Cigarettes; herbs for smoking; cigarette cases; matches;
lighters for smokers; cigarette filters; cigarette paper;
flavourings, other than essential oils, for use in
electronic cigarettes; electronic cigarettes; liquid
solutions for use in electronic cigarettes.
Disclosed are an atomization assembly and an electronic cigarette. The atomization assembly comprises an atomization assembly body (1) for atomizing tobacco tar, and a suction nozzle cap (2) rotatably covering one end of the atomizing assembly body (1), wherein a first limit part is provided on the inner wall of the suction nozzle cap (2), a second limit part is provided on the atomization assembly body (1), and the first limit part and the second limit part cooperate to limit the rotational amplitude of the suction nozzle cap (2) and control the superposition area of a first smoke outlet (110) and a second smoke outlet (24). By arranging the first limit part and the second limit part to match each other at the junction between the atomization assembly body (1) and the suction nozzle cap (2), the rotational amplitude of the suction nozzle cap (2) on the atomization assembly body (1) can be limited; moreover, the superposition area of the first smoke outlet (110) in the atomization assembly body (1) and the second smoke outlet (24) in the suction nozzle cap (2) can be controlled, thereby controlling the amount of smoke discharged by the atomization assembly.
Disclosed is an atomization assembly, wherein the atomization assembly comprises a suction nozzle assembly (1), an oil storage assembly (2), an air adjustment assembly (4), and an atomization core assembly (3) for atomizing cigarette oil. The oil storage assembly (2) comprises an oil storage sleeve (21), a first connection sleeve (24) and a ventilation pipe (23), wherein the first connection sleeve (24) is in plug-in connection with the oil storage sleeve (21); the suction nozzle assembly (1) is arranged on the end of the oil storage sleeve (21) far away from the first connection sleeve (24); the ventilation pipe (23) is sleeved in the oil storage sleeve (21); one end of the ventilation pipe (23) is in plug-in connection with the first connection sleeve (24), and the other end of the ventilation pipe (23) is in communication with the suction nozzle assembly (1); an oil storage cavity (22) for storing cigarette oil is enclosed between the oil storage sleeve (21) and the ventilation pipe (23); and a pipe wall of the ventilation pipe (23) is provided with an oil inlet hole (231) in communication with the oil storage cavity (22). The atomization assembly has the beneficial effect that the oil storage cavity (22) has a large oil storage space, so that it can be filled with more cigarette oil and it is convenient to repair and replace the atomization core assembly (3) or clean the cigarette oil in the ventilation pipe (23), and has a simple and compact structure as a whole to facilitate use by a user.
An atomizing component and an electronic cigarette. The atomizing component comprises an e-liquid storage component (2) and an atomizing core (3). Provided in the e-liquid storage component (2) are an e-liquid storage cavity (22) and a ventilation pipe (23). The atomizing core (3) is movably inserted into the ventilation pipe (23). An e-liquid inlet (321) is provided on a sidewall of the atomizing core (3). A rotary mechanism (4) is rotatably connected to an extremity of the e-liquid storage component (2). When not in use, the sidewall of the ventilation pipe (23) covers the e-liquid inlet (321); when in use, by rotating the rotary mechanism (4) to drive the atomizing core (3) and making the atomizing core (3) to move vertically relative to the e-liquid storage component (2), the size of the area of the e-liquid inlet (321) being covered by the sidewall of the ventilation pipe (23) is controlled to regulate the amount of e-liquid inflow through the e-liquid inlet (321). A pressure detection mechanism (24) flexibly abutted against the atomizing core (3) is provided within the ventilation pipe (23). The pressure detection mechanism (24) detects the pressure between the atomizing core (3) and the ventilation pipe (23) and transmits a signal to a control unit of the battery component, thus allowing the control unit to control the magnitude of an output power of the atomizing core (3) on the basis of the magnitude of the pressure. Thus, the magnitude of the output power of the atomizing core (3) is controlled at the same time as the amount of e-liquid inflow is being regulated.
An electronic cigarette and a temperature control method for a heating element thereof. The electronic cigarette comprises: a heating element (1) used to vaporize a liquid and having a resistance value that increases as temperature increases; a power supply circuit (2) used to supply power to the heating element (1); and a voltage adjustment circuit (3) used to detect the resistance value of the heating element (1), to acquire current temperature of the heating element (1). The voltage adjustment circuit (3) is further used to: when the current temperature is greater than a first preset value or is less than a second preset value, adjust a power supply voltage of the heating element (1), to keep heating temperature of the heating element (1) within a preset temperature range. A technical effect that when the heating element (1) is being heated, a heating resistance of the heating element (1) is detected to monitor and control temperature of the heating element (1), to keep the temperature of the heating element (1) within a suitable temperature range is implemented.
An atomizer comprising a mouthpiece component (10), an e-liquid storage component (20) detachably connected at one extremity thereof to the mouthpiece component (10) and provided with an e-liquid storage cavity (200), and an atomizing core (30) inserted into the e-liquid storage cavity (200) from an extremity of the e-liquid storage component (20) away from the mouthpiece component (10). The atomizing core (30) comprises a heating component (300), a cushioning element (31) sleeved over the heating component (300), an electrode component provided at an extremity of the heating component (300) away from the mouthpiece component (10), and a ventilation pipe (32) provided at an extremity of the heating component (300) away from the electrode component. An extremity of the ventilation pipe (32) away from the heating component (300) is abutted against the mouthpiece component (10). The heating component (300) comprises an atomizing base (33) sleeved within the electrode component, a ceramic electric heating element (34) set up on the atomizing base (33), an e-liquid guide element (35) having either extremity thereof being used for introducing an e-liquid from the e-liquid storage cavity (200) and abutted against the ceramic electric heating element (34), and a fixing base (36) covering the e-liquid guide element (35) for fixing the e-liquid guide element (35). An electric heating wire is provided within the ceramic electric heating element (34). The electric heating wire is electrically connected at either end to the electrode component. The atomizer is structurally simple and compact, provides great atomization effects, and prevents odors of burnt cotton and metal from being produced.
An atomizer and an electronic cigarette. The atomizer comprises a mouthpiece component (10), an e-liquid storage component (20) detachably connected at one extremity thereof to the mouthpiece component (10) and provided with an e-liquid storage cavity (200), and an atomizing core (30) inserted into the e-liquid storage component (20). The atomizing core (30) comprises an atomizing base (31), a heating component arranged at an extremity of the atomizing base (31), and an inner electrode component arranged at another extremity of the atomizing base (31). The heating component comprises an atomizing cup (34) and an e-liquid guide component (300) sleeved on the atomizing cup (34). The e-liquid guide component (300) is used for guiding an e-liquid out of the e-liquid storage cavity (200). Provided on a sidewall of the atomizing cup (34) against which the e-liquid guide component (300) is abutted are multiple smoke deposit grooves (341) and multiple air inlets (342) provided within the smoke deposit grooves (341). The atomizing cup (34) is made of a ceramic material and is provided on the sidewall thereof with an electric heating wire. The electric heating wire is electrically connected to the inner electrode component. The atomizing cup (34) is used for atomizing the e-liquid on the e-liquid guide component (300) when the electric heating wire is powered on to produce smoke to be inhaled by a user. The atomizer and the electronic cigarette produce a large volume of smoke, prevent a cotton burning phenomenon, and ensure atomization effects.
An atomizing component (10) and an electronic cigarette (100). The atomizing component (10) comprises: an airflow sensor (101) and a counter circuit (102). The airflow sensor (101) is used for being triggered when a user is smoking and producing a high-level signal and is used for producing a low-level signal when the user is not smoking. The counter circuit (102) is connected to the airflow sensor (101) and is used for counting the number of smoking inhales made by the user or an e-liquid atomizing duration, thus allowing an electronic cigarette to cease operating when the number of smoking inhales reaches a first preset value or the e-liquid atomizing duration reaches a second preset value. This allows accurate counting of the number of smoking inhales taken or the e-liquid atomizing duration, realistic reporting of the amount of e-liquid remaining, and prevents an atomizer from being scorched.
Disclosed are a tobacco tar atomizing method for an electronic cigarette and an electronic cigarette. The electronic cigarette comprises an atomizing assembly (10) and a battery assembly (20). The atomizing assembly (10) comprises at least two electric heating wire assemblies (109), each electric heating wire assembly (109) comprising a tar conducting rope configured to adsorb tobacco tar, and an electric heating wire configured to atomize the tobacco tar on the tar conducting rope. The battery assembly (20) comprises a control module (200) and a smoking signal detection module (210), wherein the smoking signal detection module (210) is configured to detect a smoking signal, and send the smoking signal to the control module (200), and the control module (200) is configured to control, within a duration of the smoking signal, the electric heating wires of the at least two electric heating wire assemblies (109) to cyclically work based on a pre-set working time length so as to atomize the tobacco tar, thereby ensuring sufficiency of the tobacco tar when the electric heating wire assemblies (109) work, and avoiding undersupplying of the tobacco tar and burning.
An atomizing component comprising an e-liquid storage element (1), an atomizing component (2), and a mouthpiece component (3). An e-liquid storage cavity (11) used for storing an e-liquid is provided within the e-liquid storage component (1). An atomizing core (21) used for atomizing the e-liquid in the e-liquid storage cavity (11) is provided within the atomizing core component (2). E-liquid guide channels (111) are provided at an extremity of the e-liquid storage cavity (11) in proximity to the atomizing core (21). E-liquid inlet channels (22) in communication with the atomizing core (21) are provided at an extremity of the atomizing core component (2) in proximity to the e-liquid storage cavity (11). The quantity of the e-liquid guiding channels (111) and that of the e-liquid inlet channels (22) are at least two. The two e-liquid guiding channels (111) or the e-liquid inlet channels (22) are different in diameter. This allows a large amplitude for e-liquid volume adjustments, a simple and compact overall structure, and facilitated adjustment.
An electronic cigarette control circuit and an electronic cigarette atomizing control method. The electronic cigarette control circuit comprises a battery (102), a smoking trigger unit (103), a microprocessor (101), a switching unit (105), a signal detection unit (104) and an atomizing unit (106). The microprocessor (101) is configured to generate a first control signal, and output the first control signal to the switching unit (105), and the microprocessor (101) is further configured to generate a second control signal when a first pre-set condition is met, and output the second control signal to the switching unit (105). If a user wants to slightly change the amount of inhaled smoke, the microprocessor (101) can generate the second control signal as long as a second trigger operation is input for only one time, and every time the first pre-set condition is met, the microprocessor (101) can control the atomizing power of the atomizing unit (106) to be increased or decreased progressively, thereby effectively guaranteeing the service life of the electronic cigarette control circuit.
An electronic cigarette in which thermally-conductive protrusions (202) are added onto a ceramic heating body (200). Because the thermally-conductive protrusions (202) separate the surface of a heating part from an e-liquid absorbent element, smoke produced by the ceramic heating body (200) heating an e-liquid forms a flowing space between the ceramic heating body (200) and an e-liquid storage component, a through hole (203) links an atomizing base (105) to an atomizing sleeve (104) to form a ventilation channel, airflow in the ventilation channel and the smoke in the flowing space form a convection, thus allowing gases within the electronic cigarette to flow smoothly, increasing the volume of smoke inhaled by a user, and enhancing user experience.
