Provided in the present disclosure are an atomization core, an atomizer, an electronic cigarette, and an assembly method for an atomization core. The atomization core is configured to atomize an atomization matrix to form an aerosol, and comprises: an atomization core shell, which defines an air flow inlet, an air flow outlet, a storage space between the air flow inlet and the air flow outlet, and at least one atomization matrix inlet leading to the storage space; an atomization base, which is arranged in the storage space, and defines an atomization channel and at least one opening, the atomization channel being in communication with the air flow inlet and the air flow outlet, and the at least one opening being configured to communicate the at least one atomization matrix inlet and the atomization channel; and at least one heating element, which is arranged in the atomization channel and at least partially faces one or more of the at least one opening. The embodiments of the present disclosure can improve the integration level of the atomization core, and can also improve the production efficiency and product stability.
The present disclosure provides an atomizing core, an atomizer, and an electronic cigarette. The atomizing core comprises: an atomizing core housing, wherein the atomizing core housing comprises an airflow inlet, an airflow outlet, and at least one atomizing substrate inlet; an airflow channel, wherein the airflow channel is located in the atomizing core housing and communicated with the airflow inlet and the airflow outlet; a guide base, wherein the guide base is provided in the atomizing core housing and defines at least one guide opening, a mounting opening, and a guide channel communicated with the at least one guide opening and the mounting opening, and the at least one guide opening opens into the at least one atomizing substrate inlet; and a heating piece, wherein the heating piece is provided in the mounting opening and has a first side surface facing the guide channel and a second side surface opposite to the first side surface, and the second side surface is in fluid communication with the airflow channel. The embodiments of the present disclosure can improve the uniformity and efficiency of providing an atomizing substrate to a heating piece.
Provided in the present disclosure are an atomization core, an atomizer and an e-cigarette. The atomization core is used for atomizing an atomization matrix to produce an aerosol, comprising: an atomization core housing, which defines an airflow inlet, an airflow outlet, an accommodating space between the airflow inlet and the airflow outlet, and an atomization matrix inlet, the atomization matrix inlet leading into the accommodating space; an atomization base, which is arranged in the accommodating space and defines an atomization channel for communicating the airflow inlet with the airflow outlet, and a first opening, the first opening being used for communicating the atomization matrix inlet with the atomization channel; a heating element, which is at least partially embedded in the first opening, the surface of the heating element away from the inner wall face of the atomization core housing being provided with a plurality of electrode contacts; and a plurality of electrodes, each of which comprises a rod body and at least one holding portion disposed at one end of the rod body, the holding portion being used for holding the heating element and coming into electrical contact with the plurality of electrode contacts. The embodiments of the present disclosure enables the heating element to be mounted more stably.
Provided in the present disclosure are a heating element, an atomizing core, an atomizer, and an electronic cigarette. The heating element is used for atomizing an atomization matrix to produce an aerosol, the heating element comprising: a heating element base body, which comprises a first surface, a second surface, and a guide hole extending from the first surface to the second surface; a heating body, which is arranged on the first surface and is at least partially opposite the guide hole; and a first atomization matrix absorption material, which is arranged in the guide hole and is fitted against the heating body. The embodiments of the present disclosure can improve the uniformity and stability of an atomization matrix supplied to the heating element.
An electronic cigarette (1000), comprising an atomizer (100) and a battery assembly (200). The atomizer (100) comprises an atomizing core (108) for generating vapor by heating, and the battery assembly (200) comprises a battery (206); the atomizer (100) comprises a first conductive electrode (112) and a second conductive electrode (113), and the first conductive electrode (112) and the second conductive electrode (113) are separately, electrically connected to the atomizing core (108); the battery assembly (200) comprises a third conductive electrode (202) and a fourth conductive electrode (204) configured to be respectively, electrically connected to the first conductive electrode (112) and the second conductive electrode (113), the third conductive electrode (202) and the fourth conductive electrode (204) are separately, electrically connected to the battery (206), the first conductive electrode (112) is in thread connection with the third conductive electrode (113), the atomizer (100) is detachably connected to the battery assembly (200) by means of the first conductive electrode (112) and the third conductive electrode (202), and the electronic cigarette (1000) is in thread connection with the atomizer (100) by means of the conductive electrodes, so that connection is achieved and powering is carried out, and in addition, the problem that the magnetic connection in the prior art is unstable caused by the fact that shaking is apt to occur due to the size limitation is solved.
Devices for heating tobacco for the purpose of inhalation; Devices for heating tobacco substitutes for the purpose of inhalation; Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavorings, other than essential oils, for use in electronic cigarettes; Electric cigarettes; Liquid nicotine solutions for use in electronic cigarettes; Electronic smoking pipes; Electronic cigarettes for use as an alternative to traditional cigarettes
Heating Equipment for Inhaled Tobacco; Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavourings, other than essential oils, for use in electronic cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes; Electronic smoking pipes; Electronic cigarettes for use as an alternative to traditional cigarettes; Electronic shisha.
An electronic cigarette includes an e-liquid extruder. The e-liquid extruder includes an e-liquid tank, a piston, a push rod, and a motor. The piston is disposed in a bottom opening of the e-liquid tank. The push rod includes an inner wall with a female thread and the rotor includes an outer wall with a male thread. The male thread corresponds to the female thread. The piston is disposed on the push rod; when the motor is energized and rotates, the push rod moves upward to extrude e-liquid out of the eliquid tank.
(1) Heating Equipment for inhaled tobacco; Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavourings, other than essential oils, for use in electronic cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes; Electronic smoking pipes; Electronic cigarettes for use as an alternative to traditional cigarettes.
Heating Equipment for Inhaled Tobacco; Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavourings, other than essential oils, for use in electronic cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes; Electronic smoking pipes; Electronic cigarettes for use as an alternative to traditional cigarettes.
