WO2017101058A1 - 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 PDFInfo
- Publication number
- WO2017101058A1 WO2017101058A1 PCT/CN2015/097668 CN2015097668W WO2017101058A1 WO 2017101058 A1 WO2017101058 A1 WO 2017101058A1 CN 2015097668 W CN2015097668 W CN 2015097668W WO 2017101058 A1 WO2017101058 A1 WO 2017101058A1
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- WO
- WIPO (PCT)
- Prior art keywords
- assembly
- atomizing
- nozzle
- oil
- nozzle assembly
- Prior art date
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Classifications
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- 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
- A24F40/42—Cartridges or containers for inhalable precursors
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- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- 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 field relates to the field of electronic cigarettes, and particularly relates to an atomizing assembly and an electronic cigarette which are convenient for adding smoke oil, have a long service life and are hygienic.
- the prior art provides an atomization assembly capable of atomizing smoke oil to form a smoke.
- the specific structure of the atomization assembly provided by the prior art is described in detail below with reference to FIG. 1 and FIG. 2, the atomization.
- the assembly includes a suction nozzle 100, a vent pipe 101 that is electrically connected to the suction nozzle 100, and an upper cover 102 that is tightly fitted to an end of the vent pipe 101.
- the vent pipe 101 is inserted inside the atomization sleeve 103.
- An oil reservoir 104 capable of storing the oil is formed between the vent tube 101 and the atomizing sleeve 103, and the atomizing core assembly 105 is inserted into the end of the vent tube 101 away from the upper cover 102.
- An oil injection hole 106 is provided in communication with the oil reservoir 104.
- the atomization core assembly 105 When it is required to fill the oil storage chamber 104 with the oil, the atomization core assembly 105 needs to be disassembled to expose the oil injection hole 106, so that the oil is injected into the oil storage chamber through the oil injection hole 106. 104.
- the defect of the atomization assembly shown in the prior art is that: (1) since the oil injection hole 106 is disposed higher than the end portion of the vent pipe 101, it is easy to pour the smoke oil into the pass when adding the smoky oil. The trachea 101, the user is very easy to inhale the smoke oil located in the snorkel 101, posing a hidden danger to the user's health; (2) because the atomizing core assembly 105 is at one end of the oil injection hole 106, resulting in the said The oil injection hole 106 formed by the wall of the vent pipe 101 and the wall of the atomization sleeve 103 has a small oil inlet diameter, which causes inconvenience of adding smoke oil, affecting customer experience and efficiency of adding smoke oil; (3) the vent pipe 101 The end surface is lower than the end surface of the atomizing sleeve 103, and the oil is easily poured into the vent pipe 101 after being dropped into the oil reservoir 104; (4) the atomizing core assembly 105 is squirted with smoke oil At the time
- the utility model provides an atomizing component and an electronic cigarette which are convenient for adding smoke oil, have a long service life and are hygienic to use.
- An atomizing assembly for forming an electronic cigarette in combination with a battery assembly comprising an oil storage assembly, a nozzle assembly, a connection assembly and an atomization core assembly, wherein the nozzle assembly and the connection assembly are respectively detachably connected to the The opposite ends of the oil storage assembly, the connecting assembly is away from the end of the nozzle assembly for connecting with the battery assembly, and one end of the atomizing core assembly is detachably inserted into the oil storage assembly The other end of the atomizing core assembly is detachably inserted into the connecting assembly, so that the connecting assembly can remove the atomizing core assembly from the oil storage after the connecting assembly is detached Removed from the component;
- the oil storage assembly includes an oil storage sleeve, a vent tube, a first connecting seat and a second connecting seat, the venting tube is inserted into the oil storage sleeve and communicates with the atomizing core assembly, the through hole a gas pipe for conveying the mist atomized by the atomizing core assembly to the nozzle assembly, one end of the oil storage sleeve being insertedly connected to the first connecting seat, and the other end of the oil storage sleeve
- the second connecting base is connected in a plugged manner, and the first connecting base is detachably connected to the connecting component;
- One end outer surface of the vent pipe is provided with a first outer thread segment, and the first outer thread segment is provided with a first limiting protrusion away from the end of the nozzle assembly, and the second connecting seat is provided with a first internal thread segment, the nozzle assembly is provided with a second internal thread segment, the second coupling sleeve is sleeved on the ventilation tube, and passes through the first internal thread segment and the first external thread One end of the second connecting seat abuts against the first limiting protrusion, the nozzle assembly is detachably inserted at one end of the second connecting seat, and the nozzle assembly passes The second internally threaded section is coupled to the first externally threaded section.
- the nozzle assembly is provided with an air flow passage extending along a longitudinal direction thereof and a first slot communicating with the air flow passage, and an inner wall of the air flow passage is provided with an annular oil barrier ring, and the resistance An angle formed between an end surface of the oil ring facing away from the oil storage assembly and a shaft line of the nozzle assembly is an acute angle, and the oil barrier ring is used to block the smoke oil leaking from the oil storage assembly and the smoke oil to be condensed Draining in the direction of the oil storage assembly, the vent tube is inserted in the first slot to communicate the air flow passage with the vent pipe.
- a first annular groove is disposed on an outer circumferential surface of the vent pipe, and the first annular groove is located between the vent pipe and the nozzle assembly, and the first annular groove inner sleeve A first sealing ring is disposed, and the first sealing ring is elastically abutted against an inner wall of the nozzle assembly.
- the nozzle assembly includes a nozzle body and a second sealing ring, and an outer peripheral surface of one end of the nozzle body is provided with an annular limiting portion and a second annular groove on a side of the limiting portion.
- the limiting portion abuts on the second connecting seat to block the nozzle body from moving toward the oil storage assembly.
- the second sealing ring is sleeved in the second annular groove, and the second sealing ring is elastically resisted by the inner wall of the second connecting seat.
- the nozzle body is integrally formed, or the nozzle body is detachably connected by the nozzle and the nozzle connector;
- the outer peripheral surface of the end of the nozzle is provided with at least one third annular groove, and the third annular groove is located between the nozzle and the nozzle connecting member, the third annular groove
- the inner sleeve is provided with a third sealing ring, and the third sealing ring is elastically resisted by the inner wall of the nozzle connecting member.
- the second connecting seat is disposed near the end of the nozzle assembly, and the limiting groove is matched with the limiting portion, and the limiting groove is used to avoid The nozzle assembly moves in a radial direction of the atomizing assembly.
- the second connecting base comprises an annular sleeve body, and an inner wall of the sleeve body extends inwardly to form an annular oil blocking wall, and an inner wall edge of the oil blocking wall extends away from the nozzle assembly.
- An annular connecting portion, the connecting portion facing away from the end surface of the nozzle assembly abuts against the first limiting protrusion, the inner wall surface of the connecting portion is provided with the first internal thread segment, One end of the nozzle assembly is inserted into the sleeve body, and the sleeve body is connected to the oil storage sleeve.
- the second connecting seat is disposed with an annular second slot away from an end surface of the nozzle assembly, and a fourth sealing ring is disposed in the second slot, and the oil storage sleeve is detachably inserted.
- the oil storage sleeve elastically abuts against the fourth sealing ring.
- the oil blocking wall is provided with a fueling hole communicating with the inner space of the oil storage sleeve, and one end surface of the nozzle assembly is disposed on the oiling hole.
- a distance between the end surface of the vent pipe adjacent to the nozzle assembly and an end surface of the nozzle assembly facing away from the oil storage assembly is a first distance, and the oiling hole is away from the nozzle assembly
- the distance between the end faces of the oil storage assembly is a second distance, and the first distance is less than the second distance.
- the first connecting seat is provided with a fourth annular groove toward the end of the nozzle assembly, the fourth annular groove is sleeved with a fifth sealing ring, and the fifth sealing ring Elastically resisting the end of the oil reservoir away from the nozzle assembly.
- the atomizing core assembly comprises an atomizing cover and an atomizing core sleeve, and one end of the atomizing cover is inserted and fixed at an end of the air pipe away from the nozzle assembly, the atomizing cover The other end is connected to the atomization core sleeve, and the atomization cover is disposed away from the end of the nozzle assembly with a second limiting protrusion, the fog The end of the core sleeve adjacent to the nozzle assembly abuts against the second limiting protrusion, the second limiting protrusion is for preventing the atomizing core sleeve from being adjacent to the end of the nozzle assembly Department movement
- An oil storage cotton is disposed in the atomization core sleeve, and at least one oil passage hole is disposed through a peripheral wall of the atomization core sleeve to make the oil oil stored between the oil storage sleeve and the ventilation tube
- the oil absorbing cotton can be electrically connected to the oil storage cotton, and an atomizing space is disposed along the axial direction of the oil absorbing cotton, and the electric heating wire is disposed inside the atomizing space, so that the electric heating wire is
- the atomized smoke is sequentially conducted to the nozzle assembly via the atomizing core sleeve, the atomizing cover and the vent tube;
- the outer peripheral wall of the atomizing cover is provided with a fifth annular groove, the fifth annular groove is sleeved with a sixth sealing ring, and the sixth sealing ring is elastically abutted with the vent pipe.
- the connecting component includes a first connecting member and a second connecting member made of a conductive material, and the second connecting member is movably sleeved on an outer peripheral wall of the first connecting member, a connecting member is provided with a first through hole communicating with the atomizing space, and a second through hole is disposed through the second connecting member, so that the first through hole can be adjusted when the second connecting member is rotated The area of overlap with the second perforation to adjust the amount of intake air of the atomizing assembly.
- the first connecting member is disposed adjacent to an inner peripheral wall of the end of the nozzle assembly with a third internal thread segment, and the atomizing core sleeve is disposed away from the outer peripheral wall of the end of the nozzle assembly with a second outer portion. a threaded section, the third internal thread section of the first connecting member is threaded onto the second externally threaded section of the atomizing core sleeve;
- the first connecting member is disposed near the outer peripheral wall of the end of the nozzle assembly with a third externally threaded portion, and the inner peripheral wall of the first connecting seat is provided with a fourth internal thread segment, the first connecting member The third outer threaded section is threaded onto the fourth female threaded section of the first connector.
