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WO2016082479A1 - 电子烟雾化器 - Google Patents

电子烟雾化器 Download PDF

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Publication number
WO2016082479A1
WO2016082479A1 PCT/CN2015/078876 CN2015078876W WO2016082479A1 WO 2016082479 A1 WO2016082479 A1 WO 2016082479A1 CN 2015078876 W CN2015078876 W CN 2015078876W WO 2016082479 A1 WO2016082479 A1 WO 2016082479A1
Authority
WO
WIPO (PCT)
Prior art keywords
atomizing
chamber
air flow
smoke
electronic cigarette
Prior art date
Application number
PCT/CN2015/078876
Other languages
English (en)
French (fr)
Inventor
施武强
Original Assignee
深圳市美昌科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN201420709884.3U external-priority patent/CN204273239U/zh
Priority claimed from CN201520134674.0U external-priority patent/CN204599336U/zh
Application filed by 深圳市美昌科技有限公司 filed Critical 深圳市美昌科技有限公司
Publication of WO2016082479A1 publication Critical patent/WO2016082479A1/zh

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Classifications

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

Definitions

  • the invention belongs to the technical field of electronic cigarettes, and in particular relates to an electronic cigarette atomizer.
  • Electronic cigarettes also known as virtual cigarettes and electronic atomizers, are mainly used to quit smoking and replace cigarettes. They have the same appearance as cigarettes, and have similar taste to cigarettes, even more than the taste of ordinary cigarettes. Smoke out, suck out the taste and feel.
  • the smoke oil used in the electronic cigarette is produced by using plant extract, water and edible flavor as main raw materials, and is generally stored in a smoke oil bottle.
  • a common cigarette holder adopts a straight-flow airflow chamber, which simply sucks the atomized mixed gas generated by the atomizing device into the oral cavity, and the airflow chamber of the cigarette holder is a heating device facing the atomizing device, so that When the atomizing device is working, the liquid splash particles generated by the evaporation of the smoke oil often fly directly to the user's mouth through the mouthpiece passage, which affects the user's feeling; the atomizing gas generated by the atomizing device is also only in the atomizing device. The mixing is carried out once, and then flows into the user's mouth through the mouthpiece, and the generated atomized mixed gas is not uniform enough.
  • the existing electronic cigarette atomizers are all directly opposed to the heating wire, so that the airflow directly impacts the heating wire to achieve the effect of atomization mixing, the flow distance of the air in the atomizing device is short, and the entire atomization chamber is not caused.
  • the temperature of the body to the atomizing device rises to affect the user's feeling.
  • an electronic cigarette atomizer comprising a mouthpiece for suction, an atomizing component for containing the smoke oil and atomizing the smoke oil into smoke, and a power supply assembly for electrically connecting the atomizing assembly
  • the cigarette holder includes a main body portion and a bottom plate portion facing the atomization assembly and connected to the main body portion, the main body portion is provided with an air flow chamber for the smoke to flow into the human oral cavity and the cavity bottom is the bottom plate portion and a plurality of via holes communicating with the gas flow chamber, the conductive holes being located on a sidewall of the gas flow chamber and adjacent to the bottom plate portion, the smoke is atomized by the atomization assembly
  • the via hole enters the air flow chamber, and the smoke enters the air flow chamber along the conductive hole to form a non-direct air flow.
  • each of the via holes is disposed along a circumferential direction of the main body portion, and each of the through holes is equally spaced.
  • an axis of the through hole is perpendicular to an axis of the air flow chamber.
  • the atomizing assembly includes an atomizing seat having a heating element to atomize the oil and a fixed connection between the atomizing seat and the mouthpiece to allow the smoke to pass from the atomizing seat
  • An atomizing cover flowing into the through hole the atomizing seat is provided with a discharge port for discharging the smoke toward the bottom plate portion, and the atomizing cover is provided to communicate with the discharge port and the guide
  • An atomization chamber of the through hole the conduction hole is directed toward an inner wall of the atomization chamber, and the smoke enters the air flow chamber along the discharge port, the atomization chamber and the conduction hole to form a non-through air flow .
  • the atomization chamber is a circular inner cavity.
  • the atomization assembly further includes an air flow passage member fixedly mounted in the atomization chamber and having an air guiding cavity, the air guiding cavity communicating with the conduction hole and the discharge port,
  • the atomizing cover is provided with an air inlet toward the air flow passage member, and an air inlet passage connecting the air inlet and the discharge port is formed between the air flow passage member and the inner wall of the atomization chamber.
  • the intake passage has a spiral shape.
  • the intake port is located at an inlet of the intake passage, and an outlet of the intake passage is adjacent to a discharge port of the atomization seat.
  • the airflow passage member includes a body portion having an air guiding cavity and an end portion abutting against the atomizing seat and the inner wall of the atomizing chamber, respectively, and a plurality of strips facing the mist along the body portion A convex ridge on one side of the hood, and two adjacent ribs and an inner wall of the atomization cover form an inlet passage.
  • the inner wall of the atomization chamber is disposed on a plurality of flow guiding blocks protruding toward the air flow passage member and attached to the outer wall of the air flow passage member, and the two adjacent flow guiding blocks and the air flow passage member
  • the outer wall forms an intake passage.
  • the invention also provides an electronic cigarette atomizer, comprising a cigarette holder for sucking people, an atomizing assembly for containing the oil and atomizing the oil into mist, and a power supply assembly for electrically connecting the atomizing assembly.
  • the cigarette holder is provided with a non-direct current passage for the smoke to enter the mouth of the human body;
  • the atomization assembly includes a heating element for atomizing the oil into smoke and having a discharge port for the smoke, and is provided with the discharge port and the non-connecting
  • the intake passage has a spiral shape.
  • the atomization assembly includes an atomization seat in which the heating element is disposed, an atomization cover fixedly mounted between the atomization seat and the cigarette holder, and provided with the atomization chamber, and a fixed installation
  • An airflow passage member of the intake passage is formed in the atomization chamber and with the atomization cover.
  • the atomizing cover is provided with an air inlet toward the airflow passage member, and the airflow passage member and the inner wall of the atomization chamber form the communication between the air inlet and the discharge port Intake passage.
  • the intake port is located at an inlet of the intake passage, and an outlet of the intake passage is adjacent to a discharge port of the atomization seat.
  • the airflow passage member includes a body portion having an air guiding cavity and an end portion abutting against the atomizing seat and the inner wall of the atomizing chamber, respectively, and a plurality of strips facing the mist along the body portion A convex ridge on one side of the hood, and two adjacent ribs and an inner wall of the atomization cover form an inlet passage.
  • the inner wall of the atomization chamber is disposed on a plurality of flow guiding blocks protruding toward the air flow passage member and attached to the outer wall of the air flow passage member, and the two adjacent flow guiding blocks and the air flow passage member
  • the outer wall forms an intake passage.
  • the cigarette holder is provided with a gas flow chamber for the smoke to flow into the human oral cavity and a plurality of through holes on the side wall of the air flow chamber and communicating with the air flow chamber, the through hole Forming a non-direct current channel with the airflow chamber.
  • the cigarette holder includes a main body portion provided with the air flow chamber and the through hole, and a bottom plate portion received in the atomization chamber and connected to the main body portion to form a bottom of the air flow chamber.
  • the via hole is adjacent to the bottom plate portion and communicates with the atomization chamber.
  • each of the via holes is disposed along a circumferential direction of the main body portion, and each of the through holes is equally spaced.
  • an axis of the through hole is perpendicular to an axis of the air flow chamber.
  • the invention also provides an electronic cigarette atomizer, comprising a cigarette holder for sucking people, an atomizing assembly for containing the oil and atomizing the oil into mist, and a power supply assembly for electrically connecting the atomizing assembly.
  • the atomizing assembly is provided with a discharge port for exhausting smoke, an atomization chamber for communicating the discharge port with the mouthpiece, and a plurality of intake passages for external air to enter the atomization chamber to be mixed with the smoke.
  • the intake passage has a spiral shape.
  • the atomizing assembly includes an atomizing seat having a heating element, an atomizing cover fixedly mounted between the atomizing seat and the cigarette holder, and provided with the atomizing chamber, and fixedly mounted on the mist
  • An air flow passage member of the intake passage is formed in the chemical chamber and with the atomizing cover.
  • the atomizing cover is provided with an air inlet toward the airflow passage member, and the airflow passage member and the inner wall of the atomization chamber form the communication between the air inlet and the discharge port Intake passage.
  • the intake port is located at an inlet of the intake passage, and an outlet of the intake passage is adjacent to a discharge port of the atomization seat.
  • the airflow passage member includes a body portion having an air guiding cavity and an end portion abutting against the atomizing seat and the inner wall of the atomizing chamber, respectively, and a plurality of strips facing the mist along the body portion A convex ridge on one side of the hood, and two adjacent ribs and an inner wall of the atomization cover form an inlet passage.
  • the inner wall of the atomization chamber is disposed on a plurality of flow guiding blocks protruding toward the air flow passage member and attached to the outer wall of the air flow passage member, and the two adjacent flow guiding blocks and the air flow passage member
  • the outer wall forms an intake passage.