An atomizing component and an electronic cigarette. The atomizing component comprises a transparent e-liquid storage sleeve (21), a ventilation pipe (22) inserted in the e-liquid storage sleeve (21), and an atomizing core (3) inserted at an extremity of the e-liquid storage sleeve (21) and used for atomizing an e-liquid. A ring-shaped limiting groove (221) extending to an end surface of the ventilation pipe (22) is provided at an extremity of the ventilation pipe (22) adjacent to the atomizing core (3). An elastomeric gasket (25) is sleeved at where the limiting groove (221) is located on the ventilation pipe (22). Both extremities of a wick (331) respectively are bent, run through an insertion hole (322) on an atomizing cover (32), and extended into an e-liquid storage cavity (23). Because the end surfaces of the atomizing cover (32) are flat structures, the upper end surface of the atomizing core (3) can be in flush and overlapped with the liquid surface of the e-liquid in the e-liquid storage cavity (23) when assembled, thus preventing air from being retained in the e-liquid storage cavity (23) and avoiding the shortcoming of the e-liquid being forced out of the wick (331) leading to leakage in the atomizing component due to thermal expansion and contraction of air caused by temperature changes while in transport. The atomizing component has a simple and compact overall structure, is convenient to assemble, and provides great seal tightness for the e-liquid.
An atomizing component used for being combined with a battery component to form an electronic cigarette. The atomizing component comprises an e-liquid storage space (1) used for storing an e-liquid and an atomizing core component (2). The atomizing core component (2) comprises a vibrating component (21) arranged at an extremity of the e-liquid storage space (1), an electric heating element (22) of a planar shape and arranged at a side of the vibrating component (21) facing away from the e-liquid storage space (1), and an electrical connector component (23) used for connecting respectively the vibrating component (21) and the electric heating element (22) to a battery component. The vibrating component (21) comprises a vibrating plate (211) and a vibrating ring (212) in a stack arrangement. A microwell array (2111) is provided on an area of the vibrating plate (211) corresponding to the center hole of the vibrating ring (212). Also, the microwell array (2111) is abutted on the liquid surface of the e-liquid in the e-liquid storage space (1). The vibrating ring (212) is used for driving the vibration plate (211) into vibrating, thus allowing the microwell array (2111), while vibrating, to spray the e-liquid in the e-liquid storage space (1) towards the electric heating element (22) for atomization. The atomizing component allows the shelf life of the e-liquid to be extended, provides improved protection for user health, and prevents e-liquid leakage.
An electronic cigarette (100) and a method for controlling tobacco tar atomizing time of an electronic cigarette. The electronic cigarette (100) comprises: a second battery (30), a discharge circuit (40), a protective circuit (50) and a controller (60). The controller (60) is configured to control, when a user smokes, a first battery (201) to supply power to an electric heating wire (101), and control the first battery (201) to be electrically connected to the discharge circuit (40) so as to perform discharge and voltage reduction on the second battery (30); the controller (60) is further configured to control, when the user stops smoking, the first battery (201) to stop supplying power to the electric heating wire (101) and to be electrically disconnected from the discharge circuit (40) so as to stop performing discharge and voltage reduction on the second battery (30); and when the voltage of the second battery (30) is smaller than or equal to a pre-set value, the protective circuit (50) acts, such that the first battery (201) stops supplying power to the electric heating wire (101) to prevent from idly burning the electric heating wire (101). The technical effect of stopping supplying power to an electric heating wire (101) in time when tobacco tar is nearly used up is achieved so as to avoid idly burning of the electric heating wire (101).
Provided are a vaporization assembly and an electronic cigarette; said vaporization assembly comprises a mouthpiece (10), a liquid storage assembly (20), and a vaporization core assembly (30); the liquid storage assembly (20) comprises a liquid storage sleeve (21), a first connecting sleeve (22), a ventilation tube (23), an elastic gasket (24), and a second connecting sleeve (25); a condensed e-cigarette liquid storage space (101) is formed on the mouthpiece (10) end face facing the first connecting sleeve (22); the vaporization core assembly (30) comprises a vaporizer base (31), a liquid-absorbing sleeve (32) sleeved inside the vaporizer base (31), an electric heating wire (33) sleeved inside the liquid-absorbing sleeve (32), an inner electrode assembly (34) interposed at one end of the vaporizer base (31), a vaporizer cover (35) interposed at the other end of the vaporizer base (31), and an elastic sealing ring (36) interposed inside the vaporizer cover (35); the vaporizer base (31) is detachably connected to the second connecting sleeve (25) so that the vaporization core assembly (30) may be removed; the electric heating wire (33) is wound to form a hollow cylindrical structure and is arranged extending lengthwise along the vaporization assembly; the elastic sealing ring (36) is sleeved and connected to the ventilation tube (23), or abuts against the end face of the ventilation tube (23).
An electronic cigarette, and an apparatus and method for preventing tobacco tar from leaking. The electronic cigarette comprises an atomization assembly configured to atomize tobacco tar and a battery assembly configured to supply power to inner elements of the electronic cigarette, the atomization assembly comprising an atomization module (1), an electromagnetic switch (2) and a tar storage cavity (3); the tar storage cavity (3) is configured to store the tobacco tar; when a user smokes, the electromagnetic switch (2) is configured to open a tar supply passage by utilizing a magnetic field generated through electrification, thereby enabling the tobacco tar in the tar storage cavity (3) to flow into the atomization module (1) to supply tar; when the user stops smoking, the magnetic field disappears, and the tar supply passage is closed, thereby enabling the tobacco tar in the tar storage cavity (3) to stop flowing into the atomization module (1); the atomization module (1) is configured to heat and atomize the tobacco tar. Through separating the tar storage cavity (3) from a tar guide sleeve (101), smoking of the tobacco tar by a user due to the fact of leakage of the tobacco tar caused by continuous adsorption of the tobacco tar in the tar storage cavity (3) is prevented from happening, meanwhile, pollution to other devices of the atomization assembly is avoided, and the tobacco tar is prevented from being wasted.
Provided is an electronic-cigarette case, comprising a case body (301) and a case cover (302); the case body (301) is internally provided with a support (303), said support (303) being provided with a first accommodating recessed cavity (304); the position corresponding to the case cover (302) and the first accommodating recessed cavity (304) is provided with a first projection (305); the first accommodating recessed cavity (304) is insertedly provided with a slider (306) and an elastic member (307); the first accommodating recessed cavity (304) is provided with an obstructing part (308), such that when the case cover (302) rotates around the case body (301) and opens to a preset position, the first projection (305) abuts against the obstructing part (308); the preset position is at a preset angle between the case cover (302) and the case body (301), so that the outer surface of the case cover (302) and the case body (301) are at a position in which they do not come into contact with each other. The invention effectively prevents wear and tear between the sides of the case cover (302) and the case body (301), and prevents a situation in which the position of the case cover (302) does not close completely.
An atomizer and an electronic cigarette. The atomizer comprises an e-liquid storage component (1) and an atomizing core (2). The e-liquid storage component (1) is provided with an e-liquid storage cavity (100). At least one extremity of the atomizing core (2) is inserted into the e-liquid storage cavity (100). An atomizing cavity is provided within the atomizing core (2). The atomizing core (2) comprises an electric heating wire accommodated within the atomizing cavity and an e-liquid absorbent pipe (22) sleeved over the electric heating wire and formed by braiding fiberglass lines. The electric heating wire is coiled into a hollow cylindrical structure. The electric heating wire is extendedly arranged in the longitudinal direction of the e-liquid absorbent pipe (22). The inner circumferential wall of the e-liquid absorbent pipe (22) is affixed with the electric heating wire to allow the electric heating wire to atomize an e-liquid in the e-liquid absorbent pipe (22). An e-liquid inlet hole (20) in communication with the e-liquid storage cavity (100) and used for guiding the e-liquid in the e-liquid storage cavity (100) into the e-liquid absorbent pipe (22) is provided on the cavity wall of the atomizing cavity. This reduces harm inflicted on the human body by debris produced by an e-liquid guide element and cotton in the prior art and provides great seal tightness for the e-liquid, a simple and compact structure, and large and stable smoke volume.
An atomizing component and an electronic cigarette. The atomizing component comprises a mouthpiece component (1), an e-liquid storage component (2) used for storing an e-liquid, and an atomizing core component (3) movably connected to the e-liquid storage component (2) and used for atomizing the e-liquid in the e-liquid storage component (2). An e-liquid fill opening is formed on an end surface of an extremity of the e-liquid storage component (2). The mouthpiece component (1) is detachably connected at the e-liquid fill opening. An e-liquid storage cavity (24) is formed within the e-liquid storage component (2). An e-liquid separating plate (25) is provided at an extremity of the e-liquid storage cavity (24) facing the atomizing core component (3). An e-liquid guide hole (251) is provided on the e-liquid separating plate (25). The atomizing component allows the e-liquid storage component (2) to rotate relative to the atomizing core component (3), and controls opening/closing of the e-liquid guide hole (251) by means of flexible retraction/extension of a bead mechanism (4), thereby controlling opening or closing of an e-liquid inlet hole (323), thus preventing leakage of the e-liquid and improving preservation of the e-liquid.
A heating method for a heating wire (21) of an electronic cigarette atomizer, and an electronic cigarette, solving the technical problem in the prior art that when the heating wire (21) is just conducted and has a relatively high temperature, a battery assembly (1) drives the heating wire (21) to work, causing that the temperature rises too high to burning cotton. The heating method comprises the steps of: S1, after a smoking signal is detected, detecting an initial temperature of the heating wire (21); S2, based on the initial temperature and a target temperature, obtaining preheating drive power that drives the heating wire (21) to work and rise from the initial temperature to the target temperature by means of calculation; S3, based on the preheating drive power, driving the heating wire (21) to work, and when the heating wire (21) has been heating for a pre-set time or a heating temperature thereof satisfies a pre-set temperature condition under the drive of the preheating drive power, stopping driving the heating wire (21) to work with the preheating drive power, and changing to drive the heating wire (21) to work with a normal drive power. The technical effect of heating the heating wire (21) according to an actual temperature thereof so that a heated temperature is within a normal temperature range required for atomizing tobacco oil is achieved.
An atomizing component and an electronic cigarette. The atomizing component comprises an atomizing sleeve (201) and an electric heating wire (202). An atomizing electrode (300) is inserted at an extremity of the atomizing sleeve (201). The atomizing electrode (300) comprises an inner electrode (302), an insulating ring (303), and an outer electrode (301). The electric heating wire (202) is connected at either extremity respectively to a first electronic wire (203) and a second electronic wire (204). A first through hole (304) is provided through the outer electrode (301) to allow the first electronic wire (203) to be in a first preset state; and/or, a second through hole (305) is provided through the inner electrode (302) to allow the second electronic wire (204) to be in a second preset state. This allows a reduced number of operating steps and avoids the possibility of improper operation causing damage to other components of the atomizing component; this also allows effective prevention of short circuit within the atomizing component.