- a sixth annular groove is disposed on an outer peripheral wall of the first connecting member near an end of the nozzle assembly, and a seventh sealing ring is disposed in the sixth annular groove, and the The seven sealing ring is elastically resisted by the first connecting seat;
- a seventh annular groove is disposed on an inner peripheral wall of the first connecting member near an end of the nozzle assembly, and an eighth sealing ring is disposed in the seventh annular groove, and the eighth sealing ring is The atomizing core sleeve is elastically resisted.
- the outer peripheral wall of the first connecting member is provided with at least one eighth annular groove, the eighth annular groove is sleeved with a ninth sealing ring, and the ninth sealing ring and the first Two connectors are elastically resisted hold.
- a target end portion of the first connecting member is disposed with a third limiting protrusion, and a target end portion of the first connecting member corresponds to an end portion of the second connecting member away from the nozzle assembly Abutting the end of the second connecting member away from the nozzle assembly against the third limiting protrusion, the third limiting protrusion is for preventing the second connecting member from being away from the The end of the nozzle assembly moves.
- the atomizing core assembly further includes a first inner electrode and a first insulating ring;
- connection assembly further includes a second inner electrode and a second insulating ring, and the first inner electrode and the second inner electrode are electrically connected to each other;
- the first inner electrode is inserted at an end of the atomizing core sleeve away from the nozzle assembly, and the first insulating ring is disposed between the atomizing core sleeve and the first inner electrode.
- the second inner electrode is disposed to be opposite to the end of the first inner electrode away from the nozzle assembly, and the second insulation is disposed between the first connecting member and the second inner electrode a ring, two ends of the heating wire are electrically connected to the first connecting member and the first inner electrode, respectively.
- An electronic cigarette comprising an atomizing component and a battery component, the battery component for supplying power to the atomizing component to atomize the atomizing component to form smoke, and the atomizing component is
- the battery assembly is detachably connected.
- the utility model provides an atomization assembly and an electronic cigarette.
- the atomization assembly comprises: an oil storage assembly, a nozzle assembly, a connection assembly and an atomization core assembly, wherein the nozzle assembly and the connection assembly are respectively detachable Connected to opposite ends of the oil storage assembly, the connecting assembly is capable of removing the atomizing core assembly from the oil storage assembly when the connecting assembly is disassembled;
- the oil storage assembly includes a storage An oil jacket, a vent pipe, a first connecting seat and a second connecting seat, wherein an outer surface of one end of the vent pipe is provided with a first external thread segment, and the second connecting seat is provided with a first internal thread segment, the nozzle
- the assembly is provided with a second internal threaded section, the second connecting sleeve is sleeved on the venting tube and connected to the first externally threaded section by the first internal threaded section.
- the advantage of using the atomizing assembly shown in the present invention is that the nozzle assembly, the oil storage assembly, the connecting assembly and the atomizing core assembly can be conveniently disassembled, thereby enabling the user to easily replace or Cleaning the nozzle assembly, the oil storage assembly, the connecting assembly, and the atomizing core assembly effectively improves the service life of the atomizing assembly and the sanitary use.
- FIG. 1 is a schematic cross-sectional structural view of an atomizing assembly provided by the prior art
- FIG. 2 is a schematic view showing an explosive connection structure of an atomizing assembly provided by the prior art
- FIG. 3 is a schematic cross-sectional structural view of an embodiment of an atomizing assembly provided by the present invention.
- FIG. 4 is a schematic view showing an explosion connection structure of an embodiment of the atomization assembly provided by the present invention.
- Figure 5 is a cross-sectional structural view showing an embodiment of an oil storage assembly provided by the present invention.
- FIG. 6 is a schematic view showing a partial explosion connection structure of an embodiment of the atomization assembly provided by the present invention.
- Figure 7 is a cross-sectional structural view showing another embodiment of the atomizing assembly provided by the present invention.
- FIG. 8 is a schematic view showing an explosion connection structure of an embodiment of a nozzle assembly provided by the present invention.
- FIG. 9 is a schematic view showing an explosion connection structure of an embodiment of an atomization core assembly provided by the present invention.
- Figure 10 is a schematic view showing an explosion connection structure of an embodiment of the connection assembly provided by the present invention.
- FIG. 11 is a schematic view showing an explosion connection structure of another embodiment of the atomization assembly provided by the present invention.
- Embodiment 1 This embodiment provides an atomizing assembly that facilitates the addition of smoke oil, has a long service life, and is hygienic in use.
- FIG. 3 is a cross-sectional structural view of an embodiment of the atomization assembly provided by the present invention
- FIG. 4 is a schematic diagram of the present invention.
- the atomization assembly provided in this embodiment is used to form a battery in combination with the battery assembly.
- a sub-smoke, and the atomizing assembly is used to atomize the smoke oil to form a smoke when the battery assembly is powered.
- the atomization assembly includes an oil storage assembly 200, a nozzle assembly 300, a connection assembly 400, and an atomization core assembly 500.
- the nozzle assembly 300 and the connecting assembly 400 are detachably connected to opposite ends of the oil storage assembly 200, respectively.
- connection assembly 400 away from the nozzle assembly 300 is for connection with the battery assembly.
- One end of the atomizing core assembly 500 is detachably inserted into the oil storage assembly 200.
- the oil storage assembly 200 is configured to store smoke oil, and the atomization core assembly 500 can atomize the smoke oil stored by the oil storage assembly 200 to form smoke, and the user can pump through the nozzle assembly 300. Suck.
- the other end of the atomizing core assembly 500 is detachably inserted into the connecting assembly 400.
- the connecting assembly 400 is detachably coupled to the atomizing core assembly 500 and the oil storage assembly 200, respectively, such that when the connecting assembly 400 is detached from the oil storage assembly 200
- the connection assembly 400 can be detached from the oil storage assembly 200 together with the atomization core assembly 500, that is, the connection assembly 400 can remove the atomization core assembly 500 from the oil storage assembly 200. Removed.
- the atomizing core assembly 500 can be further detached from the connecting assembly 400, thereby realizing The detachable component of the atomizing assembly.
- connection assembly 400 is detachably connected to the atomization core assembly 500 and the oil storage assembly 200, for example, by any means or combination of threads, snaps, magnets, and the like. .
- the disassembly of the nozzle assembly 300, the oil storage assembly 200, the connection assembly 400, and the atomization core assembly 500 can be conveniently implemented by using the atomization assembly shown in this embodiment, thereby enabling the user to
- the nozzle assembly 300, the oil storage assembly 200, the connecting assembly 400, and the atomizing core assembly 500 are conveniently replaced or cleaned, which effectively improves the service life of the atomizing assembly and the sanitary use.
- the existing smoky oil has a plurality of flavors, and if the smoky oil stored in the atomizing component has the taste A, and the taste of the smoky oil added by the user to the oil storage component 200 is B, and the tastes of A and B are not Similarly, in this embodiment, the user can disassemble the atomization core assembly 500 from the connection assembly 400 and the oil storage assembly 200, so that the user can clean the atomization core assembly 500. The cleaning of the remaining smoke oil of the atomizing core assembly 500 does not cause the occurrence of the situation that the A flavor remaining on the atomizing core assembly 500 is mixed with the B flavor stored in the oil storage assembly 200, thereby effectively improving the suction. The taste of the smoke.
- FIG. 5 is a schematic cross-sectional structural view of an embodiment of an oil storage assembly provided by the present invention
- FIG. 6 is a schematic view showing a partial exploded connection structure of an embodiment of the atomizing assembly provided by the present invention.
- FIG. 6 is a schematic diagram of an explosive connection structure of the nozzle assembly 300 and the oil storage assembly 200 according to the embodiment.
- the oil storage assembly 200 includes an oil storage jacket 201, a vent pipe 202, a first connecting seat 203, and a second connecting seat 204.
- the vent tube 202 is inserted into the oil storage jacket 201 and communicates with the atomizing core assembly 500.
- an oil reservoir 208 capable of storing smoke oil is formed between the vent pipe 202 and the oil storage jacket 201.
- the oil storage sleeve 201 can be made of a transparent material, so that the user can view the amount of remaining oil stored in the oil storage chamber 208 at any time, thereby improving the convenience of the user during use.
- one end of the vent tube 202 is in communication with the nozzle assembly 300, and the other end of the vent tube 202 is in communication with the atomizing core assembly 500 to atomize the atomizing core assembly 500.
- Smoke is conducted to the nozzle assembly 300 via the vent tube 202.
- the first connecting base 203 is The connection assembly 400 is detachably connected.
- One end outer surface of the vent pipe 202 is provided with a first outer thread segment 205.
- the second connecting seat 204 is provided with a first internal thread segment 207, and the nozzle assembly 300 is provided with a second internal thread segment 301, and the second connecting seat 204 is sleeved on the vent pipe 202.
- the second internally threaded section 301 of the nozzle assembly 300 is threaded onto the first externally threaded section 205 of the vent tube 202 to connect the nozzle assembly 300 to the vent tube 202.
- the nozzle assembly 300 is detachably inserted into one end of the second connecting base 204, and the nozzle assembly 300 is connected to the first externally threaded section 205 by the second internal thread section 301.
- the first outer thread segment 205 is disposed away from the end of the nozzle assembly 300 with a first limiting protrusion 206, and one end of the second connecting seat 204 is abutted. Holding on the first limiting protrusion 206.
- the first limiting protrusion 206 can effectively prevent the nozzle assembly 300 from moving toward the oil storage assembly 200, effectively improving the structure between the nozzle assembly 300 and the oil storage assembly 200. Stability.
- the atomizing assembly shown in this embodiment can be used, and the nozzle assembly 300 can be detached from the oil storage assembly 200, thereby facilitating the user to replace or clean the nozzle assembly 300, thereby effectively improving the atomization.
- the life and use of the components are hygienic.
- the port of the oil reservoir 208 leaks out, and the user can pass the oil through the port of the oil reservoir 208.
- the detaching from the oil storage assembly 200 can effectively improve the efficiency of the user to add the oil, and is convenient for the user to operate, and the user does not need to touch the atomizing core assembly 500 during the process of adding the oil.
- the user's hand does not touch the smoke oil on the atomizing core assembly 500, effectively improving the user's experience in adding the smoke oil.