  • the cigarette holder is provided with an air flow chamber for the smoke to flow into the human body cavity, and a plurality of through holes located on the side wall of the air flow chamber and communicating with the air flow chamber, the through hole Forming a non-direct current channel with the airflow chamber.
  • the cigarette holder includes a main body portion provided with the air flow chamber and the through hole, and a bottom plate portion received in the atomization chamber and connected to the main body portion to form a bottom of the air flow chamber.
  • the via hole is adjacent to the bottom plate portion and communicates with the atomization chamber.
  • each of the via holes is disposed along a circumferential direction of the main body portion, and each of the through holes is equally spaced.
  • an axis of the through hole is perpendicular to an axis of the air flow chamber.
  • the electronic cigarette atomizer forms a non-through flow passage with the air flow chamber through the through hole for the smoke to pass through, and along the side wall of the air flow chamber Providing a plurality of the through holes, preventing liquid splash particles generated by evaporation of the oil from entering the oral cavity of the user, and simultaneously causing the atomized mixed gas to be secondarily mixed at the mouthpiece, so that the atomizing gas The mixture is more tight and thorough, and the taste is more uniform, thereby greatly improving the taste effect of the user.
  • FIG. 1 is a cross-sectional view of an electronic cigarette atomizer according to an embodiment of the present invention
  • Figure 2 is a structural view of the mouthpiece of Figure 1;
  • Figure 3 is a structural view of the air flow passage member of Figure 1.
  • an electronic cigarette atomizer provided by an embodiment of the present invention includes a mouthpiece 10 for people to suck, an atomizing component 20 for containing smoke oil and atomizing the smoke oil into smoke, and an electrical connection station.
  • a power supply assembly (not shown) of the atomization assembly 20 includes a main body portion 12 and a bottom plate portion 14 facing the atomization assembly 20 and connected to the main body portion 12, the main body portion 12 is provided
  • the airflow chamber 122 for the smoke flowing out into the human oral cavity and the bottom of the cavity is the bottom plate portion 14 and a plurality of through holes 124 communicating with the air flow chamber 122, the conductive holes 124 are located in the air flow chamber On the side wall of 122 and adjacent to the bottom plate portion 14
  • the mist is atomized by the atomizing assembly 20 and enters the airflow chamber 122 along the through hole 124.
  • the smoke enters the airflow chamber 122 along the conductive hole 124 to form a non-direct airflow.
  • An electronic cigarette atomizer provided by the embodiment of the present invention forms a non-direct current channel 12' with the airflow cavity 122 through the through hole 124 for the smoke to pass through, and a plurality of sidewalls are disposed along the sidewall of the airflow cavity 122.
  • the through hole 124 prevents the liquid splash particles generated by the evaporation of the smoke oil from entering the oral cavity of the user, and at the same time, the atomized mixed gas is secondarily mixed at the mouthpiece 10, so that the atomized gas is mixed. It is more thorough and the taste is more uniform, which greatly improves the user's taste.
  • the smoke when the smoke enters the airflow chamber 122 along each of the through holes 124, the smoke forms a hedging in the airflow chamber 122 and is remixed with each other, as indicated by the arrow in FIG. That is, the smoke is twice mixed in the gas flow chamber 122, so that the smoke is more thoroughly mixed and the taste is better.
  • each of the via holes 124 is disposed along a circumferential direction of the main body portion 12 , and each of the via holes 124 is equally spaced.
  • the number of the through holes 124 is at least two, and each of the through holes 124 may be distributed in the same circumferential direction of the main body portion 12, so that the smoke is doubled in the air flow chamber 122 to be secondarily mixed.
  • Each of the via holes 124 may also be distributed in different circumferential directions to cause the smoke to be hedged in the airflow chamber 122 to be mixed multiple times to enhance the mouthfeel.
  • each of the via holes 124 may also be disposed at an equal interval.
  • the axis of the via 124 is perpendicular to the axis of the gas flow chamber 122 to facilitate the wedging of the smoke within the gas flow chamber 122.
  • the axis of the via 124 is not parallel to the axis of the airflow cavity 122.
  • the atomizing assembly 20 further includes an atomizing seat 22 having a heating element (not shown) for atomizing the oil and a fixed connection between the atomizing seat 22 and the mouthpiece. Between 10, the atomizing cover 24 is caused to flow the smoke from the atomizing seat 22 into the through hole 124, and the atomizing seat 22 is provided for discharging the smoke toward the bottom plate portion 14.
  • the atomization cover 24 is provided with an atomization chamber 242 communicating with the discharge port 220 and the through hole 124, the conduction hole 124 facing the inner wall of the atomization chamber 242, the smoke Along the discharge port 220, the atomization chamber 242 and the through hole 124 enter the air flow chamber 122 to form a non-direct air flow.
  • the smoke oil is heated and atomized into the smoke by the heating element, and the smoke is discharged from the discharge port 220 into the atomization chamber 242, and a mixture is obtained in the atomization chamber 242.
  • the atomization chamber 242 is a circular inner cavity.
  • the atomizing assembly 20 further includes an airflow passage member 26 fixedly mounted in the atomization chamber 242 and having an air guiding cavity 262.
  • the air guiding cavity 262 communicates with the guiding device.
  • a through hole 124 and the discharge port 220 the atomizing cover 24 is provided with an air inlet 244 facing the air flow passage member 26, and the air flow passage member 26 forms a communication with the inner wall of the atomization chamber 242
  • the intake port 244 and the intake passage 28 of the discharge port 220 is provided with an air inlet 244 facing the air flow passage member 26.
  • the air flow passage 28 is used to mix the air flow with the smoke in the atomization chamber 242, so that the air in the atomization chamber 242 flows and is sufficiently mixed, so that atomization
  • the effect is more uniform and the temperature of the smoke after atomization is cooled to a certain extent and the temperature is uniformized, which is beneficial to improve the mouthfeel.
  • the intake passage 28 has a spiral shape, and the inlet passage 28 of the spiral shape makes the flow distance and the area of the air flow flow large, and the atomizing cover 24 is provided. Cooling effect.
  • the air inlet 244 is located at the inlet of the intake passage 28 , and the outlet of the intake passage 28 is adjacent to the discharge port 220 of the atomization seat 22 . It can be understood that the air inlet 244 is located on a side of the atomizing cover 24 near the mouthpiece 10, and the inlet of the air inlet channel 28 is adjacent to the air inlet 244 and the air inlet. The 244 airflow is communicated, and the outlet of the intake passage 28 is located at the top of the atomizing hood 24.
  • the intake passage 28 is formed along the inner wall of the atomizing cover 24 to sufficiently cool the atomizing cover 24.
  • the airflow passage member 26 includes the air guiding cavity 262 and the end portions respectively abut against the atomizing seat 22 and the inner wall protrusion of the atomizing chamber 242. a body portion 264 and a plurality of ribs 266 protruding along the body portion 264 toward the side of the atomizing cover 24, and two adjacent ribs 266 and the inner wall of the atomizing cover 24 form the Air passage 28. It can be understood that, in the direction of the arrow shown in FIG.
  • each of the bosses is spaced apart and is spiral, so that the boss and the inner wall of the atomizing cover 24 are
  • the spiral inlet passage 28 is formed such that the air flow entering the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and atomization
  • the air flow in the silo 242 is more orderly and the mixing effect is more effective, achieving a more thorough atomization effect, improving the amount of smoke, uniform smoke concentration and improving the taste.
  • the electronic cigarette atomizer generates a large amount of heat during operation, and the spiral air inlet passage 28 makes the air flow distance and area in the electronic cigarette atomizer larger, and the electronic smoke is generated.
  • the boss is integrally formed with the body portion 264.
  • the inner wall of the atomization chamber 242 is disposed on a plurality of flow guiding blocks (not shown) protruding toward the air flow passage member 26 and attached to the outer wall of the air flow passage member 26 .
  • Two of the flow guiding blocks and the outer wall of the air flow passage member 26 form an intake passage 28. It can be understood that, in the direction of the arrow shown in FIG. 1 , each of the flow guiding blocks is disposed at intervals and is spiral, so that the flow guiding block forms a spiral inlet passage 28 with the inner wall of the atomizing cover 24 .
  • the air flow entering the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and the air flow in the atomization chamber 242 is more
  • the sequence and mixing effect is more effective, achieving a more thorough atomization effect, improving the amount of smoke, uniform smoke concentration and improving the taste.
  • the electronic cigarette atomizer generates a large amount of heat during operation, and the spiral air inlet passage 28 makes the air flow distance and area in the electronic cigarette atomizer larger, and the electronic smoke is generated.
  • the flow guiding block is integrally formed with the outer wall of the air flow passage member 26.
  • an electronic cigarette atomizer provided by an embodiment of the present invention includes a cigarette holder 10 for smoking, an atomizing assembly 20 for containing the oil and atomizing the oil into a smoke, and electrically connecting the atomizing assembly.
