WO2018112755A1 - 一种雾化器 - Google Patents
一种雾化器 Download PDFInfo
- Publication number
- WO2018112755A1 WO2018112755A1 PCT/CN2016/111084 CN2016111084W WO2018112755A1 WO 2018112755 A1 WO2018112755 A1 WO 2018112755A1 CN 2016111084 W CN2016111084 W CN 2016111084W WO 2018112755 A1 WO2018112755 A1 WO 2018112755A1
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- WO
- WIPO (PCT)
- Prior art keywords
- smoke
- chamber
- atomizer
- assembly
- tobacco
- 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
- A24F40/30—Devices using two or more structurally separated inhalable precursors, e.g. using two liquid precursors in two cartridges
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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
-
- 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
- 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
- A24F40/49—Child proofing
-
- 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
-
- 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
- A24F40/20—Devices using solid inhalable precursors
Definitions
- the invention relates to the field of electronic cigarettes, in particular to an atomizer
- the technicians developed atomized electronic cigarettes and electronic flue-cured tobacco.
- the atomized electronic cigarettes form aerosols by atomizing the smoke liquid for smoking by smokers, atomizing
- e-cigarette overcomes the above deficiencies of traditional cigarettes, it can satisfy consumer's dependence on tobacco to a certain extent, but the smoke liquid of e-cigarette is made up of flavor and fragrance, which is not a real cigarette product, and its smoke is light. Lack of tobacco aroma, and can not be widely accepted by consumers.
- the existing low-temperature electronic flue-cured tobacco uses a low temperature (about 100 degrees Celsius) non-combustion method to heat the shredded tobacco.
- the heating temperature is low, the amount of harmful substances generated by heating is small, but the amount of smoke is obviously insufficient.
- the tobacco is heated at a high temperature, the tobacco is easily blackened, carbonized, and the heat distribution is uneven, and it is easy to cause a problem that some of the tobacco has been carbonized and the temperature of the other portion is insufficient, thereby causing more harmful. substance.
- How to absorb the aromatic smell of tobacco and to reduce harmful substances to a large extent has become an urgent problem for the tobacco industry.
- the present invention provides an atomizer capable of greatly reducing the user's intake of harmful substances to tobacco.
- the present invention provides an atomizer comprising an atomizer body, the surface of the outer surface of the atomizer is provided with a smoke outlet for discharging smoke for the user to take, characterized in that the atomizer body is provided with a body a receiving chamber, an oil storage chamber, an atomizing chamber and a heating assembly, the receiving chamber being in communication with the atomizing chamber and the smoke outlet, the receiving chamber for placing tobacco and serving as a first smoke passage, the heating An assembly is disposed in the atomization chamber and is used for atomizing the oil in the oil reservoir to form a smoke, and the mist formed by atomization in the atomization chamber is used to heat the tobacco in the chamber. To generate a mixed smoke such that when smoking, the mixed smoke flows through the first smoke passage to the smoke outlet.
- the atomizer body is further provided with a second smoke passage, and the second smoke passage is The smoke outlet is in communication with the atomization chamber, and the second smoke passage is for diverting a portion of the smoke within the atomization chamber and directing the portion of the smoke to the smoke outlet.
- the atomizer body comprises an atomizer body and a nozzle assembly, the atomizer body is used for atomizing smoke oil to form smoke, and the oil storage chamber is disposed in the atomizer body.
- the atomizing chamber and the heating assembly; the nozzle assembly is detachably coupled to the atomizer body, the receiving chamber is located in the nozzle assembly, the receiving chamber and the nozzle assembly a surface facing the atomizer body and connected with a smoke insertion cavity facing the atomizer body, the atomizer body when the nozzle assembly is connected to the atomizer body Covering the mouth of the insertion chamber; when the nozzle assembly is separated from the atomizer body, the tobacco can be inserted into the receiving chamber from the mouth of the insertion chamber of the receiving chamber or the tobacco is removed from the Take out inside the accommodating chamber.
- the nozzle assembly is provided with a sidewall at one end of the receiving cavity and is provided with a slot communicating with the outer surface of the nozzle assembly as the second smoke passage, the slot is located in the mist
- two ends of the slit are respectively connected with the atomization chamber and the smoke outlet, and the slit is provided with a notch facing the receiving chamber and communicating with the receiving chamber;
- the tobacco covers the slot when the receiving chamber is interposed with tobacco such that at least a portion of the aerosol within the atomizing chamber flows through the slot to the smoke outlet when the atomizer is in operation.
- the nozzle assembly has a tubular structure, the smoke outlet is located at one end of the nozzle assembly, and the smoke insertion chamber of the receiving chamber is located away from the smoke outlet of the nozzle assembly.
- the slit extends along the longitudinal direction of the nozzle assembly and extends through the side wall of the nozzle assembly.
- the nozzle assembly is provided with a plurality of the slots, and a predetermined interval is disposed between any two adjacent slots, and the slots are strip-shaped.
- an end of the receiving cavity facing away from the mouth of the insertion mouth is provided with a limiting plate for blocking movement of the tobacco away from the mouth of the insertion mouth, and the surface of the limiting plate faces the smoke
- One side of the outlet is provided with a third smoke passage disposed coaxially with the receiving cavity, one end of the third smoke passage is in communication with the receiving chamber, and the other end of the third smoke passage is connected to the smoke outlet
- the length of the slot is greater than the distance from the limiting plate to the mouth of the insertion chamber, and the end of the slot away from the mouth of the insertion chamber is in communication with the third smoke passage.
- the nozzle assembly is disposed at a side wall of one end of the atomizer body and is provided with a seat
- the outer surface of the nozzle assembly is in communication and serves as a through hole of the second smoke passage, and the through hole communicates with the atomization chamber and the smoke outlet to enable the atomization when the atomizer is operated At least a portion of the fumes within the chamber flow through the through holes to the smoke outlet.
- an end of the receiving cavity facing away from the mouth of the insertion mouth is provided with a limiting plate for blocking movement of the tobacco away from the mouth of the insertion mouth, the surface of the limiting plate facing the smoke
- One side of the outlet is provided with a third smoke passage disposed coaxially with the receiving cavity, one end of the third smoke passage is in communication with the receiving chamber, and the other end of the third smoke passage is connected to the smoke outlet
- the distance from the through hole to the mouth of the insertion chamber is greater than the distance from the limiting plate to the mouth of the insertion chamber, and the through hole is in communication with the third smoke passage.
- a gap is formed between the outer peripheral surface of one end of the atomizer body and the atomizer body, and the gap is communicated with the through hole and the atomization cavity.
- the gap is for at least a portion of the smoke within the atomization chamber to flow into the through hole through the gap when the atomizer is in operation, and then flows through the through hole to the smoke outlet.
- a partition plate is disposed between the atomization chamber and the accommodating chamber for blocking movement of the tobacco in the accommodating chamber toward the atomization chamber, and the partition plate is provided with at least one perforation.
- the through hole is in communication with the receiving chamber and the atomization chamber.
- the atomizer body comprises an atomizer body and a nozzle assembly, the atomizer body is used for atomizing smoke oil to form smoke, and the oil storage chamber is disposed in the atomizer body.
- the atomization chamber and the heating assembly, one end of the atomizer body is provided with a insertion slot, and one end of the nozzle assembly is detachably inserted into the insertion slot, the spacer
- the socket is received in the insertion slot and detachably connected to the slot wall of the insertion slot, so that the partition can be removed from the insertion slot after the nozzle assembly is detached.
- the partition plate has a disc shape, and an outer circumferential surface of the partition plate is sleeved with a sealing ring that elastically abuts against a groove wall of the insertion groove.
- the atomizer body comprises an atomizer body and a nozzle assembly, the atomizer body is used for atomizing smoke oil to form smoke, and the oil storage chamber is disposed in the atomizer body.
- the atomization chamber and the heating assembly, one end of the atomizer body is provided with a insertion slot, and one end of the nozzle assembly is detachably inserted into the insertion slot, the spacer
- the insertion slot is disposed in the insertion slot, and the insertion slot is formed between the partition plate and the nozzle assembly to form the receiving cavity.
- an end of the receiving cavity facing away from the mouth of the insertion mouth is provided with a limiting mechanism for blocking movement of the tobacco away from the mouth of the insertion mouth.
- the limiting mechanism is a limiting step disposed around a cavity wall of the receiving cavity.
- a filter screen is disposed in the receiving cavity at an end of the receiving cavity facing the smoke outlet, and the filter mesh is used to block the tobacco in the receiving cavity from entering the user's mouth.
- the heating assembly is the only heating device in the atomizer.
- the atomizer body comprises an atomizer body and a nozzle assembly, the atomizer body comprises an oil storage assembly and an atomizing core assembly inserted in the oil storage assembly, the oil storage
- the oil storage chamber is formed in the assembly;
- the atomization core assembly comprises an atomization sleeve, a smoke oil adsorption sleeve, a heating wire, an upper insulation ring and an upper electrode, and the tube wall of the atomization sleeve is provided with An oil inlet hole communicating with the oil storage chamber, the smoke oil adsorption sleeve is disposed in the atomization sleeve and covering the oil inlet hole, and the heating wire is used as the heating assembly, the heating wire Winding and at least partially sleeved in the soot oil adsorption sleeve to atomize the smoke oil in the smoke oil adsorption sleeve, the atomization chamber is formed in the smoke oil adsorption sleeve, the insulation
- the oil storage assembly includes an oil storage assembly body and a detachable assembly detachably inserted at one end of the oil storage assembly body, and the tamper assembly includes an air conditioning seat, an elastic member, and Activity cover
- One end of the air conditioning seat is inserted into the main body of the oil storage assembly and is screwed with the main body of the oil storage assembly, and the other end of the air conditioning seat extends outside the main body of the oil storage assembly, the elasticity a member is fixed on the air conditioning seat and elastically resists the movable cover to provide the movable cover with an elastic force away from the main body of the oil storage assembly, and the movable cover is disposed at the air conditioning seat Facing the one end of the oil storage assembly body, the movable cover is provided with an engaging groove, and the air adjusting seat is provided with engaging teeth for engaging with the engaging groove, the engaging groove is away from the meshing tooth a preset distance; when the tamper assembly needs to be detached from the oil accommodating member body, a force in a direction toward the ventilating seat is applied to the movable cover until the engaging groove engages with the meshing tooth , thereby detaching the tamper-preventing assembly from the oil-storage assembly body by rotating the movable cover.
- the atomizing core assembly is movably inserted in the oil storage assembly, the atomizing core assembly One end of the threaded connection with the tamper assembly such that the atomizing core assembly can be removed from the oil storage assembly together with the tamper assembly when the tamper assembly is removed from the oil sump assembly body Take out the main body.
- the cavity wall of the accommodating cavity is recessed with a venting groove extending along a longitudinal direction of the accommodating cavity to serve as the second smog channel, and one end of the venting groove is connected to the atomizing cavity The other end of the venting groove is in communication with the smoke outlet.
- the atomizer body comprises an atomizer body and a nozzle assembly
- the atomizer body comprises a first sleeve, a smoke adsorbing member, a support tube and an electrode assembly
- the support tube is inserted in In the first sleeve
- the heating assembly is fixed in the support tube
- the atomization chamber is formed in the support tube
- the oil storage chamber is formed between the support tube and the first sleeve.
- the smoke oil adsorbing member is sleeved outside the support tube and located in the oil storage chamber
- the heating assembly is electrically connected to the electrode assembly
- one end of the electrode assembly is connected to the first sleeve.
- the other end of the electrode assembly extends outside the first sleeve and is used for electrical connection with an external power source;
- the nozzle assembly includes a second sleeve, a tobacco fixing sleeve and a nozzle cover, and the tobacco fixing sleeve is disposed In the second sleeve, the nozzle cover is disposed on an end surface of the second sleeve, the nozzle cover is provided with the smoke outlet, and the tobacco fixing sleeve is provided with the receiving a cavity and the venting groove, the first sleeve and the second sleeve are integrated .
- an end of the accommodating cavity facing away from the nozzle cover is provided with an annular limiting step for blocking the movement of the tobacco away from the smoke outlet direction, the limiting step A surface facing the nozzle cover is provided with a groove for communicating with the venting groove and the atomizing chamber for the flow of smoke.
- the first smoke passage is spaced apart from the second smoke passage, and the first smoke passage and the second smoke passage are disposed to isolate the first smoke passage and the second Isolation component of the smoke passage.
- the present invention is provided with a receiving chamber, an oil storage chamber, an atomizing chamber and a heating assembly in the atomizer body, the receiving chamber and the atomizing
- the chamber is in communication with the smoke outlet
- the receiving chamber is for placing tobacco and serving as a first smoke passage
- the heating assembly is disposed in the atomization chamber and is used for atomizing the oil in the oil storage chamber to Forming smoke
- the mist formed by atomization in the atomization chamber is used to heat the tobacco in the accommodation chamber to generate mixed smoke, so that the mixed smoke flows through the first smoke passage when smoking To the smoke exit.
