件 (2) 外, 所述雾化芯组件 (3) 插设在所述储油组 件 (2) 内的一端与所述储油组件 (2) 弹性密封相连, 所述储油 组件 (2) 的内壁上设有第一卡持部 (27) , 所述雾化芯组件 (3 ) 的外壁上与所述第一卡持部 (27) 相互卡持的第二卡持部 (36 ) , 以阻止所述雾化芯组件 (3) 从所述储油组件 (2) 上拆卸; 所述雾化芯组件 (3) 的面向所述隔油板 (25) 的端面上设有用于 将所述储油腔 (24) 内的烟油导入所述雾化芯组件 (3) 内进行雾 化的进油孔 (323) , 及用于控制所述储油腔 (24) 内的烟油导入 所述雾化芯组件 (3) 内的弹珠机构 (4) , 所述进油孔 (323) 与 所述导油孔 (251) 的位置相对应, 所述雾化芯组件 (3) 与所述 储油组件 (2) 转动连接, 以使通过控制所述储油组件 (2) 与所 述雾化芯组件 (3) 发生相对转动, 来控制所述弹珠机构 (4) 是 否插入所述导油孔 (251 ) , 进而控制所述导油孔 (251 ) 的通堵 及控制所述进油孔 (323) 导通或关闭。
[权利要求 2] 根据权利要求 1所述的雾化组件, 其特征在于, 所述储油组件 (2
) 上设置有第一限位部 (28) , 所述雾化芯组件 (3) 上设有与所 述第一限位部 (28) 相适配的用于限制所述雾化芯组件 (3) 转动
幅度的第二限位部 (37) , 以使当所述雾化芯组件 (3) 相对所述 储油组件 (2) 转动预设幅度后, 所述第一限位部 (28) 限制所述 雾化芯组件 (3) 转动而使所述进油孔 (323) 导通或关闭。
[权利要求 3] 根据权利要求 2所述的雾化组件, 其特征在于, 所述第一限位部 (
28) 为设置于所述储油组件 (2) 的端面上并沿所述储油组件 (2 ) 的纵向延伸的第一限位柱, 所述第二限位部 (37) 为面向所述 第一限位柱的呈弧形的插槽, 所述第一限位柱可活动的插设在所 述插槽内。
[权利要求 4] 根据权利要求 1所述的雾化组件, 其特征在于, 所述储油组件 (2
) 包括透明的储油套 (21 ) 及套设在所述储油套 (21 ) —端的紧 固套 (22) , 所述储油套 (21 ) 与所述紧固套 (22) 间围成有所 述第一卡持部 (2 , 所述第一卡持部 (2 为卡槽, 所述第二 卡持部 (36) 为凸设在所述雾化芯组件 (3) 的外侧壁上并与所述 卡槽相对应的阻挡环, 所述阻挡环插设在所述卡槽内。
[权利要求 5] 根据权利要求 1所述的雾化组件, 其特征在于, 所述雾化芯组件 (
3) 面向所述隔油板 (25) 的一端设置有雾化盖 (32) , 所述雾化 盖 (32) 包括雾化盖主体 (321 ) 及固定在所述雾化盖主体 (321 ) 上并延伸至所述储油组件 (2) 内的通气管 (322) , 所述雾化 盖主体 (321 ) 上设有用于固定所述弹珠机构 (4) 的安装孔 (324 ) , 所述安装孔 (324) 和所述进油孔 (323) 环绕所述通气管 (3 22) 均匀分布在所述雾化盖主体 (321 ) 上。
[权利要求 6] 根据权利要求 5所述的雾化组件, 其特征在于, 所述弹珠机构 (4
) 包括连接在所述安装孔 (324) 内的固定件 (41 ) , 所述固定件
(41) 面向所述隔油板 (25) 的一端设有安装槽 (42) , 所述安 装槽 (42) 内设有一端连接在所述安装槽 (42) 底壁处的弹性件 (43) , 所述弹性件 (43) 的另一端连接有定位珠 (44) , 所述 定位珠 (44) 弹性抵接至所述隔油板 (25) 。
[权利要求 7] 根据权利要求 5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 (31) 、 所述雾化盖 (32) 、 烟油吸附板 ( 34) 、 雾化电极组件 (35) 及电连接至所述雾化电极组件 (35) 的电热丝组件 (33) ; 所述雾化盖主体 (321) 套设在所述雾化座
(31) 插入至所述储油组件 (2) 的一端外, 所述通气管 (322) 可转动的插设在所述储油组件 (2) 内, 所述雾化电极组件 (35) 固定在所述雾化座 (31) 远离所述吸嘴组件 (1) 的一端并用于与 所述电池组件电连接, 所述烟油吸附板 (34) 由吸油材料制成并 盖设在所述雾化座 (31) 的一端, 所述烟油吸附板 (34) 弹性抵 接至所述雾化盖 (32) , 以使当所述进油孔 (323) 导通吋所述储 油腔 (24) 内的烟油流入所述烟油吸附板 (34) 中, 所述电热丝 组件 (33) 置于所述雾化座 (31) 内并用于雾化所述烟油吸附板