  • a power supply assembly 20 the cigarette holder 10 is provided with a non-direct current passage 12' for allowing smoke to enter the human oral cavity;
  • the atomization assembly 20 includes a heating element that atomizes the smoke oil into a smoke and has a smoke discharge port 220, and
  • An atomization chamber 242 connecting the discharge port 220 and the non-DC channel 12' and a plurality of inlet passages for external air to enter the atomization chamber 242 to discharge the smoke from the discharge port 220 are provided 28.
  • the electronic cigarette atomizer utilizes a mouthpiece 10 having a non-direct current channel 12' to prevent liquid splash particles generated by evaporation of the smoke oil from entering the user's mouth, while introducing external air through the intake passage 28 and in said atomizing
  • the smoke in the silo 242 is mixed, so that the smoke in the atomization chamber 242 is fully mixed, and the air flow in the atomization chamber 242 is more orderly and the mixing effect is more effective, and the atomization effect is more thorough, and the amount of smoke is improved. Average Uniform smoke concentration and improved mouthfeel effect.
  • the intake passage 28 has a spiral shape.
  • the spiral passage of the intake passage 28 allows the flow distance and area of the air flow to be large, and serves to cool the atomizing cover 24.
  • the air flow entering the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and the air flow in the atomization chamber 242 is more
  • the sequence and mixing effect is more effective, achieving a more thorough atomization effect, improving the amount of smoke, uniform smoke concentration and improving the taste.
  • the atomization assembly 20 further includes an atomization seat 22 having the heating element disposed therein, and is fixedly mounted between the atomization seat 22 and the mouthpiece 10 and provided with the mist.
  • An atomizing cover 24 of the chemical chamber 242 and an air flow passage member 26 fixedly mounted in the atomization chamber 242 and forming the intake passage 28 with the atomizing cover 24 are formed.
  • the smoke oil is heated and atomized into the smoke by the heating element, and the smoke is discharged from the discharge port 220 into the atomization chamber 242, and a mixing is obtained in the atomization chamber 242, and along each
  • the through holes 124 enter the airflow chamber 122 for hedging and are secondarily mixed, so that the mixing of the smoke is more sufficient, and the mouthfeel is greatly improved.
  • the air flow passage 28 is used to mix the air flow with the smoke in the atomization chamber 242, so that the air in the atomization chamber 242 flows and is sufficiently mixed, so that atomization
  • the effect is more uniform and the temperature of the smoke after atomization is cooled to a certain extent and the temperature is uniformized, which is beneficial to improve the mouthfeel.
  • the atomizing cover 24 is provided with an air inlet 244 facing the airflow passage member 26, and the airflow passage member 26 forms a communication with the inner wall of the atomization chamber 242.
  • the air inlet 244 is located at the inlet of the intake passage 28 , and the outlet of the intake passage 28 is adjacent to the discharge port 220 of the atomization seat 22 . It can be understood that the air inlet 244 is located on a side of the atomizing cover 24 near the mouthpiece 10, and the inlet of the air inlet channel 28 is adjacent to the air inlet 244 and the air inlet. 244 is in air communication, and an outlet of the intake passage 28 is located at The top of the atomizer cover 24.
  • the intake passage 28 is formed along the inner wall of the atomizing cover 24 to sufficiently cool the atomizing cover 24.
  • the airflow passage member 26 includes the air guiding cavity 262 and the end portions respectively abut against the atomizing seat 22 and the inner wall protrusion of the atomizing chamber 242. a body portion 264 and a plurality of ribs 266 protruding along the body portion 264 toward the side of the atomizing cover 24, and two adjacent ribs 266 and the inner wall of the atomizing cover 24 form the Air passage 28. It can be understood that, in the direction of the arrow shown in FIG.
  • each of the bosses is spaced apart and is spiral, so that the boss and the inner wall of the atomizing cover 24 form a spiral inlet passage 28, so that The air flow entering the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and the air flow in the atomization chamber 242 is more orderly and The mixing effect is more effective, achieving a more thorough atomization effect, improving the amount of smoke, uniform smoke concentration and improving the taste.
  • the electronic cigarette atomizer generates a large amount of heat during operation, and the spiral air inlet passage 28 makes the air flow distance and area in the electronic cigarette atomizer larger, and the electronic smoke is generated.
  • the boss is integrally formed with the body portion 264.
  • the inner wall of the atomization chamber 242 is disposed on a plurality of flow guiding blocks protruding toward the air flow passage member 26 and attached to the outer wall of the air flow passage member 26, adjacent to the two guides.
  • the flow block and the outer wall of the air flow passage member 26 form an intake passage 28. It can be understood that, in the direction of the arrow shown in FIG. 1 , each of the flow guiding blocks is disposed at intervals and is spiral, so that the flow guiding block forms a spiral inlet passage 28 with the inner wall of the atomizing cover 24 .
  • the air flow entering the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and the air flow in the atomization chamber 242 is more
  • the sequence and mixing effect is more effective, achieving a more thorough atomization effect, improving the amount of smoke, uniform smoke concentration and improving the taste.
  • the electronic cigarette atomizer generates a large amount of heat during operation, and the spiral air inlet passage 28 makes the air flow distance and area in the electronic cigarette atomizer larger, and the electronic smoke is generated.
  • the flow guiding block is integrally formed with the outer wall of the air flow passage member 26.
  • the mouthpiece 10 is provided with an airflow cavity 122 for the smoke to flow into the body cavity, and a plurality of sidewalls on the airflow cavity 122 and the airflow cavity 122.
  • Connected vias 124, the vias 124 and the gas flow chamber 122 form a non-direct current channel 12'.
  • Through the via hole Forming a non-DC channel 12' with the airflow chamber 122 for the passage of the smoke, and providing a plurality of the through holes 124 along the sidewall of the airflow chamber 122 to prevent evaporation of the smoke oil.
  • the liquid splash particles enter the oral cavity of the user, and at the same time, the atomized mixed gas is mixed twice at the mouthpiece 10, so that the atomizing gas is more thoroughly mixed and the taste is more uniform, thereby greatly improving the taste effect of the user.
  • the smoke enters the airflow chamber 122 along each of the through holes 124, the smoke forms a hedging in the airflow chamber 122 and remixes with each other, as indicated by the arrows in FIGS. 1 and 2, The smoke is remixed in the gas flow chamber 122 such that the smoke mixes more thoroughly and the taste is better.
  • the cigarette holder 10 further includes a main body portion 12 provided with the air flow chamber 122 and the through hole 124 , and is received in the atomization chamber 242 and connected to the main body portion. 12 to form a bottom plate portion 14 of the bottom of the gas flow chamber 122, the conductive hole 124 being adjacent to the bottom plate portion 14 and communicating with the atomization chamber 242.
  • the main body portion 12 is tightly fixedly coupled to the atomizing cover 24, and the side of the main body portion 12 adjacent to the bottom plate portion 14 is received in the atomization chamber 242 to connect the conduction holes 124.
  • the atomization chamber 242 is configured to facilitate the second mixing of the smoke after the first mixing of the inner diameter of the atomization chamber 242 into the airflow chamber 122 through the through hole 124, so that the smoke is more thoroughly mixed. The taste is better.
  • each of the via holes 124 is disposed along a circumferential direction of the main body portion 12 , and each of the via holes 124 is equally spaced.
  • the number of the through holes 124 is at least two, and each of the through holes 124 may be distributed in the same circumferential direction of the main body portion 12, so that the smoke is doubled in the air flow chamber 122 to be secondarily mixed.
  • Each of the via holes 124 may also be distributed in different circumferential directions to cause the smoke to be hedged in the airflow chamber 122 to be mixed multiple times to enhance the mouthfeel.
  • each of the via holes 124 may also be disposed at an equal interval.
  • the axis of the via 124 is perpendicular to the axis of the gas flow chamber 122 to facilitate the wedging of the smoke within the gas flow chamber 122.
  • the axis of the via 124 is not parallel to the axis of the airflow cavity 122.
  • an electronic cigarette atomizer provided by an embodiment of the present invention includes a cigarette holder 10 for smoking, an atomizing assembly 20 for containing the oil and atomizing the oil into a smoke, and electrically connecting the atomizing assembly.
  • a power supply assembly (not shown) of 20
  • the atomization assembly 20 is provided with a discharge port 220 for exhausting smoke, an atomization chamber 242 communicating with the discharge port 220 and the mouthpiece 10, and a plurality of external gas inlets
  • the atomization chamber 242 has an intake passage 28 mixed with the smoke.
  • the electronic cigarette atomizer uses the intake passage 28 to introduce outside air And the smoke is mixed in the atomization chamber 242, so that the smoke in the atomization chamber 242 is fully mixed, and the air flow in the atomization chamber 242 is more orderly and the mixing effect is more effective, and the atomization effect is achieved. More thorough, improve the amount of smoke, uniform smoke concentration and improve the taste.
  • the intake passage 28 has a spiral shape.
  • the spiral passage of the intake passage 28 allows the flow distance and area of the air flow to be large, and serves to cool the atomizing cover 24.
  • the air flow entering the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and the air flow in the atomization chamber 242 is more
  • the sequence and mixing effect is more effective, achieving a more thorough atomization effect, improving the amount of smoke, uniform smoke concentration and improving the taste.