An atomizing component and an electronic cigarette. The atomizing component comprises a mouthpiece component (1), an e-liquid storage component (2), and an atomizing core component (3). A first e-liquid storage cavity (22) used for storing an e-liquid is provided within the e-liquid storage component (2). An e-liquid filler opening is formed at an end opening of an extremity of the e-liquid storage component (2). An extremity of the mouthpiece component (1) is detachably connected at the e-liquid filler opening. When a button mechanism (4) is being pressed, a ventilation pipe (42) is separated from an atomizing cover (32), and the e-liquid in the first e-liquid storage cavity (22) flows into a second e-liquid storage cavity (34) of the atomizing core component (3); therefore, a user can allow a certain amount of the e-liquid to flow into the second e-liquid storage cavity (34) as required by self.
An atomizing component and an electronic cigarette. The atomizing component comprises an e-liquid storage sleeve (21). A ventilation pipe (22) and an e-liquid storage cavity (23) used for storing an e-liquid are provided within the e-liquid storage sleeve (21). An atomizing core (3) flexibly and hermetically connected with the e-liquid storage sleeve (21) is inserted in the e-liquid storage sleeve (21). An e-liquid absorbent element (26) having an extremity abutted against the atomizing core (3) is sleeved on the exterior of the ventilation pipe (22). The e-liquid absorbent element (26) is made of an oil absorbent material. The inner wall of the e-liquid absorbent element (26) is flexibly abutted against the outer wall of the ventilation pipe (22). An e-liquid separating pipe (25) is sleeved on the exterior of the e-liquid absorbent element (26). Multiple e-liquid guide holes (251) used for guiding the e-liquid in the e-liquid storage cavity (23) into the e-liquid absorbent element (26) are provided on the e-liquid separating pipe (25), thus allowing the atomizing core (3) to atomize the e-liquid on the e-liquid absorbent element (26). The atomizing component and the electronic cigarette, in addition to increasing e-liquid storage capacity and preventing the e-liquid from being prone to deterioration in aroma and quality, by means of the e-liquid absorbent element (26) provided, also prevent an electric heating wire from burning when a user is smoking while facing upward.
An atomization assembly and an electronic cigarette. The atomization assembly comprises an oil storage assembly (1) and a suction nozzle assembly (3). The oil storage assembly (1) is provided with an oil storage chamber (11), and an oil filling port (12) and a perforation (13) both are disposed on an end face of the oil storage assembly (1). One end of the oil storage assembly (1) having the oil filling port (12) is provided with an extension arm (14) extending along the longitudinal direction of the oil storage assembly (1). An adjustment valve (4) is sleeved on the extension arm (14). The adjustment valve (4) comprises an adjustment ring (41) rotatably sleeved outside the oil storage assembly (1), a limit groove (42) formed in the inner side of the adjustment ring (41), and a sealing plate (43) that is connected to the adjustment ring (41) and that covers the oil filling port (12). The extension arm (14) penetrates in the limit groove (42) to limit the rotation range of the adjustment ring (41). One side of the adjustment valve (4) back to the oil filling port (12) is connected to a first connecting sleeve (5). The suction nozzle assembly (3) is detachably connected to the first connecting sleeve (5), so that when tobacco oil needs to be added, the adjustment ring (41) is rotated after the suction nozzle assembly (3) is detached, so as to make the sealing plate (43) and the oil filling port (12) staggered and tobacco oil can be added into the oil filling port (12), thereby avoiding a situation in which a child unscrews the suction nozzle assembly (3) to suck tobacco oil in the oil storage chamber (11) by mistake.
An atomizer assembling device comprises a first clamping device (3), a second clamping device (4), and a power device (5). The power device (5) comprises a first power component (51) and a push rod (52) that are connected. The first clamping device (3) is used for clamping a suction nozzle assembly. The second clamping device (4) is used for clamping a semifinished atomizer. The push rod (52), the suction nozzle assembly and the semifinished atomizer are located in a same axial direction. A limit protrusion (521) is disposed on the side wall of the push rod (52), and is used for being pressed against the end face of the first clamping device (3) when the first power component (51) pushes the push rod (52) to move close to the suction nozzle assembly along an axial direction, so that a clamping portion of the first clamping device (3) is opened. The push rod (52) is also used for making the suction nozzle assembly attached to the end face of the push rod (52) after the push rod (52) moves to and presses against the end face of the suction nozzle assembly. The first power component (51) is also used for pushing the push rod (52) to move close to the semifinished atomizer along an axial direction, so as to assemble the suction nozzle assembly onto the semifinished atomizer. The device can improve the working efficiency and the defect-free rate of products.
An atomization assembly and an electronic cigarette. The atomization assembly comprises an oil storage assembly (2), a straw assembly (1), and atomization core assembly (3). The oil storage assembly (2) is provided with an oil storage chamber (24) and an accommodating chamber (25) that is located in one end of the oil storage chamber (24). The oil storage chamber (24) is in communication with the accommodating chamber (25). An end face of the one end of the oil storage assembly (2) is provided with an opening (210) in communication with the oil storage chamber (24). One end of the straw assembly (1) is located in the accommodating chamber (25) and is connected to the chamber wall of the accommodating chamber (25) by means of a thread structure; the other end of the straw assembly (1) extends through the opening (210) and extends outside the oil storage assembly (2), so as to allow the straw assembly (1) to be capable of performing longitudinal movement relative to the oil storage assembly. The straw assembly (1) performs longitudinal movement relative to the oil storage assembly (2) by rotating the straw assembly (1), so as to control the size of the chamber wall of the accommodating chamber (25) covering an oil inlet hole (121) and further control the oil inlet hole (121) and an atomization chamber to be in contact with each other in a closed state, a half-open state or an open state.
An atomization assembly and an electronic cigarette. The atomization assembly comprises an oil storage sleeve (21). An atomization core (3) used for atomizing tobacco oil is inserted in the storage sleeve (21). The oil storage sleeve (21) and the atomization core (3) form, in a surrounding manner, an oil storage chamber (22) used for storing the tobacco oil. An oil filling port is formed in an end opening of one end of the oil storage sleeve (21). The oil filling port is provided with a suction nozzle assembly (1) on end of which is detachably connected to the oil storage sleeve (21). A sealing gasket (30) is disposed on one end face of the atomization core (3) facing to the suction nozzle assembly (1). A first protrusion (301) that is ring-shaped and that is elastically pressed against with the suction nozzle assembly (1) is disposed on an end face of the sealing gasket (30) facing to the suction nozzle assembly (1). The sealing gasket (30) is pressed against with the suction nozzle assembly (1) by means of the first protrusion (301), so that the full contact of the end faces of the sealing gasket (30) and the suction nozzle assembly (1) can be avoided, and accordingly the contact area between the sealing gasket (30) and an oil baffle member (12) is decreased, thereby preventing a user unscrewing out the atomization core (3) when the oil baffle member (12) is disassembled.
Provided are a vaporization assembly and an electronic cigarette. The vaporization assembly comprises a liquid storage sleeve (21) insertedly provided with a vaporization core (3); the liquid storage sleeve (21) and the vaporization core (3) enclose and form a liquid storage chamber (22) used for storing e-cigarette liquid; a refill port is formed at the opening of one end of the liquid storage sleeve (21); a mouthpiece assembly (1), one end of which is removably connected to said liquid storage sleeve (21), is provided at the refill port; the vaporization assembly is internally provided with a plurality of electric heating wires (33), and an isolating member (38) used for absorbing e-cigarette liquid is disposed between two adjacent electric heating wires (33), thus preventing short circuits between the electric heating wires (33). In the vaporization assembly, the connection between the ventilation tube (34) of the vaporization core (3) and the vaporization core main body is reliable, and the vaporization core main body is not prone to fall when the vaporization core (3) is being changed; the amount of smoke is increased by arranging a plurality of electric heating wire assemblies (33); when the e-cigarette liquid on a liquid-guiding cord (331) is used up, the e-cigarette liquid on the isolating member (38) allows the electric heating wire (332) wound around the liquid-guiding cord (331) to operate normally for a period of time, so that the liquid-guiding cord (331) does not soon burn.
Provided are a vaporizer and an electronic cigarette; the vaporizer comprises a mouthpiece assembly (1) and at least two coaxially disposed vaporization assemblies (2); each of the vaporization assemblies (2) comprises a transparent liquid-storage sleeve (21), a first connector head (22), and a second connector head (23); the first connector head (22) and the second connector head (23) are separately insertably connected to the two ends of the liquid storage sleeve (21); the first connector head (22) is insertedly provided with a first inner electrode assembly, and the second connector head (23) is insertedly provided with a second inner electrode assembly; the second connector head (23) end inserted in the liquid storage sleeve (21) is provided with an electric heating wire and a press rod (24) used for fixing the electric heating wire assembly; the electric heating wire assembly comprises a liquid-guiding cord (251) and an electric heating wire (252) wound around the liquid-guiding cord (251); one end of the press rod (24) is abutted against the end section of the liquid-guiding cord (251) and is electrically connected to the section connector head (23), and the other end is insertably connected and electrically connected to the first connector head (22); the first inner electrode assembly is electrically connected to the second inner electrode assembly by means of a first lead (301); one end of the electric heating wire (252) is electrically connected to the second connector head (23), and the other end is connected to the first lead (301) or is connected to the first lead (301) by means of a second lead.
Disclosed are an atomization assembly and an electronic cigarette, the atomization assembly comprising an oil storage assembly (2) for storing cigarette oil, and an atomization core assembly (3) for atomizing the cigarette oil in the oil storage assembly (2), wherein the oil storage assembly (2) is internally provided with an oil storage cavity (210) and an accommodating cavity (240), an end wall at the end of the oil storage cavity (210) facing the accommodating cavity (240) is provided with a perforation (230) for conducting the oil storage cavity (210) and the accommodating cavity (240), and at least one end of the atomization core assembly (3) is inserted into the accommodating cavity (240) and is in movable plug-in connection with the oil storage assembly (2). When the atomization assembly is in a non-operative state, an elastic member (26) on an oil guide tube (32) pushes the atomization core assembly (3) to move towards the side away from the oil storage cavity (210), such that an oil inlet (321) on an oil guide tube (32) is blocked, and the cigarette oil in the oil storage cavity (210) is unable to enter the interior of the atomization core assembly (3), thereby preventing the cigarette oil from permeating the atomization core assembly (3) when the atomization assembly is in the non-operative state.