- the tobacco in the atomizer of the present invention is heated only by the high temperature smoke generated by the atomization chamber, and the tobacco is baked without an additional electric heating device, thereby uniformly heating and fully accommodating the aroma of the tobacco in the cavity.
- the taste is steamed out, and the amount of smoke is large, which avoids the problem that the prior art is easy to carbonize when the tobacco is baked by the electric heating device, and still causes more harmful substances.
- FIG. 1 is a schematic overall structural view of an embodiment of an atomizer provided by the present invention.
- FIG. 2 is a schematic cross-sectional structural view of an embodiment of an atomizer provided by the present invention.
- FIG. 3 is a cross-sectional structural view showing another embodiment of the atomizer provided by the present invention.
- FIG. 4 is a schematic cross-sectional structural view of another atomizer according to the present invention.
- Figure 5 is a cross-sectional structural view showing another embodiment of the atomizer provided by the present invention.
- FIG. 6 is a schematic view showing an explosion connection structure of an embodiment of the atomizer provided by the present invention.
- FIG. 7 is a schematic cross-sectional exploded connection structure of an embodiment of an atomizer provided by the present invention.
- FIG. 8 is a schematic overall structural view of an embodiment of a nozzle assembly provided by the present invention.
- Figure 9 is a cross-sectional structural view showing another embodiment of the atomizer provided by the present invention.
- FIG. 10 is a schematic overall structural view of an embodiment of a nozzle assembly provided by the present invention.
- Figure 11 is a cross-sectional structural view showing another embodiment of the atomizing assembly provided by the present invention.
- FIG. 12 is a cross-sectional structural view showing another embodiment of the atomizing assembly provided by the present invention.
- Figure 13 is a schematic view showing a partial exploded connection structure of an embodiment of the atomizer provided by the present invention.
- Figure 14 is a schematic view showing a partial explosion connection structure of an embodiment of the atomizer provided by the present invention.
- 15 is a partial structural schematic view of an embodiment of an atomizer provided by the present invention.
- 16 is a partial cross-sectional structural view showing an embodiment of an atomizer according to the present invention.
- Figure 17 is a cross-sectional structural view showing another embodiment of the atomizer provided by the present invention.
- Figure 18 is a schematic view showing the overall structure of an embodiment of a tobacco fixing sleeve provided by the present invention.
- the present embodiment provides an atomizer.
- the atomizer shown in this embodiment enables the user to smoke the smoke with the same taste as the real cigarette during the process of smoking the smoke, and can avoid the burning of the real smoke.
- FIG. 1 is a schematic overall structural view of an embodiment of the atomizer provided by the present invention.
- 2 is a schematic cross-sectional structural view of an embodiment of the atomizer provided by the present invention.
- the atomizer shown in this embodiment includes an atomizer body 1 including an atomizer body 100 and a nozzle assembly 101, wherein the atomizer body 100 is used for atomizing smoke oil To form the smoke, the nozzle assembly 101 is provided with a smoke outlet 102 for exhausting smoke for the user to smoke.
- the atomizer body 100 is provided with an oil storage chamber 103, an atomization chamber 104 and a heating assembly 105.
- the oil reservoir 103 for storing the smoke oil shown in this embodiment is electrically connected to the atomization chamber 104, so that the oil in the oil reservoir 103 can flow to the location.
- the heating assembly 105 within the atomization chamber 104 enables the heating assembly 105 to atomize the fumes in the reservoir 103 to form a mist.
- the specific structure of the oil storage chamber 103, the atomization chamber 104 and the heating assembly 105 is not limited in this embodiment, as long as the heating assembly 105 located in the atomization chamber 104 can set the smoke located in the oil storage chamber 103.
- the oil is atomized to generate smoke.
- the inside of the atomizer shown in this embodiment is further provided with a receiving cavity.
- the specific structure of the receiving cavity shown in this embodiment has two examples:
- the accommodating chamber 200 shown in this manner is disposed inside the nozzle assembly 101;
- the accommodating chamber 300 shown in this arrangement is disposed inside the atomizer body 100.
- the first setting mode that is, the accommodating chamber 200 is explained:
- FIG. 3 is a schematic cross-sectional structural view of another embodiment of the atomizer according to the present invention. Specifically, FIG. 2 shows the receiving chamber 200. Tobacco is not disposed inside, and the inside of the accommodating chamber 200 shown in FIG. 3 is provided with tobacco 201.
- the tobacco shown in this embodiment may be a common cigarette sold on the market, that is, in actual use, the user may directly insert the cigarette inside the accommodating chamber 200, or insert a part of the cigarette in the The interior of the chamber 200 is received.
- it can also be homemade shredded tobacco, etc., and is not specifically limited herein.
- the tobacco is placed directly inside the accommodating chamber 200, which is not limited in this embodiment.
- the accommodating chamber 200 in this arrangement is in communication with the atomizing chamber 104 and the smoke outlet 102, respectively.
- the first port 203 of the accommodating chamber 200 is in communication with the atomizing chamber 104, and the second port 204 of the accommodating chamber 200 is in communication with the smoke outlet 102.
- the accommodating chamber 200 is used for placing the tobacco 201 and serving as a first smoke passage for circulating smoke. Specifically, the inside of the accommodating chamber 200 is used for inserting the tobacco 201, and the tobacco 201 is inserted.
- the first smoke passage for circulating smoke is formed inside the accommodating chamber 200.
- the mist atomized by the heating assembly 105 in the atomization chamber 104 can flow through the guide of the first smoke passage, and the flow direction is shown in FIG. 2 and FIG. In the direction indicated by the arrow, the direction of the smoke flowing along the first smoke passage is in a direction toward the smoke outlet 102.
- the direction of the arrow shown in FIG. 3 is the airflow direction of the atomizer provided in the embodiment.
- the atomizer shown in this embodiment is provided with an air inlet 106.
- the air inlet 106 shown in this embodiment is electrically connected to the atomization chamber 104, so that the gas outside the atomizer can be Flowing through the air inlet 106 to the inside of the atomization chamber 104, the airflow inside the atomization chamber 104 can drive the mist atomized by the heating assembly 105 to flow into the interior of the accommodating chamber 200;
- the smoke inside the accommodating chamber 200 shown in this embodiment has a relatively high humidity and temperature to enable the smoke to heat the tobacco 201 in the accommodating chamber 200 to generate mixed smoke.
- the mixed smoke flows along the guide of the first smoke passage to the smoke outlet 102 to enable a user to smoke the mixed smoke through the smoke outlet 102.
- the first port 203 of the accommodating cavity 200 is opposite to and coaxially disposed with the second port 204 of the accommodating cavity 200 .
- all the smoke in the atomization chamber 104 can be flowed into the interior of the accommodating chamber 200 to heat the tobacco 201, avoiding the first port 203 and the first
- the second port 204 is not opposite or different in axis, and the smoke in the atomization chamber 104 cannot flow to the inside of the accommodating chamber 200.
- the first port 203 and the second are shown in this embodiment.
- the ports 204 are positioned oppositely or coaxially to ensure a sufficient amount of smoke flow to the receiving chamber
- the interior of 200 is such that a sufficient amount of smoke can heat the tobacco 201 to produce a sufficient amount of the mixed smoke.
- FIG. 4 is another schematic cross-sectional structural view of the atomizer provided by the present invention.
- the accommodating chamber 300 is disposed inside the atomizer body 100, and the inside of the accommodating chamber 300 inside the atomizer body 100 is provided with tobacco 301.
- the specific structure of the accommodating chamber 300 shown in this arrangement is different from that of the accommodating chamber 200 in that the accommodating chamber 200 is disposed inside the nozzle assembly 101, and the accommodating chamber 300 is disposed in the atomizing chamber.
- the specific structure of the accommodating chamber 300 and the airflow of the tobacco 301 please refer to the specific description of the accommodating chamber 200, which is not specifically described in this embodiment.
- the heating assembly 105 shown in this embodiment is the only heating device in the atomizer, that is, the only energy source for heating the tobacco in this embodiment is the embodiment.
- the illustrated heating element 105 atomizes the smoke formed by the smoke oil, and adopts the structure shown in this embodiment. Under the premise of ensuring the user can smoke the smoke of the cigarette, there is no need to increase the inside of the atomizer.
- the extra components reduce the cost of manufacturing the atomizer and the manufacturing difficulty, and reduce the difficulty of assembling the atomizer and improve the efficiency of assembling the atomizer.
- the smoke shown in this embodiment is capable of heating the tobacco located in the accommodating chamber, so that the tobacco is heated to generate flue gas having the same or similar taste as that produced after the cigarettes on the market are sold, and then sucked by the user.
- the smoke exits it can be used to absorb mixed smoke containing two kinds of mouthfeel, that is, a part of the mixed smoke is the smoke generated by atomizing the smoked oil by the heating component, and the other is the taste generated after burning with the cigarette.
- the same or similar smoke which enriches the taste of the user.
- the smoke of the embodiment when the tobacco is heated, although the tobacco generates a smoke which is the same or similar to the taste produced after the cigarette is burned under the action of the high temperature of the smoke, the smoke does not contain the tar. Thereby, the harm of the tar to the user's body is effectively avoided, and the safety of the atomizer provided by the user in this embodiment is effectively guaranteed.
- the smoke generated by the heating assembly 105 for heating the tobacco shown in this embodiment has a relatively high humidity, and the moisture contained in the tobacco is increased when the smoke heats the tobacco. It can be seen that as the time for the user to inhale the atomizer increases, the content of moisture in the smoke also tends to increase.
- the smoke is difficult to be described in the above embodiment.
- the first smoke passage flows, and on the other hand, the smoke is more difficult to drive the flue gas generated on the tobacco having the same or similar taste as the cigarette to flow along the first smoke passage described in the above embodiment, so that the user cannot smoothly suck the food. Mixed smoke.
- FIG. 5 is a schematic cross-sectional structural view of another embodiment of the atomizer provided by the present invention.
- the embodiment is such that the accommodating cavity 300 is disposed inside the atomizer body 100 as an example:
- a second smoke passage 501 is further disposed in the atomizer body 100, and the second smoke passage 501 is in communication with the smoke outlet 102 and the atomization chamber 104 of the nozzle assembly 101.
- the second smoke passage 501 is configured to divert part of the smoke in the atomization chamber 104 and introduce the partial smoke into the smoke outlet 102, that is, the second smoke passage 501 is used to At least a portion of the smoke within the atomization chamber 104 bypasses the containment chamber 300 and flows through the second smoke passage 501 to the smoke outlet 102 of the nozzle assembly 101.
- the second smoke passage 501 and the accommodating chamber 300 shown in this embodiment are respectively electrically connected to the atomization chamber 104.
- the heating assembly 105 is in the atomization.
- the mist atomized within the cavity 104 is divided into a first smoke and a second smoke, the first smoke being able to flow into the interior of the receiving chamber 300 such that the first smoke can be located within the receiving chamber 300
- the tobacco is heated, and the mixed mist formed after heating flows to the smoke outlet 102.
- the second smoke can bypass the receiving cavity 300 and guide along the second smoke channel 501 Flows to the smoke outlet 102.
- the user can suck the mixed smoke and the second smoke at the smoke outlet 102, using the structure described in this embodiment, even if the tobacco is atomized
- the length of time of use of the device is increased to contain considerable moisture, because the second smoke passage 501 is provided, thereby ensuring that at least part of the mist atomized by the heating assembly 105 can be conducted to the smoke outlet 102, thereby The occurrence of a situation where smoke is blocked by the tobacco and cannot be transferred to the smoke outlet 102 is avoided.
- the mist atomized in the atomization chamber 104 is branched, thereby not only solving the smoke outlet 102 caused by the moisture of the accommodating chamber 300 after being used for a period of time.
- the outflow of smoke is too small, resulting in a poor user experience, and increases the time for the release of tobacco flavor, greatly improving the user experience.
- the specific structure of the second smoke passage 501 is not limited in this embodiment, as long as the second smoke can be transmitted to the smoke outlet 102 via the guide of the second smoke passage 501.
- the receiving cavity may also be disposed in the nozzle assembly 101, and when the receiving cavity is also disposed in the nozzle assembly 101, the second smoke passage is The specific structure is not limited as long as the smoke flowing into the second smoke passage can bypass the accommodating chamber provided in the nozzle assembly 101 to flow to the smoke outlet 102.
- the cavity wall of the accommodating cavity 300 is recessed and formed with a venting groove 310 extending along the longitudinal direction of the accommodating cavity 300, and one end of the venting groove 310 is connected to the atomizing cavity 104. The other end of the venting groove 310 is in communication with the smoke outlet 102.
- FIG. 6 is an embodiment of the atomizer provided by the present invention.
- FIG. 7 is a schematic view showing a cross-sectional explosive connection structure of an embodiment of the atomizer provided by the present invention.
- This embodiment is described by taking the accommodating cavity 300 inside the nozzle assembly 101 as an example:
- the nozzle assembly 101 shown in this embodiment is detachably coupled to the atomizer body 100.
- the manner in which the nozzle assembly 101 and the atomizer body 100 are detachably connected is not limited.
- a protrusion 205 is disposed on an outer circumferential surface of the nozzle assembly 101.