  • the atomization assembly 20 further includes an atomization seat 22 having a heating element (not shown), and is fixedly mounted between the atomization seat 22 and the mouthpiece 10 and provided with the An atomizing cover 24 of the atomization chamber 242 and an air flow passage member 26 fixedly mounted in the atomization chamber 242 and forming the intake passage 28 with the atomization cover 24 are formed.
  • the smoke oil is heated and atomized into the smoke by the heating element, and the smoke is discharged from the discharge port 220 into the atomization chamber 242, and is mixed in the atomization chamber 242 so that the smoke The mix is more complete and greatly improves the taste.
  • the inlet passage 28 to allow outside air to enter the atomization seat 22 to cool the atomizing cover 24 and the atomizing seat 22, avoiding heat generated by the heating element and heat generated by the smoke
  • the temperature of the atomizing cover 24 is increased, which affects the user's grip and avoids damage to the user.
  • the air flow passage 28 is used to mix the air flow with the smoke in the atomization chamber 242, so that the air in the atomization chamber 242 flows and is sufficiently mixed, so that atomization
  • the effect is more uniform and the temperature of the smoke after atomization is cooled to a certain extent and the temperature is uniformized, which is beneficial to improve the mouthfeel.
  • the atomizing cover 24 is provided with an air inlet 244 facing the airflow passage member 26, and the airflow passage member 26 forms a communication with the inner wall of the atomization chamber 242.
  • the air inlet 244 is located at the inlet of the intake passage 28 , and the outlet of the intake passage 28 is adjacent to the discharge port 220 of the atomization seat 22 .
  • the air inlet 244 is located on a side of the atomizing cover 24 near the mouthpiece 10, and the inlet of the air inlet channel 28 is adjacent to the air inlet 2 44 and communicating with the air inlet 244, the outlet of the intake passage 28 is located at the top of the atomizing cover 24.
  • the intake passage 28 is formed along the inner wall of the atomizing cover 24 to sufficiently cool the atomizing cover 24.
  • the airflow passage member 26 includes a body portion having an air guiding cavity 262 and end portions respectively abutting against the atomizing seat 22 and the inner wall protruding portion of the atomizing chamber 242. 264 and a plurality of ribs 266 protruding along the body portion 264 toward the side of the atomizing cover 24, and the adjacent two of the ribs 266 and the inner wall of the atomizing cover 24 form an inlet passage 28.
  • Each of the bosses is spaced apart and spirally shaped such that the boss and the inner wall of the atomizing cover 24 form a spiral inlet passage 28 so as to enter the direction of the arrow as shown in FIG.
  • the air flow in the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and the air flow in the atomization chamber 242 is more orderly and the mixing effect is more. Effective, achieve a more complete atomization effect, improve the amount of smoke, uniform smoke concentration and improve the taste.
  • the electronic cigarette atomizer generates a large amount of heat during operation, and the spiral air inlet passage 28 makes the air flow distance and area in the electronic cigarette atomizer larger, and the electronic smoke is generated.
  • the boss is integrally formed with the body portion 264.
  • the inner wall of the atomization chamber 242 is disposed on a plurality of flow guiding blocks (not shown) protruding toward the air flow passage member 26 and attached to the outer wall of the air flow passage member 26 .
  • Two of the flow guiding blocks and the outer wall of the air flow passage member 26 form an intake passage 28. In the direction of the arrow shown in FIG.
  • each of the flow guiding blocks is disposed at intervals and is spiral, so that the flow guiding block and the inner wall of the atomizing cover 24 form a spiral inlet passage 28, so as to enter
  • the air flow in the atomization chamber 242 is spiraled, so that the spiral air flow and the smoke in the circular atomization chamber 242 have a spiraling effect, and the air flow in the atomization chamber 242 is more orderly and mixed.
  • the effect is more effective, achieving a more thorough atomization effect, improving the amount of smoke, uniform smoke concentration and improving the taste.