An atomisation assembly and an electronic cigarette, the atomisation assembly comprising an atomisation sleeve (100), an atomisation core (101) and a mouthpiece (102). A liquid storage cavity (103) is formed between the atomisation core (101) and the atomisation sleeve (100), a liquid addition opening (104) is in communication with the liquid storage cavity (103), a connecting piece (201) is arranged on the liquid addition opening (104), one side of the connecting piece (201) is provided with a first engagement mechanism (202), a movable sleeve (204) is sleeved on the mouthpiece (102), and the movable sleeve (204) is provided with a second engagement mechanism (206). If the mouthpiece (102) is merely rotated and no force in the direction of the liquid addition opening (104) is applied to the mouthpiece (102), the mouthpiece (102) drives the movable sleeve (204) to rotate within a fixed sleeve (203), and the mouthpiece (102) cannot be detached from the movable sleeve (204), so that even if a child rotates the mouthpiece (102), e-liquid will not leak and the child will not take in the e-liquid, and loosening will not occur between the mouthpiece (102) and the atomisation sleeve (100).
A measurement device used for measuring the resistances of atomisers of electronic cigarettes, the measurement device comprising: an atomiser fixing base (101), a press plate (103) and a controller, the controller being electrically connected to a first power device (104), a second power device (105), a resistance measurement device (106) and a prompt device, the resistance measurement device (106) being electrically connected to a probe set (107). The resistance measurement device (106) measures the resistances of atomisers (102) via the probe set (107). The press plate (103) is driven by the first power device (104) to cover the atomisers (102), so that the atomisers (102) do not move along the direction away from the atomiser fixing base (101), and automated measurement of the resistances of the atomisers (102) can be performed. The prompt device allows a user to clearly understand whether the resistance of each atomiser (102) falls within a preset range. The measurement device significantly reduces the involvement of manual work, effectively increasing the efficiency of measuring the resistances of the atomisers, and preventing the possibility of the atomisers (102) being contaminated in the resistance measurement process.
G01R 27/02 - Mesure de résistances, de réactances, d'impédances réelles ou complexes, ou autres caractéristiques bipolaires qui en dérivent, p. ex. constante de temps
A24F 47/00 - Articles pour fumeurs non prévus ailleurs
49.
LIQUID INJECTION DEVICE AND METHOD FOR ATOMISERS OF ELECTRONIC CIGARETTES
A liquid injection device and method for atomisers of electronic cigarettes, solving the technical problems in the prior art that the liquid injection of atomisers of electronic cigarettes is time-consuming, efficiency is low and liquid injection accuracy is low. The liquid injection device comprises: a base (1), a side plate assembly (2), a drive assembly (3), a liquid injection assembly (4) and a guiding mechanism (5). The drive assembly (3) is used for driving the guiding and sliding of the liquid injection assembly (4) along the guiding mechanism (5). The liquid injection assembly (4) comprises: liquid injection pieces (41), a liquid injection piece fixing plate (42) and a liquid injection piece positioning plate (43). The liquid injection piece fixing plate (42) is used for being driven by the drive assembly (3) to drive the liquid injection piece positioning plate (43) to abut atomisers (200) arranged in a matrix on a bottom mould (100), then continue to move down so that a liquid injection end of each liquid injection piece (41) passes through each corresponding through-hole (431) for the liquid injection of an atomiser (200). The liquid injection process is short, production efficiency is high, and the present invention is suitable for an automated production technical effect.
A24F 47/00 - Articles pour fumeurs non prévus ailleurs
B67C 3/02 - Mise en bouteilles de liquides ou de semi-liquidesRemplissage des bocaux ou bidons avec des liquides ou semi-liquides en utilisant des appareils de mise en bouteilles ou des appareils analogues
An atomiser, comprising: a mouthpiece assembly (3), a liquid storage assembly (4) and an atomisation core assembly (5). The atomisation core assembly (5) used for atomising e-liquid is inserted into the liquid storage assembly (4), and a first liquid storage cavity (41) used for storing e-liquid to be atomised by the atomisation core assembly (5) is formed between the atomisation core assembly (5) and the liquid storage assembly (4); the mouthpiece assembly (3) is detachably connected to one end of the liquid storage assembly (4), and the end of the liquid storage assembly (4) connected to the mouthpiece assembly (3) is provided with a sealing element (42) used for sealing the first liquid storage cavity (41); the sealing element (42) is provided with a liquid injection hole in communication with the first liquid storage cavity (41), and the mouthpiece assembly (3) covers the liquid injection hole; an elastic sealing piece (43) is arranged at the liquid injection hole, the elastic sealing piece (43) being fixed within the liquid injection hole or at a side of the liquid injection hole, said side facing the first liquid storage cavity (41); the elastic sealing piece (43) is used for sealing the liquid injection hole, and deforms when pressed by a liquid injection tool, so that the liquid injection tool is in communication with the first liquid storage cavity (41) and is thereby able to add e-liquid to the first liquid storage cavity (41). The present structure effectively prevents e-liquid from leaking, and improves the user experience.
An electronic cigarette, comprising: an electronic cigarette body, the electronic cigarette body being provided with a liquid storage assembly (202), an atomisation assembly (303), and a mouthpiece assembly (203), the liquid storage assembly (202) being provided with a liquid storage cavity (301), and a liquid addition opening (302) in communication with the liquid storage cavity (301), the mouthpiece assembly (203) covering the liquid addition opening (302), the atomisation assembly (303) being inserted into the liquid storage assembly (202). A limiting portion (304), a sealing piece (305) covering the liquid addition opening (302), and a force application mechanism are arranged within the liquid addition opening (302), a surface of the sealing piece (305) abutting the limiting portion (304), said surface facing the limiting portion (304). Even if the mouthpiece assembly (203) is accidentally separated from the liquid storage assembly (202), since the sealing piece (305) continually abuts the limiting portion (304), e-liquid located within the liquid storage cavity (301) will not leak. In addition, after e-liquid has been added to the liquid storage cavity (301), the sealing piece (305) automatically abuts the limiting portion (304) under the effect of the force application mechanism, without a user operation.
An atomisation assembly and an electronic cigarette, the atomisation assembly comprising a liquid storage assembly and an atomisation core assembly, a liquid storage cavity (301) and an accommodating cavity (302) being arranged within the liquid storage assembly, a through-hole (303) being arranged at a cavity wall of the liquid storage cavity (301), the atomisation core assembly being inserted into the accommodating cavity (302), relative rotation occurring between the atomisation core assembly and the cavity wall of the liquid storage cavity (301) under the effect of an external force, the atomisation core assembly being provided with a cutting piece (304), a hole wall of the through-hole (303) being clamped on the cutting piece (304) during a non-operative state, relative rotation being produced between the atomisation core assembly and the cavity wall of the liquid storage cavity (301) under the effect of the external force when the atomisation of e-liquid is required, so that the cutting piece (304) ruptures the cavity wall of the liquid storage cavity (301). Thus, the e-liquid is in a sealed state during the non-operative state, extending the shelf-life of the e-liquid, and the cavity wall of the liquid storage cavity (301) is ruptured by the cutting piece (304) when the atomisation core assembly is rotated, so that the e-liquid flows into the atomisation core assembly, increasing the e-liquid inflow so as to ensure the presence of sufficient e-liquid when the e-liquid is atomised, and improving the user experience.
An atomiser, solving the technical problem that when an electronic cigarette uses liquid storage cotton to store liquid, the cotton breaks down in the e-liquid and causes the e-liquid to go bad. The atomiser comprises a liquid storage assembly (1) and an atomisation core assembly (2) connected to the liquid storage assembly (1) in a retaining manner. One end of a liquid storage cavity (11) is covered by a liquid separation plate (12) provided with a liquid guiding hole (121), said end facing the atomisation core assembly (2). One end of the atomisation core assembly (2) is inserted into the liquid storage assembly (1) and abuts the liquid separation plate (12). An end wall of the atomisation core assembly (2) is provided with a liquid inlet hole (22) opposite the position of the liquid guiding hole (121), said end wall facing the liquid separation plate (12), and after the liquid storage assembly (1) has been rotated with respect to the atomisation core assembly (2), the liquid inlet hole (22) is covered by the liquid separation plate (12) to control the liquid inlet level of the liquid inlet hole (22) or close the liquid inlet hole (22). The present invention implements a situation wherein liquid storage cotton is not used, an e-liquid channel is opened according to requirements, and when the e-liquid channel is closed, e-liquid is prevented from leaking or coming into contact with air and going bad.
An electronic cigarette, comprising: an atomisation assembly (201), a battery rod assembly (202) and a rotation piece, the rotation piece comprising a connecting piece (203) and a support (204), the atomisation assembly (201) comprising two atomisers (402) symmetrically arranged at two ends of the connecting piece (203). If either of the atomisers (402) is rotated to a target position via the connecting piece (203), the battery rod assembly (202) forms a circuit loop with the atomiser (402) located at the target position, the target position being on the co-axis of the two atomisers (402) and the battery rod assembly (202), and the position where the atomiser (402) of the two atomisers (402) which is close to the battery rod assembly (202) is located. When a user wishes to draw in the flavour of an e-liquid stored within a certain atomiser (402), the user rotates the atomisation assembly (201) so that the atomiser (402) having the e-liquid which the user wishes to draw in is rotated to the target position, enabling the battery rod assembly (202) to power the atomiser (402) located in the target position, thereby allowing the user to draw in the specific e-liquid flavour.
An atomisation assembly and an electronic cigarette, the atomisation assembly comprising a liquid storage assembly (2) used for storing e-liquid, an atomisation core (3) inserted into the liquid storage assembly (2) and used for atomising the e-liquid, and a mouthpiece assembly (1) movably connected to one end of the liquid storage assembly (2). The atomisation core (3) comprises an atomisation base (31), a ventilation tube (34), a liquid amount control tube (37), an elastic piece (38), an e-liquid absorption piece (32), and an electric heating wire (33) used for atomising e-liquid on the e-liquid absorption piece (32), the ventilation tube (34) being sleeved on the atomisation base (31) and forming a liquid storage cavity (22) with the liquid storage assembly (2), the liquid storage cavity (22) being used for storing e-liquid, the ventilation tube (34) being provided with a liquid guiding hole (341) used for guiding the e-liquid within the liquid storage cavity (22) into the atomisation core (3). The advantageous effect of the electronic cigarette is: by exerting an external force on the mouthpiece assembly (1), the liquid amount control tube (37) may be pushed to move along the axial direction of the ventilation tube (34), thereby controlling the size of the area of the liquid guiding hole (341) covered by the liquid amount control tube (37), so as to adjust the amount of liquid entering the atomisation core (3).
An atomisation assembly and an electronic cigarette, the atomisation assembly comprising a liquid storage assembly (1) provided with a liquid storage cavity (11), and an atomisation core assembly (2), the atomisation core assembly (2) being inserted into one end of the liquid storage cavity (11) within the liquid storage assembly (1), and connected to the liquid storage assembly (1) in an elastic sealing manner. A liquid inlet channel (14) in communication with the liquid storage cavity (11) is arranged on an inner wall of the liquid storage assembly (1), said inner wall being connected to the atomisation core assembly (2) in a docking manner, and a liquid inlet hole (22) used for guiding e-liquid within the liquid storage cavity (11) into the atomisation core assembly (2) for atomisation is arranged on a side wall of the atomisation core assembly (2), said side wall being connected to the liquid storage assembly (1) in a docking manner. Under the effect of a circumferential external force, the atomisation core assembly (2) slides with respect to the liquid storage assembly (1), so that the liquid inlet hole (22) coincides with the position of the liquid inlet channel (14) to enable the liquid storage cavity (11) to be in communication with the liquid inlet hole (22), or so that the liquid inlet hole (22) on the atomisation core assembly (2) is staggered from the position of the liquid inlet channel (14) to enable the liquid inlet hole (22) to be covered by a side wall of the liquid storage assembly (1). The present invention prevents the e-liquid within the liquid storage cavity (11) from seeping into the atomisation core assembly (2) when the electronic cigarette is not in use.