- the inner peripheral surface of the atomizer body 100 is provided with a groove 206 matching the protrusion 205 such that the nozzle assembly 101 is connected to the groove 206 and the protrusion 205 that are fitted to each other to Said
- the nozzle assembly 101 and the atomizer main body 100 can also adopt various methods such as magnetic adsorption connection.
- the accommodating chamber 300 is located in the nozzle assembly 101 and communicates with a surface of the nozzle assembly 100 facing the atomizer body 100, the accommodating chamber 300 facing one end of the atomizer body 100
- the surface is formed with a smoke insertion cavity 302 for inserting tobacco into the accommodating cavity 300 and the smoke in the atomization cavity 104 into the accommodating cavity 300 when the suction When the nozzle assembly 101 is connected to the atomizer body 100 (as shown in FIG.
- the atomizer body 100 covers the insertion chamber 302 of the receiving chamber 300 facing the atomizer body 100, and adopts With such a structure, it is possible to effectively ensure that the smoke in the atomization chamber 104 can flow to the tobacco 301 located in the accommodating chamber 300, thereby ensuring that the smoke can smoothly heat the tobacco 301.
- a friction pattern 207 may be disposed on the outer circumferential surface of the nozzle assembly 101.
- the specific structure of the friction pattern 207 in this embodiment It is not limited as long as the user can easily apply force to the nozzle assembly 200 through the friction rib 207.
- the tobacco 301 can be inserted into the accommodating chamber 300, and then the nozzle assembly into which the tobacco 301 has been inserted can be inserted. 200 is mounted to the atomizer body 100.
- the nozzle assembly 101 and the atomizer body 100 are detachably connected, the nozzle assembly 101 can be removed from the mist.
- the sterilizer main body 100 is detached, and the tobacco 301 can be taken out from the accommodating chamber 300.
- the tobacco of different tastes or brands can be installed according to the different taste requirements of the different users, to meet the personalized needs of the user, and the tobacco use must be certain.
- the new tobacco can be replaced at any time, so that the smoke of the same or similar taste of the solid cigarette can be maintained at a certain concentration in the mixed smoke of the user without replacing the whole atomizer, and the mixed smoke is avoided.
- the concentration of the flue gas is the same as or similar to that of the solid cigarette, the service life of the nebulizer is prolonged, and the use cost of the nebulizer is saved.
- FIG. 8 is a schematic overall structural view of an embodiment of a nozzle assembly provided by the present invention.
- the nozzle assembly 101 is provided with a slit 208 at one end side wall of the receiving chamber 300 that communicates with the outer surface of the nozzle assembly 101 as the second smoke passage.
- the slot 208 is located in the atomizer body 100, and the two ends of the slot 208 are respectively associated with the atomization chamber 104 and The smoke outlets 102 are in communication.
- the slit 208 is provided with a notch 209 facing the receiving chamber 300 and communicating with the receiving chamber 300.
- the tobacco 301 When the tobacco 301 is inserted into the accommodating chamber 300, the tobacco 301 covers the notch 209, so that at least part of the smoke in the atomizing chamber 104 bypasses the tobacco 301 when the atomizer is in operation.
- the slot 208 flows to the smoke outlet 102.
- the nozzle assembly 101 has a tubular structure, the smoke outlet 102 is located at one end of the nozzle assembly 101, and the smoke insertion cavity 302 at one end of the receiving cavity 300 is located away from the nozzle assembly 101.
- the slit 208 extends along the longitudinal direction of the nozzle assembly 101 and penetrates the side wall of the nozzle assembly 101.
- the slits 208 are strip-shaped.
- the number of the slots 208 may be one or more.
- a predetermined interval is disposed between any two adjacent slits 208, so as to steam the tobacco in the tobacco adjacent to the slit 208 as much as possible. come out.
- the specific number of the slots 208 and the size of the preset interval are not limited in this embodiment.
- FIG. 9 is a schematic cross-sectional structural view of another embodiment of the atomizer provided by the present invention.
- One end of the accommodating chamber 300 facing away from the insertion chamber 302 is provided with a limiting plate 303 for blocking the movement of the tobacco 301 away from the insertion chamber 302.
- the position of the tobacco 301 can be effectively blocked, so that the tobacco 301 is stably disposed inside the accommodating cavity 300, thereby avoiding The user is likely to smoke to tobacco due to the change in the position of the tobacco 301.
- the tobacco 301 moves to a position close to the smoke outlet 102, when the smoke flows onto the tobacco 301, the heat of the smoke is lowered, and the temperature is lowered. The reduced smoke cannot sufficiently heat the tobacco 301, so that the smoke smell of the tobacco cannot be sufficiently distilled.
- a side of the limiting plate 303 facing the smoke outlet 102 is provided with a third smoke passage 304 disposed coaxially with the receiving cavity 300, and one end of the third smoke passage 304 is connected to the receiving cavity 300 The other end of the third smoke passage 304 is in communication with the smoke outlet 102.
- the length of the slot 208 in the embodiment is greater than the distance from the limiting plate 303 to the insertion port 302, and the slot 208 is away from the end of the insertion port 302 and the The third smoke passages 304 are in communication.
- the mixed smoke can be smoothly conducted to the smoke outlet 102, and the use of the third smoke passage 304 enables the flow into the third smoke passage 304 via
- the smoke flowing through the second smoke passage and the mixed mist flowing through the first smoke passage can be sufficiently mixed in the third smoke passage 304, thereby enabling the smoke outlet 102 to output a uniform concentration of smoke.
- FIG. 10 is a schematic overall structural view of an embodiment of the nozzle assembly provided by the present invention.
- Figure 11 is a cross-sectional view showing another embodiment of the atomizing assembly of the present invention.
- the nozzle assembly 101 is inserted into one end wall of the atomizer body 100 and is disposed to communicate with the outer surface of the nozzle assembly 101 as the second smoke passage. Through hole 305.
- smoke can communicate to the smoke outlet 102 through the through hole as the second smoke passage.
- the through hole 305 is in communication with the atomizing chamber 104 and the smoke outlet 102, so that at least part of the smoke in the atomizing chamber 104 bypasses the receiving chamber 300 when the atomizer is operated.
- the through hole 305 flows to the smoke outlet 102.
- the through hole 305 and the accommodating cavity 300 shown in this embodiment are respectively electrically connected to the atomization chamber 104.
- the heating assembly 105 is in the atomization chamber 104.
- the atomized smoke is divided into a first smoke and a second smoke, and the first smoke can flow to the accommodation chamber 300 Internally, such that the first smoke can heat the tobacco located in the accommodating chamber 300, and the mixed smog formed after heating flows to the smoke outlet 102.
- the second mist can bypass the accommodating chamber 300 and flow along the guide of the second smog channel (ie, via the through hole 305) to the smoke outlet 102.
- the user can suck the mixed smoke and the second smoke at the smoke outlet 102, using the structure described in this embodiment, even if the tobacco is atomized
- the length of the use time is increased to contain considerable moisture, and the through hole 305 is provided, thereby ensuring that at least part of the mist atomized by the heating assembly 105 can be conducted to the smoke outlet 102, thereby avoiding The occurrence of a situation where smoke is blocked by the tobacco and cannot be transferred to the smoke outlet 102.
- the cavity wall of the accommodating chamber 300 is further provided with a vent 3051 communicating with the atomizing chamber 104.
- an end of the accommodating cavity 300 facing away from the insertion port 302 is provided with a limiting plate 303 for blocking the movement of the tobacco 301 away from the insertion port 302.
- a side of the limiting plate 303 facing the smoke outlet is provided with a third smoke passage 304 disposed coaxially with the receiving cavity, and one end of the third smoke passage 304 communicates with the receiving cavity 300. The other end of the third smoke passage 304 is in communication with the smoke outlet 102.
- the distance from the through hole 305 to the smoke insertion cavity 302 is greater than the distance from the limiting plate 303 to the insertion cavity 302, and the through hole 305 is connected to the third smoke channel 304. through.
- the smoke flowing out through the through hole 305 does not pass through the tobacco 301 located in the accommodating chamber 300, so that the smoke flowing out through the through hole 305 can directly flow.
- the tobacco 301 containing moisture is prevented from blocking the smoke, thereby ensuring that the user can smoke.
- a gap 306 is formed between the outer peripheral surface of one end of the atomizer body 100 and the atomizer body 100, and the gap 306 and the through hole 305 and the mist are formed.
- the chemistry chambers 104 are in communication.
- the gap 306 is used to allow at least part of the smoke in the atomization chamber 104 to flow into the through hole 305 through the gap 306 while the atomizer is in operation, and then pass through the through hole 305.
- a hole 305 flows to the smoke outlet 102, that is, the first smoke passage is spaced apart from the second smoke passage, and a cavity wall of the accommodating chamber 300 serves as the first smoke passage and the second smoke passage Isolation between parts.
- the structure of the partition member between the first smoke passage and the second smoke passage is not specifically limited herein, as long as the first smoke passage and the second smoke passage can be isolated. can.
- a partition 307 for blocking the movement of the tobacco 301 in the receiving chamber 300 toward the atomizing chamber 104 is disposed between the atomizing chamber 104 and the receiving chamber 300.
- the partition 307 is provided with at least one through hole 308, and the through hole 308 is in communication with the receiving chamber 300 and the atomizing chamber 104.
- the partition 307 shown in this embodiment is used, so that the tobacco located in the accommodating chamber 300 does not block the orientation of the atomizing chamber 104 under the action of the partition 307.
- the cavity of the chamber 300 is such that smoke within the atomizing chamber 104 flows to the receiving chamber 300 via the perforations 308 of the diaphragm 307.
- one end of the atomizer body 100 is provided with a insertion slot 601 .
- One end of the nozzle assembly 101 is detachably inserted into the insertion slot 601, and the partition 307 is received in the insertion slot 601 and detachably connected to the slot wall of the insertion slot 601. Therefore, the partition plate 307 can be taken out from the insertion groove 601 after the nozzle assembly 101 is detached.
- the partition plate 307 has a disc shape, and the outer circumferential surface of the partition plate 307 is sleeved with a sealing ring 602 that elastically abuts against the groove wall of the insertion groove 601.
- the insertion slot 601 is located between the partition 307 and the nozzle assembly 101 to form the receiving cavity. It can be seen that the structure shown in this embodiment can improve the structure of the atomizer. stable.
- the atomizer shown in this embodiment can also prevent the user from smoking the tobacco.
- FIG. 12 shows a cross-sectional structure of another embodiment of the atomizer provided by the present invention. schematic diagram.
- the housing chamber 300 is disposed inside the atomizer body 100 as an example for description:
- An end of the accommodating chamber 300 facing away from the insertion chamber 302 is provided with a limiting mechanism 603 for blocking the movement of the tobacco 301 away from the insertion chamber 302.
- the limiting mechanism 603 always gives a force to the tobacco 301 located in the receiving cavity 300 toward the insertion port 302.
- the tobacco 301 is not moved away from the mouth of the insertion chamber 302, so that the smoke flowing out of the atomization chamber 104 can quickly heat the tobacco 301 located in the receiving chamber 300, avoiding The loss of smoke heat prior to heating the tobacco 301 increases the efficiency with which the smoke heats the tobacco.
- the limiting mechanism 603 can also prevent the tobacco 301 from moving to the nozzle assembly 101, thereby effectively preventing the user from sucking the tobacco 301 through the nozzle assembly 101, thereby ensuring the use of the atomizing assembly shown in this embodiment. Safety in the process.
- the limiting mechanism 603 can be a limiting step disposed around a cavity wall of the accommodating cavity 300.
- the specific structure of the limiting mechanism 603 is not limited in this embodiment, as long as the limiting mechanism 603 can prevent the user from sucking the tobacco 301 through the nozzle assembly 101, thereby ensuring the use of the atomizing assembly shown in this embodiment.
- the safety in the process can be.
- the accommodating chamber 300 shown in this embodiment is further provided with a screen 604 covering the receiving chamber 300 facing the end of the smoke outlet 102, and the screen 604 is used to block the accommodating The tobacco 301 and the tobacco particles in the cavity 300 enter the mouth of the user.
- the filter 604 can filter out the tobacco 301 and the tobacco particles but can allow the mixed smoke to pass smoothly without affecting the user's efficiency in mixing the smoke. To avoid the possibility of users absorbing tobacco and tobacco particles.
- FIG. 13 is a schematic diagram of a partial explosion connection structure of an embodiment of the atomizer provided by the present invention.
- the atomizer body 100 includes an oil storage assembly and an atomizing core assembly 702 inserted in the oil storage assembly, and the oil storage chamber 103 is formed in the oil storage assembly.
- the atomizing core assembly 702 includes an atomizing sleeve 703, a smoke adsorbing sleeve 705, an upper insulating ring 706, an upper electrode 707, and a heating wire 708.
- the tube wall of the atomization sleeve 703 is provided with an oil inlet hole 704 communicating with the oil reservoir 103, and the smoke oil adsorption sleeve 705 is sleeved in the atomization sleeve 703 and The oil inlet hole 704 is covered, and the heating wire 708 is used as the heating assembly 105. It is to be understood that the heating assembly 105 is not limited as long as it can atomize the oil.