An electronic cigarette with a replaceable liquid bottle, the electronic cigarette comprising: an atomizer body (10), an atomization core (16) configured to absorb e-liquid for heating and atomization being provided in the atomizer body (10), and a liquid storage cavity (51) being provided in the atomizer body (10); and an e-liquid bottle (20), which is detachably connected to the atomizer body (10) and is configured to supply liquid to the liquid storage cavity (51). The use of the embodiments can facilitate a user to carry and replace, meet personalized needs of the user, and also avoid the problem of repeated contact and deterioration of the e-liquid with air during liquid filling of traditional liquid-filling-type electronic cigarettes, which affects the physical and mental health of consumers.
An electronic cigarette includes an atomizing body and an e-liquid cartridge. The atomizing body includes an atomizing core and an e-liquid chamber. The atomizing core is configured to absorb and heat the e-liquid for vaporization. The e-liquid cartridge is detachably connected to the atomizing body to supply the e-liquid to the e-liquid chamber.
A temperature control method and apparatus for an electronic cigarette, an electronic device and an electronic cigarette. The electronic cigarette comprises a heating element (101), and a temperature sensor (301) for measuring the temperature of an airflow around the heating element (101). The temperature control method for an electronic cigarette comprises: in response to that a heating element (101) is powered on, acquiring a temperature value measured by a temperature sensor (301) (S410); according to the temperature value, determining a first temperature change rate within a first time period and a second temperature change rate within a second time period following the first time period (S420); and controlling the heating power of the heating element (101) according to the first temperature change rate and the second temperature change rate.
Provided in the present disclosure are an atomization chip, an atomization core, an atomizer, an e-cigarette, and a method for manufacturing an atomization chip. The atomization chip comprises a first end-side substrate, a second end-side substrate and a plurality of intermediate substrates, wherein the plurality of intermediate substrates are arranged between the first end-side substrate and the second end-side substrate; the first end-side substrate, the plurality of intermediate substrates and the second end-side substrate are stacked; the plurality of intermediate substrates each define a flow channel and at least one first through hole, which is in communication with the flow channel, the flow channel extending in a direction different from that of the at least one first through hole; and the flow channels defined by the plurality of intermediate substrates are in communication with one another by means of the through holes, which are defined by the plurality of intermediate substrates. The embodiments of the present disclosure can provide the atomization chip which has high product consistency and stable quality.
A heating apparatus for an electronic cigarette and a hookah device. The heating apparatus (100) comprises: a housing assembly (310), a heating cavity being defined inside the housing assembly, the heating cavity extending in a first direction, one end of the housing assembly (310) in the first direction being provided with a power supply connection port (302) communicated with the heating cavity, and the other end of the housing assembly (310) in the first direction being provided with airflow outlets (303) for discharging hot airflow; a heating wire (116), provided at the end, close to the airflow outlets (303), inside the heating cavity, the heating wire (116) comprising a first end and a second end, at least a part of the heating wire (116) extending in a second direction, wherein an included angle between the second direction and the first direction is greater than a preset angle; and a first electrode assembly (141) and a second electrode assembly (142), which are respectively electrically connected to the first end and the second end of the heating wire (116) and are used for guiding electrical connections to the first end and the second end of the heating wire (116) to the power supply connection port (302).
Disclosed in the present application is an electronic cigarette, comprising an atomizer and a battery assembly, wherein the atomizer is lengthened, and the battery assembly is shortened, thus the storage capacity of an e-liquid storage cavity in the atomizer is increased; the traditional assembly method for the atomizer and the battery assembly is abandoned, the atomizer is no longer inserted inside the battery shell for assembly, an accommodating space is designed inside an atomizer shell instead, and the battery assembly is all but inserted into the atomizer shell, such that the stability of assembly of the atomizer and the battery assembly after modification is improved; moreover, the overall structure is coordinated and aesthetically pleasing, and the problems of the connection between the atomizer and the battery assembly being unstable, the size of a simulated electronic cigarette not being able to meet standards and the e-liquid storage capacity of the simulated electronic cigarette being relatively small due to shaking when the atomizer and the battery assembly are connected that is caused by the size limitation on existing electronic cigarettes are overcome.
Heating Equipment for Inhaled Tobacco, namely, devices for heating tobacco for the purpose of inhalation; Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavourings, other than essential oils, for use in electronic cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes, namely, electronic cigarette liquid (e-liquid) comprised of flavorings in liquid form, other than essential oils, used to refill electronic cigarette cartridges; Electronic smoking pipes; Electronic cigarettes for use as an alternative to traditional cigarettes
Provided in the present application are a portable charging case and an electronic cigarette charging system. The portable charging case comprises a charging main body used for charging an electronic cigarette. A first protruding portion and a second protruding portion protrude from the end edges of two ends of the charging main body in the direction away from one side of the charging main body, an accommodating space for clamping and holding an electronic cigarette being formed between the first protruding portion and the second protruding portion. One end of the charging main body is provided with a rotatable flip cover, the first protruding portion being formed on the flip cover. By means of the design of the flip cover, the charging case can fix an electronic cigarette only at the two ends, such that the electronic cigarette is fully exposed, thereby improving the heat dissipation efficiency during a charging process. In addition, the flip cover may improve the stability of fixing the electronic cigarette and the stability of contact with electrodes so as to avoid the detachment of the electronic cigarette from the charging case when the charging case is put into a bag or a trouser pocket during charging, thereby solving the problem that charging cannot be completed in time and solving the problem that poor contact caused by displacement affects charging.
An atomizer (A), a battery assembly (B), and an electronic cigarette (10). The atomizer (A) and the battery assembly (B) are detachably connected by means of a first electric connection assembly (110) and a second electric connection assembly (120). The first electric connection assembly (110) comprises a first ring connection wall (111) and a second ring connection wall (112), and the second electric connection assembly (120) comprises a third ring connection wall (121) and a fourth ring connection wall (122). The side wall surface of the first ring connection wall (111) provided with a first electrode abuts against the side wall surface of the third ring connection wall (121) provided with a third electrode, the first electrode being electrically connected to the third electrode. The side wall surface of the second ring connection wall (112) provided with a second electrode abuts against the side wall surface of the fourth ring connection wall (122) provided with a fourth electrode, the second electrode being electrically connected to the fourth electrode. By means of mutual abutting of the side wall surfaces, the stability of electrode contact is improved.
Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavorings, other than essential oils, for use in electronic cigarettes; Electronic cigars; Electronic cigarettes for use as an alternative to traditional cigarettes; Electronic cigarettes; liquid nicotine solutions for use in electronic cigarettes; Electronic smoking pipes.
Cigarettes containing tobacco substitutes, not for medical purposes; oral vaporizers for smokers; electronic hookahs; cigarette filters; flavorings, other than essential oils, for use in electronic cigarettes; electronic cigars; electronic cigarettes for use as an alternative to traditional cigarettes; electronic cigarettes; liquid nicotine solutions for use in electronic cigarettes; electronic smoking pipes
Cigarettes containing tobacco substitutes, not for medical purposes; oral vaporizers for smokers; electronic hookahs; cigarette filters; flavorings, other than essential oils, for use in electronic cigarettes; electronic cigars; electronic cigarettes for use as an alternative to traditional cigarettes; electronic cigarettes; liquid nicotine solutions for use in electronic cigarettes; electronic smoking pipes
Provided in the present disclosure are an atomizing core, an atomizer and an electronic cigarette. The atomizing core comprises an atomizing tube, a heat generation core and an e-liquid blocking structure, wherein the atomizing tube has a heating cavity; the heat generation core is arranged in the heating cavity; and the e-liquid blocking structure is arranged in the heating cavity and corresponds to an e-liquid accumulation portion of the heat generation core.
Provided in the present disclosure are an atomizer and an electronic cigarette. The atomizer comprises: a liquid storage device body, wherein a liquid storage cavity and a pressure relief passage for balancing the pressure in the liquid storage cavity are formed in the liquid storage device body; and an atomization tube, wherein an atomization passage in communication with the outside atmosphere is formed inside the atomization tube, and a tube wall of the atomization tube is provided with a linear through hole which allows gas to pass therethrough but does not allow an e-liquid to pass therethrough. Two ends of the linear through hole in an extension direction are respectively in communication with the liquid storage cavity and the atomization passage, and at least a portion of the linear through hole is used for forming the pressure relief passage.
A method for assembling an atomizer. The method comprises: providing a pre-assembled e-liquid reservoir assembly (10); providing a pre-assembled e-liquid sealing and heating assembly (11); and assembling the e-liquid sealing and heating assembly (11) and the e-liquid reservoir assembly (10) into an atomizer (12). The assembly method is simple, the operation is easy, and a riveting or welding procedure is not required. During a production process, less time is consumed, less human labor is required, and the assembling efficiency is high, such that the aim of reducing the labor cost can be achieved.
An atomizer and an electronic cigarette. The atomizer comprises an oil storage device main body, the oil storage device main body is provided with an oil storage cavity (301), the oil storage device main body is provided with an oil injection and air discharging structure corresponding to the oil storage cavity (301), the oil injection and air discharging structure is used for injecting oil into the oil storage cavity (301), and air in the oil storage cavity (301) can be discharged while oil is injected. According to the atomizer and the electronic cigarette, by providing the oil injection and air discharging structure, the occurrence of a phenomenon of an e-liquid overflowing the atomizer due to the fact that air in the oil storage cavity (301) cannot be quickly discharged during oil injection can be prevented, and a pressure difference occurring in the oil storage cavity (301) during vaping is eliminated, so that an air pressure balance in the oil storage cavity (301) can be maintained, and oil leakage or insufficient oil supply of the atomizer is prevented.
Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavorings, other than essential oils, for use in electronic cigarettes; Electronic cigars; Electronic cigarettes for use as an alternative to traditional cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes; Electronic smoking pipes.
39.
ATOMISATION CORE, ATOMISATION ASSEMBLY, AND ELECTRONIC CIGARETTE
An atomisation core, an atomisation assembly, and an electronic cigarette, the atomisation core comprising a core main body (10), an air channel (30) for air flow to pass through being formed in the core main body (10); and a heating element (20), the heating element (20) being positioned at a downstream position of the air channel (30) along the direction of air flow. In the atomisation core, by designing the heating element (20) to be downstream of the air channel (30) of the core main body (10), the air flow flows downstream from the upstream of the air channel (30) and brings out smoke produced by heating e-liquid, and the smoke produced by heating the e-liquid downstream of the air channel (30) can directly flow out of the air channel (30)and is not restricted by the air channel (30), thereby ensuring the smoke outflow speed and the powerful burst when the smoke flows out, and greatly improving the sensation in the mouth; in addition, as the smoke directly flows out of the air channel of the core main body (10) and is not restricted by a narrow air channel, the speed of the smoke flowing into the mouth of the user is increased, reducing the smoke retention time, and thereby reducing the probability of the smoke forming condensate.
An e-liquid sealing member, an atomizer, and an electronic cigarette. The e-liquid sealing member comprises an e-liquid sealing member main body (3), wherein a heating cavity (303) is formed in the e-liquid sealing member main body (3) and is used for accommodating a heating core (5); at least one e-liquid intake hole (302) is provided in a cavity wall of the heating cavity (303); and a positioning structure is provided in the heating cavity (303) and is used for positioning the heating core (5) in the heating cavity (303) and making the heating core (5) correspond to the at least one e-liquid intake hole (302).
Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavorings, other than essential oils, for use in electronic cigarettes; Electronic cigar; Electronic cigarettes for use as an alternative to traditional cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes; Electronic smoking pipes.
An atomizer and an electronic cigarette. The atomizer comprises an atomizer body and an atomizing core (3); an e-liquid storage cavity (101) is formed in the atomizer body; the atomizing core (3) is located in the e-liquid storage cavity (101); an atomizing channel (306) is formed in the atomizing core (3); a vent hole (305) used for enabling the e-liquid storage cavity (101) to be communicated with the atomizing channel (306) is formed in the wall of the atomizing core (3); the atomizer further comprises a sealing sleeve (10); the sealing sleeve (10) is arranged inside the atomizing core (3) or outside the atomizing core (3) and is arranged corresponding to the vent hole (305); a vent channel (1001) is formed between the sealing sleeve (10) and the wall of the atomizing core (3); the vent channel (1001) is communicated with the vent hole (305) and the vent channel (1001) leads to the outside of the sealing sleeve (10). By means of the vent channel (1001), when there is an air pressure difference between the inside and the outside of the e-liquid storage cavity (101), air pressure balance between the inside and the outside of the e-liquid storage cavity (101) can be maintained by means of pressure relief by the vent channel (1001).