An electronic cigarette, comprising: an atomisation assembly (4), a control assembly (3) and a battery rod assembly (5). The control assembly (3) is arranged between the atomisation assembly (4) and the battery rod assembly (5). The atomisation assembly (4) is detachably connected to one end of the control assembly (3), and is used for atomising e-liquid. The structure of the detachable connection is a threaded connection structure or a snap-fit connection structure. The battery rod assembly (5) is detachably connected to the other end of the control assembly (3), and is used for powering the atomisation assembly (4). The control assembly (3) comprises a casing (31), control electrodes (32), a printed circuit board (33), a sensor (34) and a fixing base (35). The control electrodes (32) are respectively arranged at two ends of the casing (31), and are used for being respectively and electrically connected to the atomisation assembly (4) and the battery rod assembly (5). The fixing base (35) is arranged within the casing (31), and is used for fixing the printed circuit board (33). The printed circuit board (33) is snap-fitted within the fixing base (35), and a through-hole is arranged on the printed circuit board (33). The sensor (34) is fixedly arranged at the through-hole, and is used for controlling the battery rod assembly (5) to power the atomisation assembly (4) according to a vapour inhalation action of a user. The electronic cigarette improves the sensitivity for triggering sensing, and safety.
Provided are a vaporization assembly and an electronic cigarette; said vaporization assembly comprises a liquid storage sleeve (21); the inside of one end of the liquid storage sleeve (21) is connected to a vaporization core (3); the liquid storage sleeve (21) and the vaporization core (3) enclose an liquid storage chamber (22) used for storing e-cigarette liquid; a refueling port is formed on the end face of the other end of said liquid storage sleeve (21), and a liquid-blocking member (4) having one end removably connected to said liquid storage sleeve (21) is provided at the refueling port; the other end of said liquid-blocking member (4) is provided with a removably connected mouthpiece (1). The beneficial effect is: by means of a liquid storage member (37) made of a liquid-absorbing material and sleeved around a vaporization base (31), the e-cigarette liquid inside the liquid storage chamber (22) seeps into a liquid-guiding member (331) by means of the liquid storage member (37) such that the liquid storage member (37) forms an e-cigarette liquid buffer channel, thus preventing the liquid-guiding member (331) from direct contact with the e-cigarette liquid inside the liquid storage chamber (22) and thereby preventing a large amount of the e-cigarette liquid inside the liquid storage chamber (22) from seeping into the liquid-guiding member (331).
An atomizing component and an electronic cigarette. The atomizing component comprises an e-liquid storage component (201), an atomizing core component (202), and a mouthpiece (203). An e-liquid storage cavity (206) is formed between the atomizing core component (202) and the e-liquid storage component (201). Movably sleeved on the exterior of the e-liquid storage component (201) is a movable cover component (208) insertedly connected to the mouthpiece (203) and capable of stopping the mouthpiece (203) from rotating. When the mouthpiece (203) is both insertedly connected to the movable cover component (208) and detachably connected to an extremity of the e-liquid storage component (201), even if a user applies onto the mouthpiece (203) a force for turning the mouthpiece (203), the movable cover component (208) is capable of stopping the mouthpiece (203) from rotating, as such, the mouthpiece (203) does not become detached even when a child is turning the mouthpiece (203), thus preventing the possibility of an e-liquid within the e-liquid storage cavity (206) being ingested by the child, and even after prolonged use of the atomizing component, the mouthpiece (203) and the e-liquid storage component (201) do not come loose relative to each other, thus increasing the structural stability between the mouthpiece (203) and the e-liquid storage component (201).
An atomisation assembly and electronic cigarette, the atomisation assembly comprising a mouthpiece assembly, an e-liquid storage assembly and an atomisation core assembly, an e-liquid filling opening (200) being formed on the end face of one end of the e-liquid storage assembly, the atomisation core assembly comprising an atomisation base (31), an e-liquid absorption member (32) being sleeved in the atomisation base (31), an electric heating wire (33) being sleeved in the e-liquid absorption member, and an inner electrode assembly and a ventilation tube (34) being arranged at one end of the atomisation base (31); the electric heating wire (33) is wound into a hollow columnar structure, the hollow area of the electric heating wire (33) forming an atomisation chamber (331) extending longitudinally along the atomisation assembly; the inner wall of the e-liquid absorption member (33) and the electric heating wire (33) fit together, the inner electrode assembly being electrically connected to the electric heating wire (33) and being used for communicating with a battery assembly (2); one end of the ventilation tube (34) is connected to the atomisation base (31), and the other end of the ventilation tube (34) extends from the e-liquid filling opening (200) and is inserted in the mouthpiece assembly, such that after the mouthpiece assembly is disassembled, the atomisation core assembly can be extracted through the e-liquid filling opening (200). The present atomisation assembly atomises a large amount of vapour, the e-liquid is well-sealed, and the overall structure is simple and compact.
An electrical connector component assembling apparatus comprising a metal piece fixing component (1) comprising a metal piece positioning structure array (11) and an insulating ring fixing component (2) comprising an insulating ring positioning structure array (21); a base (3), where the metal piece fixing component (1) and the insulating ring fixing component (2) stacked in parallel are laid flat on the base (3), and the metal piece positioning structure array (11) in the metal piece fixing component (1) corresponds one-to-one to the insulating ring positioning structure array (21) in the insulating ring fixing component (2); a power mechanism (4) and a press plate (5) connected with the power mechanism (4), where the press plate (5) is arranged above the base (3), the power mechanism (4) is used for controlling upward/downward movements of the press plate (5) to allow, when the press plate (5) presses towards the base (3), each insulating ring positioning structure (211) in the insulating ring positioning structure array (21) arranged on the base (3) to be insertedly fixed at the inner side of a metal piece (10) on a corresponding metal piece positioning structure (111), thus allowing an insulating ring (20) on each insulating ring positioning structure (211) to be embedded at the inner side of the metal piece (10). The electrical connector component assembling apparatus is capable of increasing the efficiency in assembling electrical connector components.
An atomisation assembly and electronic cigarette, the atomisation assembly comprising an atomisation core assembly (3) used for atomising e-liquid, an e-liquid storage assembly (2), and a mouthpiece assembly (1) and electrode assembly (4) respectively arranged at the two ends of the e-liquid storage assembly (2); the e-liquid storage assembly (2) comprises an e-liquid storage sleeve (21) provided with at least two mutually isolated e-liquid storage chambers (211), an e-liquid filling opening (210) being formed on the end face of one end of the e-liquid storage sleeve (21), a chamber opening (2110) being formed on the end face of the e-liquid storage chamber (211) facing the e-liquid filling opening (210), the chamber opening (2110) being covered by an e-liquid separating plate (22) flexibly abutting the inner wall of the e-liquid storage sleeve (21), and e-liquid through-holes (221) corresponding to the position of each e-liquid storage chamber (211) being arranged on the e-liquid separating plate (22) and being in communication with the e-liquid storage chamber (211); the atomisation core assembly (3) is removably inserted in the end of the e-liquid storage sleeve (21) provided with the e-liquid filling opening, the atomisation core assembly (3) comprising an e-liquid guide wick (31) and an electric heating wire (32), the e-liquid guide wick (31) passing through the e-liquid through-holes (221) and entering the e-liquid storage chamber (211), and being used for transferring the e-liquid in the e-liquid storage chamber (211) to the electric heating wire (32) for atomisation, the e-liquid guide wick (31) having an interference fit to the inner walls of the e-liquid through-holes (221). The present atomisation assembly and electronic cigarette can provide the user with a mix of different e-liquid flavours.
Provided are a vaporization assembly and an electronic cigarette; said vaporization assembly comprises a mouthpiece assembly, a liquid storage assembly, and a vaporization core assembly; a refueling port (200) is formed on the end face of one end of said liquid storage assembly; the vaporization core is fixedly interposed inside the liquid storage assembly; the vaporization core assembly comprises a vaporizer base (31), a liquid-absorbing member (32) sleeved inside the vaporizer base (31), an electric heating wire (33) sleeved inside the liquid-absorbing member (32), and an inner electrode assembly and ventilation tube (34) arranged on one end of the vaporizer base (31); the vaporizer base (31) is fixedly connected to the liquid storage member in a tensioned manner; the electric heating wire (33) is wound to form a hollow cylindrical structure, and the hollow area of said electric heating wire (33) forms a vaporization chamber (331) arranged extending lengthwise along the vaporization assembly; the inside wall of the liquid-absorbing member (32) and the electric heating wire (33) are joined together; the inner electrode assembly is electrically connected to the electric heating wire (33) and is used for connecting to a battery assembly (2); one end of the ventilation tube (34) is connected to the vaporizer base (31), and the other end of the ventilation tube (34) extends out of the refueling port (200) and is inserted in said mouthpiece assembly. The vaporization assembly has no fiberglass strings; produces a large amount of smoke; seals e-cigarette liquid well; and has an overall structure that is simple and compact.
An electronic cigarette comprises an atomization assembly (4), a control assembly (3), and a battery rod assembly (5). The control assembly (3) is detachably disposed between the atomization assembly (4) and the battery rod assembly (5), and is used for controlling the battery rod assembly (5) to supply power to the atomization assembly (4), so as to make the atomization assembly (4) to atomize tobacco oil. The control assembly (3) comprises a sleeve (31), control electrodes (32), a sensor (34), and a fixed base (35). The control electrodes (32) are disposed at two ends of the sleeve (31) respectively, and are used for being electrically connected to the atomization assembly (4) and the battery rod assembly (5) respectively. The fixed base (35) is disposed in the sleeve (31), and is used for fixing the sensor (34). The sensor (34) is used for controlling, according to a smoking motion of a user, the battery rod assembly (5) to supply power to the atomization assembly (4). An air passage in the atomization assembly (4) is in communication with the sleeve (31), so as to make the sensor (34) be capable of sensing the change of a pressure in the air passage to detect a smoking motion of the user. The electronic cigarette can improve the sensitivity of triggering sensing.