- the heating wire 708 is wound into a spiral shape and at least partially sleeved in the oil absorbing sleeve 705 to atomize the smoke oil in the smoke oil adsorption sleeve 705, and the smoke oil adsorption sleeve 705 is formed therein.
- the upper insulating ring 706 is sleeved in one end of the atomizing sleeve 703, and the upper electrode 707 is sleeved in the insulating ring 706, and one end of the heating wire 708 is The upper electrode 707 is electrically connected, and the other end of the heating wire 708 is electrically connected to the atomizing sleeve 703 to be electrically connected to an external power source through the upper electrode 707 and the atomizing sleeve 703.
- an end of the atomization sleeve 703 facing away from the upper electrode 707 is sleeved with an atomization core cover 709, and the atomization core cover 709 is provided with a gasket 710, and the atomization sleeve 703 is provided.
- An oil hood 711 is further disposed, and a gap for the intake air is formed between the oil hood 711 and the atomization sleeve 703, and the atomization sleeve 703 is provided with the oil inlet 704.
- the surface is closely attached to the oil barrier 711 and communicates with the oil reservoir through a through hole (not shown) of the sidewall of the oil barrier 711.
- FIG. 14 is a schematic diagram of a partial explosion connection structure of an embodiment of the atomizer provided by the present invention.
- the oil storage assembly includes an oil storage assembly body 801 and a tamper-preventing assembly 802 detachably inserted at one end of the oil storage assembly body 801.
- the oil storage assembly body 801 includes a fixing sleeve 8011, an oil storage sleeve 8012, a first gasket 8013, a second gasket 8014, a first connector 8015, a second connector 8016, a lower insulating ring 8017, and a lower electrode 8018.
- the oil storage sleeve 8012 is sleeved in the fixing sleeve 8011, and the first gasket 8013 and the second gasket 8014 are respectively disposed at two ends of the oil storage sleeve 8012, and the first connection
- the head 8015 and the second connector 8016 are respectively inserted at two ends of the oil storage sleeve 8012, the lower insulation ring 8017 is inserted into the lower connector, and the lower electrode 8018 is sleeved in the In the lower insulating ring 8017, the first connector 8015 is connected to the tamper-removing component 802, and the lower electrode 8018 and the second connector 8016 are used for electrical connection with an external power source.
- the oil storage group The structure is not limited as long as it can store the oil.
- the tamper-removing component 802 includes an air-conditioning seat 803, an elastic member 804, and a movable cover 805.
- One end of the air-conditioning seat 803 is inserted into the oil storage assembly main body 801 and is connected to the oil storage assembly main body 801.
- the first connector 8015 is screwed, the other end of the air conditioning seat 803 extends outside the oil storage assembly body 801, and the elastic member 804 is fixed on the air conditioning seat 803 and the movable cover
- the 805 is elastically resisted to provide the movable cover 805 with an elastic force away from the oil storage assembly main body 801, and the movable cover 805 is disposed at the back of the detachable assembly facing the oil storage assembly main body 801. On one end.
- FIG. 14 is a partial structural view of an atomizer according to an embodiment of the present invention
- FIG. 16 is a partial cross-sectional structure of an atomizer according to an embodiment of the present invention. schematic diagram.
- the movable cover 805 is provided with an engaging groove 806, and an end surface of the air adjusting seat 803 is provided with engaging teeth 807 for engaging with the engaging groove 806.
- the engaging groove 806 is at a predetermined distance from the meshing tooth 807.
- the user can perform the disassembling action on the atomizer without performing the screwing operation on the atomizer anyway, thereby avoiding The occurrence of the disassembly of the nebulizer due to the user's misoperation, and avoiding the child disassembling the nebulizer when the atomizer is accidentally screwed, thereby effectively preventing the child from smoking the smoke oil. It may be seen that the use of the atomizer shown in this embodiment can improve the safety of use of the atomizer structure and avoid accidental disassembly of the atomizer.
- the movable cover 805 When the atomizer needs to be disassembled, that is, when the air conditioning seat 803 needs to be detached from the oil storage body, the movable cover 805 is required to apply a force toward the air conditioning seat 803. Until the engaging groove 806 is engaged with the engaging tooth 807, the tamper-proof assembly can be removed from the damper assembly 805 by rotating the movable cover 805 The oil storage assembly body 801 is detached.
- the atomizing core assembly 702 is movably inserted in the oil storage assembly, specifically, One end of the atomizing core assembly 702 is screwed to the tamper-preventing assembly. More specifically, one end of the oil-shielding sleeve 711 of the atomizing core assembly 702 is screwed with the air-conditioning seat 803 so that When the tamper assembly is removed from the oil storage assembly body 801, the atomizing core assembly 702 can be removed from the oil storage assembly body 801 along with the tamper assembly.
- a socket 808 is formed in the air conditioning seat 803 shown in this embodiment, and the nozzle assembly 101 is detachably inserted into the insertion slot 808.
- the ventilating seat 803 is internally provided with a venting pipe 809.
- the movable cover 805 is disposed inside the venting groove 810, and the venting seat 803 is provided with a venting hole 811.
- the movable cover 805 can be rotated to control the overlapping area between the ventilation slot 810 of the movable cover 805 and the ventilation hole 811 of the air conditioning seat 803, that is, the The intake air amount of the atomizer increases as the overlapping area between the vent holes 811 of the air conditioning seat 803 increases.