  • the electronic cigarette atomizer generates a large amount of heat during operation, and the spiral air inlet passage 28 makes the air flow distance and area in the electronic cigarette atomizer larger, and the electronic smoke is generated.
  • the flow guiding block is integrally formed with the outer wall of the air flow passage member 26.
  • the mouthpiece 10 is provided with an airflow cavity 122 for the smoke to flow into the body cavity, and a plurality of sidewalls on the airflow cavity 122 and the airflow cavity 122. Connected guide A via 124, the via 124 and the gas flow cavity 122 form a non-direct current channel 12'.
  • the cigarette holder 10 further includes a main body portion 12 provided with the air flow chamber 122 and the through hole 124 , and is received in the atomization chamber 242 and connected to the main body portion. 12 to form a bottom plate portion 14 of the bottom of the gas flow chamber 122, the conductive hole 124 being adjacent to the bottom plate portion 14 and communicating with the atomization chamber 242.
  • the main body portion 12 is tightly fixedly coupled to the atomizing cover 24, and the side of the main body portion 12 adjacent to the bottom plate portion 14 is received in the atomization chamber 242 to connect the conduction holes 124.
  • the atomization chamber 242 is configured to facilitate the second mixing of the smoke after the first mixing of the inner diameter of the atomization chamber 242 into the airflow chamber 122 through the through hole 124, so that the smoke is more thoroughly mixed. The taste is better.
  • each of the via holes 124 is disposed along a circumferential direction of the main body portion 12 , and each of the via holes 124 is equally spaced.
  • the number of the through holes 124 is at least two, and each of the through holes 124 may be distributed in the same circumferential direction of the main body portion 12, so that the smoke is doubled in the air flow chamber 122 to be secondarily mixed.
  • Each of the via holes 124 may also be distributed in different circumferential directions to cause the smoke to be hedged in the airflow chamber 122 to be mixed multiple times to enhance the mouthfeel.
  • each of the via holes 124 may also be disposed at an equal interval.
  • the axis of the via 124 is perpendicular to the axis of the gas flow chamber 122 to facilitate the wedging of the smoke within the gas flow chamber 122.
  • the axis of the via 124 is not parallel to the axis of the airflow cavity 122.

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Abstract

一种电子烟雾化器,该电子烟雾化器包括烟嘴(10)、将烟油雾化成烟雾的雾化组件(20)以及供电组件,烟嘴(10)设有供烟雾流出至人体口腔中的气流腔(122)以及多个与气流腔(122)相连通的导通孔(124),导通孔(124)与气流腔(122)形成非直流通道;雾化组件(20)设有供烟雾排出的排出口(220)、连通排出口(220)与烟嘴(10)的雾化仓(242)以及多个供外部气体进入雾化仓(242)内以与烟雾混合的进气通道(28)。该电子烟雾化器通过导通孔(124)与气流腔(122)形成非直流通道阻止了烟油蒸发产生的液体飞溅粒进入使用者的口腔;利用进气通道(28)导入外部空气,使得所述雾化仓(242)内的烟雾得到充分混合,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。

Description

电子烟雾化器 技术领域
本发明属于电子烟技术领域,尤其涉及一种电子烟雾化器。
背景技术
电子烟又名虚拟香烟、电子雾化器,主要用于戒烟和替代香烟,它有着与香烟一样的外观、与香烟近似的味道,甚至比一般香烟的口味要多出很多,也像香烟一样能吸出烟、吸出味道和感觉来。电子烟所使用的烟油以植物提取液、水分、可食用香料为主要原料生产制作,一般存放于烟油瓶中。
在现有电子烟中,常见的烟嘴都采用直通式气流腔,简单的起到将雾化装置产生的雾化混合气体吸入口腔,并且烟嘴的气流腔都是正对雾化装置的发热装置,使得雾化装置工作时,经常会由于烟油蒸发时产生的液体飞溅颗粒直接通过烟嘴通道飞到使用者的口腔,影响使用者的感觉;雾化装置产生的雾化气体也只有在雾化装置内进行一次混合,之后就通过烟嘴流入到使用者的口腔,产生的雾化混合气体不够均匀。
现有的电子烟雾化器都是直接气流孔与发热丝相对,使得气流以直接冲击发热丝来达到雾化混合的效果,空气在雾化装置内的流动距离短以及没有使得整个雾化仓内的空气都流动起来而有不等的时间滞留,使得雾化效果出现不均匀以及雾化后烟雾的温度不够均匀以稳定,同时气流流动面积较小,使得雾化仓的温度持续的上升并影响到雾化装置的本体温度升高而影响使用者感觉。
技术问题
本发明的目的在于提供一种电子烟雾化器,采用非直通气流腔,旨在解决现有技术中通过烟嘴吸入的雾化混合气体口感不均匀的问题。
问题的解决方案
技术解决方案
本发明是这样实现的,一种电子烟雾化器,包括供人们抽吸的烟嘴、盛放烟油并将所述烟油雾化成烟雾的雾化组件以及电连接所述雾化组件的供电组件,所 述烟嘴包括主体部以及朝向所述雾化组件并与所述主体部相连的底板部,所述主体部设有供所述烟雾流出至人体口腔中且腔底为所述底板部的气流腔以及多个与所述气流腔相连通的导通孔,所述导通孔位于所述气流腔的侧壁上且所述靠近所述底板部,所述烟雾经所述雾化组件雾化后沿所述导通孔进入所述气流腔,所述烟雾沿所述导通孔进入所述气流腔形成非直通气流。
进一步地,各所述导通孔沿所述主体部的周向设置,且各所述导通孔等间距设置。
进一步地,所述导通孔的轴线与所述气流腔的轴线相互垂直。
进一步地,所述雾化组件包括具有发热元件以使所述烟油雾化的雾化座以及固定连接于所述雾化座与所述烟嘴之间以使所述烟雾从所述雾化座流入所述导通孔内的雾化罩,所述雾化座设有供所述烟雾排出并朝向所述底板部的排出口,所述雾化罩设有连通所述排出口和所述导通孔的雾化仓,所述导通孔朝向所述雾化仓的内壁,所述烟雾沿所述排出口、所述雾化仓和所述导通孔进入所述气流腔形成非直通气流。
进一步地,所述雾化仓为圆形内腔体。
进一步地,所述雾化组件还包括固定安装于所述雾化仓内并具有导气腔体的气流通道件,所述导气腔体连通所述导通孔和所述排出口,所述雾化罩设有朝向所述气流通道件的进气口,所述气流通道件与所述雾化仓内壁之间形成连通所述进气口和所述排出口的进气通道。
进一步地,所述进气通道呈螺旋形。
进一步地,所述进气口位于所述进气通道的入口处,所述进气通道的出口处靠近所述雾化座的排出口。
进一步地,所述气流通道件包括具有导气腔体且端部分别抵顶于所述雾化座与所述雾化仓内壁突起部的本体部以及多条沿所述本体部朝向所述雾化罩一侧凸起的凸条,相邻两所述凸条与所述雾化罩的内壁形成一所述进气通道。
进一步地,所述雾化仓的内壁设于多条朝向所述气流通道件突起并贴合于所述气流通道件外壁的导流块,相邻两所述导流块与所述气流通道件外壁形成一所述进气通道。