An atomizer and an electronic cigarette. The atomizer is used for being combined with a battery rod (100) to form the electronic cigarette. The atomizer comprises an oil storage sleeve (21). An atomization core (3) used for atomizing tobacco oil is inserted in the oil storage sleeve (21). The oil storage sleeve (21) and the atomization core (3) form, in a surrounding manner, an oil storage chamber (22) for storing tobacco oil. An oil filling port is formed at an end opening of one end of the oil storage sleeve (21). The oil filling port is provided with a suction nozzle assembly (1) one end of which is connected to the oil storage sleeve (21). The suction nozzle assembly (1) comprises a connection member (13) detachably connected to the oil storage sleeve (21), and comprises a suction nozzle (11) one end of which is movably connected in the connection member (13). The suction nozzle (11) and the connection member (13) that are movably connected mutually are disposed at the oil filling port, accordingly the defect in the prior art that the suction nozzle (11) can be unscrewed by directly rotating the suction nozzle (11) can be avoided, thereby preventing a child from directly unscrewing the suction nozzle (11) and drinking tobacco oil in the oil storage chamber (22).
An electronic cigarette case. A slot (102, 301, 302, 607) used for accommodating an atomizer (309) and a semiconductor cooling plate (103, 306, 405, 704, 806) used for adjusting the temperature in the slot (102, 301, 302, 607) are disposed in the electronic cigarette case. The electronic cigarette case is also provided with a detection unit (201, 401) used for detecting whether the atomizer (309) is inserted in the slot (102, 301, 302, 607). The electronic cigarette case is also internally provided with a battery (202, 307, 402) and a microprocessor (203, 403, 703, 804) that is separately and electrically connected to the detection unit (201, 401), the battery (202, 307, 402) and the semiconductor cooling plate (103, 306, 405, 704, 806). A switch circuit (204, 404, 705) is electrically connected between the microprocessor (203, 403, 703, 804) and the semiconductor cooling plate (103, 306, 405, 704, 806). The semiconductor cooling plate (103, 306, 405, 704, 806) cools the atomizer (309) when the semiconductor cooling plate (103, 306, 405, 704, 806) is powered on, and accordingly, for the electronic cigarette case, a pressure difference is not formed between the interior and the exterior of the slot (102, 301, 302, 607) even if the external temperature is changed, and tobacco oil in a tobacco oil storage chamber of the atomizer (309) is not leaked due to the air pressure difference between the interior and the exterior of the electronic cigarette case, and a user is prevented from sucking degraded tobacco oil, thereby ensuring the taste of sucking the smoke and the health of the user.
A device for detecting a tobacco oil surplus of an electronic cigarette, the electronic cigarette and an electronic cigarette control method, which solve the technical problems in the prior art that an electronic cigarette fails to allow a user to know a tobacco oil surplus and cotton is burnt if the electronic cigarette continues to be smoked when the amount of tobacco oil is decreased or the tobacco oil is consumed. The detection device comprises: a tobacco oil sensor (10) in an oil storage chamber of an electronic cigarette, used for detecting a tobacco oil liquid level in an oil storage chamber (212) when a tobacco rod are is perpendicular to the horizontal plane, so as to generate a detection signal; and a microprocessor (20) connected to the tobacco oil sensor (10), used for controlling on or off of an atomization circuit of the electronic cigarette according to the detection signal, and/or used for processing the detection signal to obtain and output a tobacco oil surplus indication signal, so as to allow a user to known a current tobacco oil surplus of the electronic cigarette. The technical effects are achieved: when a user uses an electronic cigarette, a tobacco oil surplus is detected and the user is notified of the tobacco oil surplus, and the electronic cigarette is controlled to start work when the tobacco oil surplus is sufficient; and the electronic cigarette is controlled to stop work when the tobacco oil surplus is excessively less, so as to avoid burning the cotton.
A24F 47/00 - Articles pour fumeurs non prévus ailleurs
G01F 23/22 - Indication ou mesure du niveau des liquides ou des matériaux solides fluents, p. ex. indication en fonction du volume ou indication au moyen d'un signal d'alarme en mesurant des variables physiques autres que les dimensions linéaires, la pression ou le poids, selon le niveau à mesurer, p. ex. par la différence de transfert de chaleur de vapeur ou d'eau
68.
ELECTRONIC CIGARETTE AND METHOD FOR DISPLAYING TOBACCO OIL SURPLUS
An electronic cigarette and method for displaying a tobacco oil surplus. A resistance value signal that is in an oil storage assembly (11) and that corresponds to an actual tobacco oil saturation is detected by means of a detection circuit (13) in the electronic cigarette, and the resistance value signal is sent to a control module (21). The control module (21) performs comparison and judgment according to the resistance value detection signal and a pre-established relationship table between tobacco oil saturations and resistance values, so as to obtain a current tobacco oil saturation and determine a tobacco oil surplus of the electronic cigarette, and the current tobacco oil saturation and the tobacco oil surplus are sent to a display module (31) to display. If the tobacco oil amount is not sufficient, the control module (21) further turns off a heating wire assembly (12) to stop smoking the cigarette. The detection method is simple and effective, is low in cost, has a high implementation capability, allows a user to sufficiently know a tobacco oil surplus, and can effectively prevent cotton from being burnt, thereby improving the user experience.
An atomization assembly comprises an oil storage sleeve (101) and an atomization core. The atomization core comprises an electrode assembly (102), a heating wire (103), an oil guide cord (104), a ventilation pipe (105), and a fixed cover (106). At least part of the oil guide cord (104) is located in the ventilation pipe (105). The heating wire (103) is twisted on the oil guide cord (104), and two ends of the heating wire (103) are respectively and electrically connected to two electronic wires (108) located in the ventilation pipe (105). Insulation parts of the two electronic wires (108) are twisted with each other to restrain an end portion of the heating wire (103) and fasten the twisted connection between the heating wire (103) and the oil guide cord (104). One end of each of the two electronic wires (108) far away from the heating wire (103) is electrically connected to the electrode assembly (102). Because the two electronic wires (108) are twisted with each other, an acting force is added on the heating wire (103); accordingly the twisted connection between the heating wire (103) and the oil guide cord (104) is fastened, the heating wire (103) is prevented from shaking, an end portion of the heating wire (103) is restrained, so as to prevent a short circuit formed by the contact between the heating wire (103) and the ventilation pipe (105), thereby improving performance of a product.
An atomization assembly and an electronic cigarette. The atomization assembly comprises an oil storage assembly (1) and an atomization core assembly (2). An oil separation plate (14) covers an oil filling port of an oil sleeve (11) of the oil storage assembly (1). An oil guide hole (141) is formed in a region of the oil separation plate (14) corresponding to an oil storage chamber (13). A ventilation hole (142) is formed in a region corresponding to a ventilation pipe (12). The atomization core assembly (2) comprises a heating wire assembly (22), an electrical connection assembly (24) electrically connected to the heating wire assembly (22), and a fastening sleeve (21). One end of the fastening sleeve (21) is sleeved on the electrical connection assembly (24), and the other end of the fastening sleeve (21) is sleeved on an oil storage sleeve (11). The heating wire assembly (22) is accommodated between the electrical connection assembly (24) and the oil separation plate (14). The heating wire assembly (22) is wrapped with a cylindrical oil storage member (23). An outer sidewall of the oil storage member (23) is attached to an inner sidewall of the fastening sleeve (21). An end face of the one end of the oil storage member (23) covers the oil guide hole (141) in the oil separation plate (14), so that the oil guide hole (141) and the oil storage member (23) sequentially guide smoking oil in the oil storage chamber (13) to the heating wire assembly (22) to perform atomization. The atomization assembly and the electronic cigarette can prevent an oil leakage phenomenon of the electronic cigarette.
A ventilation performance testing device and method for an atomizer of an electronic cigarette. The ventilation performance testing device comprises an xyz three-axis platform (1), a vacuum generation system (2), and a controller (3). The xyz three-axis platform (1) comprises a platform base (11), a testing beam (12), a y-axis movement plate (111), an x-axis movement head (121), a z-axis movement head (122), and a sucking disc assembly (123). The controller (3) is used for starting and controlling the movement of the y-axis movement plate (111) and the z-axis movement head (122) during a test, so as to make the sucking disc assembly (123) align to and slightly press an atomizer (200) on a bearing plate (100), and make the vacuum generation system (2) perform ventilation performance testing on the atomizer (200). The testing device solves the technical problems of low testing efficiency, instable testing suction and poor consistency in ventilation performance testing of the atomizers; and the technical effects are achieved: a constant negative-pressure suction is formed in the testing to perform air intake testing on multiple atomizers, and the testing efficiency is high.
G01M 3/08 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite par observation de bulles dans un bassin empli de liquide pour tuyaux, câbles ou tubesExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite par observation de bulles dans un bassin empli de liquide pour raccords ou étanchéité de tuyauxExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite par observation de bulles dans un bassin empli de liquide pour soupapes
An atomization assembly and an electronic cigarette. The atomization assembly comprises an oil storage sleeve (21). An oil storage chamber (22) is formed in the oil storage sleeve (21). An atomization core (3) is connected into one end of the oil storage sleeve (21), and an end face of the other end of the oil storage sleeve (21) forms an oil filling port. The atomization core (3) comprises an atomization seat (31). An atomization chamber (32) is formed in the atomization seat (31). A heating wire assembly (33) is accommodated in the atomization chamber (32). One end of the atomization seat (31) is connected to an atomization electrode assembly (35) electrically connected to the heating wire assembly (33). A ventilation pipe (34) is inserted in the other end of the atomization seat (31). Two ends of the ventilation pipe (34) are elastically and sealedly connected to the atomization chamber (32) and an oil baffling member (5) respectively. In this way, a user can rotate an air adjustment ring (42) as required, and can adjust the number of air inlet holes (411) in an air adjustment support (41) and the corresponding number of air passing holes (421) in the air adjustment ring (42), so as to adjust the air intake amount of the atomization assembly and solve suffocation and other problems.
An atomization assembly and an electronic cigarette. The atomization assembly comprises: an oil guide through-hole (211) formed in a sealing gasket (21) and in communication with an oil storage chamber (33); an oil absorption board (20), disposed on one side of the sealing gasket (21) back away from a suction nozzle assembly (1) and covering the oil guide through-hole (211); an oil separation member (24), sleeved on a ventilation pipe (32) and capable of longitudinally moving along the ventilation pipe (32), the oil separation member (24) being provided with a blocking arm (242) covering the oil guide through-hole (211); and a push mechanism, driving, under the push action of a battery rod assembly (4), the oil separation member (24) to longitudinally move along the ventilation pipe (32) so as to open the oil guide through-hole (211). The atomization assembly has a simple structure, is convenient to use, and can effectively prevent tobacco oil from leaking.
An electronic cigarette comprises an atomizer (1) and a battery rod (2). The atomizer (1) comprises an oil storage assembly, a suction nozzle assembly, an atomization core, and a connection member (14). The atomization core comprises an atomization seat (122), a heating wire assembly, a ventilation pipe (121), and an inner electrode assembly. One end of the oil storage assembly adjacent to the suction nozzle assembly is provided with an oil filling port (101), and one end of the ventilation pipe (121) extends out of the oil filling port (101), so that one end of the ventilation pipe (121) that extends out of the oil filling port (101) can be clamped when the atomization core is replaced, so as to take out the atomization core. The atomization seat (122) is inserted in the connection member (14), and is connected to the connection member (14) by means of threads, expansion fit or magnetic attraction. An inner wall of the connection member (14) is provided with a limit step (141). An outer wall of the atomization seat (122) is provided with a limit portion (125) that is corresponding to the limit step (141) in position and that is used for limiting the insertion depth of the atomization seat (122) into the connection member (14). The atomization core is detachably connected in the atomizer, and in the atomizer, the atomization core can be disassembled from one of the suction nozzle assembly, and accordingly the replacement of the atomization core is facilitated and an oil leakage phenomenon is unlikely to occur.