- the nebulizer shown in this embodiment can be applied to the user's demand for different smoke concentrations, and can meet the user's demand for personalized smoke.
- FIG. 17 is a cross-sectional structural view showing another embodiment of the atomizer according to the present invention
- FIG. 18 is a view of the present invention.
- the atomizer body 100 includes a support tube 900, a first sleeve 901, a smoke adsorbing member 902, and an electrode assembly 903.
- the support tube 900 is inserted into the first sleeve 901, and the heating assembly 105 Fixed in the support tube 900, the atomization chamber 104 is formed in the support tube 900, and the oil storage chamber 103 is formed between the support tube 900 and the first sleeve 901, the smoke oil
- the adsorption member 902 is sleeved outside the support tube 900 and located in the oil reservoir 103.
- the heating assembly 105 is electrically connected to the electrode assembly 903, and one end of the electrode assembly 903 and the first sleeve
- the 901 is connected in series, and the other end of the electrode assembly 903 extends outside the first sleeve 901 and is used for external power supply. connection;
- the heating assembly 105 is capable of atomizing the smoky oil to generate a smog capable of heating the tobacco.
- the nozzle assembly 101 includes a second sleeve 904, a tobacco fixing sleeve 905, and a nozzle cover 906.
- the tobacco fixing sleeve 905 is disposed in the second sleeve 904, the nozzle cover 906 is disposed on the end surface of the second sleeve 904, and the receiving cavity is disposed in the tobacco fixing sleeve 905 200 and the ventilation slot 310, the first sleeve 901 and the second sleeve 904 are integrated.
- An end of the accommodating chamber 200 facing away from the nozzle cover 906 is provided with an annular limiting step 907 for blocking the movement of the tobacco 910 away from the smoke outlet 102.
- a step 907 facing the surface of the nozzle cover 906 is provided with a groove 908 for communicating with the venting groove 310 and the atomizing chamber 104 for the flow of smoke.
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Abstract
一种雾化器,包括雾化器本体(1),雾化器本体(1)外表面设置有供烟雾排出以供用户吸食的烟雾出口(102),雾化器本体(1)内设置有容纳腔(200,300)、储油腔(103)、雾化腔(104)及加热组件(105),容纳腔(200,300)与雾化腔(104)及烟雾出口(102)相连通,容纳腔(200,300)用于放置烟草并作为第一烟雾通道,加热组件(105)设置于雾化腔(104)内并用于雾化储油腔(103)内的烟油以形成烟雾,雾化腔(104)内雾化形成的烟雾用于对容纳腔(200,300)内的烟草进行加热,以生成混合烟雾,在吸烟时,混合烟雾通过第一烟雾通道流动至烟雾出口(102),所产生的烟雾量较大,避免了通过电加热器件烘烤烟草时容易碳化而导致仍然产生较多有害物质的问题。
Description
本发明涉及电子烟领域,尤其涉及一种雾化器
传统吸烟是通过用明火点燃烟草,烟草燃烧产生烟雾以供吸烟者吸食。烟草燃烧产生的烟雾通常会含有上千种有害物质,因而,传统烟草不但给吸烟者造成严重的呼吸系统疾病,还容易带来二手烟危害。
为解决传统烟草燃烧产生较多有害物质的技术问题,技术人员开发了雾化电子烟及电子烤烟,然而,所述雾化电子烟通过雾化烟液形成烟雾,以供吸烟者吸食,雾化电子烟虽然克服了传统卷烟的以上不足,能够在一定程度上满足消费者对烟草的依赖,但电子烟的烟液是由香精香料调配而成,并不是真正的卷烟产品,其烟味淡,缺乏烟草的芳香,而不能被消费者广泛地接受。现有的低温电子烤烟采用低温(100摄氏度左右)不燃烧方式加热烟丝,由于其加热温度较低,所以加热产生的危害物质少,但烟雾量明显不足。而若采用高温的温度对所述烟草进行加热,则容易将烟草考黑,碳化,且热量分布不均,容易产生部分烟草已经碳化而另一部分温度还不足的问题,因而也产生较多的有害物质。如何能够吸出烟草的芳香味又能够较大程度降低有害物质已成为烟草行业亟待解决的问题。
发明内容
本发明提供了一种能够较大降低用户吸食到烟草有害物质的雾化器。
本发明提供了一种雾化器,包括雾化器本体,所述雾化器本体外表面设置有供烟雾排出以供用户吸食的烟雾出口,其特征在于,所述雾化器本体内设置有容纳腔、储油腔、雾化腔及加热组件,所述容纳腔与所述雾化腔及所述烟雾出口相连通,所述容纳腔用于放置烟草并作为第一烟雾通道,所述加热组件设置于所述雾化腔内并用于雾化所述储油腔内的烟油以形成烟雾,所述雾化腔内雾化形成的烟雾用于对所述容纳腔内的烟草进行加热,以生成混合烟雾,以使在吸烟时,所述混合烟雾通过所述第一烟雾通道流动至所述烟雾出口。
可选地,所述雾化器本体内还设置有第二烟雾通道,所述第二烟雾通道与
所述烟雾出口及所述雾化腔相连通,所述第二烟雾通道用于分流所述雾化腔内的部分烟雾并将所述部分烟雾导入至所述烟雾出口。
可选地,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体用于雾化烟油以形成烟雾,所述雾化器主体内设置有所述储油腔、所述雾化腔及所述加热组件;所述吸嘴组件与所述雾化器主体可拆卸连接,所述容纳腔位于所述吸嘴组件内,所述容纳腔与所述吸嘴组件的面向所述雾化器主体的表面相连通并形成有面向所述雾化器主体的插烟腔口,当所述吸嘴组件与所述雾化器主体相连时,所述雾化器主体覆盖住所述插烟腔口;当将所述吸嘴组件与所述雾化器主体分离时,能够将烟草从所述容纳腔的插烟腔口插入所述容纳腔内或将烟草从所述容纳腔内取出。
可选地,所述吸嘴组件设置有所述容纳腔的一端侧壁处设置有与所述吸嘴组件外表面相连通以作为所述第二烟雾通道的切槽,所述切槽位于雾化器主体内,所述切槽的两端分别与所述雾化腔及所述烟雾出口相连通,所述切槽设置有面向所述容纳腔并与所述容纳腔相连通的槽口;当所述容纳腔内插设有烟草时,所述烟草覆盖所述槽口,以使雾化器工作时所述雾化腔内的至少部分烟雾经所述切槽流动至所述烟雾出口。
可选地,所述吸嘴组件呈管状结构,所述烟雾出口位于所述吸嘴组件的一端,所述容纳腔的所述插烟腔口位于所述吸嘴组件的背离所述烟雾出口的一端端面上,所述切槽沿所述吸嘴组件的纵向延伸设置并贯穿所述吸嘴组件的侧壁。
可选地,所述吸嘴组件设置有若干所述切槽,且任意相邻的两个所述切槽之间设置有预设间隔,所述切槽呈条形。
可选地,所述容纳腔背向所述插烟腔口的一端设置有用于阻挡所述烟草朝远离所述插烟腔口方向运动的限位板,所述限位板的面向所述烟雾出口的一侧设置有与所述容纳腔同轴设置的第三烟雾通道,所述第三烟雾通道的一端与所述容纳腔相连通,所述第三烟雾通道的另一端与所述烟雾出口相连通,所述切槽的长度大于所述限位板至所述插烟腔口的距离,所述切槽远离所述插烟腔口的一端与所述第三烟雾通道相连通。
可选地,所述吸嘴组件插设在所述雾化器主体内的一端侧壁处设置有与所
述吸嘴组件外表面相连通并作为所述第二烟雾通道的通孔,所述通孔与所述雾化腔及所述烟雾出口相连通,以使雾化器工作时,所述雾化腔内的至少部分烟雾经所述通孔流动至所述烟雾出口。
可选地,所述容纳腔的背离所述插烟腔口的一端设置有用于阻挡所述烟草朝远离所述插烟腔口方向运动的限位板,所述限位板的面向所述烟雾出口的一侧设置有与所述容纳腔同轴设置的第三烟雾通道,所述第三烟雾通道的一端与所述容纳腔相连通,所述第三烟雾通道的另一端与所述烟雾出口相连通,所述通孔至所述插烟腔口的距离大于所述限位板至所述插烟腔口的距离,所述通孔与所述第三烟雾通道相连通。
可选地,所述吸嘴组件插入所述雾化器主体的一端外周面与所述雾化器主体之间形成有间隙,所述间隙与所述通孔及所述雾化腔相连通,所述间隙用于在雾化器工作时所述雾化腔内的至少部分烟雾经所述间隙流入通孔内,再经过所述通孔流动至所述烟雾出口。
可选地,所述雾化腔与所述容纳腔之间设置有用于阻挡所述容纳腔内的烟草朝着所述雾化腔运动的隔板,所述隔板上设置有至少一个穿孔,所述穿孔与所述容纳腔及所述雾化腔相连通。
可选地,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体用于雾化烟油以形成烟雾,所述雾化器主体内设置有所述储油腔、所述雾化腔及所述加热组件,所述雾化器主体的一端设置有插接槽,所述吸嘴组件的一端可拆卸的插设在所述插接槽内,所述隔板收容在所述插接槽内并与所述插接槽的槽壁可拆卸连接,以使在将所述吸嘴组件拆卸后能够将所述隔板从所述插接槽内取出。
可选地,所述隔板呈圆盘形,所述隔板的外周面套设有与所述插接槽的槽壁弹性抵接的密封圈。
可选地,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体用于雾化烟油以形成烟雾,所述雾化器主体内设置有所述储油腔、所述雾化腔及所述加热组件,所述雾化器主体的一端设置有插接槽,所述吸嘴组件的一端可拆卸的插设在所述插接槽内,所述隔板收容在所述插接槽内,所述插接槽位于所述隔板与所述吸嘴组件之间形成有所述容纳腔。
可选地,所述容纳腔的背离所述插烟腔口的一端设置有用于阻挡所述烟草朝远离所述插烟腔口方向运动的限位机构。
可选地,所述限位机构为环绕所述容纳腔的腔壁设置的限位台阶。
可选地,所述容纳腔内还设置有盖设在所述容纳腔面向所述烟雾出口一端的滤网,所述滤网用于阻碍所述容纳腔内的所述烟草进入用户口腔。
可选地,所述加热组件为所述雾化器中唯一的加热装置。
可选地,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体包括储油组件及插设在所述储油组件内的雾化芯组件,所述储油组件内形成有所述储油腔;所述雾化芯组件包括雾化套管、烟油吸附套、电热丝、上绝缘环及上电极,所述雾化套管的管壁上设置有与所述储油腔相连通的进油孔,所述烟油吸附套套设在所述雾化套管内并盖设所述进油孔,所述电热丝用作所述加热组件,所述电热丝缠绕成螺旋状并至少部分套设在所述烟油吸附套内,以雾化所述烟油吸附套中的烟油,所述烟油吸附套内形成有所述雾化腔,所述绝缘环套设在所述雾化套管的一端内,所述上电极套设在所述绝缘环内,所述电热丝的一端与所述上电极电连接,所述电热丝的另一端与所述雾化套管电连接,以通过所述上电极及所述雾化套管与外部电源电连接。
可选地,其特征在于,所述储油组件包括储油组件主体及可拆卸地插设在所述储油组件主体一端的防拆组件,所述防拆组件包括调气座、弹性件及活动盖;
所述调气座的一端插设在所述储油组件主体内并与所述储油组件主体通过螺纹连接,所述调气座的另一端延伸至所述储油组件主体外,所述弹性件固定在所述调气座上并与所述活动盖弹性抵持,以给所述活动盖提供朝远离所述储油组件主体方向的弹力,所述活动盖盖设在所述调气座的背向所述储油组件主体的一端上,所述活动盖设置有啮合槽,所述调气座上设置有用于与所述啮合槽配合的啮合齿,所述啮合槽距所述啮合齿预设距离;当需要将所述防拆组件从所述储油件主体拆下时,需向所述活动盖施加朝所述调气座方向的力直至所述啮合槽与所述啮合齿啮合,从而通过旋转所述活动盖以将所述防拆组件从所述储油组件主体上拆卸。
可选地,所述雾化芯组件活动地插设在所述储油组件内,所述雾化芯组件
的一端与所述防拆组件螺纹连接,以使在将所述防拆组件从所述储油组件主体上取出时,所述雾化芯组件能够连同所述防拆组件从所述储油组件主体上取出。