(34) 中的烟油。
[权利要求 8] 根据权利要求 5所述的雾化组件, 其特征在于, 所述进油孔 (323
) 和所述安装孔 (324) 均分别包括两个, 两个所述进油孔 (323 ) 之间的连线与两个所述安装孔 (324) 之间的连线相互垂直。
[权利要求 9] 根据权利要求 5所述的雾化组件, 其特征在于, 所述进油孔 (323
) 和所述安装孔 (324) 均分别包括两个, 两个所述进油孔 (323 ) 之间的连线与两个所述安装孔 (324) 之间的连线相互平行。
[权利要求 10] 根据权利要求 7所述的雾化组件, 其特征在于, 所述雾化座 (31) 的外侧壁套设有第一密封件 (311 ) , 所述第一密封件 (311) 弹 性抵接至所述储油组件 (2) 的内壁, 以使所述雾化芯组件 (3) 与所述储油组件 (2) 弹性密封相连。
[权利要求 11] 根据权利要求 1所述的雾化组件, 其特征在于, 所述吸嘴组件 (1
) 包括挡油件 (12) 和吸嘴 (11) , 所述挡油件 (12) 的一端可 拆卸的连接在所述加油口处并与所述加油口弹性密封相连, 所述 吸嘴 (11) 可拆卸的连接在所述挡油件 (12) 的另一端。
[权利要求 12] 根据权利要求 11所述的雾化组件, 其特征在于, 所述储油组件 (2
) 内形成有用于将所述雾化芯组件 (3) 雾化的烟雾排出至所述吸
嘴组件 (1) 内的烟雾通道 (26) , 所述吸嘴 (11) 内形成有与所 述烟雾通道 (26) 相连通的烟油冷凝腔 (110) , 所述烟油冷凝腔
( 110) 的腔壁处设有出气孔 (111) , 以使所述雾化芯组件 (3) 雾化的烟雾经过所述烟雾通道 (26) 流动至所述出气孔 (111) 时 , 冷凝的烟油能够存储在所述烟油冷凝腔 (110) 内。
[权利要求 13] 根据权利要求 12所述的雾化组件, 其特征在于, 所述出气孔 (111
) 的周缘朝靠近所述雾化芯组件 (3) 的一侧凸设有用于阻隔所述 烟油冷凝腔 (110) 内的烟油的环形凸台 (112) 。
[权利要求 14] 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
, 所述雾化组件包括吸嘴组件 (1) 、 用于存储烟油的储油组件 ( 2) 及与所述储油组件 (2) 活动连接并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) —端的端面 形成有加油口, 所述吸嘴组件 (1) 可拆卸的连接在所述加油口处 , 所述储油组件 (2) 内形成有储油腔 (24) , 所述储油腔 (24) 面向所述雾化芯组件 (3) 的一端设置有隔油板 (25) , 所述隔油 板 (25) 上开设有导油孔 (251) ;
所述雾化芯组件 (3) 的一端插设在所述储油组件 (2) 内并与所 述隔油板 (25) 弹性相抵, 所述雾化芯组件 (3) 的另一端延伸出 所述储油组件 (2) 外, 所述雾化芯组件 (3) 插设在所述储油组 件 (2) 内的一端与所述储油组件 (2) 弹性密封相连, 所述储油 组件 (2) 的内壁上设有第一卡持部 (27) , 所述雾化芯组件 (3 ) 的外壁上与所述第一卡持部 (27) 相互卡持的第二卡持部 (36 ) , 以阻止所述雾化芯组件 (3) 从所述储油组件 (2) 上拆卸; 所述雾化芯组件 (3) 的面向所述隔油板 (25) 的端面上设有用于 将所述储油腔 (24) 内的烟油导入所述雾化芯组件 (3) 内进行雾 化的进油孔 (323) , 及用于控制所述储油腔 (24) 内的烟油导入 所述雾化芯组件 (3) 内的弹珠机构 (4) , 所述进油孔 (323) 与 所述导油孔 (251) 的位置相对应, 所述雾化芯组件 (3) 与所述
储油组件 (2) 转动连接, 以使通过控制所述储油组件 (2) 与所 述雾化芯组件 (3) 发生相对转动, 来控制所述弹珠机构 (4) 是 否插入所述导油孔 (251) , 进而控制所述导油孔 (251) 的通堵 及控制所述进油孔 (323) 导通或关闭。
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