An atomizer, comprising: an atomizer main body, an atomization channel (506) being formed in the atomizer main body, one end of the atomizer main body being provided a protruding exposed portion (505), at least one air inlet (502) for air intake being provided on the exposed portion (505), the at least one air inlet (502) being communicated with the atomization channel (506). By providing, on the exposed portion (505) of the atomizer, the air inlet (502) communicated with the atomization channel (506), the air intake path of the atomizer can be shortened, thereby simplifying the air intake structure of the atomizer, and achieving the purpose of simple structure and convenient assembly of the atomizer.
Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavorings, other than essential oils, for use in electronic cigarettes; Electronic cigar; Electronic cigarettes for use as an alternative to traditional cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes; Electronic smoking pipes.
A heated tobacco product includes a main body and a fixing member. The main body includes a first chamber, and the fixing member is detachably disposed in the first chamber. The fixing member includes a second chamber configured to hold a tobacco stick. One end of the second chamber includes a first opening through which the tobacco stick is inserted into the second chamber.
Cigarettes containing tobacco substitutes, not for medical purposes; Oral vaporizers for smokers; Electronic hookahs; Cigarette filters; Flavorings, other than essential oils, for use in electronic cigarettes; Electronic cigar; Electronic cigarettes for use as an alternative to traditional cigarettes; Electronic cigarettes; Liquid solutions for use in electronic cigarettes; Electronic smoking pipes.
An atomizer and an electronic cigarette comprising the atomizer. The atomizer comprises a liquid-leakage-proof air guiding structure. The liquid-leakage-proof air guiding structure is provided with a first chamber (311) and a second chamber (312), which are independent of each other, and a penetrating portion for enabling the first chamber (311) to be in communication with the second chamber (312). The first chamber (311) is provided with a first ventilation portion for allowing an airflow to flow into the first chamber (311). The second chamber (312) is provided with a second ventilation portion for allowing the airflow to flow out of the second chamber (312).
An electronic cigarette includes an atomization assembly. The atomization assembly comprises an electric heating element, a first conductive electrode, a second conductive electrode, and a circuit control board configured to control the electric heating element to work. The electric heating element is electrically connected to the first conductive electrode and the second conductive electrode through the circuit control board.
An atomizer, and an electronic cigarette comprising the atomizer. The atomizer comprises an oil storage tank body (1) and a heating core (4), an oil storage cavity (101) and a heating and atomization area (510) being disposed in the oil storage tank body (1), the heating core (4) being arranged in the heating and atomization area (510). A cavity wall enclosing the oil storage cavity (101) is provided with an oil inlet hole (503) in communication with the oil storage cavity (101) and the heating and atomization area (510), and located opposite to the heating core (4); and a pressure relief channel (506) provided on a side of the cavity wall facing away from the interior of the oil storage cavity (101), one end of the pressure relief channel (506) being in communication with the oil inlet hole (503), and the other end of the pressure relief channel (506) being in communication with an airflow channel disposed in the atomizer.
The present disclosure relates to an atomizing core, an atomizer and an electronic cigarette. The atomizing core comprises an atomizing core main body, wherein a heating cavity allowing a gas flow to pass therethrough is formed in the atomizing core main body, a heating core is arranged in the heating cavity, the heating cavity is internally provided with a gas blocking piece used for weakening the gas flow in the heating cavity, and the gas blocking piece is arranged upstream of the heating core in a flow direction of the gas flow. According to the atomizing core of the present disclosure, the gas blocking piece is designed in the heating cavity, and the gas flow is blocked by the gas blocking piece and is weakened before passing through the heating cavity, so that the gas pressure in the whole heating cavity is relatively balanced, thereby preventing an e-liquid from generating an abnormal sound when being heated due to an excessive amount of gas flow during vaping.
A heating cup assembly includes a first cup. The first cup includes a first cavity, a first side wall, and a second side wall. The first cavity is surrounded by the first side wall. The first side wall includes a first end and a second end. The second side wall includes a third end and a fourth end. The second end and the third end are disposed in one horizontal plane. The second side wall is in the shape of a truncated cone, and a diameter of the third end is less than that of the fourth end.
A heating core includes a conductor and an e-liquid absorber. The conductor includes a cavity and the e-liquid absorber is disposed in the cavity. The e-liquid absorber includes an outer cylindrical wall, two inner cylindrical walls, and two through holes each confined by one of the two inner cylindrical walls. The outer cylindrical wall of the e-liquid absorber is attached to the inner cylindrical surface of the conductor, and the heating core is free of a gap between the outer cylindrical wall of the e-liquid absorber and the inner cylindrical surface of the conductor. Two heating elements are disposed on the two inner cylindrical walls, respectively, and each of the two heating elements is in a spiral shape.
An aerosol-generating article includes a heating element and a tobacco material. The heating element is wrapped in the tobacco material, or the tobacco material is wrapped in the heating element, or the heating element is disposed in the tobacco material.
An atomizing core, an atomizer and an electronic cigarette. The atomizing core comprises an atomizing tube (3) and a driven component (5), wherein the driven component (5) is connected to one end of the atomizing tube (3); and an E-liquid storage groove (504) for collecting leaked E-liquid is formed between the driven component (5) and an inner wall of the atomizing tube (3). The E-liquid storage groove (504) is designed between the driven component (5) and the atomizing tube (3) of the atomizing core, and configured to receive leaked E-liquid or condensate formed in the atomizing tube (3) after atomization, thereby preventing the E-liquid or the condensate from being leaked to the outside.