本发明还提供了一种电子烟雾化器,包括供人们抽吸的烟嘴、盛放烟油并将所述烟油雾化成烟雾的雾化组件以及电连接所述雾化组件的供电组件,所述烟嘴设有供烟雾进入人体口腔的非直流通道;所述雾化组件包括使所述烟油雾化成烟雾并具有供烟雾排出口的发热元件,并设有连通所述排出口与所述非直流通道的雾化仓以及多个供外部气体进入所述雾化仓以将所述烟雾从所述排出口排出的进气通道。
进一步地,所述进气通道呈螺旋形。
进一步地,所述雾化组件包括内设有所述发热元件的雾化座、固定安装于所述雾化座与所述烟嘴之间并设有所述雾化仓的雾化罩以及固定安装于所述雾化仓内并与所述雾化罩形成所述进气通道的气流通道件。
进一步地,所述雾化罩设有朝向所述气流通道件的进气口,所述气流通道件与所述雾化仓内壁之间形成连通所述进气口和所述排出口的所述进气通道。
进一步地,所述进气口位于所述进气通道的入口处,所述进气通道的出口处靠近所述雾化座的排出口。
进一步地,所述气流通道件包括具有导气腔体且端部分别抵顶于所述雾化座与所述雾化仓内壁突起部的本体部以及多条沿所述本体部朝向所述雾化罩一侧凸起的凸条,相邻两所述凸条与所述雾化罩的内壁形成一所述进气通道。
进一步地,所述雾化仓的内壁设于多条朝向所述气流通道件突起并贴合于所述气流通道件外壁的导流块,相邻两所述导流块与所述气流通道件外壁形成一所述进气通道。
进一步地,所述烟嘴设有供所述烟雾流出至人体口腔中的气流腔以及多个位于所述气流腔的侧壁上且与所述气流腔相连通的导通孔,所述导通孔与所述气流腔形成非直流通道。
进一步地,所述烟嘴包括设有所述气流腔和所述导通孔的主体部以及收容于所述雾化仓内并连接所述主体部以形成所述气流腔腔底的底板部,所述导通孔靠近所述底板部并与所述雾化仓连通。
进一步地,各所述导通孔沿所述主体部的周向设置,且各所述导通孔等间距设置。
进一步地,所述导通孔的轴线与所述气流腔的轴线相互垂直。
本发明还提供了一种电子烟雾化器,包括供人们抽吸的烟嘴、盛放烟油并将所述烟油雾化成烟雾的雾化组件以及电连接所述雾化组件的供电组件,所述雾化组件设有供烟雾排出的排出口、连通所述排出口与所述烟嘴的雾化仓以及多个供外部气体进入所述雾化仓内以与所述烟雾混合的进气通道。
进一步地,所述进气通道呈螺旋形。
进一步地,所述雾化组件包括具有发热元件的雾化座、固定安装于所述雾化座与所述烟嘴之间并设有所述雾化仓的雾化罩以及固定安装于所述雾化仓内并与所述雾化罩形成所述进气通道的气流通道件。
进一步地,所述雾化罩设有朝向所述气流通道件的进气口,所述气流通道件与所述雾化仓内壁之间形成连通所述进气口和所述排出口的所述进气通道。
进一步地,所述进气口位于所述进气通道的入口处,所述进气通道的出口处靠近所述雾化座的排出口。
进一步地,所述气流通道件包括具有导气腔体且端部分别抵顶于所述雾化座与所述雾化仓内壁突起部的本体部以及多条沿所述本体部朝向所述雾化罩一侧凸起的凸条,相邻两所述凸条与所述雾化罩的内壁形成一所述进气通道。
进一步地,所述雾化仓的内壁设于多条朝向所述气流通道件突起并贴合于所述气流通道件外壁的导流块,相邻两所述导流块与所述气流通道件外壁形成一所述进气通道。
进一步地,所述烟嘴设有供所述烟雾流出至人体口腔中的气流腔以及多个位于所述气流腔的侧壁上且与所述气流腔相连通的导通孔,所述导通孔与所述气流腔形成非直流通道。
进一步地,所述烟嘴包括设有所述气流腔和所述导通孔的主体部以及收容于所述雾化仓内并连接所述主体部以形成所述气流腔腔底的底板部,所述导通孔靠近所述底板部并与所述雾化仓连通。
进一步地,各所述导通孔沿所述主体部的周向设置,且各所述导通孔等间距设置。
进一步地,所述导通孔的轴线与所述气流腔的轴线相互垂直。
发明的有益效果
有益效果
本发明相对于现有技术的技术效果是:该电子烟雾化器通过所述导通孔与所述气流腔形成非直通流道以供所述烟雾通过,并且沿所述气流腔的侧壁上设置多个所述导通孔,阻止了所述烟油蒸发产生的液体飞溅粒进入使用者的口腔,同时,使得雾化混合气体在所述烟嘴处进行二次混合,使得所述雾化气体混合得更紧彻底,口感更加均匀,从而大大改善使用者的口感效果。
对附图的简要说明
附图说明
为了更清楚地说明本发明实施例的技术方案,下面将对本发明实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面所描述的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本发明实施例提供的电子烟雾化器的剖视图;
图2是图1中烟嘴的结构图;
图3是图1中气流通道件的结构图。
发明实施例
本发明的实施方式
为了使本发明的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。
请参照图1和图2,本发明实施例提供的电子烟雾化器,包括供人们抽吸的烟嘴10、盛放烟油并将所述烟油雾化成烟雾的雾化组件20以及电连接所述雾化组件20的供电组件(未图示),所述烟嘴10包括主体部12以及朝向所述雾化组件20并与所述主体部12相连的底板部14,所述主体部12设有供所述烟雾流出至人体口腔中且腔底为所述底板部14的气流腔122以及多个与所述气流腔122相连通的导通孔124,所述导通孔124位于所述气流腔122的侧壁上且所述靠近所述底板部14 ,所述烟雾经所述雾化组件20雾化后沿所述导通孔124进入所述气流腔122,所述烟雾沿所述导通孔124进入所述气流腔122形成非直通气流。
本发明实施例提供的电子烟雾化器通过所述导通孔124与所述气流腔122形成非直流通道12’以供所述烟雾通过,并且沿所述气流腔122的侧壁上设置多个所述导通孔124,阻止了所述烟油蒸发产生的液体飞溅粒进入使用者的口腔,同时,使得雾化混合气体在所述烟嘴10处进行二次混合,使得所述雾化气体混合得更加彻底,口感更加均匀,从而大大改善使用者的口感效果。
在该实施例中,所述烟雾沿各所述导通孔124进入到所述气流腔122时,所述烟雾在所述气流腔122内形成对冲而相互再次混合,如图1中箭头所示,即使得所述烟雾在所述气流腔122内得到二次混合,使得所述烟雾混合更加彻底,口感更佳。
请参照图2,进一步地,各所述导通孔124沿所述主体部12的周向设置,且各所述导通孔124等间距设置。所述导通孔124的数量为至少2个,各所述导通孔124可以分布于所述主体部12的同一周向上,使得所述烟雾在所述气流腔122内对冲而发生二次混合;各所述导通孔124也可以分布于不同周向,以使得所述烟雾在所述气流腔122内对冲而发生多次混合,增强口感。在其他实施例中,各所述导通孔124也可以非等间距设置。
请参照图1和图2,进一步地,所述导通孔124的轴线与所述气流腔122的轴线相互垂直,有利于所述烟雾在所述气流腔122内对冲。在其他实施例中,所述导通孔124的轴线不平行于所述气流腔122的轴线即可。
请参照图1,进一步地,所述雾化组件20包括具有发热元件(未图示)以使所述烟油雾化的雾化座22以及固定连接于所述雾化座22与所述烟嘴10之间以使所述烟雾从所述雾化座22流入所述导通孔124内的雾化罩24,所述雾化座22设有供所述烟雾排出并朝向所述底板部14的排出口220,所述雾化罩24设有连通所述排出口220和所述导通孔124的雾化仓242,所述导通孔124朝向所述雾化仓242的内壁,所述烟雾沿所述排出口220、所述雾化仓242和所述导通孔124进入所述气流腔122形成非直通气流。利用所述发热元件将所述烟油加热雾化成所述烟雾,所述烟雾从所述排出口220排入所述雾化仓242,在所述雾化仓242内得到一次混合 ,并沿各所述导通孔124进入所述气流腔122进行对冲而进行二次混合,使得所述烟雾的混合更加充分,大大改善了口感。优选地,所述雾化仓242为圆形内腔体。
请参照图1,进一步地,所述雾化组件20还包括固定安装于所述雾化仓242内并具有导气腔体262的气流通道件26,所述导气腔体262连通所述导通孔124和所述排出口220,所述雾化罩24设有朝向所述气流通道件26的进气口244,所述气流通道件26与所述雾化仓242内壁之间形成连通所述进气口244和所述排出口220的进气通道28。利用所述进气通道28以使外部空气进入所述雾化座22中对雾化罩24和雾化座22进行冷却处理,避免所述发热元件产生的热以及所述烟雾产生的热造成对所述雾化罩24的温度提升,而影响使用者握持,避免对使用者的损伤。
同时,利用所述进气通道28使得所述空气气流与所述烟雾在所述雾化仓242内混合,使得所述雾化仓242内的空气都流动气流并得到充分混合,这样,雾化效果更加均匀且雾化后烟雾的温度得到一定程度冷却并且温度均匀化,有利于改善口感。
请参照图1,进一步地,所述进气通道28呈螺旋形,采用螺旋形的所述进气通道28使得所述空气气流的流通距离以及面积较大,起到对所述雾化罩24的冷却作用。
请参照图1,进一步地,所述进气口244位于所述进气通道28的入口处,所述进气通道28的出口处靠近所述雾化座22的排出口220。可以理解,所述进气口244位于所述雾化罩24之靠近所述烟嘴10的一侧,且所述进气通道28的入口处靠近所述进气口244并与所述进气口244气流相通,所述进气通道28的出口位于所述雾化罩24的顶部。所述进气通道28沿所述雾化罩24的内壁而形成,以对所述雾化罩24起到充分冷却之效果。
请参照图1和图3,进一步地,所述气流通道件26包括具有所述导气腔体262且端部分别抵顶于所述雾化座22与所述雾化仓242内壁突起部的本体部264以及多条沿所述本体部264朝向所述雾化罩24一侧凸起的凸条266,相邻两所述凸条266与所述雾化罩24的内壁形成一所述进气通道28。可以理解,如图1所示箭头方向,各所述凸台间隔设置且均为螺旋线状,以使所述凸台与所述雾化罩24的内壁 形成螺旋状的进气通道28,使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。此外,所述电子烟雾化器在工作时产生大量的热量,利用螺旋状的进气通道28使得空气气流在所述电子烟雾化器内的流通距离和面积较大,起到对所述电子烟雾化器冷却的作用。在该实施例中,所述凸台与所述本体部264一体成型。
请参照图1,进一步地,所述雾化仓242的内壁设于多条朝向所述气流通道件26突起并贴合于所述气流通道件26外壁的导流块(未图示),相邻两所述导流块与所述气流通道件26外壁形成一所述进气通道28。可以理解,如图1所示箭头方向,各所述导流块间隔设置且均为螺旋线状,以使所述导流块与所述雾化罩24的内壁形成螺旋状的进气通道28,使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。此外,所述电子烟雾化器在工作时产生大量的热量,利用螺旋状的进气通道28使得空气气流在所述电子烟雾化器内的流通距离和面积较大,起到对所述电子烟雾化器冷却的作用。在该实施例中,所述导流块与所述气流通道件26外壁一体成型。