- Embodiment 2 This embodiment describes in detail the specific structure of the atomization component:
- the nozzle assembly 300 is provided with an air flow passage 302 extending in a longitudinal direction thereof and a first slot 304 communicating with the air flow passage 302.
- the inner wall of the air flow channel 302 is provided with an annular oil-blocking ring 303.
- the angle formed by the oil damper 303 facing away from the end surface of the oil storage assembly 200 and the axial line of the nozzle assembly 300 is an acute angle, and the oil damper 303 is used to block the leakage of the oil storage assembly 200.
- the smoke oil and the condensed smoke oil are drained toward the oil storage assembly 200;
- the condensed smoky oil can be drained along the guiding edge of the slinger 303 toward the oil storage assembly 200, thereby causing condensation.
- the smoky oil is returned to the oil storage assembly 200, and the user can effectively avoid the waste of the smoky oil while effectively avoiding the use of the smoky oil, thereby effectively improving the use time of the smoky oil.
- the vent tube 202 is inserted into the first slot 304 to communicate the air flow passage 302 with the vent tube 202.
- the air flow passage 302 shown in this embodiment communicates with the vent pipe 202 such that the smoke flowing through the vent pipe 202 is conducted to the air flow passage 302 to be sucked by the user.
- the outer circumferential surface of one end of the vent pipe 202 is provided with a first annular groove 209.
- the first annular groove 209 is located between the vent pipe 202 and the nozzle assembly 300.
- the first annular groove 209 is sleeved with a first sealing ring 210, and the first sealing ring 210 elastically abuts against an inner wall of the nozzle assembly 300.
- the first sealing ring 210 effectively prevents the smoke oil in the oil reservoir 208 from leaking into the nozzle assembly 300 and the inside of the vent pipe 202, thereby preventing the user from smoking the smoke oil through the nozzle assembly 300. .
- the nozzle assembly 300 includes a nozzle body 305 and a second sealing ring 306.
- An outer peripheral surface of one end of the nozzle body 305 is provided with an annular limiting portion 307 and a second annular groove 308 on a side of the limiting portion 307.
- the limiting portion 307 abuts against the second connecting base 204 to block the nozzle body 305 from moving toward the oil storage assembly 200.
- the second sealing ring 306 is sleeved in the second annular groove 308 , and the second sealing ring 306 is elastically resisted by the inner wall of the second connecting seat 204 .
- the specific structure of the nozzle body 305 is not limited in the embodiment.
- the following description of the nozzle body 305 is an optional embodiment, which is not limited.
- the nozzle body 305 is integrally formed.
- FIG. 7 is a cross-sectional structural view of another embodiment of the atomization assembly provided by the present invention
- FIG. 8 is a schematic view of the nozzle assembly provided by the present invention.
- the nozzle body 305 is detachably connected by the suction nozzle 309 and the nozzle connector 310;
- the outer circumferential surface of the end of the suction nozzle 309 is provided with at least one third annular groove 311, and the third annular groove 311 is located between the suction nozzle 309 and the nozzle connection 310.
- a third sealing ring 312 is sleeved in the third annular groove 311, and the third sealing ring 312 is elastically resisted by the inner wall of the nozzle connecting member 310.
- the configuration of the structure of the nozzle body 305 shown in FIG. 7 and FIG. 8 can facilitate the user to replace or clean the nozzle 309, and the model of the nozzle 309 shown in this embodiment can be combined with other electronic cigarettes.
- the model of the mouth is consistent, which further facilitates the user to change the nozzle 309.
- the second connecting seat 204 is disposed near the end of the nozzle assembly 300 to define a limiting groove 211.
- the limiting groove 211 is matched with the limiting portion 307, and the limiting groove 211 is configured to prevent the nozzle assembly 300 from moving along the radial direction of the atomizing assembly, thereby effectively avoiding The shaking of the nozzle assembly 300 effectively improves the stability of the structure of the atomizing assembly and the service life of the atomizing assembly.
- the second connecting base 204 includes an annular sleeve 212, and an inner wall of the sleeve 212 extends inwardly to form an annular oil blocking wall 213.
- the oil blocking wall 213 can effectively prevent the leakage of the oil to the nozzle assembly 300.
- the inner wall edge of the oil blocking wall 213 extends away from the nozzle assembly 300 to form a ring-shaped connection.
- the connecting portion 214 is opposite to the end surface of the nozzle assembly 300 and abuts against the first limiting protrusion 206.
- the inner wall surface of the connecting portion 214 is provided with the first female thread segment 207. .
- the structure of the second connecting base 204 shown in this embodiment can effectively prevent the second connecting base 204 from moving toward the oil storage assembly 200, avoiding thread misalignment and over-squeezing.
- the oil jacket effectively improves the stability of the structure of the atomizing assembly.
- One end of the nozzle assembly 300 is inserted into the sleeve body 212, and the sleeve body 212 is connected to the oil storage sleeve 201.
- the second connecting seat 204 is disposed away from the end surface of the nozzle assembly 300 and has an annular second slot 215.
- a fourth sealing ring 216 is disposed in the second slot 215, and the oil storage sleeve 201 is detachably inserted into the second slot 215, and an end surface of the oil storage sleeve 201 is opposite to the first
- the four seal rings 216 are elastically abutted.
- the structure shown in this embodiment can effectively prevent the leakage of the oil in the oil reservoir 208 along the gap between the second connector 204 and the oil reservoir 201 to the atomization assembly. Externally, the sealing of the oil reservoir 208 is effectively guaranteed.
- the oil blocking wall 213 is provided with a fueling hole 217 communicating with the inner space of the oil storage jacket 201.
- the oiling hole 217 shown in this embodiment is in communication with the oil reservoir 208.
- FIG. 11 is a schematic view showing an explosion connection structure of another embodiment of the atomization assembly provided by the present invention.
- the nozzle assembly 300 When the user needs to add the oil to the oil reservoir 208, the nozzle assembly 300 is only required to be rotated to disassemble the nozzle assembly 300 from the second connector 204. The hole 217 is exposed, and at this time, the user can add the oil to the oil reservoir 208 through the oil hole 217.
- the number of the oiling holes 217 can be set to be multiple, and the aperture is also relatively large, thereby effectively improving the efficiency of the user to add the smoke oil, and is convenient for the user to operate.
- the atomizing core assembly 500 shown in this embodiment is disposed away from the oiling hole 217.
- the position, that is, the end of the oiling hole 217 is not provided with the atomizing core assembly, so that during the process of adding the oil, it is not blocked by the atomizing core assembly 500, and the oiling hole 217 is
- the number of apertures is large, so that bubbles can be formed in the oil reservoir 208 after the addition of the smoke oil, which affects the appearance.
- an excessive wall 221 is formed between the end surface of the sleeve body 212 and the oil-repellent wall 213 , so that the user adds the smoke oil to the oil-filling hole 217 .
- the smoke oil will flow through the excess wall 221 to flow into the oiling hole 217. It can be seen that during the process of adding the oil, there will be a buffering time, and under the action of the buffering time, the smoke oil will uniformly and continuously flow in.
- the oiling hole 217 does not cause oiling, thereby saving smoke oil, and effectively avoiding the situation where the user's hand touches the emerging oil in the process of adding the oil.
- the distance between the end surface of the vent pipe 202 near the nozzle assembly 300 and the end surface of the nozzle assembly 300 facing away from the oil storage assembly 200 is a first distance
- the distance between the oiling hole 217 and the end surface of the nozzle assembly 300 facing away from the oil storage assembly 200 is a second distance, and the first distance is smaller than the second distance.
- the end surface of the vent pipe 202 adjacent to the nozzle assembly 300 is higher than the end surface of the oiling hole 217, thereby allowing the user to
- the oiling hole 217 is added with the smoky oil, the smoky oil is not easily dripped in the snorkel 202, and the possibility of the user taking the smoky oil is further avoided.
- the first connecting seat 203 is provided with a fourth annular groove 218 toward the end of the nozzle assembly 300.
- a fifth sealing ring 219 is sleeved in the fourth annular groove 218.
- the fifth sealing ring 219 is elastically resisted from the end of the oil storage sleeve 201 away from the nozzle assembly 300.
- FIG. 9 is a schematic diagram of an exploded connection structure of an embodiment of the atomizing core assembly provided by the present invention.
- the atomizing core assembly 500 includes an atomizing cover 501 and an atomizing core sleeve 502. One end of the atomizing cover 501 is inserted and fixed at an end of the vent pipe 202 away from the nozzle assembly 300. The other end of the cover 501 is connected to the atomizing core sleeve 502.
- the end of the atomizing cover 501 away from the nozzle assembly 300 is provided with a second limiting protrusion 503.
- the end of the atomizing core sleeve 502 adjacent to the nozzle assembly 300 is abutted against the second limiting protrusion 503, and the second limiting protrusion 503 is used to prevent the atomizing core sleeve 502. Moving along the end adjacent the nozzle assembly 300.
- the structure shown in this embodiment can effectively improve the stability of the structure of the atomization core assembly 500, and effectively improve the service life of the atomization assembly.
- An oil storage cotton 504 is disposed in the atomization core sleeve 502.
- At least one oil passage 505 is disposed through the peripheral wall of the atomization core sleeve 502 to enable the smoke oil stored between the oil reservoir 201 and the vent pipe 202 to be electrically connected via the oil passage 505 To the oil storage cotton 504.
- An atomizing space 506 is provided through the axial direction of the oil absorbing cotton 504.
- the atomizing space 506 is internally provided with a heating wire 507, so that the mist atomized by the heating wire 507 is sequentially turned on to the atomizing core sleeve 502, the atomizing cover 501 and the vent pipe 202 to The nozzle assembly 300;
- the heating wire 507 shown in this embodiment has a cylindrical structure, thereby effectively improving the area of the heating wire 507 and the oil storage cotton 504, and avoiding the heating wire 507 being empty. Burning to generate a harmful gas, and because the heating wire 507 is in uniform contact with the oil storage 504, the smoke atomized by the heating wire 507 is uniform, which enhances the taste of the user in the process of smoking the smoke.
- the outer peripheral wall of the atomizing cover 501 is provided with a fifth annular groove 508.