可选地,所述容纳腔的腔壁处凹陷形成有沿所述容纳腔的纵向延伸设置以作为所述第二烟雾通道的通气槽,所述通气槽的一端与所述雾化腔相连通,所述通气槽的另一端与所述烟雾出口相连通。
可选地,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体包括第一套管、烟油吸附件、支撑管及电极组件,所述支撑管插设在所述第一套管内,所述加热组件固定在所述支撑管内,所述支撑管内形成所述雾化腔,所述支撑管与所述第一套管之间形成所述储油腔,所述烟油吸附件套设在所述支撑管外并位于所述储油腔内,所述加热组件与所述电极组件电连接,所述电极组件的一端与所述第一套管插接相连,所述电极组件的另一端延伸至所述第一套管外并用于与外部电源电连接;所述吸嘴组件包括第二套管、烟草固定套及吸嘴盖,所述烟草固定套设置在所述第二套管内,所述吸嘴盖盖设在所述第二套管的端面上,所述吸嘴盖上设置有所述烟雾出口,所述烟草固定套内设置有所述容纳腔及所述通气槽,所述第一套管与所述第二套管为一体结构。
可选地,所述容纳腔的背离所述吸嘴盖的一端设置有环形的限位台阶,所述限位台阶用于阻挡所述烟草朝远离所述烟雾出口方向运动,所述限位台阶面向所述吸嘴盖的表面设置有与所述通气槽及所述雾化腔相连通的用于供烟雾流动的凹槽。
可选地,所述第一烟雾通道与所述第二烟雾通道间隔设置,所述第一烟雾通道与所述第二烟雾通道之间设置有用于隔离所述第一烟雾通道与所述第二烟雾通道的隔离部件。
采用本发明所示的雾化器的有益效果在于,本发明通过在所述雾化器本体内设置有容纳腔、储油腔、雾化腔及加热组件,所述容纳腔与所述雾化腔及所述烟雾出口相连通,所述容纳腔用于放置烟草并作为第一烟雾通道,所述加热组件设置于所述雾化腔内并用于雾化所述储油腔内的烟油以形成烟雾,所述雾化腔内雾化形成的烟雾用于对所述容纳腔内的烟草进行加热,以生成混合烟雾,以使在吸烟时,所述混合烟雾通过所述第一烟雾通道流动至所述烟雾出口。
即本发明雾化器内的烟草仅是通过雾化腔产生的高温烟雾进行加热,无需额外的电加热器件对烟草进行烘烤,因而能够均匀地加热和较为充分地将容纳腔内烟草的芳香味蒸出来,而且烟雾量较大,避免了现有技术中通过电加热器件烘烤烟草时容易碳化而导致仍然产生较多有害物质的问题。
图1为本发明所提供的雾化器的一种实施例整体结构示意图;
图2为本发明所提供的雾化器的一种实施例剖面结构示意图;
图3为本发明所提供的雾化器的另一种实施例剖面结构示意图;
图4为本发明所提供的雾化器的另一种剖面结构示意图;
图5为本发明所提供的雾化器的另一种实施例剖面结构示意图;
图6为本发明所提供的雾化器的一种实施例爆炸连接结构示意图;
图7为本发明所提供的雾化器的一种实施例剖面爆炸连接结构示意图;
图8为本发明所提供的吸嘴组件的一种实施例整体结构示意图;
图9为本发明所提供的雾化器的另一种实施例剖面结构示意图;
图10为本发明所提供的吸嘴组件的一种实施例整体结构示意图;
图11为本发明所提供的雾化组件的另一种实施例剖面结构示意图;
图12为本发明所提供的雾化组件的另一种实施例剖面结构示意图;
图13为本发明所提供的雾化器的一种实施例局部爆炸连接结构示意图;
图14为本发明所提供的雾化器的一种实施例局部爆炸连接结构示意图;
图15为本发明所提供的雾化器的一种实施例局部结构示意图;
图16为本发明所提供的雾化器的一种实施例局部剖面结构示意图;
图17为本发明所提供的雾化器的另一种实施例剖面结构示意图;
图18为本发明所提供的烟草固定套的一种实施例整体结构示意图。
实施例一
本实施例提供了一种雾化器,通过本实施例所示的雾化器能够使得用户在抽吸烟雾的过程中,能够吸食到与真烟口感大致相同的味道,而且能够避免真烟燃烧时所产生的焦油对用户身体的伤害。
以下首先结合图1和图2所示对本实施例所提供的雾化器的具体结构进行示例性说明,其中,图1为本发明所提供的雾化器的一种实施例整体结构示意图,图2为本发明所提供的雾化器的一种实施例剖面结构示意图。
本实施例所示的雾化器包括雾化器本体1,所述雾化器本体1包括雾化器主体100和吸嘴组件101,其中,所述雾化器主体100用于雾化烟油以形成烟雾,所述吸嘴组件101设置有用于供烟雾排出以供用户吸食的烟雾出口102。
具体的,所述雾化器主体100内设置有储油腔103、雾化腔104及加热组件105。
更具体的,本实施例所示的用于存储烟油的所述储油腔103与所述雾化腔104导通设置,以使位于所述储油腔103内的烟油能够流动至位于所述雾化腔104内的所述加热组件105,从而使得所述加热组件105能够雾化所述储油腔103内的烟油以形成烟雾。
本实施例对所述储油腔103、雾化腔104及加热组件105的具体结构不作限定,只要位于所述雾化腔104内的加热组件105能够将位于所述储油腔103内的烟油进行雾化以生成烟雾即可。
本实施例所示的雾化器内部还设置有容纳腔,本实施例所示的容纳腔的具体结构有两种示例:
第一种,本种设置方式所示的容纳腔200设置在所述吸嘴组件101内部;
第二种,本种设置方式所示的容纳腔300设置在所述雾化器主体100内部。
首先对第一种设置方式,即所述容纳腔200进行说明:
请参见图2和图3所示为例进行说明,其中,图3为本发明所述的雾化器的另一种实施例剖面结构示意图,具体的,图2所示为所述容纳腔200内部没有设置有烟草,而图3所示的所述容纳腔200内部设置有烟草201。
本实施例所示的烟草可为现有市场上销售的常见的香烟,即在实际使用中,用户可直接将香烟插设在所述容纳腔200内部,或将香烟的一部分插设在所述容纳腔200内部。当然,也可以为自制的烟丝等,在此不作具体限定。
当然,本实施例也可直接在所述容纳腔200内部放置烟草,具体在本实施例中不作限定。
本种设置方式中的所述容纳腔200分别与所述雾化腔104及所述烟雾出口102相连通。
具体的,所述容纳腔200的第一端口203与所述雾化腔104相连通,所述容纳腔200的第二端口204与所述烟雾出口102相连通。
所述容纳腔200用于放置烟草201并作为用于流通烟雾的第一烟雾通道,具体的,所述容纳腔200内部用于插设所述烟草201,且插设有所述烟草201的所述容纳腔200内部形成有用于流通烟雾的所述第一烟雾通道。
即所述雾化腔104内的所述加热组件105所雾化的烟雾能够经由所述第一烟雾通道的导向进行流动,流动方向请参见图2和图3所示的位于所述容纳腔200内的箭头所示的方向,沿所述第一烟雾通道进行流动的烟雾的方向为沿朝向所述烟雾出口102的方向。
更具体的,以下结合图3所示对插设有烟草的雾化器在用户进行吸烟时的气流方向进行说明:
其中,图3所示的箭头方向即为本实施例所提供的雾化器的气流方向。
本实施例所示的雾化器设置有进气口106,本实施例所示的所述进气口106与所述雾化腔104导通设置,以使所述雾化器外部的气体能够经由所述进气口106流动至所述雾化腔104内部,位于所述雾化腔104内部的气流能够带动所述加热组件105所雾化的烟雾流动至所述容纳腔200内部;
本实施例所示的位于所述容纳腔200内部的烟雾具有比较高的湿度和温度,以使烟雾能够对所述容纳腔200内的烟草201进行加热,以生成混合烟雾。
所述混合烟雾沿所述第一烟雾通道的导向流动至所述烟雾出口102,以使用户通过所述烟雾出口102能够吸食到所述混合烟雾。
可选的,如图3所示,所述容纳腔200的第一端口203与所述容纳腔200的第二端口204位置相对且同轴设置。
采用本实施例所示的结构,能够使得所述雾化腔104内的烟雾全部流动至所述容纳腔200内部从而对所述烟草201进行加热,避免因所述第一端口203与所述第二端口204位置不相对或不同轴,所述雾化腔104内的烟雾无法全部流动至所述容纳腔200内部的弊端,因本实施例所示所述第一端口203与所述第二端口204位置相对且或同轴,则能够保障足量的烟雾流动至所述容纳腔
200内部,从而使得足量的烟雾能够对所述烟草201进行加热从而生成足量的所述混合烟雾。
其次,对所述第二种设置方式,即所述容纳腔300的具体结构进行说明:
以下结合图4所示进行说明,其中,图4为本发明所提供的雾化器的另一种剖面结构示意图。
在本种设置方式中,所述容纳腔300设置在所述雾化器主体100内部,位于所述雾化器主体100内部的所述容纳腔300内部设置有烟草301。
本种设置方式所示的容纳腔300的具体结构与所述容纳腔200的区别在于,所述容纳腔200设置在所述吸嘴组件101内部,而所述容纳腔300设置在所述雾化器主体100内部,所述容纳腔300的具体结构的说明以及插设有烟草301的气流导向请参见容纳腔200的具体说明,具体在本实施例中不作赘述。
需明确的是,本实施例所示的所述加热组件105为所述雾化器中唯一的加热装置,即本实施例中,对所述烟草进行加热的唯一的能量来源就为本实施例所示的所述加热组件105雾化烟油所形成的烟雾,采用本实施例所示的结构,在保障了用户能够吸食到香烟的烟雾口感的前提下,无需在所述雾化器内部增加额外的部件,降低了雾化器的生成成本和制造难度,而且降低了装配雾化器的难度,提升了装配雾化器的效率。
采用本实施例所示的雾化器的具体结构的有益效果在于:
本实施例所示的烟雾能够对位于所述容纳腔中的烟草进行加热,从而烟草被加热后能够生成与市场上销售的香烟燃烧后产生的口感相同或相近的烟气,则在用户抽吸烟雾出口时,即可吸食到包含有两种口感的混合烟雾,即混合烟雾中的一部分为所述加热组件对烟油进行雾化所生成的烟雾,另一种为与香烟燃烧后产生的口感相同或相近的烟气,从而丰富了用户吸食烟雾的口感。
本实施例所述的烟雾在对所述烟草进行加热时,虽然烟草在烟雾高温的作用下会生成与香烟燃烧后产生的口感相同或相近的烟气,但是该烟气中不包含有焦油,从而有效的避免了焦油对用户身体的危害,有效的保障了用户使用本实施例所提供的雾化器的安全。
实施例二
本实施例对实施例一所示的雾化器的具体结构进行详细的说明,需明确的是,本实施例对所述雾化器的结构的说明为可选的示例,不作限定。
首先,本实施例所示的用于对烟草进行加热的,由所述加热组件105所雾化生成的烟雾具有相当的湿度,则在烟雾对烟草进行加热时会提升所述烟草所含的水分,可见,随着用户抽吸雾化器时间的递增,则所述烟雾中的水分的含量也呈递增的趋势。
若所述烟雾中的水分的含量过高,则烟雾在对所述烟草进行加热的过程中,烟草中所含的水分会阻碍烟雾的传输,一方面,烟雾较难沿上述实施例所述的第一烟雾通道进行流动,另一方面烟雾较难带动烟草上所产生的与香烟口感相同或相近的烟气沿上述实施例所述的第一烟雾通道进行流动,从而使得用户无法顺利吸食到所述混合烟雾。
为解决上述技术问题,则结合图5所示进行说明,其中,图5为本发明所提供的雾化器的另一种实施例剖面结构示意图。
如图5所示可知,本实施例以所述容纳腔300设置在所述雾化器主体100内部为例:
所述雾化器主体100内还设置有第二烟雾通道501,所述第二烟雾通道501与所述吸嘴组件101的所述烟雾出口102及所述雾化腔104相连通。
本实施例中,所述第二烟雾通道501用于分流所述雾化腔104内的部分烟雾并将所述部分烟雾导入至所述烟雾出口102,即所述第二烟雾通道501用于将所述雾化腔104内的至少部分烟雾绕过所述容纳腔300而经所述第二烟雾通道501流动至所述吸嘴组件101的所述烟雾出口102。
即本实施例所示的所述第二烟雾通道501、所述容纳腔300分别与所述雾化腔104导通,采用本实施例所示的结构,所述加热组件105在所述雾化腔104内所雾化的烟雾分成了第一烟雾和第二烟雾,所述第一烟雾能够流动至所述容纳腔300内部,从而使得所述第一烟雾能够对位于所述容纳腔300内的烟草进行加热,加热后形成的所述混合烟雾流动至所述烟雾出口102。
而所述第二烟雾能够绕过所述容纳腔300而沿所述第二烟雾通道501的导
向流动至所述烟雾出口102。
可见,采用本实施例所示的结构,用户在所述烟雾出口102能够抽吸到所述混合烟雾以及所述第二烟雾,采用本实施例所述的结构,即便所述烟草随着雾化器使用时间的长度的递增而含有相当的水分,因设置有所述第二烟雾通道501,从而保障了所述加热组件105所雾化的至少部分烟雾能够导通至所述烟雾出口102,从而避免了烟雾被所述烟草堵住而无法传输至所述烟雾出口102的情况的出现。且通过设置所述第二烟雾通道501,分流了所述雾化腔104内所雾化的烟雾,因而不仅解决了由于所述容纳腔300的烟草在使用一段时间后因潮湿而导致烟雾出口102流出的烟雾过少,以致用户体验差的问题,而且增加了烟草味道释放的时间,较大地提高了用户体验。
本实施例对所述第二烟雾通道501的具体结构不做限定,只要所述第二烟雾能够经由所述第二烟雾通道501的导向传输至所述烟雾出口102即可。
当然,根据上述实施例可知,所述容纳腔也可设置在所述吸嘴组件101内,当所述容纳腔也可设置在所述吸嘴组件101内时,对所述第二烟雾通道的具体结构不做限定,只要流动至所述第二烟雾通道内的烟雾能够绕过设置在所述吸嘴组件101内的容纳腔以流动至所述烟雾出口102即可。
具体的,本实施例中,所述容纳腔300的腔壁处凹陷形成有沿所述容纳腔300的纵向延伸设置的通气槽310,所述通气槽310的一端与所述雾化腔104相连通,所述通气槽310的另一端与所述烟雾出口102相连通。
本实施例中,为提升所述雾化器的使用寿命,降低用户的使用成本,则参见图6和图7所示,其中,图6为本发明所提供的雾化器的一种实施例爆炸连接结构示意图,图7为本发明所提供的雾化器的一种实施例剖面爆炸连接结构示意图。
本实施例以所述容纳腔300设置在所述吸嘴组件101内部为例进行说明:
本实施例所示的所述吸嘴组件101与所述雾化器主体100可拆卸连接。
具体的,本实施例对所述吸嘴组件101和所述雾化器主体100可拆卸连接的方式不做限定,例如,在所述吸嘴组件101的外周面设置有凸起205,在所述雾化器主体100的内周面设置有与所述凸起205相匹配的凹槽206,从而使得所述吸嘴组件101通过相互配合的所述凹槽206和所述凸起205连接至所述
雾化器主体100上,当然,所述吸嘴组件101与所述雾化器主体100也可采用磁性吸附连接等多种方式。
所述容纳腔300位于所述吸嘴组件101内并与所述吸嘴组件100的面向所述雾化器主体100的表面相连通,所述容纳腔300面向所述雾化器主体100的一端表面形成有插烟腔口302,所述插烟腔口302用于供烟草插设进入所述容纳腔300内以及供雾化腔104内的烟雾进入所述容纳腔300内,当所述吸嘴组件101与所述雾化器主体100相连时(如图3所示),所述雾化器主体100覆盖住所述容纳腔300面向所述雾化器主体100的插烟腔口302,采用此种结构,能够有效的保障所述雾化腔104内的烟雾能够流动至位于所述容纳腔300内的烟草301,从而保障烟雾能够顺利的为所述烟草301加热。