请参照图1,本发明实施例提供的电子烟雾化器包括供人们抽吸的烟嘴10、盛放烟油并将所述烟油雾化成烟雾的雾化组件20以及电连接所述雾化组件20的供电组件,所述烟嘴10设有供烟雾进入人体口腔的非直流通道12’;所述雾化组件20包括使所述烟油雾化成烟雾并具有供烟雾排出口220的发热元件,并设有连通所述排出口220与所述非直流通道12’的雾化仓242以及多个供外部气体进入所述雾化仓242以将所述烟雾从所述排出口220排出的进气通道28。该电子烟雾化器利用具有非直流通道12’的烟嘴10以阻止了所述烟油蒸发产生的液体飞溅粒进入使用者的口腔,同时,利用进气通道28导入外部空气并在所述雾化仓242内所述烟雾混合,使得所述雾化仓242内的烟雾得到充分混合,且雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均 匀烟雾浓度和改善口感的效果。
请参照图1和图3,进一步地,所述进气通道28呈螺旋形。采用螺旋形的所述进气通道28使得所述空气气流的流通距离以及面积较大,起到对所述雾化罩24的冷却作用。并且使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。
请参照图1,进一步地,所述雾化组件20包括内设有所述发热元件的雾化座22、固定安装于所述雾化座22与所述烟嘴10之间并设有所述雾化仓242的雾化罩24以及固定安装于所述雾化仓242内并与所述雾化罩24形成所述进气通道28的气流通道件26。利用所述发热元件将所述烟油加热雾化成所述烟雾,所述烟雾从所述排出口220排入所述雾化仓242,在所述雾化仓242内得到一次混合,并沿各所述导通孔124进入所述气流腔122进行对冲而进行二次混合,使得所述烟雾的混合更加充分,大大改善了口感。利用所述进气通道28以使外部空气进入所述雾化座22中对雾化罩24和雾化座22进行冷却处理,避免所述发热元件产生的热以及所述烟雾产生的热造成对所述雾化罩24的温度提升,而影响使用者握持,避免对使用者的损伤。同时,利用所述进气通道28使得所述空气气流与所述烟雾在所述雾化仓242内混合,使得所述雾化仓242内的空气都流动气流并得到充分混合,这样,雾化效果更加均匀且雾化后烟雾的温度得到一定程度冷却并且温度均匀化,有利于改善口感。
请参照图1,进一步地,所述雾化罩24设有朝向所述气流通道件26的进气口244,所述气流通道件26与所述雾化仓242内壁之间形成连通所述进气口244和所述排出口220的所述进气通道28。延长了所述空气气流的流通距离以及面积较大,起到对所述雾化罩24的冷却作用。
请参照图1,进一步地,所述进气口244位于所述进气通道28的入口处,所述进气通道28的出口处靠近所述雾化座22的排出口220。可以理解,所述进气口244位于所述雾化罩24之靠近所述烟嘴10的一侧,且所述进气通道28的入口处靠近所述进气口244并与所述进气口244气流相通,所述进气通道28的出口位于所述 雾化罩24的顶部。所述进气通道28沿所述雾化罩24的内壁而形成,以对所述雾化罩24起到充分冷却之效果。
请参照图1和图3,进一步地,所述气流通道件26包括具有所述导气腔体262且端部分别抵顶于所述雾化座22与所述雾化仓242内壁突起部的本体部264以及多条沿所述本体部264朝向所述雾化罩24一侧凸起的凸条266,相邻两所述凸条266与所述雾化罩24的内壁形成一所述进气通道28。可以理解,如图1所示箭头方向,各所述凸台间隔设置且均为螺旋线状,以使所述凸台与所述雾化罩24的内壁形成螺旋状的进气通道28,使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。此外,所述电子烟雾化器在工作时产生大量的热量,利用螺旋状的进气通道28使得空气气流在所述电子烟雾化器内的流通距离和面积较大,起到对所述电子烟雾化器冷却的作用。在该实施例中,所述凸台与所述本体部264一体成型。
请参照图1,进一步地,所述雾化仓242的内壁设于多条朝向所述气流通道件26突起并贴合于所述气流通道件26外壁的导流块,相邻两所述导流块与所述气流通道件26外壁形成一所述进气通道28。可以理解,如图1所示箭头方向,各所述导流块间隔设置且均为螺旋线状,以使所述导流块与所述雾化罩24的内壁形成螺旋状的进气通道28,使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。此外,所述电子烟雾化器在工作时产生大量的热量,利用螺旋状的进气通道28使得空气气流在所述电子烟雾化器内的流通距离和面积较大,起到对所述电子烟雾化器冷却的作用。在该实施例中,所述导流块与所述气流通道件26外壁一体成型。
请参照图1和图2,进一步地,所述烟嘴10设有供所述烟雾流出至人体口腔中的气流腔122以及多个位于所述气流腔122的侧壁上且与所述气流腔122相连通的导通孔124,所述导通孔124与所述气流腔122形成非直流通道12’。通过所述导通孔 124与所述气流腔122形成非直流通道12’以供所述烟雾通过,并且沿所述气流腔122的侧壁上设置多个所述导通孔124,阻止了所述烟油蒸发产生的液体飞溅粒进入使用者的口腔,同时,使得雾化混合气体在所述烟嘴10处进行二次混合,使得所述雾化气体混合得更加彻底,口感更加均匀,从而大大改善使用者的口感效果。所述烟雾沿各所述导通孔124进入到所述气流腔122时,所述烟雾在所述气流腔122内形成对冲而相互再次混合,如图1和图2中箭头所示,即使得所述烟雾在所述气流腔122内得到二次混合,使得所述烟雾混合更加彻底,口感更佳。
请参照图1和图2,进一步地,所述烟嘴10包括设有所述气流腔122和所述导通孔124的主体部12以及收容于所述雾化仓242内并连接所述主体部12以形成所述气流腔122腔底的底板部14,所述导通孔124靠近所述底板部14并与所述雾化仓242连通。所述主体部12与所述雾化罩24紧密固定连接,且所述主体部12靠近所述底板部14的一侧容置于所述雾化仓242内以使所述导通孔124连通所述雾化仓242,以便于将在雾化仓242内径第一次混合后的烟雾通过所述导通孔124进入所属气流腔122中,进行第二次混合,使得所述烟雾混合更加彻底、口感更佳。
请参照图1和图2,进一步地,各所述导通孔124沿所述主体部12的周向设置,且各所述导通孔124等间距设置。所述导通孔124的数量为至少2个,各所述导通孔124可以分布于所述主体部12的同一周向上,使得所述烟雾在所述气流腔122内对冲而发生二次混合;各所述导通孔124也可以分布于不同周向,以使得所述烟雾在所述气流腔122内对冲而发生多次混合,增强口感。在其他实施例中,各所述导通孔124也可以非等间距设置。
请参照图1和图2,进一步地,所述导通孔124的轴线与所述气流腔122的轴线相互垂直,有利于所述烟雾在所述气流腔122内对冲。在其他实施例中,所述导通孔124的轴线不平行于所述气流腔122的轴线即可。
请参照图1,本发明实施例提供的电子烟雾化器包括供人们抽吸的烟嘴10、盛放烟油并将所述烟油雾化成烟雾的雾化组件20以及电连接所述雾化组件20的供电组件(图未示),所述雾化组件20设有供烟雾排出的排出口220、连通所述排出口220与所述烟嘴10的雾化仓242以及多个供外部气体进入所述雾化仓242内以与所述烟雾混合的进气通道28。该电子烟雾化器利用进气通道28导入外部空气 并在所述雾化仓242内所述烟雾混合,使得所述雾化仓242内的烟雾得到充分混合,且雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。
请参照图1和图3,进一步地,所述进气通道28呈螺旋形。采用螺旋形的所述进气通道28使得所述空气气流的流通距离以及面积较大,起到对所述雾化罩24的冷却作用。并且使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。
请参照图1,进一步地,所述雾化组件20包括具有发热元件(图未示)的雾化座22、固定安装于所述雾化座22与所述烟嘴10之间并设有所述雾化仓242的雾化罩24以及固定安装于所述雾化仓242内并与所述雾化罩24形成所述进气通道28的气流通道件26。利用所述发热元件将所述烟油加热雾化成所述烟雾,所述烟雾从所述排出口220排入所述雾化仓242,在所述雾化仓242内得到混合,使得所述烟雾的混合更加充分,大大改善了口感。利用所述进气通道28以使外部空气进入所述雾化座22中对雾化罩24和雾化座22进行冷却处理,避免所述发热元件产生的热以及所述烟雾产生的热造成对所述雾化罩24的温度提升,而影响使用者握持,避免对使用者的损伤。同时,利用所述进气通道28使得所述空气气流与所述烟雾在所述雾化仓242内混合,使得所述雾化仓242内的空气都流动气流并得到充分混合,这样,雾化效果更加均匀且雾化后烟雾的温度得到一定程度冷却并且温度均匀化,有利于改善口感。
请参照图1,进一步地,所述雾化罩24设有朝向所述气流通道件26的进气口244,所述气流通道件26与所述雾化仓242内壁之间形成连通所述进气口244和所述排出口220的所述进气通道28。延长了所述空气气流的流通距离以及面积较大,起到对所述雾化罩24的冷却作用。
请参照图1,进一步地,所述进气口244位于所述进气通道28的入口处,所述进气通道28的出口处靠近所述雾化座22的排出口220。所述进气口244位于所述雾化罩24之靠近所述烟嘴10的一侧,且所述进气通道28的入口处靠近所述进气口2 44并与所述进气口244气流相通,所述进气通道28的出口位于所述雾化罩24的顶部。所述进气通道28沿所述雾化罩24的内壁而形成,以对所述雾化罩24起到充分冷却之效果。
请参照图1和图3,进一步地,所述气流通道件26包括具有导气腔体262且端部分别抵顶于所述雾化座22与所述雾化仓242内壁突起部的本体部264以及多条沿所述本体部264朝向所述雾化罩24一侧凸起的凸条266,相邻两所述凸条266与所述雾化罩24的内壁形成一所述进气通道28。如图1所示箭头方向,各所述凸台间隔设置且均为螺旋线状,以使所述凸台与所述雾化罩24的内壁形成螺旋状的进气通道28,使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。此外,所述电子烟雾化器在工作时产生大量的热量,利用螺旋状的进气通道28使得空气气流在所述电子烟雾化器内的流通距离和面积较大,起到对所述电子烟雾化器冷却的作用。在该实施例中,所述凸台与所述本体部264一体成型。