- a sixth sealing ring 509 is sleeved in the fifth annular groove 508, and the sixth sealing ring 509 is elastically resisted by the vent pipe 202.
- the snorkeling of the snorkel 202 can be effectively prevented, and the smoke with uniform concentration can be effectively ensured to be connected to the nozzle assembly 300, thereby effectively improving the taste of the user. .
- FIG. 10 is a schematic diagram of an explosive connection structure of an embodiment of the connecting component provided by the present invention.
- the connection assembly 400 includes a first connector 401 and a second connector 402 made of a conductive material.
- the second connecting member 402 is movably sleeved on the outer peripheral wall of the first connecting member 401.
- a first through hole 403 communicating with the atomizing space is disposed through the first connecting member 401
- a second through hole 404 is disposed through the second connecting member 402 .
- the overlapping area of the first through hole 403 and the second through hole 404 can be adjusted to adjust the amount of intake air of the atomizing assembly.
- the atomization assembly shown in this embodiment can effectively adjust the intake air amount of the atomization assembly, thereby enabling the user to adjust the smoke by adjusting the overlapping area of the first through hole 403 and the second through hole 404.
- Concentration because different people have different requirements on the concentration of smoke, so that the atomization assembly shown in this embodiment can meet the user's demand for different smoke concentrations, meet the personalized needs of the user, and effectively protect the user.
- the smoke concentration can be adjusted.
- the first connecting member 401 is disposed near the inner peripheral wall of the end of the nozzle assembly 300 with a third internal thread segment 405.
- the atomizing core sleeve 502 is provided with a second externally threaded section 510 away from the outer peripheral wall of the end of the nozzle assembly 300.
- the third internally threaded section 405 of the first connector 401 is threaded onto the second externally threaded section 510 of the atomizing core sleeve 502.
- the first connecting member 401 is provided with a third externally threaded section 407 near the outer peripheral wall of the end of the nozzle assembly 300.
- the inner peripheral wall of the first connecting seat 203 is provided with a fourth female thread segment 220, and the third outer thread segment 407 of the first connecting member 401 is screwed to the fourth of the first connecting seat 203
- the internal thread section 220 is on.
- connection component 400 The specific structure of the connection component 400 is further described below with reference to FIGS. 4 and 10:
- the first connecting member 401 is provided with a sixth annular groove 408 near the outer peripheral wall of the end of the nozzle assembly 300.
- a seventh sealing ring 409 is sleeved in the sixth annular groove 408, and the seventh sealing ring 409 is elastically resisted by the first connecting seat 203.
- a seventh annular groove 410 is disposed on the inner peripheral wall of the first connecting member 401 adjacent to the end of the nozzle assembly 300, and the seventh annular groove 410 is sleeved with an eighth sealing ring 411, and the Eighth dense
- the sealing ring 411 is elastically resisted by the atomizing core sleeve 502.
- the first connecting member 401 is interference-fitted with the atomizing core assembly 500 by the eighth sealing ring 411, thereby effectively avoiding the possibility of shaking of the atomizing core assembly 500, effectively ensuring the smoke concentration. Stable.
- the outer peripheral wall of the first connecting member 401 is provided with at least one eighth annular groove 412, the ninth sealing ring 413 is sleeved in the eighth annular groove 412, and the ninth sealing ring 413 is
- the second connecting member 402 is elastically resisted.
- the structure between the first connecting member 401 and the second connecting member 402 is stabilized by the ninth sealing ring 413, and if the user rotates the second connecting member 402, the atomizing assembly is advanced.
- the ninth sealing ring 413 is resisted, thereby effectively preventing the second connecting member 402 from rotating along the first connecting member 401, thereby ensuring the stability of the intake air amount.
- it effectively protects the smoke concentration from being satisfied by users.
- the target end portion of the first connecting member 401 is provided with a third limiting protrusion 414 , and the target end portion of the first connecting member 401 and the second connecting member 402 are away from the end of the nozzle assembly 300 . correspond.
- the second connecting member 402 is disposed on the third limiting protrusion 414 away from the end of the nozzle assembly 300.
- the third limiting protrusion 414 is annular in the embodiment.