A heating assembly includes a main body and a high-frequency control assembly. The main body includes a heating chamber provided with a first opening. The main body further includes a heating element disposed in the heating chamber. The high- frequency control assembly is disposed outside the heating chamber. When in use, a tobacco material passes through the first opening and is disposed into the heating chamber; when the high-frequency control assembly is energized, an electromagnetic filed is produced, and the heating element produces heat to heat the tobacco material.
A heating element includes a main body. The main body includes a thermal air chamber and at least one through hole communicating with the thermal air chamber.
An atomizing core (3) and an atomizer relieving backflow pressure, and an electronic cigarette. The atomizing core (3) comprises an atomizing core body. A gas passage for a gas flow to pass through is formed in the atomizing core body, a wall of the atomizing core body is provided with a gas hole (306), the gas hole (306) being in communication with the gas passage, and an outer wall of the atomizing core body is provided with a groove (305), the groove (305) being in communication with the gas hole (306). The groove (305) is configured as a slot through which only a gas can pass and/or the air hole (306) is configured as a hole through which only a gas can pass. In the atomizing core (3) and atomizer relieving backflow pressure, and the electronic cigarette, by means of designing a pressure relief passage, the air pressure balance in a liquid storage cavity (103) can be maintained by means of supplementing air thereto using the air hole (306) and the pressure relief passage, so that liquid is fed more rapidly, and burning-out of a heating element due to slow liquid intake and insufficient liquid supply is solved.
An atomizer and an electronic cigarette comprising the atomizer. The atomizer comprises an e-liquid storage body, a sealing plug (1) and an e-liquid absorbing member (102); the e-liquid storage body has a smoke guide channel (204) and a smoking port (201) used for smoking, and the smoking port (201) communicates with the smoke guide channel (204); the sealing plug (1) is used to plug the smoke guide channel (204) from the smoking port (201) so as to seal the smoking port (201); and the e-liquid absorbing member (102) is mounted on the sealing plug (1), and the e-liquid absorbing member (102) is used to absorb e-liquid that leaks into the smoke guide channel (204).
An atomizer and an electronic cigarette, the atomizer comprising a e-liquid storage device main body. A heating cavity (602) and an e-liquid storage cavity (302) are formed inside of the e-liquid storage device main body, and at least two e-liquid inlets (603) are provided inside of the e-liquid storage device main body, each e-liquid inlet (603) being used for placing the heating cavity (602) in communication with the e-liquid storage cavity (302). A heating core for heating and atomizing an e-liquid is transversely mounted inside of the heating cavity (602), the heating core comprising an e-liquid guiding member (501), and two ends of the e-liquid guiding member (501) each corresponding to at least one e-liquid inlet (603).
An atomizer and an electronic cigarette. The atomizer comprises: an e-liquid reservoir and a heating core (5), wherein an e-liquid storage chamber (301) and at least one e-liquid backup space (605) in communication with the e-liquid storage chamber (301) are formed in the e-liquid reservoir; and the heating core (5) is arranged in the e-liquid reservoir, and the heating core (5) is used to heat e-liquid in the e-liquid storage chamber (301), and heat e-liquid in the at least one e-liquid backup space when the e-liquid in the e-liquid storage chamber (301) is insufficient. The atomizer and the electronic cigarette solve the problem that after the e-liquid in the e-liquid storage chamber (301) is used up, the heating core (5) cannot be supplemented with e-liquid, such that the heating core (5) is burned due to continuous vaping.
An atomizer and an electronic cigarette. The atomizer comprises an e-liquid storage compartment (1). An e-liquid storage cavity (101) and an atomizing tube (4) which is used for e-liquid absorption and atomization are provided in the e-liquid storage compartment (1). Air holes which communicate with the outside atmosphere are provided on the tube wall of the atomizing tube (4). The atomizing tube (4) is externally provided with a sealing member (3) used for covering the air holes. Micro-airflow channels for airflow to pass through are formed between the sealing member (3) and the atomizing tube (4), and the micro-airflow channels communicate with the air holes and the e-liquid storage cavity (101) separately. In the present solution, by means of designing the micro-airflow channels, the air holes and the micro-airflow channels may be used to supplement air in the e-liquid storage cavity (101) so as to quicken e-liquid intake, thereby solving the problem of burning out a heating element caused by slow e-liquid intake and insufficient e-liquid supply.
An atomizer and an electronic cigarette. The atomizer comprises a housing (1) and an e-liquid injection member (7), wherein an e-liquid storage cavity (102) is provided in the housing (1); the e-liquid injection member (7) is provided with at least one e-liquid injection hole (702), and the e-liquid injection member (7) can move, relative to the housing (1), between a first position and a second position; and the e-liquid injection member (7) is configured in such a way that when the e-liquid injection member is in the first position, the at least one e-liquid injection hole (702) is in communication with the e-liquid storage cavity (102), and when the e-liquid injection member is in the second position, the e-liquid injection hole (702) is isolated from the e-liquid storage cavity (102). According to the atomizer and the electronic cigarette, the e-liquid injection member (7) is designed to be movable, and the movement and resetting of the e-liquid injection member (7) between the first position and the second position enables the e-liquid injection or e-liquid sealing to be completed in one step, thereby simplifying the e-liquid injection step and improving the e-liquid injection efficiency.
An atomizer includes a housing including an e-liquid chamber. The e-liquid chamber is equipped with an e-liquid injection member. The e-liquid injection member includes at least one first e-liquid inlet. The e-liquid injection member is movable between a first position and a second position; in the first position, the at least one first e-liquid inlet communicates with the e-liquid chamber; and in the second position, the at least one first e-liquid inlet is not in communication with the e-liquid chamber.
An atomizer and an electronic cigarette. The atomizer comprises: an atomization core for atomizing e-liquid; a liquid leakage collection space (405) arranged below the atomization core, the liquid leakage collection space (405) being used to collect leaked liquid; and a liquid suction pipe (301), wherein the liquid suction pipe (301) is inserted into the liquid leakage collection space (405) and provides communication between the atomization core and the liquid leakage collection space (405), and the liquid suction pipe (301) is used to suck the leaked liquid in the liquid leakage collection space (405) and deliver the leaked liquid to the atomization core. The atomizer capable of preventing liquid leakage sucks back leaked liquid for reuse by means of the liquid suction pipe, such that the problems of pollution and waste caused by leaked liquid being unable to be cleaned are solved.