A resistance measurement device for automatically measuring the resistance of an atomizer (201) comprises a material storage tank (202), a rotating disk assembly, a resistance measurement assembly, and a control assembly (204). The rotating disk assembly comprises an index plate (205) and a fourth power device (206). The resistance measurement assembly comprises a detection component (203), and comprises a resistance monitoring component (207) used for determining whether a resistance measured by the detection component (203) satisfies a preset resistance range. When the control assembly (204) controls the fourth power device (206) to drive the index plate (205) to rotate to make the atomizer (201) move to a test position, the control assembly (204) controls the detection component (203) to extend to the atomizer (201) and enables the detection component (203) to be electrically connected to an electrode assembly of the atomizer (201), the detection component (203) performs resistance measurement on the atomizer (201) and transmits an obtained resistance to the resistance monitoring component (207).
G01R 27/02 - Mesure de résistances, de réactances, d'impédances réelles ou complexes, ou autres caractéristiques bipolaires qui en dérivent, p. ex. constante de temps
A24F 47/00 - Articles pour fumeurs non prévus ailleurs
76.
FEEDING DEVICE FOR AUTOMATIC LABELLER, AND FEEDING METHOD USING FEEDING DEVICE
A feeding device (1) for an automatic labeller and a feeding method using the feeding device, which are used for transporting a batch of atomizers (4) into a hopper (2). The feeding device (1) comprises an ejection movable plate (12), a loading die carrier (11) used for accommodating a batch of atomizers (4), and a blanking channel (13), all of which are sequentially disposed. A center (121) corresponding to the atomizers (4) on the loading die carrier (11) is disposed on a side surface of the ejection movable plate (12) facing to the loading die carrier (11). A blanking chamber used for receiving the atomizers (4) ejected from the loading die carrier (11) is disposed on a side surface of the blanking channel (13) facing to the loading die carrier (11). The bottom of the blanking chamber is formed by a blanking bottom plate (134). The atomizers (4) are ejected out from the ejection movable plate (12) to the loading die carrier (11) under the driving of a first external force, the atomizers (4) are ejected from the loading die carrier (11) to the blanking chamber, and the blanking bottom plate (134) is drawn away under the driving of a second external force, so that the atomizers (4) on the blanking bottom plate (134) fall into the hopper (2) under the action of gravity. By means of the feeding device and the feeding method, a batch of atomizers can be automatically fed into the hopper, and costs are reduced while the production efficiency of labeling the atomizers is improved.
An atomization assembly and an electronic cigarette. The atomization assembly comprises an atomization sleeve (1). One end of the atomization sleeve is movably connected to a suction nozzle assembly (1), and an atomization electrode assembly (6) used for being electrically connected to a battery assembly (100) is inserted in the other end of the atomization sleeve. The suction nozzle assembly (1) is provided with a smoke outlet. An atomization chamber in communication with the smoke outlet and an oil storage chamber (21) used for storing tobacco oil are disposed in the atomization sleeve (1). A heating wire assembly (5) electrically connected to the atomization electrode assembly (6) is disposed in the atomization chamber (21). The heating wire assembly (5) comprises an oil guide member (51) used for absorbing tobacco oil and a heating wire (52) used for atomizing the tobacco oil on the oil guide member (51). An oil intake hole (7) used for guiding tobacco oil in the oil storage chamber (21) into the oil guide member (51) is formed in a chamber wall of the atomization chamber. In the transportation process of an electronic cigarette, an oil guide hole (13) in the suction nozzle assembly (1) and an oil intake hole (7) in a ventilation pipe (4) are staggered, which can prevent tobacco oil from excessively permeating into the atomization chamber (21).
A switching circuit (100) and method for changing equivalent resistance of a heating wire of an atomizer, and an electronic cigarette, which solve the technical problem in the prior art that the working temperature of a heating wire is over-high due to the fact that an electronic cigarette cannot measure and control the temperature of an atomization heating wire. The switching circuit (100) comprises: a temperature detection circuit (10) and a changeover switch circuit (20). The temperature detection circuit (10) detects and acquires a temperature value of a heating wire (30), and generates a control signal for controlling the changeover switch circuit (20) on the basis of the temperature value. When the heating wire (30) is in an over-temperature state, the changeover switch circuit (20) changes the equivalent resistance of the heating wire (30) so as to reduce the supply current applied to the heating wire (30) by a battery pole (1), or the battery pole (1) supplies power to the heating wire (30) intermittently so as to reduce the temperature of the heating wire (30). When the temperature of the heating wire (30) returns to a normal temperature, the changeover switch circuit (20) restores the equivalent resistance of the heating wire (30), and the battery pole (1) supplies power to the heating wire (30) normally to heat the heating wire (30). The technical effect of monitoring the temperature of a heating wire during heating such that the temperature of the heating wire is within a preset temperature range and cannot be over-high is achieved.
Provided is a vaporization assembly, used for combining with a battery assembly (501) to form an electronic cigarette, and comprising: a liquid storage sleeve (201) and a partition sleeve (202), the open end of the liquid storage sleeve (201) being insertedly provided with a liquid separation member (203) made of liquid-absorbing material and capable of elastic deformation under the influence of external forces; an e-cigarette liquid storage cavity (204) formed on the liquid separation member (203); a smoke passageway (205) formed by the gap between the inner wall of the partition sleeve (202) and the outer wall of the liquid storage sleeve (201); a vaporization core comprising an electrode assembly (206), a heating wire (207), and a liquid-guiding cylinder (208); the liquid-guiding cylinder (208) is arranged in the longitudinal direction of the vaporization assembly; the heating wire (207) is wound around the liquid-guiding cylinder (208) end extending to outside the liquid separation member (203) and is electrically connected to the electrode assembly (206), such that the smoke formed by the heating wire (207) vaporizing the e-cigarette liquid on the liquid-guiding cylinder (208) is expelled via the smoke passageway (205). By means of the liquid separation member (203), the e-cigarette liquid is directly transmitted to the liquid-guiding cylinder (208) and provided to the heating wire (207) for vaporization, preventing an insufficient supply of e-cigarette liquid from causing the heating wire (207) to burn dry; further, the liquid-guiding cylinder (208) is arranged along the longitudinal direction in such a way that the heating wire is not subjected to compression and does not deform, thus enhancing product performance and improving user experience.
Provided are an electronic cigarette data transmission connection assembly, a data transmission method, and an electronic cigarette, which solve the technical problems in the prior art of the structure and form of an electronic cigarette being fixed and it being very difficult to expand functionality, and an upgraded-functionality electronic cigarette product being incompatible with earlier electronic cigarette products; the connection assembly (10) comprises: a first connecting end (101) detachably connected to a battery assembly (20); a second connecting end (102) detachably connected to a vaporizer assembly (30); a control circuit (103) connected to the first connecting end (101) and the second connecting end (102) and used for performing data transmission with the vaporizer assembly (30) and controlling the output of vaporizer data, and/or controlling, on the basis of vaporizer data, the power supply circuit of the vaporizer assembly to conduct electricity or disconnect; thus the technical effect is achieved of it being possible, when expanding the functionality of the electronic cigarette is necessary, to expand the functionality of the electronic cigarette without requiring the alteration of the original structure of the electronic cigarette.
Provided are a vaporization assembly and an electronic cigarette. The vaporization assembly comprises a mouthpiece (201), a connecting sleeve (202), and a vaporization body (203). The liquid storage sleeve (401) of the vaporization body (203) is transparent, thus a user may conveniently check at any time the amount of e-cigarette liquid remaining in the vaporization assembly; the first end of the liquid storage sleeve (401) is provided with a first fastening member (402), such that the connecting sleeve (202) and the liquid storage sleeve (401) are firmly connected to each other; a ring-shaped obstructing part (409) is formed at the end section of one end of the connecting sleeve (202), and the angle formed by the inner peripheral wall of the obstructing part (409) and the vertical direction of the connecting sleeve (202) is an inclined face larger than 0 degrees, thus condensed e-cigarette liquid may flow along the inner peripheral wall of the obstructing part (409) back to the vaporization body (203) to be re-vaporized, thereby preventing the user from ingesting the condensed e-cigarette liquid.
An atomiser, an electronic cigarette, and a filling method for preventing electronic cigarette e-liquid leakage. The atomiser comprises an e-liquid storage component (20) for storing the e-liquid, and a mouthpiece (10) and an atomising core (30) arranged respectively at the two ends of the e-liquid storage component (20). The e-liquid storage component (20) has an e-liquid filling opening (252), and the e-liquid storage component (20) comprises an e-liquid storage sleeve (21) and an elastic sealing mechanism movably inserted in the e-liquid storage sleeve (21). The elastic sealing mechanism comprises an e-liquid filling cap (22) movably covering the e-liquid filling opening (252) and a ventilation tube (23) connected to the e-liquid filling cap (22), one end of the ventilation tube (23) being in axially movable communication with the atomising core (30), and the other end of the ventilation tube (23) extending out of the e-liquid filling opening (252) and being in communication with the mouthpiece (10), such that the vapour atomised by the atomising core (30) is conveyed to the mouthpiece (10). The elastic sealing mechanism also comprises an elastic member (24) sleeved in and connected to the ventilation tube (23) and used for providing an elastic force to the ventilation tube (23) in the direction of the mouthpiece (10); when pressing the ventilation tube (23) causes the e-liquid filling cap (22) to disengage from the e-liquid filling opening (252) and rotating the ventilation tube (23) causes the e-liquid filling cap (22) and the e-liquid filling opening (252) to offset, the e-liquid filling cap (252) is opened to implement filling.
A wristband-style electronic cigarette and a data collection and display method for same, the electronic cigarette comprising a wristband body (1) which can be sleeved around the wrist of a user, and an atomising component (3) accommodated within the wristband body (1); the wristband body (1) comprises a power supply component, a frame component (101), and a moving cover (102) movably connected onto the frame component (101) and used for enclosing the frame component (101) to form an openable and closable accommodating cavity (103), the atomising component (3) being removably accommodated in the accommodating cavity (103) and being electrically connected to the power supply component by means of an electronic line (2); the wristband body also comprises a display module (104) arranged in the frame component (101) and a connecting member (4) that fastens together; the atomising component (3) comprises an atomiser (302) used for atomising e-liquid into vapour, and a controller (301) detachably connected to the atomiser, the controller (301) and the electronic line (2) being connected and used for sensing a smoking action of the user in order to control the power supply component to provide power to the atomiser (302); carrying and use of the present electronic cigarette is convenient.