- the first connecting member 401 is rotatable along the guiding of the third limiting protrusion 414.
- the third limiting protrusion 414 is configured to prevent the second connecting member 402 from moving along an end portion away from the nozzle assembly 300, thereby effectively securing the first connecting member 401 and the second connection.
- the atomizing core assembly 500 further includes a first inner electrode 415 and a first insulating ring 417;
- the first insulating ring 417 is used to electrically isolate the first inner electrode 415 and the first connecting member 401.
- the first inner electrode 415 is inserted at an end of the atomization core sleeve 502 away from the nozzle assembly 300, and the atomization core sleeve 502 and the first inner electrode 415 are disposed between The first insulating ring 417.
- a third through hole 419 is disposed through the first inner electrode 415 to make the outside of the atomizing assembly
- the air flow is sequentially conducted to the atomization space 506 via the second through hole 404, the first through hole 403, and the third through hole 419.
- connection assembly 400 further includes a second inner electrode 416 and a second insulating ring 418.
- the second inner electrode 416 is disposed opposite to the end of the first inner electrode 415 away from the nozzle assembly 300, and the first connecting member 401 and the second inner electrode 416 are The second insulating ring 418 is disposed therebetween.
- the second insulating ring 418 is used to electrically isolate the first connecting member 401 and the second inner electrode 416.
- both ends of the heating wire 507 are electrically connected to the first connecting member 401 and the first inner electrode 415, respectively.
- this embodiment further provides an electronic cigarette, the electronic cigarette comprising an atomizing component and a battery component, wherein the battery component is configured to supply power to the atomizing component to atomize the atomizing component To form a smoke, and the atomizing assembly is detachably coupled to the battery assembly.
- the specific structure of the battery component is not limited in this embodiment, as long as the battery component can supply power to the atomization component, and the specific structure of the atomization component can be as shown in the first embodiment to the second embodiment. It will not be described in detail in this embodiment.
Landscapes
- Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
Abstract
一种雾化组件以及电子烟,雾化组件包括:储油组件(200)、吸嘴组件(300)、连接组件(400)及雾化芯组件(500),吸嘴组件(300)及连接组件(400)分别可拆卸连接于储油组件(200)的相对两端,当将连接组件(400)拆卸后,连接组件(400)能够将雾化芯组件(500)从储油组件(200)内拆出。采用本雾化组件能够使用户方便的更换或清洗吸嘴组件(300)、储油组件(200)、连接组件(400)以及雾化芯组件(500),有效的提升了雾化组件的使用寿命以及使用卫生。在添加烟油的过程中,只需要将吸嘴组件(300)从储油组件(200)上拆卸下来即可,有效的提升了用户添加烟油的效率,而且因在添加烟油的过程中,用户无需触摸雾化芯组件(500),有效的提升了用户在添加烟油过程中的体验。
Description
本领域涉及电子烟领域,尤其涉及的是一种便于添加烟油、使用寿命长以及使用卫生的雾化组件以及电子烟。
现有技术提供了一种能够雾化烟油以形成烟雾的雾化组件,以下结合图1和图2所示对现有技术所提供的雾化组件的具体结构进行详细说明,所述雾化组件包括吸嘴100、与所述吸嘴100导通设置的通气管101,与所述通气管101端部涨紧配合的上盖102,所述通气管101插设在雾化套103内部,且所述通气管101和所述雾化套103之间形成有能够存储烟油的储油腔104,所述通气管101远离所述上盖102的端部插设有雾化芯组件105,与所述储油腔104导通设置有注油孔106。
当需要往所述储油腔104内填充烟油时,需要将所述雾化芯组件105进行拆卸以露出所述注油孔106,从而使得烟油经由所述注油孔106注入所述储油腔104。
现有技术所示的雾化组件的缺陷在于:(1)、因所述注油孔106高于所述通气管101的端部设置,则在添加烟油时容易将烟油倒入所述通气管101,则用户极易吸食到位于所述通气管101内的烟油,对用户的身体健康造成隐患;(2)因所述雾化芯组件105在所述注油孔106一端,导致所述通气管101壁与所述雾化套103壁形成的所述注油孔106进油口径小,导致加烟油不方便,影响客户体验和加烟油的效率;(3)所述通气管101的端面低于所述雾化套103的端面,则烟油滴入所述储油腔104内后容易溢出流入所述通气管101中;(4)旋出所述雾化芯组件105加烟油时,会有很多烟油附着在所述雾化芯组件105上,且容易漏油,造成客户拆卸过程中手上沾有烟油,影响用户体验。
实用新型内容
本实用新型提供了一种便于添加烟油、使用寿命长以及使用卫生的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,其包括储油组件、吸嘴组件、连接组件及雾化芯组件,所述吸嘴组件及所述连接组件分别可拆卸连接于所述储油组件的相对两端,所述连接组件远离所述吸嘴组件的一端用于与所述电池组件相连,所述雾化芯组件的一端可拆卸的插设于所述储油组件内,所述雾化芯组件的另一端可拆卸的插设于所述连接组件内,以使当将所述连接组件拆卸后,所述连接组件能够将所述雾化芯组件从所述储油组件内拆出;
所述储油组件包括储油套、通气管、第一连接座及第二连接座,所述通气管插设在所述储油套内并与所述雾化芯组件相连通,所述通气管用于将所述雾化芯组件雾化的烟雾传送至所述吸嘴组件,所述储油套的一端与所述第一连接座插接相连,所述储油套的另一端与所述第二连接座插接相连,所述第一连接座与所述连接组件可拆卸连接;
所述通气管的一端外表面设置有第一外螺纹段,且所述第一外螺纹段远离所述吸嘴组件的端部设置有第一限位凸起,所述第二连接座设置有第一内螺纹段,所述吸嘴组件设置有第二内螺纹段,所述第二连接座套设在所述通气管上,并通过所述第一内螺纹段与所述第一外螺纹段相连,所述第二连接座的一端抵持在所述第一限位凸起上,所述吸嘴组件可拆卸的插设于所述第二连接座的一端,所述吸嘴组件通过所述第二内螺纹段与所述第一外螺纹段相连。
可选的:所述吸嘴组件设置有沿其纵向方向延伸的气流通道及与所述气流通道相连通的第一插槽,所述气流通道的内壁设置有环形的阻油环,所述阻油环背离所述储油组件的端面与所述吸嘴组件的轴心线之间形成的夹角为锐角,所述阻油环用于阻挡储油组件泄露的烟油以及将冷凝的烟油沿朝向所述储油组件方向引流,所述通气管插设在所述第一插槽内,以使所述气流通道与所述通气管相连通。
可选的:所述通气管一端外周面设置有第一环形凹槽,且所述第一环形凹槽位于所述通气管和所述吸嘴组件之间,所述第一环形凹槽内套设有第一密封圈,且所述第一密封圈与所述吸嘴组件的内壁弹性抵持。
可选的:所述吸嘴组件包括吸嘴本体及第二密封圈,所述吸嘴本体的一端外周面设置有环形的限位部及位于所述限位部一侧的第二环形凹槽,所述限位部抵持在所述第二连接座上,以阻碍所述吸嘴本体朝所述储油组件方向移动,
所述第二密封圈套设在所述第二环形凹槽内,且所述第二密封圈与所述第二连接座的内壁弹性抵持。
可选的:所述吸嘴本体为一体成型设置,或,所述吸嘴本体由吸嘴和吸嘴连接件可拆卸连接设置;
所述吸嘴的端部的外周面设置有至少一个第三环形凹槽,且所述第三环形凹槽位于所述吸嘴和所述吸嘴连接件之间,所述第三环形凹槽内套设有第三密封圈,且所述第三密封圈与所述吸嘴连接件的内壁弹性抵持。
可选的:所述第二连接座靠近所述吸嘴组件的端部设置有限位凹槽,且所述限位凹槽与所述限位部匹配设置,所述限位凹槽用于避免所述吸嘴组件沿所述雾化组件的径向移动。
可选的:所述第二连接座包括环形的套体,所述套体的内壁向内延伸形成有环形的阻油壁,所述阻油壁的内壁缘朝远离吸嘴组件的方向延伸形成有环形的连接部,所述连接部背离所述吸嘴组件的端面抵持在所述第一限位凸起上,所述连接部的内壁面设置有所述第一内螺纹段,所述吸嘴组件的一端插设在所述套体内,所述套体与所述储油套插接相连。