An atomizer and an electronic cigarette. The atomizer comprises an e-liquid storage device body (3), a heating core (5), a gas guide channel (301) and an e-liquid baffle cover (4), wherein the e-liquid storage device body (3) is provided with an e-liquid storage chamber (305) for storing e-liquid; the heating core (5) is used to suck the e-liquid in the e-liquid storage chamber (305) and heat and atomize the e-liquid; the gas guide channel (301) is configured such that vapor generated after the e-liquid is heated is delivered for vaping by a user; the e-liquid baffle cover (4) is arranged outside the heating core (5) in a covering manner, and the e-liquid baffle cover (4) is used to prevent the e-liquid from being splashed into the gas guide channel (301). During vaping, the heating core (5) generates heat, which will cause the e-liquid sucked in the heating core (5) to splash, and the design of the e-liquid baffle cover (4) can block the splashed e-liquid so as to prevent the e-liquid from entering the mouth of a user during vaping.
A heating core, an atomizer and an e-cigarette. The heating core comprises a heating core main body. The heating core main body comprises: an oil guide member (6) having a flat body; and an electric heating element (5) which is attached to the oil guide member (6).
An atomizer and an electronic cigarette comprising the atomizer. The atomizer comprises a housing (2) and a filter tip (1), the housing (2) is provided with a vaping channel (201) allowing vapor to flow out of the atomizer, and one end of the vaping channel (201) distant from the interior of the housing is a mouthpiece (204); the filter tip (1) is inserted into the vaping channel (201) and is configured to filter the vapor and absorb e-liquid in the vapor.
An anti e-liquid leakage atomiser, comprising a housing (2), a gas flow component (4), and an e-liquid absorption member (5); a heating chamber (604) and an e-liquid storage chamber (202) for storing e-liquid are disposed in the housing (2), the e-liquid storage chamber (202) being in communication with the heating chamber (604), the gas flow component (4) being inserted into one end of the housing (2) and with the housing (2) enclosing a gas guide space (406), the gas guide space (406) being in communication with the heating cavity (604), the gas flow component (4) being provided with a gas intake part for outside gas to pass through and enter the gas guide space (406), and the e-liquid absorption suction member (5) being disposed in the gas guide space (406) and being used for absorbing e-liquid leakage.
An atomizer and an electronic cigarette comprising same. The atomizer comprises: a housing (3), provided with an air guide channel (301), a vaping port (304) being provided on one end of the housing (3); a heating element (4), provided in the housing (3) and used for heating e-liquid to produce vapor, the air guide channel (301) being located between the heating element (4) and the vaping port (304) and used for guiding the vapor out of the atomizer; and an e-liquid absorption member (2), provided in the air guide channel (301) and used for absorbing an accumulated liquid formed by the condensation of the vapor.
The present disclosure relates to a liquid intake, air supply, and anti-liquid leakage atomizer and an electronic cigarette. The liquid intake, air supply, and anti-liquid leakage atomizer comprises: a liquid storage pipe (5), an atomizing pipe (6), and an air ring (7). The atomizing pipe (6) is provided with an air supply hole (6-1) and a liquid intake hole (6-2). The atomizing pipe (6) is located in the liquid storage pipe (5), and the air ring (7) is mounted in the atomizing pipe (6) and is located at the air supply hole (6-1), a combined gap between an inner wall of the atomizing pipe (6) and an outer wall of the air ring (7) forms an air supply channel. An e-liquid can enter a heating body (8) from the liquid intake hole (6-2), and air enters the liquid storage pipe (5) from the air supply hole (6-1) through the air supply channel to supply air, so that liquid intake becomes more sufficient and faster.
An atomizer and an electronic cigarette. The atomizer comprises a housing (1), an e-liquid absorption and heating assembly (3) is provided within the housing (1), and a first leakage accumulation part (202) used for collecting condensed e-liquid that leaks after atomization and a second leakage accumulation part (501) used for catching e-liquid that overflows from the first leakage accumulation part (202) are both provided below the e-liquid absorption and heating assembly (3), where the first leakage accumulation part (202) is close to the e-liquid absorption and heating assembly (3). The time it takes for condensed e-liquid to leak out from the atomizer is prolonged by means of designing the first leakage accumulation part (202) and the second leakage accumulation part (501); additionally, due to e-liquid within the first leakage accumulation part (202) being close to the e-liquid absorption and heating assembly (3), said e-liquid can be re-used, e-liquid utilization is improved, and the problems of an atomizer leaking e-liquid and having a short service life are solved.
An atomizer includes an e-liquid storage tube, an atomizing tube, and a cylindrical ring. The atomizing tube includes an air supplementary inlet and an e-liquid inlet. The atomizing tube is disposed in the e-liquid storage tube. The cylindrical ring is disposed in the atomizing tube and is adjacent to the air supplementary inlet; and an air passage is defined by the inner wall of the atomizing tube and the outer wall of the cylindrical ring.
An atomizer includes an outer glass tube, a heating element, and an inner glass tube. The inner glass tube is disposed in and is integrated with the outer glass tube; the inner wall of the outer glass tube and the outer wall of the inner glass tube form a cavity for accommodating e-liquid. The heating element is disposed in the outer glass tube and below the inner glass tube and the cavity; and when in use, the heating element atomizes the e-liquid to produce vapor flowing from the inner glass tube to the outer glass tube for inhaling by a user.