当需要在所述雾化器里更换或添加烟草时,因所述吸嘴组件101与所述雾化器主体100之间为可拆卸连接结构,则可将所述吸嘴组件101从所述雾化器主体100上拆卸下来,为便于用户拆卸所述吸嘴组件101,则可在所述吸嘴组件101的外周面设置有摩擦纹207,本实施例对所述摩擦纹207的具体结构不作限定,只要用户通过所述摩擦纹207能够便于向所述吸嘴组件200施力即可。
当所述吸嘴组件101从所述雾化器主体100上拆卸下来时,即可将烟草301插入所述容纳腔300,随后即可将已插设有所述烟草301的所述吸嘴组件200安装至所述雾化器主体100上。
当需要将所述雾化器里的烟草取出时,因所述吸嘴组件101与所述雾化器主体100之间为可拆卸连接结构,则可将所述吸嘴组件101从所述雾化器主体100上拆卸下来,即可将烟草301从所述容纳腔300内取出。
可见,采用本实施例所示的结构,便于用户更换或安装烟草,则可根据不同的用户对烟草味道需求的不同安装不同口味或品牌的烟草,满足用户个性化的需求,而且在烟草使用一定时间后,可随时更换新的烟草,从而在不更换整体雾化器的情况下,能够保障用户吸食的混合烟雾中与实体香烟口感相同或相近的烟气能够保持一定的浓度,避免混合烟雾中与实体香烟口感相同或相近的烟气浓度过低的情况,延长雾化器的使用寿命,节省了雾化器的使用成本。
以下对本实施例所提供的所述第二烟雾通道的具体结构进行说明:
以下结合图8所示对所述第二烟雾通道的一种设置方式进行说明,其中,
图8为本发明所提供的吸嘴组件的一种实施例整体结构示意图。
所述吸嘴组件101设置有所述容纳腔300的一端侧壁处设置有与所述吸嘴组件101外表面相连通以作为所述第二烟雾通道的切槽208。
当将所述吸嘴组件101安装至所述雾化器主体100上时,所述切槽208位于雾化器主体100内,所述切槽208的两端分别与所述雾化腔104及所述烟雾出口102相连通。
所述切槽208设置有面向所述容纳腔300并与所述容纳腔300相连通的槽口209。
当所述容纳腔300内插设有烟草301时,所述烟草301覆盖所述槽口209,以使雾化器工作时雾化腔104内的至少部分烟雾绕过所述烟草301经所述切槽208流动至所述烟雾出口102。
采用本实施例所示的结构,在设置所述第二烟雾通道时,无需在所述雾化器内部增加新的器件,直接在所述吸嘴组件101上开设所述切槽208即可,从而简化的制件难度,提升了雾化器的生产效率。
具体的,所述吸嘴组件101呈管状结构,所述烟雾出口102位于所述吸嘴组件101的一端,所述容纳腔300一端的插烟腔口302位于所述吸嘴组件101的背离所述烟雾出口102的一端端面上,所述切槽208沿所述吸嘴组件101的纵向延伸设置并贯穿所述吸嘴组件101的侧壁。
更具体的,如图8所示,所述切槽208呈条形。
更具体的,所述切槽208的数目可为一个或多个。
若所述切槽208的数目为多个,则任意相邻的两个所述切槽208之间设置有预设间隔,从而尽可能地将与切槽208相邻的烟草中的烟味蒸出来。本实施例对所述切槽208的具体数目以及所述预设间隔的大小不作限定。
进一步如图9所示,图9为本发明所提供的雾化器的另一种实施例剖面结构示意图。
所述容纳腔300背向所述插烟腔口302的一端设置有用于阻挡所述烟草301朝远离所述插烟腔口302方向运动的限位板303。
采用本实施例所示的所述限位板303,能够有效的阻挡所述烟草301的位置发生变化,从而使得所述烟草301稳固的设置在所述容纳腔300内部,避免
因所述烟草301位置的改变而使得用户吸食到烟草的可能。而且若没有所述限位板303的限位作用,则在所述烟草301移动到靠近所述烟雾出口102的位置,则烟雾流动到所述烟草301上时,烟雾的热度会降低,则温度降低后的烟雾无法对所述烟草301进行充分的加热,从而无法充分蒸出烟草的烟味。
所述限位板303的面向所述烟雾出口102的一侧设置有与所述容纳腔300同轴设置的第三烟雾通道304,所述第三烟雾通道304的一端与所述容纳腔300相连通,所述第三烟雾通道304的另一端与所述烟雾出口102相连通。
具体的,本实施例中所述切槽208的长度大于所述限位板303至所述插烟腔口302的距离,所述切槽208远离所述插烟腔口302的一端与所述第三烟雾通道304相连通。
采用本实施例所示的结构,能够保障混合烟雾能够顺利的导通至所述烟雾出口102,且因采用所述第三烟雾通道304,能够使得流动至所述第三烟雾通道304内的经由所述第二烟雾通道流动的烟雾和经由所述第一烟雾通道流动的混合烟雾能够在所述第三烟雾通道304内充分混合,从而使得所述烟雾出口102能够输出浓度均匀的烟雾。
以下结合图10和图11所示对所述第二烟雾通道的另一种设置方式进行说明,其中,图10为本发明所提供的吸嘴组件的一种实施例整体结构示意图。图11为本发明所提供的雾化组件的另一种实施例剖面结构示意图。
在本种设置方式中,所述吸嘴组件101插设在所述雾化器主体100内的一端侧壁处设置有与所述吸嘴组件101外表面相连通并作为所述第二烟雾通道的通孔305。
可见,烟雾能够通过作为所述第二烟雾通道的所述通孔连通至所述烟雾出口102。
具体的,所述通孔305与所述雾化腔104及所述烟雾出口102相连通,以使雾化器工作时,所述雾化腔104内的至少部分烟雾绕过所述容纳腔300经所述通孔305流动至所述烟雾出口102。
本实施例所示的所述通孔305、所述容纳腔300分别与所述雾化腔104导通,采用本实施例所示的结构,所述加热组件105在所述雾化腔104内所雾化的烟雾分成了第一烟雾和第二烟雾,所述第一烟雾能够流动至所述容纳腔300
内部,从而使得所述第一烟雾能够对位于所述容纳腔300内的烟草进行加热,加热后形成的所述混合烟雾流动至所述烟雾出口102。
而所述第二烟雾能够绕过所述容纳腔300而沿所述第二烟雾通道的导向(即经由所述通孔305)流动至所述烟雾出口102。
可见,采用本实施例所示的结构,用户在所述烟雾出口102能够抽吸到所述混合烟雾以及所述第二烟雾,采用本实施例所述的结构,即便所述烟草随着雾化器使用时间的长度的递增而含有相当的水分,因设置有所述通孔305,从而保障了所述加热组件105所雾化的至少部分烟雾能够导通至所述烟雾出口102,从而避免了烟雾被所述烟草堵住而无法传输至所述烟雾出口102的情况的出现。其中,为了使烟草的烟味尽可能的被蒸出来,所述容纳腔300的腔壁上还设置有与所述雾化腔104相连通的气孔3051。
具体的,所述容纳腔300的背离所述插烟腔口302的一端设置有用于阻挡所述烟草301朝远离所述插烟腔口302方向运动的限位板303。
本种设置方式所示的限位板303的具体说明请详见上述实施例所示,具体不作赘述。
所述限位板303的面向所述烟雾出口的一侧设置有与所述容纳腔同轴设置的第三烟雾通道304,所述第三烟雾通道304的一端与所述容纳腔300相连通,所述第三烟雾通道304的另一端与所述烟雾出口102相连通。
具体的,所述通孔305至所述插烟腔口302的距离大于所述限位板303至所述插烟腔口302的距离,所述通孔305与所述第三烟雾通道304相连通。
采用本实施例所示的结构,能够有效的保障经由所述通孔305流出的烟雾不会经过位于所述容纳腔300内的烟草301,从而使得经由所述通孔305流出的烟雾能够直接流动至所述烟雾出口102,从而避免含有水分的烟草301对烟雾的阻挡作用,从而保障用户能够吸食到烟雾。
以下对所述加热组件105在所述雾化腔104内所雾化的第二烟雾是如何流动至所述通孔305的进行说明:
具体的,所述吸嘴组件101插入所述雾化器主体100的一端外周面与所述雾化器主体100之间形成有间隙306,所述间隙306与所述通孔305及所述雾化腔104相连通。
更具体的,所述间隙306用于在雾化器工作时所述雾化腔104内的至少部分烟雾绕过所述容纳腔300经所述间隙306流入通孔305内,再经过所述通孔305流动至所述烟雾出口102,即所述第一烟雾通道与所述第二烟雾通道间隔设置,所述容纳腔300的腔壁作为所述第一烟雾通道与所述第二烟雾通道之间的隔离部件。可以理解的是,作为所述第一烟雾通道与所述第二烟雾通道之间的隔离部件的结构在此不做具体限定,只要能够隔离所述第一烟雾通道与所述第二烟雾通道即可。
可选的,如图4所示,所述雾化腔104与所述容纳腔300之间设置有用于阻挡所述容纳腔300内的烟草301朝着所述雾化腔104运动的隔板307。
结合图4和图6所示,所述隔板307上设置有至少一个穿孔308,所述穿孔308与所述容纳腔300及所述雾化腔104相连通。
可见,采用本实施例所示的所述隔板307,从而使得位于所述容纳腔300内的烟草在所述隔板307的作用下,不会堵塞所述雾化腔104的朝向所述容纳腔300的腔口,从而使得所述雾化腔104内的烟雾经由所述隔板307的所述穿孔308流动至所述容纳腔300。
可选的,结合图4和图6所示,所述雾化器主体100的一端设置有插接槽601。
所述吸嘴组件101的一端可拆卸的插设在所述插接槽601内,所述隔板307收容在所述插接槽601内并与所述插接槽601的槽壁可拆卸连接,以使在将所述吸嘴组件101拆卸后能够将所述隔板307从所述插接槽601内取出。
可选的,所述隔板307呈圆盘形,所述隔板307的外周面套设有与所述插接槽601的槽壁弹性抵接的密封圈602。
可选的,所述插接槽601位于所述隔板307与所述吸嘴组件101之间形成所述容纳腔,可见,采用本实施例所示的结构能够提升所述雾化器结构的稳定。
本实施例所示的雾化器还能够避免用户吸食到烟草,则具体结构请参见图12所示,其中,图12所示为本发明所提供的雾化器的另一种实施例剖面结构示意图。
在本实施例以所述容纳腔300设置在所述雾化器主体100内部为例进行说明:
所述容纳腔300的背离所述插烟腔口302的一端设置有用于阻挡所述烟草301朝远离所述插烟腔口302方向运动的限位机构603。
采用本实施例所示的所述限位机构603,使得所述限位机构603一直会给位于所述容纳腔300内的所述烟草301一个朝向所述插烟腔口302方向的力,则使得所述烟草301不会朝远离所述插烟腔口302方向运动,从而使得从所述雾化腔104流出的烟雾能够迅速对位于所述容纳腔300内的所述烟草301进行加热,避免了烟雾热量在没有对所述烟草301进行加热之前的流失,提升了烟雾对烟草进行加热的效率。
而且所述限位机构603还能够避免烟草301运动到所述吸嘴组件101,从而有效的避免用户通过所述吸嘴组件101吸食到烟草301,保障了使用本实施例所示的雾化组件过程中的安全。
具体的,所述限位机构603可为环绕所述容纳腔300的腔壁设置的限位台阶。
本实施例对所述限位机构603的具体结构不作限定,只要所述限位机构603能够避免用户通过所述吸嘴组件101吸食到烟草301,保障了使用本实施例所示的雾化组件过程中的安全即可。
可选的,本实施例所示的所述容纳腔300内还设置有盖设在所述容纳腔300面向所述烟雾出口102一端的滤网604,所述滤网604用于阻碍所述容纳腔300中的烟草301和烟草颗粒进入用户口腔,可见,所述滤网604能够过滤掉烟草301和烟草颗粒但是能够让混合烟雾顺利的通过,从而在不影响用户对混合烟雾吸食效率的前提下,避免用户吸食到烟草和烟草颗粒的可能。
以下结合图12和图13所示对所述雾化器主体100的具体结构进行详细说明:
其中,图13为本发明所提供的雾化器的一种实施例局部爆炸连接结构示意图。
所述雾化器主体100包括储油组件及插设在所述储油组件内的雾化芯组件702,所述储油组件内形成有所述储油腔103。
所述雾化芯组件702包括雾化套管703、烟油吸附套705、上绝缘环706、上电极707及电热丝708。
具体的,所述雾化套管703的管壁上设置有与所述储油腔103相连通的进油孔704,所述烟油吸附套705套设在所述雾化套管703内并盖设所述进油孔704,所述电热丝708用作所述加热组件105。可以理解的是,所述加热组件105只要能够雾化烟油即可,其结构在此不做具体限定。
所述加热组件105的具体功能的说明请详见上述实施例所示。
所述电热丝708缠绕成螺旋状并至少部分套设在所述烟油吸附套705内,以雾化所述烟油吸附套705中的烟油,所述烟油吸附套705内形成有所述雾化腔104,所述上绝缘环706套设在所述雾化套管703的一端内,所述上电极707套设在所述绝缘环706内,所述电热丝708的一端与所述上电极707电连接,所述电热丝708的另一端与所述雾化套管703电连接,以通过所述上电极707及所述雾化套管703与外部电源电连接。
具体的,所述雾化套管703的背离所述上电极707的一端内套设有雾化芯盖709,所述雾化芯盖709外套设有密封垫710,所述雾化套管703外还套设有隔油套711,所述隔油套711与所述雾化套管703之间形成有用于进气的间隙,所述雾化套管703设置有所述进油孔704的表面与所述隔油套711紧密贴合并通过所述隔油套711侧壁的通孔(图中未标示)与所述储油腔相连通。
以下对本实施例所示的所述储油组件的具体结构进行说明:
具体的,结合图13和图14进行说明,其中,图14为本发明所提供的雾化器的一种实施例局部爆炸连接结构示意图。
所述储油组件包括储油组件主体801及可拆卸地插设在所述储油组件主体801一端的防拆组件802。
所述储油组件主体801包括固定套8011、储油套8012、第一密封垫8013、第二密封垫8014、第一连接头8015、第二连接头8016、下绝缘环8017及下电极8018,所述储油套8012套设在所述固定套8011内,所述第一密封垫8013及所述第二密封垫8014分别盖设在所述储油套8012的两端,所述第一连接头8015及所述第二连接头8016分别插设在所述储油套8012的两端,所述下绝缘环8017插设在所述下连接头内,所述下电极8018套设在所述下绝缘环8017内,所述第一连接头8015用于与所述防拆组件802相连,所述下电极8018及所述第二连接头8016用于与外部电源电连接。可以理解的是,所述储油组
件只要能够存储烟油即可,其结构在此不作具体限定。