可选的:所述第二连接座远离所述吸嘴组件的端面设置有环形的第二插槽,所述第二插槽内设置有第四密封圈,所述储油套可拆卸的插设在所述第二插槽内,所述储油套的一端端面与所述第四密封圈弹性抵接。
可选的:所述阻油壁设置有与所述储油套内部空间相连通的加油孔,所述吸嘴组件的一端端面盖设在所述加油孔上。
可选的:所述通气管靠近所述吸嘴组件的端面与所述吸嘴组件背离所述储油组件的端面之间的距离为第一距离,所述加油孔与所述吸嘴组件背离所述储油组件的端面之间的距离为第二距离,且所述第一距离小于所述第二距离。
可选的:所述第一连接座朝向所述吸嘴组件的端部设置有第四环形凹槽,所述第四环形凹槽内套设有第五密封圈,且所述第五密封圈与所述储油套远离所述吸嘴组件的端部弹性抵持。
可选的:所述雾化芯组件包括雾化盖及雾化芯套,所述雾化盖的一端插设固定在所述通气管远离所述吸嘴组件的端部,所述雾化盖的另一端与雾化芯套插接相连,所述雾化盖远离所述吸嘴组件的端部设置有第二限位凸起,所述雾
化芯套靠近所述吸嘴组件的端部抵持在所述第二限位凸起上,所述第二限位凸起用于防止所述雾化芯套沿靠近所述吸嘴组件的端部移动;
所述雾化芯套内设置有储油棉,且贯穿所述雾化芯套的周壁设置有至少一个过油孔,以使存储在所述储油套和所述通气管之间的烟油能够经由所述过油孔导通至所述储油棉,沿所述储油棉的轴向贯穿设置有雾化空间,所述雾化空间内部设置有电热丝,以使所述电热丝所雾化的烟雾依次经由所述雾化芯套、所述雾化盖和所述通气管导通至所述吸嘴组件;
所述雾化盖的外周壁设置有第五环形凹槽,所述第五环形凹槽内套设有第六密封圈,且所述第六密封圈与所述通气管弹性抵持。
可选的:所述连接组件包括由导电材质制成的第一连接件和第二连接件,且所述第二连接件活动套设在所述第一连接件的外周壁,贯穿所述第一连接件设置有与所述雾化空间相连通的第一穿孔,贯穿所述第二连接件设置有第二穿孔,以使在旋转所述第二连接件时,能够调整所述第一穿孔与所述第二穿孔的重合面积以调节所述雾化组件的进气量。
可选的:所述第一连接件靠近所述吸嘴组件的端部内周壁设置有第三内螺纹段,所述雾化芯套远离所述吸嘴组件的端部外周壁设置有第二外螺纹段,所述第一连接件的所述第三内螺纹段螺纹连接至所述述雾化芯套的所述第二外螺纹段上;
所述第一连接件靠近所述吸嘴组件的端部外周壁设置有第三外螺纹段,所述第一连接座的内周壁设置有第四内螺纹段,所述第一连接件的所述第三外螺纹段螺纹连接至所述第一连接座的所述第四内螺纹段上。
可选的:所述第一连接件靠近所述吸嘴组件的端部的外周壁设置有第六环形凹槽,所述第六环形凹槽内套设有第七密封圈,且所述第七密封圈与所述第一连接座弹性抵持;
所述第一连接件靠近所述吸嘴组件的端部的内周壁设置有第七环形凹槽,所述第七环形凹槽内套设有第八密封圈,且所述第八密封圈与所述雾化芯套弹性抵持。
可选的:所述第一连接件的外周壁设置有至少一个第八环形凹槽,所述第八环形凹槽内套设有第九密封圈,且所述第九密封圈与所述第二连接件弹性抵
持。
可选的:所述第一连接件的目标端部设置有第三限位凸起,所述第一连接件的目标端部与所述第二连接件远离所述吸嘴组件的端部对应,以使所述第二连接件远离所述吸嘴组件的端部抵持在所述第三限位凸起上,所述第三限位凸起用于防止所述第二连接件沿远离所述吸嘴组件的端部移动。
可选的:所述雾化芯组件还包括第一内电极和第一绝缘环;
所述连接组件还包括第二内电极和第二绝缘环,且所述第一内电极和所述第二内电极相互电连接;
所述第一内电极插设在所述雾化芯套远离所述吸嘴组件的端部,且所述雾化芯套和所述第一内电极之间设置有所述第一绝缘环,贯穿所述第一内电极设置有第三穿孔,以使所述雾化组件外部的气流依次经由所述第二穿孔、所述第一穿孔和所述第三穿孔导通至所述雾化空间;
与所述第一内电极远离所述吸嘴组件的端部相抵持设置有所述第二内电极,且所述第一连接件和所述第二内电极之间设置有所述第二绝缘环,所述电热丝的两端分别与所述第一连接件和所述第一内电极电连接。
一种电子烟,其中,包括雾化组件以及电池组件,所述电池组件用于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,且所述雾化组件与所述电池组件可拆卸连接。
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:储油组件、吸嘴组件、连接组件及雾化芯组件,所述吸嘴组件及所述连接组件分别可拆卸连接于所述储油组件的相对两端,当将所述连接组件拆卸后,所述连接组件能够将所述雾化芯组件从所述储油组件内拆出;所述储油组件包括储油套、通气管、第一连接座及第二连接座,所述通气管的一端外表面设置有第一外螺纹段,所述第二连接座设置有第一内螺纹段,所述吸嘴组件设置有第二内螺纹段,所述第二连接座套设在所述通气管上,并通过所述第一内螺纹段与所述第一外螺纹段相连。采用本实用新型所示的雾化组件的优势在于,能够方便的实现所述吸嘴组件、储油组件、所述连接组件以及所述雾化芯组件的拆卸,进而使得用户可方便的更换或清洗所述吸嘴组件、所述储油组件、所述连接组件以及所述雾化芯组件,有效的提升了雾化组件的使用寿命以及使用卫生。在添加
烟油的过程中,无需拆卸其余部件,只需要将所述吸嘴组件从所述储油组件上拆卸下来即可,有效的提升了用户添加烟油的效率,便于用户操作,而且因在添加烟油的过程中,用户无需触摸所述雾化芯组件,从而使得用户的手部不会触摸到所述雾化芯组件上的烟油,有效的提升了用户在添加烟油过程中的体验。
图1为现有技术所提供的雾化组件的剖面结构示意图;
图2为现有技术所提供的雾化组件的爆炸连接结构示意图;
图3为本实用新型所提供的雾化组件的一种实施例剖面结构示意图;
图4为本实用新型所提供的雾化组件的一种实施例爆炸连接结构示意图;
图5为本实用新型所提供的储油组件的一种实施例剖面结构示意图;
图6为本实用新型所提供的雾化组件的一种实施例局部爆炸连接结构示意图;
图7为本实用新型所提供的雾化组件的另一种实施例剖面结构示意图;
图8为本实用新型所提供的吸嘴组件的一种实施例爆炸连接结构示意图;
图9为本实用新型所提供的雾化芯组件的一种实施例爆炸连接结构示意图;
图10为本实用新型所提供的连接组件的一种实施例爆炸连接结构示意图;
图11为本实用新型所提供的雾化组件的另一种实施例爆炸连接结构示意图。
实施例一,本实施例提供了一种便于添加烟油、使用寿命长以及使用卫生的雾化组件。
首先结合图3和图4所示对所述雾化组件的结构进行详细说明,其中,图3为本实用新型所提供的雾化组件的一种实施例剖面结构示意图,图4为本实用新型所提供的雾化组件的一种实施例爆炸连接结构示意图。
首先需明确的是,本实施例所提供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在所述电池组件供电的情况下雾化烟油以形成烟雾。
所述雾化组件包括:储油组件200、吸嘴组件300、连接组件400及雾化芯组件500。
所述吸嘴组件300及所述连接组件400分别可拆卸连接于所述储油组件200的相对两端。
所述连接组件400远离所述吸嘴组件300的一端用于与所述电池组件相连。
所述雾化芯组件500的一端可拆卸的插设于所述储油组件200内。
所述储油组件200用于存储烟油,所述雾化芯组件500能够将所述储油组件200所存储的烟油雾化以形成烟雾,用户即可通过所述吸嘴组件300进行抽吸。
所述雾化芯组件500的另一端可拆卸的插设于所述连接组件400内。
本实施例中,所述连接组件400分别与所述雾化芯组件500和所述储油组件200可拆卸连接,以使当将所述连接组件400从所述储油组件200上拆卸下来时,所述连接组件400能够连通所述雾化芯组件500一同从所述储油组件200上拆卸下来,即所述连接组件400能够将所述雾化芯组件500从所述储油组件200内拆出。
当所述连接组件400连同所述雾化芯组件500一同从所述储油组件200上拆卸下来时,可进一步的将所述雾化芯组件500从所述连接组件400上拆卸下来,进而实现了雾化组件的可拆卸。
本实施例对所述连接组件400分别如何与所述雾化芯组件500和所述储油组件200可拆卸连接的不作限定,例如,可通过螺纹、卡扣、磁铁等任一种方式或组合。
可见,采用本实施例所示的所述雾化组件能够方便的实现所述吸嘴组件300、储油组件200、所述连接组件400以及所述雾化芯组件500的拆卸,进而使得用户可方便的更换或清洗所述吸嘴组件300、所述储油组件200、所述连接组件400以及所述雾化芯组件500,有效的提升了雾化组件的使用寿命以及使用卫生。
而且,现有的烟油存在多种口味,若雾化组件存储过的烟油口味为A,而用户当前往所述储油组件200添加的烟油口味为B,且A与B的口味不相同,本实施例因便于用户将所述雾化芯组件500从所述连接组件400以及所述储油组件200上进行拆卸,可使得用户在清洗所述雾化芯组件500时,将所述雾化芯组件500残存的烟油进行清洗,则不会使得雾化芯组件500上残存的A口味与所述储油组件200所存储的B口味混合的情况的出现,有效的提升了抽吸烟雾的口感。
以下继续结合图5以及图6对本本实施例所提供的所述储油组件200的具体结构进行详细说明。
其中,图5为本实用新型所提供的储油组件的一种实施例剖面结构示意图,图6为本实用新型所提供的雾化组件的一种实施例局部爆炸连接结构示意图。
具体的,图6为本实施例所提供的吸嘴组件300与储油组件200的爆炸连接结构示意图。
所述储油组件200包括:储油套201、通气管202、第一连接座203及第二连接座204。
所述通气管202插设在所述储油套201内并与所述雾化芯组件500相连通。
本实施例中,所述通气管202与所述储油套201之间形成有能够存储烟油的储油腔208。
可选的,所述储油套201可由透明材质制成,以使用户能够随时查看所述储油腔208所存储的剩余的烟油量,提升了用户使用过程中的便利。
具体的,所述通气管202一端与所述吸嘴组件300相连通,所述通气管202另一端与所述雾化芯组件500相连通,以使所述雾化芯组件500所雾化的烟雾经由所述通气管202导通至所述吸嘴组件300。
所述储油套201的一端与所述第一连接座203插接相连,所述储油套201的另一端与所述第二连接座204插接相连,所述第一连接座203与所述连接组件400可拆卸连接。
以下对所述储油组件200与所述雾化组件的其他部件是如何实现连接的
进行详细说明:
所述通气管202的一端外表面设置有第一外螺纹段205。
所述第二连接座204设置有第一内螺纹段207,所述吸嘴组件300设置有第二内螺纹段301,所述第二连接座204套设在所述通气管202上。
所述吸嘴组件300的所述第二内螺纹段301螺纹连接至所述通气管202的第一外螺纹段205上,以使所述吸嘴组件300与所述通气管202相连。
所述吸嘴组件300可拆卸的插设于所述第二连接座204的一端,所述吸嘴组件300通过所述第二内螺纹段301与所述第一外螺纹段205相连。
为提升所述雾化组件结构的稳定性,所述第一外螺纹段205远离所述吸嘴组件300的端部设置有第一限位凸起206,所述第二连接座204的一端抵持在所述第一限位凸起206上。
所述第一限位凸起206可有效的避免所述吸嘴组件300沿朝向所述储油组件200方向移动,有效的提升了所述吸嘴组件300和所述储油组件200之间结构的稳定性。
可见采用本实施例所示的雾化组件,所述吸嘴组件300能够从所述储油组件200上拆卸下来,从而便于用户更换或清洗所述吸嘴组件300,进而有效的提升了雾化组件的使用寿命和使用卫生。
而且,当用户将所述吸嘴组件300从所述储油组件200上拆卸下来时,所述储油腔208的端口便会漏出,用户便可将烟油通过所述储油腔208的端口加入所述储油腔208内部,可见,相对于现有技术所示的添加烟油的方式,本实施例在添加烟油的过程中,无需拆卸其余部件,只需要将所述吸嘴组件300从所述储油组件200上拆卸下来即可,有效的提升了用户添加烟油的效率,便于用户操作,而且因在添加烟油的过程中,用户无需触摸所述雾化芯组件500,从而使得用户的手部不会触摸到所述雾化芯组件500上的烟油,有效的提升了用户在添加烟油过程中的体验。