An isolator used in an atomizer, and an atomizer and an electronic cigarette. The isolator used in an atomizer comprises: an isolator main body (2), wherein a hollow channel is formed in the isolator main body (2), the hollow channel is used for accommodating an atomizing core of an atomizer, and the isolator main body (2) blocks, in a first state, a liquid intake hole (301) of the atomizing core and exposes, in a second state, the liquid intake hole (301) of the atomizing core; and a traction member (209), wherein the traction member (209) is used for driving the isolator main body (2) to slide, so as to make the isolator main body (2) slide from the first state to the second state. The atomizer comprises: a liquid reservoir (1), wherein a liquid storage cavity (105) is formed in the liquid reservoir (1); and an atomizing core, wherein the atomizing core is provided with at least one liquid intake hole (301), the at least one liquid intake hole (301) is in communication with the liquid storage cavity (105), the position of the at least one liquid intake hole (301) of the atomizing core is provided with a slidable isolator main body (2) for sealing the at least one liquid intake hole (301), and the isolator main body (2) is provided with a traction member (209) used for driving the isolator main body (2) to slide and separate from the at least one liquid intake hole (301). The electronic cigarette comprises an atomizer having the isolator or the atomizer.
An atomizer includes a main body. The main body includes an e-liquid chamber, a heating chamber, a heating element, and an e-liquid channel. The heating element is disposed in the heating chamber. The main body further includes at least one e-liquid inlet and at least one e-liquid outlet communicating with two ends of the e-liquid channel, respectively. The at least one e-liquid inlet is disposed in a bottom part of the e-liquid chamber. The at least one e-liquid outlet is connected to the heating chamber. The main body further includes a mouthpiece connected to and communicating with the heating chamber; when a user inhales smoke or vapor through the mouthpiece, the e-liquid is sucked from the e-liquid chamber into the e-liquid channel by a suction force, flows into the heating chamber.
An atomizer includes a heating assembly, a first e-liquid collector, and a second e-liquid collector. The first e-liquid collector and the second e-liquid collector are disposed under the heating assembly. The first e-liquid collector is configured to store condensed e-liquid; and the second e-liquid collector is configured to store the condensed e-liquid overflowing out of the first e-liquid collector. The first e-liquid collector is disposed near the heating assembly.
An atomizer includes an e-liquid tank and a seal member. The e-liquid tank includes a cavity and an airflow channel. The seal member is disposed on one end of the e-liquid tank. The seal member includes a groove configured to equalize a pressure in the e-liquid tank with outside pressure. Both ends of the groove communicate with the cavity and the airflow channel, respectively.
An atomizer includes a heating assembly, a first e-liquid collector, and a second e-liquid collector. The first e-liquid collector and the second e-liquid collector are disposed under the heating assembly. The first e-liquid collector is configured to store condensed e-liquid; and the second e-liquid collector is configured to store the condensed e-liquid overflowing out of the first e-liquid collector. The first e-liquid collector is disposed near the heating assembly.
An atomizer includes an e-liquid tank and a seal member. The e-liquid tank includes a cavity and an airflow channel. The seal member is disposed on one end of the e-liquid tank. The seal member includes a groove configured to equalize a pressure in the e-liquid tank with outside pressure. Both ends of the groove communicate with the cavity and the airflow channel, respectively.
An isolation member for an atomizer includes a main body and a pull rod connected to the main body to drag the main body to move. The main body includes a hollow channel.
An atomizer includes an e-liquid tank, an atomizing core, and an isolation member. The e-liquid tank includes an e-liquid chamber and the atomizing core includes an at least one e-liquid inlet. The at least one e-liquid inlet communicates with the e-liquid chamber. The isolation member is disposed around and movable with respect to the atomizing core, and is configured to close the at least one e-liquid inlet. The isolation member comprises a pull rod configured to drag the isolation member to slide away from the at least one e-liquid inlet.
An isolation member for an atomizer includes a main body and a pull rod connected to the main body to drag the main body to move. The main body includes a hollow channel.
An atomizer includes an e-liquid tank, an atomizing core, and an isolation member. The e-liquid tank includes an e-liquid chamber and the atomizing core includes an at least one e-liquid inlet. The at least one e-liquid inlet communicates with the e-liquid chamber. The isolation member is disposed around and movable with respect to the atomizing core, and is configured to close the at least one e-liquid inlet. The isolation member comprises a pull rod configured to drag the isolation member to slide away from the at least one e-liquid inlet.
An atomizing core includes an atomizing body including a porous material. The atomizing body includes a first side surface, a second side surface, and a heating element. The first side surface is configured to absorb e-liquid. The second side surface is configured for smoke emission. The heating element is disposed on the second side surface.
Cigarettes containing tobacco substitutes, not for medical purposes; oral vaporizers for smokers; electronic hookahs; electronic smoking pipes; cigarette filters; flavourings, other than essential oils, for use in electronic cigarettes; electronic cigars; electronic cigarettes; liquid solutions for use in electronic cigarettes; electronic cigarettes for use as an alternative to traditional cigarettes.
An electronic cigarette includes an airflow sensing part, a first pressure change unit, a second pressure change unit, an outlet assembly, a pneumatic switch, and a heating element. The heating element is disposed in the first pressure change unit. The pneumatic switch is disposed in the airflow sensing part to activate the heating element to work. The airflow sensing part communicates with the second pressure change unit. The first pressure change unit and the second pressure change unit separately communicate with the outlet assembly.
A hookah module includes a water jar configured to filter harmful substances from smoke. The water jar includes a jar body including a water chamber configured to hold water; and the jar body includes a bottom part and a first detachable connector disposed on the bottom part.
An atomization cup including a cup body. The cup body includes a cavity and at least one through hole. The cavity is configured to accommodate a tobacco material. The smoke or vapor generated by the tobacco material escapes from the cup body via the at least one through hole. The at least one through hole communicates with the cavity. The cup body further includes a side wall. The side wall includes a heating element made of conductive material, or the side wall is made of conductive material.
An electromagnetic coil, including a body including a conductor in the shape of a spiral coil. The cross-sectional area of the conductor is between 3.1 mm2 and 320 mm2.