所述防拆组件802包括调气座803、弹性件804及活动盖805,所述调气座803的一端插设在所述储油组件主体801内并与所述储油组件主体801的所述第一连接头8015通过螺纹连接,所述调气座803的另一端延伸至所述储油组件主体801外,所述弹性件804固定在所述调气座803上并与所述活动盖805弹性抵持,以给所述活动盖805提供朝远离所述储油组件主体801方向的弹力,所述活动盖805盖设在所述防拆组件的背向所述储油组件主体801的一端上。
以下对本实施例所示的所述防拆组件具体是如何避免因误操作而使得雾化器被拆卸的进行详细说明:
结合图14至图16所示,其中,图15为本发明所提供的雾化器的一种实施例局部结构示意图,图16为本发明所提供的雾化器的一种实施例局部剖面结构示意图。
所述活动盖805设置有啮合槽806,所述调气座803的端面上设置有用于与所述啮合槽806配合的啮合齿807。
在本实施例所示的雾化器处于正常的使用状态时,所述啮合槽806距所述啮合齿807预设距离。
在所述啮合槽806距所述啮合齿807预设距离的情况下,则用户无论如何对所述雾化器进行旋拧操作,都无法执行对所述雾化器的拆卸动作,从而避免了因用户的误操作而将雾化器进行拆卸的情况的出现,而且避免了儿童在意外对雾化器进行旋拧时将所述雾化器进行拆卸,从而有效的避免了儿童吸食烟油的可能,可见,采用本实施例所示的雾化器能够提升雾化器结构的使用安全性,避免对雾化器进行意外拆卸的情况。
当需要对所述雾化器进行拆卸时,即当需要将所述调气座803从所述储油件主体拆下时,需向所述活动盖805施加朝调气座803方向的力,直至所述啮合槽806与所述啮合齿807啮合,从而通过旋转所述活动盖805以将所述调气座803从所述储油组件主体801上拆卸,即可将所述防拆组件从所述储油组件主体801上拆卸。
具体的,所述雾化芯组件702活动地插设在所述储油组件内,具体的,所
述雾化芯组件702的一端与所述防拆组件螺纹连接,更具体的,所述雾化芯组件702的隔油套711的一端与所述调气座803螺纹连接,以使在将所述防拆组件从所述储油组件主体801上取出时,所述雾化芯组件702能够连同所述防拆组件从所述储油组件主体801上取出。
采用本实施例所示的雾化器的结构,在需要拆卸所述雾化芯组件702时,则需要在所述活动盖805施加朝调气座803方向的力直至所述啮合槽806与所述啮合齿807啮合,而且需要在所述活动盖805上施加旋拧的力直至所述防拆组件从所述储油组件主体801上取出,进而使得所述防拆组件连同所述雾化芯组件702从所述801上取出。
可选的,本实施例所示的所述调气座803内形成有插接槽808,所述吸嘴组件101可拆卸地插设在所述插接槽808内。
可选的,所述调气座803内插设有通气管809,本实施例所述的所述活动盖805内侧设置有通气槽810,所述调气座803上设置有通气孔811。
当用户需要对进气量进行调节时,则可旋转活动盖805,控制活动盖805的所述通气槽810与所述调气座803的所述通气孔811之间的重合面积,即所述雾化器的进气量随着所述调气座803的所述通气孔811之间重合面积的递增而递增。
可见,采用本实施例所示的雾化器能够适用用户对烟雾浓度不同的需求,能够满足用户对烟雾个性化的需求。
以下结合图17和图18所示对所述吸嘴组件的具体结构进行说明,其中,图17为本发明所提供的雾化器的另一种实施例剖面结构示意图,图18为本发明所提供的烟草固定套的一种实施例整体结构示意图。
所述雾化器主体100包括支撑管900、第一套管901、烟油吸附件902及电极组件903,所述支撑管900插设在所述第一套管901内,所述加热组件105固定在所述支撑管900内,所述支撑管900内形成所述雾化腔104,所述支撑管900与所述第一套管901之间形成所述储油腔103,所述烟油吸附件902套设在所述支撑管900外并位于所述储油腔103内,所述加热组件105与所述电极组件903电连接,所述电极组件903的一端与所述第一套管901插接相连,所述电极组件903的另一端与延伸至所述第一套管901外并用于与外部电源电
连接;
在所述外部电源供电的情况下,所述加热组件105能够将烟油进行雾化以生成能够对所述烟草进行加热的烟雾。
所述吸嘴组件101包括第二套管904、烟草固定套905及吸嘴盖906。
所述烟草固定套905设置在所述第二套管904内,所述吸嘴盖906盖设在所述第二套管904的端面上,所述烟草固定套905内设置有所述容纳腔200及所述通气槽310,所述第一套管901与所述第二套管904为一体结构。
所述容纳腔200的背离所述吸嘴盖906的一端设置有环形的限位台阶907,所述限位台阶907用于阻挡所述烟草910朝远离所述烟雾出口102方向运动,所述限位台阶907面向所述吸嘴盖906的表面设置有与所述通气槽310及所述雾化腔104相连通的用于供烟雾流动的凹槽908。
以上所述,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 (25)
- 一种雾化器,包括雾化器本体,所述雾化器本体外表面设置有供烟雾排出以供用户吸食的烟雾出口,其特征在于,所述雾化器本体内设置有容纳腔、储油腔、雾化腔及加热组件,所述容纳腔与所述雾化腔及所述烟雾出口相连通,所述容纳腔用于放置烟草并作为第一烟雾通道,所述加热组件设置于所述雾化腔内并用于雾化所述储油腔内的烟油以形成烟雾,所述雾化腔内雾化形成的烟雾用于对所述容纳腔内的烟草进行加热,以生成混合烟雾,以使在吸烟时,所述混合烟雾通过所述第一烟雾通道流动至所述烟雾出口。
- 根据权利要求1所述的雾化器,其特征在于,所述雾化器本体内还设置有第二烟雾通道,所述第二烟雾通道与所述烟雾出口及所述雾化腔相连通,所述第二烟雾通道用于分流所述雾化腔内的部分烟雾并将所述部分烟雾导入至所述烟雾出口。
- 根据权利要求2所述的雾化器,其特征在于,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体用于雾化烟油以形成烟雾,所述雾化器主体内设置有所述储油腔、所述雾化腔及所述加热组件;所述吸嘴组件与所述雾化器主体可拆卸连接,所述容纳腔位于所述吸嘴组件内,所述容纳腔与所述吸嘴组件的面向所述雾化器主体的表面相连通并形成有面向所述雾化器主体的插烟腔口,当所述吸嘴组件与所述雾化器主体相连时,所述雾化器主体覆盖住所述插烟腔口;当将所述吸嘴组件与所述雾化器主体分离时,能够将烟草从所述容纳腔的插烟腔口插入所述容纳腔内或将烟草从所述容纳腔内取出。
- 根据权利要求3所述的雾化器,其特征在于,所述吸嘴组件设置有所述容纳腔的一端侧壁处设置有与所述吸嘴组件外表面相连通以作为所述第二烟雾通道的切槽,所述切槽位于雾化器主体内,所述切槽的两端分别与所述雾化腔及所述烟雾出口相连通,所述切槽设置有面向所述容纳腔并与所述容纳腔相连通的槽口;当所述容纳腔内插设有烟草时,所述烟草覆盖所述槽口,以使雾化器工作时所述雾化腔内的至少部分烟雾经所述切槽流动至所述烟雾出口。
- 根据权利要求4所述的雾化器,其特征在于,所述吸嘴组件呈管状结构,所述烟雾出口位于所述吸嘴组件的一端,所述容纳腔的所述插烟腔口位于所述吸嘴组件的背离所述烟雾出口的一端端面上,所述切槽沿所述吸嘴组件的 纵向延伸设置并贯穿所述吸嘴组件的侧壁。
- 根据权利要求5所述的雾化器,其特征在于,所述吸嘴组件设置有若干所述切槽,且任意相邻的两个所述切槽之间设置有预设间隔,所述切槽呈条形。
- 根据权利要求5所述的雾化器,其特征在于,所述容纳腔背向所述插烟腔口的一端设置有用于阻挡所述烟草朝远离所述插烟腔口方向运动的限位板,所述限位板的面向所述烟雾出口的一侧设置有与所述容纳腔同轴设置的第三烟雾通道,所述第三烟雾通道的一端与所述容纳腔相连通,所述第三烟雾通道的另一端与所述烟雾出口相连通,所述切槽的长度大于所述限位板至所述插烟腔口的距离,所述切槽远离所述插烟腔口的一端与所述第三烟雾通道相连通。
- 根据权利要求3所述的雾化器,其特征在于,所述吸嘴组件插设在所述雾化器主体内的一端侧壁处设置有与所述吸嘴组件外表面相连通并作为所述第二烟雾通道的通孔,所述通孔与所述雾化腔及所述烟雾出口相连通,以使雾化器工作时,所述雾化腔内的至少部分烟雾经所述通孔流动至所述烟雾出口。
- 根据权利要求8所述的雾化器,其特征在于,所述容纳腔的背离所述插烟腔口的一端设置有用于阻挡所述烟草朝远离所述插烟腔口方向运动的限位板,所述限位板的面向所述烟雾出口的一侧设置有与所述容纳腔同轴设置的第三烟雾通道,所述第三烟雾通道的一端与所述容纳腔相连通,所述第三烟雾通道的另一端与所述烟雾出口相连通,所述通孔至所述插烟腔口的距离大于所述限位板至所述插烟腔口的距离,所述通孔与所述第三烟雾通道相连通。
- 根据权利要求8所述的雾化器,其特征在于,所述吸嘴组件插入所述雾化器主体的一端外周面与所述雾化器主体之间形成有间隙,所述间隙与所述通孔及所述雾化腔相连通,所述间隙用于在雾化器工作时所述雾化腔内的至少部分烟雾经所述间隙流入通孔内,再经过所述通孔流动至所述烟雾出口。
- 根据权利要求1所述的雾化器,其特征在于,所述雾化腔与所述容纳腔之间设置有用于阻挡所述容纳腔内的烟草朝着所述雾化腔运动的隔板,所述隔板上设置有至少一个穿孔,所述穿孔与所述容纳腔及所述雾化腔相连通。
- 根据权利要求11所述的雾化器,其特征在于,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体用于雾化烟油以形成烟雾,所述雾化器主体内设置有所述储油腔、所述雾化腔及所述加热组件,所述雾化器主体的一端设置有插接槽,所述吸嘴组件的一端可拆卸的插设在所述插接槽内,所述隔板收容在所述插接槽内并与所述插接槽的槽壁可拆卸连接,以使在将所述吸嘴组件拆卸后能够将所述隔板从所述插接槽内取出。
- 根据权利要求12所述的雾化器,其特征在于,所述隔板呈圆盘形,所述隔板的外周面套设有与所述插接槽的槽壁弹性抵接的密封圈。
- 根据权利要求11所述的雾化器,其特征在于,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体用于雾化烟油以形成烟雾,所述雾化器主体内设置有所述储油腔、所述雾化腔及所述加热组件,所述雾化器主体的一端设置有插接槽,所述吸嘴组件的一端可拆卸的插设在所述插接槽内,所述隔板收容在所述插接槽内,所述插接槽位于所述隔板与所述吸嘴组件之间形成有所述容纳腔。
- 根据权利要求3所述的雾化器,其特征在于,所述容纳腔的背离所述插烟腔口的一端设置有用于阻挡所述烟草朝远离所述插烟腔口方向运动的限位机构。
- 根据权利要求15所述的雾化器,其特征在于,所述限位机构为环绕所述容纳腔的腔壁设置的限位台阶。
- 根据权利要求3所述的雾化器,其特征在于,所述容纳腔内还设置有盖设在所述容纳腔面向所述烟雾出口一端的滤网,所述滤网用于阻碍所述容纳腔内的所述烟草进入用户口腔。
- 根据权利要求1所述的雾化器,其特征在于,所述加热组件为所述雾化器中唯一的加热装置。
- 根据权利要求1所述的雾化器,其特征在于,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体包括储油组件及插设在所述储油组件内的雾化芯组件,所述储油组件内形成有所述储油腔;所述雾化芯组件包括雾化套管、烟油吸附套、电热丝、上绝缘环及上电极,所述雾化套管的管壁上设置有与所述储油腔相连通的进油孔,所述烟油吸附套套设在所述雾化套管内并盖 设所述进油孔,所述电热丝用作所述加热组件,所述电热丝缠绕成螺旋状并至少部分套设在所述烟油吸附套内,以雾化所述烟油吸附套中的烟油,所述烟油吸附套内形成有所述雾化腔,所述绝缘环套设在所述雾化套管的一端内,所述上电极套设在所述绝缘环内,所述电热丝的一端与所述上电极电连接,所述电热丝的另一端与所述雾化套管电连接,以通过所述上电极及所述雾化套管与外部电源电连接。
- 根据权利要求19所述的雾化器,其特征在于,所述储油组件包括储油组件主体及可拆卸地插设在所述储油组件主体一端的防拆组件,所述防拆组件包括调气座、弹性件及活动盖;所述调气座的一端插设在所述储油组件主体内并与所述储油组件主体通过螺纹连接,所述调气座的另一端延伸至所述储油组件主体外,所述弹性件固定在所述调气座上并与所述活动盖弹性抵持,以给所述活动盖提供朝远离所述储油组件主体方向的弹力,所述活动盖盖设在所述调气座的背向所述储油组件主体的一端上,所述活动盖设置有啮合槽,所述调气座上设置有用于与所述啮合槽配合的啮合齿,所述啮合槽距所述啮合齿预设距离;当需要将所述防拆组件从所述储油件主体拆下时,需向所述活动盖施加朝所述调气座方向的力直至所述啮合槽与所述啮合齿啮合,从而通过旋转所述活动盖以将所述防拆组件从所述储油组件主体上拆卸。
- 根据权利要求20所述的雾化器,其特征在于,所述雾化芯组件活动地插设在所述储油组件内,所述雾化芯组件的一端与所述防拆组件螺纹连接,以使在将所述防拆组件从所述储油组件主体上取出时,所述雾化芯组件能够连同所述防拆组件从所述储油组件主体上取出。
- 根据权利要求2所述的雾化器,其特征在于,所述容纳腔的腔壁处凹陷形成有沿所述容纳腔的纵向延伸设置以作为所述第二烟雾通道的通气槽,所述通气槽的一端与所述雾化腔相连通,所述通气槽的另一端与所述烟雾出口相连通。
- 根据权利要求22所述的雾化器,其特征在于,所述雾化器本体包括雾化器主体及吸嘴组件,所述雾化器主体包括第一套管、烟油吸附件、支撑管及电极组件,所述支撑管插设在所述第一套管内,所述加热组件固定在所述支 撑管内,所述支撑管内形成所述雾化腔,所述支撑管与所述第一套管之间形成所述储油腔,所述烟油吸附件套设在所述支撑管外并位于所述储油腔内,所述加热组件与所述电极组件电连接,所述电极组件的一端与所述第一套管插接相连,所述电极组件的另一端延伸至所述第一套管外并用于与外部电源电连接;所述吸嘴组件包括第二套管、烟草固定套及吸嘴盖,所述烟草固定套设置在所述第二套管内,所述吸嘴盖盖设在所述第二套管的端面上,所述吸嘴盖上设置有所述烟雾出口,所述烟草固定套内设置有所述容纳腔及所述通气槽,所述第一套管与所述第二套管为一体结构。
- 根据权利要求23所述的雾化器,其特征在于,所述容纳腔的背离所述吸嘴盖的一端设置有环形的限位台阶,所述限位台阶用于阻挡所述烟草朝远离所述烟雾出口方向运动,所述限位台阶面向所述吸嘴盖的表面设置有与所述通气槽及所述雾化腔相连通的用于供烟雾流动的凹槽。
- 根据权利要求2所述的雾化器,其特征在于,所述第一烟雾通道与所述第二烟雾通道间隔设置,所述第一烟雾通道与所述第二烟雾通道之间设置有用于隔离所述第一烟雾通道与所述第二烟雾通道的隔离部件。
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