实施例二,本实施例对所述雾化组件的具体结构进行详细说明:
首先,结合图3至图6所示对所述吸嘴组件300的具体结构进行说明。
所述吸嘴组件300设置有沿其纵向方向延伸的气流通道302及与所述气流通道302相连通的第一插槽304。
为避免用户吸食到烟油,则本实施例中,所述气流通道302的内壁设置有环形的阻油环303。
所述阻油环303背离所述储油组件200的端面与所述吸嘴组件300的轴心线之间形成的夹角为锐角,所述阻油环303用于阻挡储油组件200泄露的烟油以及将冷凝的烟油沿朝向所述储油组件200方向引流;
具体的,若烟油在所述气流通道302内冷凝以形成烟油时,该冷凝的烟油即可沿所述阻油环303的导向沿朝向所述储油组件200方向引流,从而使得冷凝的烟油回流至所述储油组件200,在避免用户吸食到烟油的同时,还能够有效的避免烟油的浪费,有效的提升烟油的使用时长。
所述通气管202插设在所述第一插槽304内,以使所述气流通道302与所述通气管202相连通。
可见,因本实施例所示的所述气流通道302与所述通气管202相连通,使得流经所述通气管202的烟雾导通至所述气流通道302以被用户吸食。
以下对本实施例所提供的雾化组件如何进一步的避免用户吸食到烟油进行说明:
所述通气管202一端外周面设置有第一环形凹槽209。
具体的,所述第一环形凹槽209位于所述通气管202和所述吸嘴组件300之间。
所述第一环形凹槽209内套设有第一密封圈210,且所述第一密封圈210与所述吸嘴组件300的内壁弹性抵持。
通过所述第一密封圈210有效的避免所述储油腔208内的烟油泄漏至所述吸嘴组件300以及所述通气管202内部,避免用户通过所述吸嘴组件300吸食到烟油。
以下对本实施例所提供的吸嘴组件300的具体结构进行说明:
所述吸嘴组件300包括:吸嘴本体305及第二密封圈306。
所述吸嘴本体305的一端外周面设置有环形的限位部307及位于所述限位部307一侧的第二环形凹槽308。
所述限位部307抵持在所述第二连接座204上,以阻碍所述吸嘴本体305朝所述储油组件200方向移动。
所述第二密封圈306套设在所述第二环形凹槽308内,且所述第二密封圈306与所述第二连接座204的内壁弹性抵持。
实施例对所述吸嘴本体305的具体结构不作限定,以下对所述吸嘴本体305的说明为可选的实施例,不作限定。
可选的,如图6所示,所述吸嘴本体305为一体成型设置。
可选的,结合图7和图8所示,其中,图7为本实用新型所提供的雾化组件的另一种实施例剖面结构示意图;图8为本实用新型所提供的吸嘴组件的一种实施例爆炸连接结构示意图。
所述吸嘴本体305由吸嘴309和吸嘴连接件310可拆卸连接设置;
所述吸嘴309的端部的外周面设置有至少一个第三环形凹槽311,且所述第三环形凹槽311位于所述吸嘴309和所述吸嘴连接件310之间。
所述第三环形凹槽311内套设有第三密封圈312,且所述第三密封圈312与所述吸嘴连接件310的内壁弹性抵持。
通过图7和图8所示的吸嘴本体305的结构的设置方式,可便于用户更换或清洗所述吸嘴309,而且本实施例所示的吸嘴309的型号可与其他电子烟的吸嘴的型号为一致的,进而进一步的便于用户更换吸嘴309。
以下结合图3至图6所示对如何进一步的提升所述吸嘴组件300与所述储油组件200之间结构的稳定性进行详细说明:
所述第二连接座204靠近所述吸嘴组件300的端部设置有限位凹槽211。
所述限位凹槽211与所述限位部307匹配设置,所述限位凹槽211用于避免所述吸嘴组件300沿所述雾化组件的径向移动,从而有效的避免了所述吸嘴组件300的晃动,有效的提升了雾化组件结构的稳定性以及雾化组件的使用寿命。
以下结合图5和图6所示对所述第二连接座204的具体结构进行详细说明:
所述第二连接座204包括环形的套体212,所述套体212的内壁向内延伸形成有环形的阻油壁213。
所述阻油壁213能够有效的避免烟油泄漏至所述吸嘴组件300。
所述阻油壁213的内壁缘朝远离吸嘴组件300的方向延伸形成有环形的连
接部214,所述连接部214背离所述吸嘴组件300的端面抵持在所述第一限位凸起206上,所述连接部214的内壁面设置有所述第一内螺纹段207。
可见,采用本实施例所示的所述第二连接座204的结构,能够有效的避免所述第二连接座204沿朝向所述储油组件200方向移动,避免螺纹错位连接以及过度挤压储油套,有效的提升了所述雾化组件结构的稳定性。
所述吸嘴组件300的一端插设在所述套体212内,所述套体212与所述储油套201插接相连。
以下对所述套体212如何与所述储油套201插接相连的进行详细说明:
所述第二连接座204远离所述吸嘴组件300的端面设置有环形的第二插槽215。
所述第二插槽215内设置有第四密封圈216,所述储油套201可拆卸的插设在所述第二插槽215内,所述储油套201的一端端面与所述第四密封圈216弹性抵接。
采用本实施例所示的结构可有效的避免位于所述储油腔208内的烟油沿所述第二连接座204与所述储油套201之间的间隙泄漏至所述雾化组件的外部,有效的保障了所述储油腔208的密封性。
为便于用户往所述储油腔208内添加烟油,如图6所示,所述阻油壁213设置有与所述储油套201内部空间相连通的加油孔217。
可见,本实施例所示的所述加油孔217与所述储油腔208相连通。
当所述吸嘴组件300螺纹连接至所述第二连接座204上时,所述吸嘴组件300的一端端面盖设在所述加油孔217上。
结合图11所示,其中,图11为本实用新型所提供的雾化组件的另一种实施例爆炸连接结构示意图。
当用户需要往所述储油腔208内添加烟油时,只需旋转所述吸嘴组件300,以将所述吸嘴组件300从所述第二连接座204上拆卸下来,则所述加油孔217即可露出,此时,用户即可通过所述加油孔217往所述储油腔208内添加烟油。
如图5以及图11所示,所述加油孔217的数目可设置有多个,且孔径也比较大,从而有效的提升用户添加烟油的效率,便于用户操作。
而且,本实施例所示的所述雾化芯组件500设置在远离所述加油孔217
的位置,即靠近所述加油孔217端部没有设置有所述雾化芯组件,进而使得在添加烟油的过程中,不会受到雾化芯组件500的阻挡,且所述加油孔217的数目孔径较大,故可防止加烟油后在储油腔208内形成气泡,影响外观。
本实施例中,如图5和图6所示,所述套体212的端面与所述阻油壁213之间形成有过度壁221,进而使得用户在往所述加油孔217内添加烟油时,烟油会流经所述过度壁221以流入所述加油孔217,可见,在添加烟油的过程中,会有缓冲的时间,在缓冲时间的作用下,烟油会均匀恒定的流入所述加油孔217,不会出现冒油的情况,从而节约了烟油,而且有效的避免添加烟油的过程中用户手部接触冒出的烟油的情况。
如图5所示,所述通气管202靠近所述吸嘴组件300的端面与所述吸嘴组件300背离所述储油组件200的端面之间的距离为第一距离;
所述加油孔217与所述吸嘴组件300背离所述储油组件200的端面之间的距离为第二距离,且所述第一距离小于所述第二距离。
即当将所述吸嘴组件300从所述第二连接座204上拆卸下来时,所述通气管202靠近所述吸嘴组件300的端面高于所述加油孔217的端面,从而使得用户往所述加油孔217添加烟油时,烟油不易滴落在所述通气管202内,更进一步的避免了用户吸食到烟油的可能性。
如图5所示,所述第一连接座203朝向所述吸嘴组件300的端部设置有第四环形凹槽218。
所述第四环形凹槽218内套设有第五密封圈219。
其中,所述第五密封圈219与所述储油套201远离所述吸嘴组件300的端部弹性抵持。
以下结合图3以及图9所示对所述雾化芯组件500的具体结构继续详细说明,其中,图9为本实用新型所提供的雾化芯组件的一种实施例爆炸连接结构示意图。
所述雾化芯组件500包括雾化盖501及雾化芯套502,所述雾化盖501的一端插设固定在所述通气管202远离所述吸嘴组件300的端部,所述雾化盖501的另一端与雾化芯套502插接相连。
所述雾化盖501远离所述吸嘴组件300的端部设置有第二限位凸起503,
所述雾化芯套502靠近所述吸嘴组件300的端部抵持在所述第二限位凸起503上,所述第二限位凸起503用于防止所述雾化芯套502沿靠近所述吸嘴组件300的端部移动。
可见,采用本实施例所示的结构能够有效的提升所述雾化芯组件500结构的稳定性,有效的提升了雾化组件的使用寿命。
所述雾化芯套502内设置有储油棉504。
贯穿所述雾化芯套502的周壁设置有至少一个过油孔505,以使存储在所述储油套201和所述通气管202之间的烟油能够经由所述过油孔505导通至所述储油棉504。
沿所述储油棉504的轴向贯穿设置有雾化空间506。
所述雾化空间506内部设置有电热丝507,以使所述电热丝507所雾化的烟雾依次经由所述雾化芯套502、所述雾化盖501和所述通气管202导通至所述吸嘴组件300;
可选的,本实施例所示的所述电热丝507呈圆柱形结构,进而有效的提升了所述电热丝507与所述储油棉504贴合的面积,避免了所述电热丝507空烧以生成有害气体的可能,而且因所述电热丝507与所述储油棉504接触均匀,从而使得所述电热丝507所雾化的烟雾均匀,提升了用户抽吸烟雾过程的口感。
所述雾化盖501的外周壁设置有第五环形凹槽508。
所述第五环形凹槽508内套设有第六密封圈509,且所述第六密封圈509与所述通气管202弹性抵持。
通过设置有所述第六密封圈509,能够有效的避免所述通气管202出现晃动,有效的保障浓度均匀的烟雾导通至所述吸嘴组件300,有效的提升了用户抽吸烟雾的口感。
以下结合图3和图10所示对所述连接组件400的具体结构继续详细说明,其中,图10为本实用新型所提供的连接组件的一种实施例爆炸连接结构示意图
所述连接组件400包括由导电材质制成的第一连接件401和第二连接件402。
所述第二连接件402活动套设在所述第一连接件401的外周壁。
贯穿所述第一连接件401设置有与所述雾化空间相连通的第一穿孔403,贯穿所述第二连接件402设置有第二穿孔404。
在旋转所述第二连接件402时,能够调整所述第一穿孔403与所述第二穿孔404的重合面积以调节所述雾化组件的进气量。
可见,采用本实施例所示的雾化组件能够有效的调节雾化组件的进气量,进而使得用户能够通过调整所述第一穿孔403与所述第二穿孔404的重合面积以调节烟雾的浓度,因不同的人对烟雾的浓度有不同的需求,从而使得本实施例所示的雾化组件能够满足用户对不同烟雾浓度的需求,满足用户个性化的需求,且有效的保障了用户对烟雾浓度可调节的要求。
所述第一连接件401靠近所述吸嘴组件300的端部内周壁设置有第三内螺纹段405。
如图9所示,所述雾化芯套502远离所述吸嘴组件300的端部外周壁设置有第二外螺纹段510。
所述第一连接件401的所述第三内螺纹段405螺纹连接至所述述雾化芯套502的所述第二外螺纹段510上。
所述第一连接件401靠近所述吸嘴组件300的端部外周壁设置有第三外螺纹段407。
所述第一连接座203的内周壁设置有第四内螺纹段220,所述第一连接件401的所述第三外螺纹段407螺纹连接至所述第一连接座203的所述第四内螺纹段220上。
以下结合图4和图10所示对所述连接组件400的具体结构进一步进行说明:
所述第一连接件401靠近所述吸嘴组件300的端部的外周壁设置有第六环形凹槽408。
所述第六环形凹槽408内套设有第七密封圈409,且所述第七密封圈409与所述第一连接座203弹性抵持。