请参照图1,进一步地,所述雾化仓242的内壁设于多条朝向所述气流通道件26突起并贴合于所述气流通道件26外壁的导流块(图未示),相邻两所述导流块与所述气流通道件26外壁形成一所述进气通道28。如图1所示箭头方向,各所述导流块间隔设置且均为螺旋线状,以使所述导流块与所述雾化罩24的内壁形成螺旋状的进气通道28,使得进入所述雾化仓242内的空气气流呈螺旋状,这样,螺旋形的空气气流与圆形雾化仓242内的烟雾呈现螺旋上升的效果,雾化仓242内的空气流动更加有序且混合效果更加有效,达到雾化效果更加彻底、改善烟雾量、均匀烟雾浓度和改善口感的效果。此外,所述电子烟雾化器在工作时产生大量的热量,利用螺旋状的进气通道28使得空气气流在所述电子烟雾化器内的流通距离和面积较大,起到对所述电子烟雾化器冷却的作用。在该实施例中,所述导流块与所述气流通道件26外壁一体成型。
请参照图1和图2,进一步地,所述烟嘴10设有供所述烟雾流出至人体口腔中的气流腔122以及多个位于所述气流腔122的侧壁上且与所述气流腔122相连通的导 通孔124,所述导通孔124与所述气流腔122形成非直流通道12’。通过所述导通孔124与所述气流腔122形成非直流通道12’以供所述烟雾通过,并且沿所述气流腔122的侧壁上设置多个所述导通孔124,阻止了所述烟油蒸发产生的液体飞溅粒进入使用者的口腔,同时,使得雾化混合气体在所述烟嘴10处进行二次混合,使得所述雾化气体混合得更加彻底,口感更加均匀,从而大大改善使用者的口感效果。所述烟雾沿各所述导通孔124进入到所述气流腔122时,所述烟雾在所述气流腔122内形成对冲而相互再次混合,如图1和图2中箭头所示,即使得所述烟雾在所述气流腔122内得到二次混合,使得所述烟雾混合更加彻底,口感更佳。
请参照图1和图2,进一步地,所述烟嘴10包括设有所述气流腔122和所述导通孔124的主体部12以及收容于所述雾化仓242内并连接所述主体部12以形成所述气流腔122腔底的底板部14,所述导通孔124靠近所述底板部14并与所述雾化仓242连通。所述主体部12与所述雾化罩24紧密固定连接,且所述主体部12靠近所述底板部14的一侧容置于所述雾化仓242内以使所述导通孔124连通所述雾化仓242,以便于将在雾化仓242内径第一次混合后的烟雾通过所述导通孔124进入所属气流腔122中,进行第二次混合,使得所述烟雾混合更加彻底、口感更佳。
请参照图1和图2,进一步地,各所述导通孔124沿所述主体部12的周向设置,且各所述导通孔124等间距设置。所述导通孔124的数量为至少2个,各所述导通孔124可以分布于所述主体部12的同一周向上,使得所述烟雾在所述气流腔122内对冲而发生二次混合;各所述导通孔124也可以分布于不同周向,以使得所述烟雾在所述气流腔122内对冲而发生多次混合,增强口感。在其他实施例中,各所述导通孔124也可以非等间距设置。
请参照图1和图2,进一步地,所述导通孔124的轴线与所述气流腔122的轴线相互垂直,有利于所述烟雾在所述气流腔122内对冲。在其他实施例中,所述导通孔124的轴线不平行于所述气流腔122的轴线即可。
以上所述仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明的保护范围之内。

Claims (32)

  1. 一种电子烟雾化器,包括供人们抽吸的烟嘴、盛放烟油并将所述烟油雾化成烟雾的雾化组件以及电连接所述雾化组件的供电组件,其特征在于,所述烟嘴包括主体部以及朝向所述雾化组件并与所述主体部相连的底板部,所述主体部设有供所述烟雾流出至人体口腔中且腔底为所述底板部的气流腔以及多个与所述气流腔相连通的导通孔,所述导通孔位于所述气流腔的侧壁上且所述靠近所述底板部,所述烟雾经所述雾化组件雾化后沿所述导通孔进入所述气流腔,所述烟雾沿所述导通孔进入所述气流腔形成非直通气流。
  2. 如权利要求1所述的电子烟雾化器,其特征在于,各所述导通孔沿所述主体部的周向设置,且各所述导通孔等间距设置。
  3. 如权利要求1所述的电子烟雾化器,其特征在于,所述导通孔的轴线与所述气流腔的轴线相互垂直。
  4. 如权利要求1至3任意一项所述的电子烟雾化器,其特征在于,所述雾化组件包括具有发热元件以使所述烟油雾化的雾化座以及固定连接于所述雾化座与所述烟嘴之间以使所述烟雾从所述雾化座流入所述导通孔内的雾化罩,所述雾化座设有供所述烟雾排出并朝向所述底板部的排出口,所述雾化罩设有连通所述排出口和所述导通孔的雾化仓,所述导通孔朝向所述雾化仓的内壁,所述烟雾沿所述排出口、所述雾化仓和所述导通孔进入所述气流腔形成非直通气流。
  5. 如权利要求4所述的电子烟雾化器,其特征在于,所述雾化仓为圆形内腔体。
  6. 如权利要求4所述的电子烟雾化器,其特征在于,所述雾化组件还包括固定安装于所述雾化仓内并具有导气腔体的气流通道件,所述导气腔体连通所述导通孔和所述排出口,所述雾化罩设有朝向所述气流通道件的进气口,所述气流通道件与所述雾化仓内壁之 间形成连通所述进气口和所述排出口的进气通道。
  7. 如权利要求6所述的电子烟雾化器,其特征在于,所述进气通道呈螺旋形。
  8. 如权利要求6所述的电子烟雾化器,其特征在于,所述进气口位于所述进气通道的入口处,所述进气通道的出口处靠近所述雾化座的排出口。
  9. 如权利要求6所述的电子烟雾化器,其特征在于,所述气流通道件包括具有导气腔体且端部分别抵顶于所述雾化座与所述雾化仓内壁突起部的本体部以及多条沿所述本体部朝向所述雾化罩一侧凸起的凸条,相邻两所述凸条与所述雾化罩的内壁形成一所述进气通道。
  10. 如权利要求6所述的电子烟雾化器,其特征在于,所述雾化仓的内壁设于多条朝向所述气流通道件突起并贴合于所述气流通道件外壁的导流块,相邻两所述导流块与所述气流通道件外壁形成一所述进气通道。
  11. 一种电子烟雾化器,包括供人们抽吸的烟嘴、盛放烟油并将所述烟油雾化成烟雾的雾化组件以及电连接所述雾化组件的供电组件,其特征在于,所述烟嘴设有供烟雾进入人体口腔的非直流通道;所述雾化组件包括使所述烟油雾化成烟雾并具有供烟雾排出口的发热元件,并设有连通所述排出口与所述非直流通道的雾化仓以及多个供外部气体进入所述雾化仓以与所述烟雾混合的进气通道。
  12. 如权利要求11所述的电子烟雾化器,其特征在于,所述进气通道呈螺旋形。
  13. 如权利要求11或者12所述的电子烟雾化器,其特征在于,所述雾化组件包括内设有所述发热元件的雾化座、固定安装于所述雾化座与所述烟嘴之间并设有所述雾化仓的雾化罩以及固定安装于所述雾化仓内并与所述雾化罩形成所述进气通道的气流通道件。
  14. 如权利要求13所述的电子烟雾化器,其特征在于,所述雾化罩设有朝向所述气流通道件的进气口,所述气流通道件与所述雾化仓内壁之间形成连通所述进气口和所述排出口的所述进气通道。
  15. 如权利要求14所述的电子烟雾化器,其特征在于,所述进气口位于所述进气通道的入口处,所述进气通道的出口处靠近所述雾化座的排出口。
  16. 如权利要求13所述的电子烟雾化器,其特征在于,所述气流通道件包括具有导气腔体且端部分别抵顶于所述雾化座与所述雾化仓内壁突起部的本体部以及多条沿所述本体部朝向所述雾化罩一侧凸起的凸条,相邻两所述凸条与所述雾化罩的内壁形成一所述进气通道。
  17. 如权利要求13所述的电子烟雾化器,其特征在于,所述雾化仓的内壁设于多条朝向所述气流通道件突起并贴合于所述气流通道件外壁的导流块,相邻两所述导流块与所述气流通道件外壁形成一所述进气通道。
  18. 如权利要求11或者12所述的电子烟雾化器,其特征在于,所述烟嘴设有供所述烟雾流出至人体口腔中的气流腔以及多个位于所述气流腔的侧壁上且与所述气流腔相连通的导通孔,所述导通孔与所述气流腔形成非直流通道。
  19. 如权利要求18所述的电子烟雾化器,其特征在于,所述烟嘴包括设有所述气流腔和所述导通孔的主体部以及收容于所述雾化仓内并连接所述主体部以形成所述气流腔腔底的底板部,所述导通孔靠近所述底板部并与所述雾化仓连通。
  20. 如权利要求19所述的电子烟雾化器,其特征在于,各所述导通孔沿所述主体部的周向设置,且各所述导通孔等间距设置。
  21. 如权利要求18所述的电子烟雾化器,其特征在于,所述导通孔的轴线与所述气流腔的轴线相互垂直。
  22. 一种电子烟雾化器,包括供人们抽吸的烟嘴、盛放烟油并将所述 烟油雾化成烟雾的雾化组件以及电连接所述雾化组件的供电组件,其特征在于,所述雾化组件设有供烟雾排出的排出口、连通所述排出口与所述烟嘴的雾化仓以及多个供外部气体进入所述雾化仓内以与所述烟雾混合的进气通道。
  23. 如权利要求22所述的电子烟雾化器,其特征在于,所述进气通道呈螺旋形。
  24. 如权利要求22或者23所述的电子烟雾化器,其特征在于,所述雾化组件包括具有发热元件的雾化座、固定安装于所述雾化座与所述烟嘴之间并设有所述雾化仓的雾化罩以及固定安装于所述雾化仓内并与所述雾化罩形成所述进气通道的气流通道件。
  25. 如权利要求24所述的电子烟雾化器,其特征在于,所述雾化罩设有朝向所述气流通道件的进气口,所述气流通道件与所述雾化仓内壁之间形成连通所述进气口和所述排出口的所述进气通道。
  26. 如权利要求25所述的电子烟雾化器,其特征在于,所述进气口位于所述进气通道的入口处,所述进气通道的出口处靠近所述雾化座的排出口。
  27. 如权利要求24所述的电子烟雾化器,其特征在于,所述气流通道件包括具有导气腔体且端部分别抵顶于所述雾化座与所述雾化仓内壁突起部的本体部以及多条沿所述本体部朝向所述雾化罩一侧凸起的凸条,相邻两所述凸条与所述雾化罩的内壁形成一所述进气通道。
  28. 如权利要求24所述的电子烟雾化器,其特征在于,所述雾化仓的内壁设于多条朝向所述气流通道件突起并贴合于所述气流通道件外壁的导流块,相邻两所述导流块与所述气流通道件外壁形成一所述进气通道。
  29. 如权利要求22或者23所述的电子烟雾化器,其特征在于,所述烟嘴设有供所述烟雾流出至人体口腔中的气流腔以及多个位于所述气流腔的侧壁上且与所述气流腔相连通的导通孔,所述导通孔与 所述气流腔形成非直流通道。
  30. 如权利要求29所述的电子烟雾化器,其特征在于,所述烟嘴包括设有所述气流腔和所述导通孔的主体部以及收容于所述雾化仓内并连接所述主体部以形成所述气流腔腔底的底板部,所述导通孔靠近所述底板部并与所述雾化仓连通。
  31. 如权利要求30所述的电子烟雾化器,其特征在于,各所述导通孔沿所述主体部的周向设置,且各所述导通孔等间距设置。
  32. 如权利要求29所述的电子烟雾化器,其特征在于,所述导通孔的轴线与所述气流腔的轴线相互垂直。
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