An atomizer and an electronic cigarette. The atomizer comprises an e-liquid storage device (1A), the e-liquid storage device (1A) comprising: an e-liquid storage compartment (1), with an e-liquid storage cavity (103, 104A) being formed in the e-liquid storage compartment (1); a hollow gas guide pipe (101, 103A), with a gas flow channel (104, 102A) being provided in the gas guide pipe (101, 103A); and an e-liquid sealing member (3, 2A), the e-liquid sealing member (3, 2A) being used for sealing the e-liquid storage cavity (103, 104A) and provided with an internal channel (302, 203A), with one end of the gas guide pipe (101, 103A) being inserted into the internal channel (302, 203A) of the e-liquid sealing member (3, 2A), wherein a gap channel is provided between the gas guide pipe (101, 103A) and the e-liquid sealing member (3, 2A); the gap channel communicates the e-liquid storage cavity (103, 104A) with the internal channel (302, 203A), and/or the gap channel communicates the e-liquid storage cavity (103, 104A) with the gas flow channel (104, 102A); and the gap channel is configured to be of a channel structure through which only a gas can pass.
An electronic cigarette includes a main body, a control assembly, two clearomizers, and a sliding member. The two clearomizers and the sliding member are disposed on the main body. The sliding member is slidable on the main body to drive the control assembly to control operations of the two clearomizers. The control assembly comprises two semiconductor switches and two magnetic members; the two magnetic members are disposed on the sliding member; the sliding member is used to slide towards one semiconductor switch to cause a change in the potential difference of the one semiconductor switch by the magnetism of the one magnetic member. The electronic cigarette allows for preventing unintentional activation of the clearomizers.
An atomizer and an electronic cigarette. The atomizer comprises: an e-liquid storage chamber (1) for accommodating e-liquid, and an e-liquid storage chamber cover (7); the e-liquid storage chamber cover (7) is mounted in the e-liquid storage chamber (1), and a space (7-1), the upper and lower parts of which are closed, is formed between the e-liquid storage chamber cover (7) and the e-liquid storage chamber (1); the space (7-1) is located between the top and the lower half part of the e-liquid storage chamber cover (7); and the space (7-1) is communicated with an internal vaping channel of the e-liquid storage chamber (1).
A liquid-core separation and liquid leakage prevention atomizer, comprising a liquid prevention member (9), a liquid storage bin (1) used for accommodating e-liquid, a heating body (6) used for heating the e-liquid, and an atomizing rod (5) used for guiding vapor generated after the e-liquid is heated, wherein the lower end of the atomizing rod (5) stretches into the liquid prevention member (9); a cavity space (905) is formed in the liquid prevention member (9); the inner cavity of the atomizing rod (5) is communicated with the cavity space (905); and after vaping, a condensed liquid can be gathered into the cavity space (905) from the inner cavity of the atomizing rod (5) and then be collected.
An atomizer assembly (A) and an electronic cigarette. The atomizer assembly (A) comprises a leaked liquid accumulation area portion and a suction pipe (10), the leaked liquid accumulation area portion is used for storing leaked liquid, and the suction pipe (10) is used for extending into the leaked liquid stored in the leaked liquid accumulation area portion and suctioning the leaked liquid. The atomizer assembly (A) suctions the leaked e-liquid by means of the suction pipe (10), thereby solving the problems of contamination and short circuiting caused by uncleanable leaked liquid.
An atomizing assembly includes a storage area for accommodating leaked e-liquid and a suction pipe. The suction pipe is disposed in the storage area to suck back the leaked e-liquid.
An atomizer provided with a transverse heating body, and an electronic cigarette. The atomizer comprises: an e-liquid storage member (1), an isolating member (3), an e-liquid suction member (4), a heating member (5), and a base (6). An e-liquid storage chamber (1-4) for accommodating an e-liquid is formed in the e-liquid storage member (1). The isolating member (3) is mounted in the base (6). The body of the isolating member (3) is provided with through-holes (3-1) that communicate with the e-liquid storage chamber (1-4). The e-liquid suction member (4) is transversely mounted in the isolating member (3). The e-liquid suction member (4) is used for, by means of the through-holes (3-1), suctioning an e-liquid in the e-liquid storage chamber (1-4). The heating element (5) is wound on an outer wall of the body of the e-liquid suction member (4). The base (6) is mounted in a bottom opening of the e-liquid storage member (1). The e-liquid in the e-liquid storage chamber (1-4) enters the e-liquid suction member (4) by means of the through-holes (3-1). When in operation, the heating element (5) can heat the e-liquid to generate smoke, which can be inhaled from a top opening of the e-liquid storage chamber (1-4).
A heating element, an atomizer and an electronic cigarette. The heating element comprises a heating main body (1) for generating heat, and a first conductive wire (2) and a second conductive wire (3) for conducting electricity; the heating main body (1) comprises a first end (11) and a second end (12) oppositely arranged, the first conductive wire (2) being connected to the first end (11), the second conductive wire (3) being connected to the second end (12), and the heating main body (1) has a hollow channel (4) extending from the first end (11) to the second end (12); the first conductive wire (2) extends from the first end (11) in a direction away from the heating main body (1); the second conductive wire (3) is bent into the hollow channel (4) from the second end (12), passes through the hollow channel (4), and then extends in a direction away from the heating main body (1), the part of the second conductive wire (3) passing through the hollow channel (4) is spaced apart from the heating main body (1); the second conductive wire (3) passes through the hollow channel (4) of the heating main body (1) and is spaced apart from the heating main body (1), such that when assembling into the atomizer, the second conductive wire (3) does not need to be operationally isolated, and the first conductive wire (2) and the second conductive wire (3) will not be short-circuited either, thereby facilitating assembly and increasing production efficiency, and reducing labor costs.
A heating device includes a heating element and a high-frequency heating assembly. In a power-on state, the heating element and the high-frequency heating assembly operate to generate heat and heat tobacco materials in the heating device to produce smoke or vapor.
The atomizer includes a housing, and an atomization assembly disposed in the housing. When in use, the atomizer is detachably connected to a high-frequency heater. The atomization assembly includes an atomizing core, a heating element, and a sleeve. The sleeve is connected to and enclosed by the housing, and a cavity is formed between the sleeve and the housing. The atomizing core and the heating element are fixedly disposed in the sleeve. The atomizing core includes a first surface and a second surface which are disposed back to back. The sleeve includes a main body through which e-liquid flows from the cavity into the sleeve and accumulates around the first surface of the atomizing core. The heating element is surrounded by the second surface of the atomizing core.