所述第一连接件401靠近所述吸嘴组件300的端部的内周壁设置有第七环形凹槽410,所述第七环形凹槽410内套设有第八密封圈411,且所述第八密
封圈411与所述雾化芯套502弹性抵持。
通过所述第八密封圈411使得所述第一连接件401与所述雾化芯组件500过盈配合,有效的避免了所述雾化芯组件500出现晃动的可能,有效的保障了烟雾浓度的稳定。
所述第一连接件401的外周壁设置有至少一个第八环形凹槽412,所述第八环形凹槽412内套设有第九密封圈413,且所述第九密封圈413与所述第二连接件402弹性抵持。
本实施例通过所述第九密封圈413使得所述第一连接件401与所述第二连接件402之间结构的稳定,若用户旋转所述第二连接件402使得所述雾化组件进气量调节到最佳的状态时,因所述第九密封圈413抵持作用,有效的避免所述第二连接件402沿所述第一连接件401旋转,进而保障了进气量的稳定,进而有效的保障了烟雾浓度维持在用户满意的程度。
所述第一连接件401的目标端部设置有第三限位凸起414,所述第一连接件401的目标端部与所述第二连接件402远离所述吸嘴组件300的端部对应。
所述第二连接件402远离所述吸嘴组件300的端部抵持在所述第三限位凸起414上,本实施例所示的所述第三限位凸起414呈环形,使得所述第一连接件401能够沿所述第三限位凸起414的导向旋转。
所述第三限位凸起414用于防止所述第二连接件402沿远离所述吸嘴组件300的端部移动,从而有效的保障了所述第一连接件401和所述第二连接件402之间结构的稳定性。
以下对所述雾化组件的电连接结构进行详细说明:
可选的,以下结合图7和图10所示:
所述雾化芯组件500还包括第一内电极415和第一绝缘环417;
所述第一绝缘环417用于电性隔离所述第一内电极415和所述第一连接件401。
其中,所述第一内电极415插设在所述雾化芯套502远离所述吸嘴组件300的端部,且所述雾化芯套502和所述第一内电极415之间设置有所述第一绝缘环417。
贯穿所述第一内电极415设置有第三穿孔419,以使所述雾化组件外部的
气流依次经由所述第二穿孔404、所述第一穿孔403和所述第三穿孔419导通至所述雾化空间506。
所述连接组件400还包括第二内电极416和第二绝缘环418。
具体的,与所述第一内电极415远离所述吸嘴组件300的端部相抵持设置有所述第二内电极416,且所述第一连接件401和所述第二内电极416之间设置有所述第二绝缘环418。
所述第二绝缘环418用于电性隔离所述第一连接件401和所述第二内电极416。
为使得所述电热丝507能够雾化烟油以形成烟雾,则所述电热丝507的两端分别与所述第一连接件401和所述第一内电极415电连接。
实施例三,本实施例还提供了一种电子烟,该电子烟包括雾化组件以及电池组件,所述电池组件用于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,且所述雾化组件与所述电池组件可拆卸连接。
本实施例对所述电池组件的具体结构不作限定,只要所述电池组件能够为所述雾化组件供电即可,所述雾化组件的具体结构可参见实施例一至实施例二所示,具体在本实施例中不做赘述。
所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,上述描述的系统,装置和单元的具体工作过程,可以参考前述方法实施例中的对应过程,在此不再赘述。
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 (19)
- 一种雾化组件,用于与电池组件组合形成电子烟,其包括储油组件、吸嘴组件、连接组件及雾化芯组件,其特征在于:所述吸嘴组件及所述连接组件分别可拆卸连接于所述储油组件的相对两端,所述连接组件远离所述吸嘴组件的一端用于与所述电池组件相连,所述雾化芯组件的一端可拆卸的插设于所述储油组件内,所述雾化芯组件的另一端可拆卸的插设于所述连接组件内,以使当将所述连接组件拆卸后,所述连接组件能够将所述雾化芯组件从所述储油组件内拆出;所述储油组件包括储油套、通气管、第一连接座及第二连接座,所述通气管插设在所述储油套内并与所述雾化芯组件相连通,所述通气管用于将所述雾化芯组件雾化的烟雾传送至所述吸嘴组件,所述储油套的一端与所述第一连接座插接相连,所述储油套的另一端与所述第二连接座插接相连,所述第一连接座与所述连接组件可拆卸连接;所述通气管的一端外表面设置有第一外螺纹段,且所述第一外螺纹段远离所述吸嘴组件的端部设置有第一限位凸起,所述第二连接座设置有第一内螺纹段,所述吸嘴组件设置有第二内螺纹段,所述第二连接座套设在所述通气管上,并通过所述第一内螺纹段与所述第一外螺纹段相连,所述第二连接座的一端抵持在所述第一限位凸起上,所述吸嘴组件可拆卸的插设于所述第二连接座的一端,所述吸嘴组件通过所述第二内螺纹段与所述第一外螺纹段相连。
- 根据权利要求1所述的雾化组件,其特征在于:所述吸嘴组件设置有沿其纵向方向延伸的气流通道及与所述气流通道相连通的第一插槽,所述气流通道的内壁设置有环形的阻油环,所述阻油环背离所述储油组件的端面与所述吸嘴组件的轴心线之间形成的夹角为锐角,所述阻油环用于阻挡储油组件泄露的烟油以及将冷凝的烟油沿朝向所述储油组件方向引流,所述通气管插设在所述第一插槽内,以使所述气流通道与所述通气管相连通。
- 根据权利要求2所述的雾化组件,其特征在于:所述通气管一端外周面设置有第一环形凹槽,且所述第一环形凹槽位于所述通气管和所述吸嘴组件之间,所述第一环形凹槽内套设有第一密封圈,且所述第一密封圈与所述吸嘴组件的内壁弹性抵持。
- 根据权利要求1至3任一项所述的雾化组件,其特征在于:所述吸嘴组件包括吸嘴本体及第二密封圈,所述吸嘴本体的一端外周面设置有环形的限位部及位于所述限位部一侧的第二环形凹槽,所述限位部抵持在所述第二连接座上,以阻碍所述吸嘴本体朝所述储油组件方向移动,所述第二密封圈套设在所述第二环形凹槽内,且所述第二密封圈与所述第二连接座的内壁弹性抵持。
- 根据权利要求4所述的雾化组件,其特征在于:所述吸嘴本体为一体成型设置,或,所述吸嘴本体由吸嘴和吸嘴连接件可拆卸连接设置;所述吸嘴的端部的外周面设置有至少一个第三环形凹槽,且所述第三环形凹槽位于所述吸嘴和所述吸嘴连接件之间,所述第三环形凹槽内套设有第三密封圈,且所述第三密封圈与所述吸嘴连接件的内壁弹性抵持。
- 根据权利要求4所述的雾化组件,其特征在于:所述第二连接座靠近所述吸嘴组件的端部设置有限位凹槽,且所述限位凹槽与所述限位部匹配设置,所述限位凹槽用于避免所述吸嘴组件沿所述雾化组件的径向移动。
- 根据权利要求1或2所述的雾化组件,其特征在于:所述第二连接座包括环形的套体,所述套体的内壁向内延伸形成有环形的阻油壁,所述阻油壁的内壁缘朝远离吸嘴组件的方向延伸形成有环形的连接部,所述连接部背离所述吸嘴组件的端面抵持在所述第一限位凸起上,所述连接部的内壁面设置有所述第一内螺纹段,所述吸嘴组件的一端插设在所述套体内,所述套体与所述储油套插接相连。
- 根据权利要求7所述的雾化组件,其特征在于:所述第二连接座远离所述吸嘴组件的端面设置有环形的第二插槽,所述第二插槽内设置有第四密封圈,所述储油套可拆卸的插设在所述第二插槽内,所述储油套的一端端面与所述第四密封圈弹性抵接。
- 根据权利要求7或8所述的雾化组件,其特征在于:所述阻油壁设置有与所述储油套内部空间相连通的加油孔,所述吸嘴组件的一端端面盖设在所述加油孔上。
- 根据权利要求9所述的雾化组件,其特征在于:所述通气管靠近所述吸嘴组件的端面与所述吸嘴组件背离所述储油组件的端面之间的距离为第一距离,所述加油孔与所述吸嘴组件背离所述储油组件的端面之间的距离为第二 距离,且所述第一距离小于所述第二距离。
- 根据权利要求1所述的雾化组件,其特征在于:所述第一连接座朝向所述吸嘴组件的端部设置有第四环形凹槽,所述第四环形凹槽内套设有第五密封圈,且所述第五密封圈与所述储油套远离所述吸嘴组件的端部弹性抵持。
- 根据权利要求1所述的雾化组件,其特征在于:所述雾化芯组件包括雾化盖及雾化芯套,所述雾化盖的一端插设固定在所述通气管远离所述吸嘴组件的端部,所述雾化盖的另一端与雾化芯套插接相连,所述雾化盖远离所述吸嘴组件的端部设置有第二限位凸起,所述雾化芯套靠近所述吸嘴组件的端部抵持在所述第二限位凸起上,所述第二限位凸起用于防止所述雾化芯套沿靠近所述吸嘴组件的端部移动;所述雾化芯套内设置有储油棉,且贯穿所述雾化芯套的周壁设置有至少一个过油孔,以使存储在所述储油套和所述通气管之间的烟油能够经由所述过油孔导通至所述储油棉,沿所述储油棉的轴向贯穿设置有雾化空间,所述雾化空间内部设置有电热丝,以使所述电热丝所雾化的烟雾依次经由所述雾化芯套、所述雾化盖和所述通气管导通至所述吸嘴组件;所述雾化盖的外周壁设置有第五环形凹槽,所述第五环形凹槽内套设有第六密封圈,且所述第六密封圈与所述通气管弹性抵持。
- 根据权利要求12所述的雾化组件,其特征在于:所述连接组件包括由导电材质制成的第一连接件和第二连接件,且所述第二连接件活动套设在所述第一连接件的外周壁,贯穿所述第一连接件设置有与所述雾化空间相连通的第一穿孔,贯穿所述第二连接件设置有第二穿孔,以使在旋转所述第二连接件时,能够调整所述第一穿孔与所述第二穿孔的重合面积以调节所述雾化组件的进气量。
- 根据权利要求13所述的雾化组件,其特征在于:所述第一连接件靠近所述吸嘴组件的端部内周壁设置有第三内螺纹段,所述雾化芯套远离所述吸嘴组件的端部外周壁设置有第二外螺纹段,所述第一连接件的所述第三内螺纹段螺纹连接至所述述雾化芯套的所述第二外螺纹段上;所述第一连接件靠近所述吸嘴组件的端部外周壁设置有第三外螺纹段,所述第一连接座的内周壁设置有第四内螺纹段,所述第一连接件的所述第三外螺 纹段螺纹连接至所述第一连接座的所述第四内螺纹段上。
- 根据权利要求13或14所述的雾化组件,其特征在于:所述第一连接件靠近所述吸嘴组件的端部的外周壁设置有第六环形凹槽,所述第六环形凹槽内套设有第七密封圈,且所述第七密封圈与所述第一连接座弹性抵持;所述第一连接件靠近所述吸嘴组件的端部的内周壁设置有第七环形凹槽,所述第七环形凹槽内套设有第八密封圈,且所述第八密封圈与所述雾化芯套弹性抵持。
- 根据权利要求13或14所述的雾化组件,其特征在于:所述第一连接件的外周壁设置有至少一个第八环形凹槽,所述第八环形凹槽内套设有第九密封圈,且所述第九密封圈与所述第二连接件弹性抵持。
- 根据权利要求16所述的雾化组件,其特征在于:所述第一连接件的目标端部设置有第三限位凸起,所述第一连接件的目标端部与所述第二连接件远离所述吸嘴组件的端部对应,以使所述第二连接件远离所述吸嘴组件的端部抵持在所述第三限位凸起上,所述第三限位凸起用于防止所述第二连接件沿远离所述吸嘴组件的端部移动。
- 根据权利要求17所述的雾化组件,其特征在于:所述雾化芯组件还包括第一内电极和第一绝缘环;所述连接组件还包括第二内电极和第二绝缘环,且所述第一内电极和所述第二内电极相互电连接;所述第一内电极插设在所述雾化芯套远离所述吸嘴组件的端部,且所述雾化芯套和所述第一内电极之间设置有所述第一绝缘环,贯穿所述第一内电极设置有第三穿孔,以使所述雾化组件外部的气流依次经由所述第二穿孔、所述第一穿孔和所述第三穿孔导通至所述雾化空间;与所述第一内电极远离所述吸嘴组件的端部相抵持设置有所述第二内电极,且所述第一连接件和所述第二内电极之间设置有所述第二绝缘环,所述电热丝的两端分别与所述第一连接件和所述第一内电极电连接。
- 一种电子烟,其特征在于,包括雾化组件以及电池组件,所述电池组件用于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,且所述雾化组件与所述电池组件可拆卸连接。
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