An electronic cigarette for automatically controlling atomising power and a method for same, the electronic cigarette comprising a power supply module (9) used for providing power to the electronic cigarette, a smoking trigger module (8), a main controller (1), an atomiser electrothermal wire (2), an e-liquid guiding member (3) in contact with the atomiser electrothermal wire (2), a light detecting component (5) used for detecting the light transmittance of the e-liquid guiding member (3), and a power adjustment module (6), the light detecting component (5) being used for detecting the light transmittance of the e-liquid guiding member (3), the light transmittance of the e-liquid guiding member (3) reflecting the amount of e-liquid absorbed therein, and then the main controller (1), on the basis of a detection signal provided by the light detecting component (5), outputting a corresponding power adjustment signal to adjust the atomising power of the electronic cigarette, thereby implementing automatic control of the atomising power of the electronic cigarette and having the advantages of simplicity, low costs, and ease of implementation, significantly improving the user experience.
Disclosed are an atomizer, an electronic cigarette and a liquid level detection method. The atomizer comprises a heating wire component electrically connected to a battery component for atomizing cigarette liquid, a liquid storage component (1), a light emitting module (2) for irradiating the liquid storage component (1) and at least one optical detection module (3). The at least one optical detection module (3) is used for receiving transmission light transmitted from the liquid storage component (1) or reflected light reflected by the liquid storage component (1) under the irradiation of the light emitting module (2), and outputting a liquid level detection signal, and the electronic cigarette is used for controlling ON or OFF of electrical connection between the heating wire component and the battery component according to the liquid level detection signal. The electronic cigarette comprises the atomizer. The technical solution for precisely detecting the liquid level of the cigarette liquid according to an optical signal can effectively prevent cotton burning, and provides an intuitive and accurate method for a user to know the cigarette liquid level at any time, thus having better user experience; and moreover, the detection cost is low.
An atomisation assembly and an electronic cigarette. The atomisation assembly comprises a mouthpiece cap (201), a liquid storage assembly (202) and an atomisation core assembly (203), the liquid storage assembly (202) comprising a liquid storage sleeve (301), the liquid storage sleeve (301) being internally provided with a ventilation tube (302) in communication with the mouthpiece cap (201), a liquid storage cavity (303) used for storing e-liquid being formed between the liquid storage sleeve (301) and the ventilation tube (302), the liquid storage assembly (202) also comprising a liquid separation plate (305) and liquid-guiding cotton (306). The atomisation core assembly (203) comprises an atomisation base (601), an electric heating wire assembly (602) and an electrical connection assembly, an end portion of the electric heating wire assembly (602) abutting the liquid-guiding cotton (306). The atomisation assembly makes it easy for a user to check the remaining amount of e-liquid at any time, and according to the remaining amount of e-liquid, thereby estimate the length of time for which the atomisation assembly can still be used. The atomisation assembly effectively prevents leakage of the e-liquid, and prevents a user from drawing in un-atomised e-liquid.
An atomisation assembly and an electronic cigarette. The atomisation assembly comprises: an atomisation sleeve (201), a mouthpiece (202) and an atomisation core. The atomisation core comprises a liquid storage sleeve (203), a connector (204), an electric heating wire assembly, an insulation sleeve (205) and an atomisation cap (206), a vapour channel (208) being formed between the atomisation sleeve (201) and the liquid storage sleeve (203), the mouthpiece (202) being provided with an outlet hole (209), the outlet hole (209) being in communication with the vapour channel (208), the electric heating wire assembly comprising a liquid-guiding piece (210) and an electric heating wire (211), an atomisation cavity being formed between the connector (204), the insulation sleeve (205) and the atomisation cap (206), the connector (204) being provided with an inlet hole (212) and a vapour discharge hole (213), the vapour discharge hole (213) being in communication with the vapour channel (208), a liquid passage hole (214) being formed at one end of the connector (204) or at the atomisation cap (206), the liquid-guiding piece (210) absorbing e-liquid from within the liquid storage sleeve (203) via the liquid passage hole (214) for the electric heating wire (211) to atomise. When a user takes in vapour, the vapour only reaches the mouth of the user after passing though several curved routes, so that vapour having large particles is condensed by the vapour channel (208) into a liquid and absorbed within the vapour channel (208) during circulation, improving the user experience.
An atomisation assembly and an electronic cigarette. The atomisation assembly comprises an atomisation sleeve (201), one end of the atomisation sleeve (201) being provided with a mouthpiece (202), an atomisation core (401) being inserted into the other end, a liquid storage sleeve (402) being located within the atomisation sleeve (201), a vapour channel (409) in communication with an atomisation cavity (408) and an outlet hole (204) of the mouthpiece (202) being formed between the liquid storage sleeve (402) and the atomisation sleeve (201), a liquid separation piece (410) being provided with a liquid passage hole (411) in communication with a liquid storage space within the liquid storage sleeve (402), an end portion of a liquid-guiding piece (412) of an electric heating wire assembly (403) being inserted into the liquid storage space of the liquid storage sleeve (402) along the direction of the liquid passage hole (411). The structure of the atomisation assembly is simple and compact, and the assembling efficiency is effectively increased.
An atomisation assembly and an electronic cigarette, the atomisation assembly being used for combining with a battery assembly (100) to form an electronic cigarette. The atomisation assembly comprises a transparent atomisation sleeve (1), one end of the atomisation sleeve (1) being provided with a mouthpiece (3), an atomisation core (2) being inserted into the other end of the atomisation sleeve (1), the atomisation sleeve (1) being used for being sleeved with a fastening piece (4) at the position where the atomisation sleeve (1) is connected in a docking manner with the atomisation core (2), the fastening piece (4) being used for limiting radial expansion of the atomisation sleeve (1). Since the fastening piece (4) is sleeved on the outside of the atomisation sleeve (1), the fastening piece (4) not only prevents the atomisation sleeve (1) from expanding radially, but also increases the strength of the connection between the atomisation sleeve (1) and the atomisation core (2), preventing the atomisation core (2) from falling from within the atomisation sleeve (1), preventing e-liquid from leaking, and better protecting e-liquid within a liquid storage sleeve (20).
An atomisation assembly and an electronic cigarette. The atomisation assembly comprises a transparent atomisation sleeve (201), one end of the atomisation sleeve (201) being provided with a mouthpiece (202), an atomisation core (401) being inserted into the other end, the atomisation core (401) comprising a liquid storage sleeve (402) located within the atomisation sleeve (201); a vapour channel (409) in communication with an atomisation cavity (408) and an outlet hole (204) of the mouthpiece (202) is formed between the liquid storage sleeve (402) and the atomisation sleeve (201); a liquid separation plate (4101) is provided with a liquid passage hole (411) in communication with a liquid storage space within the liquid storage sleeve (402), and two ends of a liquid-guiding piece (412) of an electric heating wire assembly (403) abut a liquid absorption plate (4102). A user is able to check the remaining amount of e-liquid at any time, the area of the vapour channel (409) is relatively large, enabling vapour atomised by the electric heating wire assembly (403) to be cooled to a suitable temperature, and the atomisation sleeve (201) protects the liquid storage sleeve (402).
An atomisation assembly and an electronic cigarette. The atomisation assembly comprises a transparent atomisation sleeve (12) and a liquid storage sleeve (21), a gap between an outer peripheral surface of the liquid storage sleeve (21) and an inner peripheral surface of the atomisation sleeve (12) forms a cylindrical vapour channel (22), and a first condensed e-liquid storage space (23) in communication with the vapour channel (22) and an outlet hole (111) of a mouthpiece (11) is formed between an end surface of the liquid storage sleeve (21) and the mouthpiece (11), the end surface facing the mouthpiece (11); one end of an atomisation core assembly (3) is inserted into one end of a mouthpiece assembly (1) and a liquid cup assembly (2), the end of the mouthpiece assembly (1) and the liquid cup assembly (2) being adjacent to a battery rod assembly, and the end of the atomisation core assembly (3) is detachably connected to the mouthpiece assembly (1) and the liquid cup assembly (2). The atomisation assembly has the following advantages: it is easy for a user to check the remaining amount of e-liquid, vapour is effectively cooled to prevent the user from being burned, and it is ensured that the user will not draw in condensed e-liquid; it is easy to add or replace e-liquid and clean the liquid storage sleeve.
An electronic cigarette, comprising a battery rod (300) and an atomiser (400), the atomiser (400) comprising a protective sleeve (1) having an end portion provided with a vapour inhalation end, and an atomisation assembly (2) removably accommodated within the protective sleeve (1), the battery rod (300) being detachably connected to the end of the protective sleeve (1) away from the vapour inhalation end; the atomisation assembly (2) comprises a transparent liquid storage sleeve (22), a ventilation tube (23) sleeved within the liquid storage sleeve (22), and an atomisation core (24) inserted into one end of the liquid storage sleeve (22) and located at the side of the ventilation tube (23) away from the vapour inhalation end; a translucent area for a user to check the amount of e-liquid is provided on the protective sleeve (1); the atomisation assembly (2) is detachably connected to the battery rod (300) or the protective sleeve (1); a cylindrical separation space (5) is formed between an outer peripheral surface of the atomisation assembly (2) and an inner peripheral surface of the protective sleeve (1); when the protective sleeve (1) or the atomisation assembly (2) is rotated, the separation space (5) allows the atomisation assembly (2) to be conveniently separated from the battery rod (300), and a resilient sealing piece (13) used for sealing the separation space (5) is arranged between the atomisation assembly (2) and the vapour inhalation end. The electronic cigarette makes it easy to observe the remaining amount of e-liquid, and facilitates the transportation and storage of the e-liquid. The electrical connection is more reliable, and the electronic cigarette is safer.
An electronic cigarette, comprising a battery assembly (1) and an atomisation assembly (2) which are connected to one another, a first connecting piece (24) and a second connecting piece (13) which are connected to one another being arranged between the battery assembly (1) and the atomisation assembly (2), the first connecting piece (24) being detachably connected to the second connecting piece (13), so that the battery assembly (1) is detachably connected to the atomisation assembly (2). An electrical connection between the battery assembly (1) and the atomisation assembly (2) is implemented via a PCB (25) and resilient electrodes (14). Compared to mutually nested tubular metallic electrodes used for implementing the electrical connection between the battery assembly (1) and the atomisation assembly (2) in the prior art, the structure of the PCB (25) and the resilient electrodes (14) is simpler, the assembling steps of the electronic cigarette are simplified, and the electronic cigarette is lighter and easy for a user to carry.
An electronic cigarette control circuit, an electronic cigarette, and an electronic cigarette atomization control method. The electronic cigarette control circuit comprises an atomizer circuit and a battery rod circuit. The atomizer circuit comprises an electric heating wire (1), a temperature detection module (2), and a signal amplification module (3). The temperature detection module (2) is used for detecting the real-time temperature of the electric heating wire (1) and converting the real-time temperature into a real-time voltage and outputting same. The signal amplification module (3) is used for amplifying the real-time voltage and then transmitting same into the battery rod circuit. The battery rod circuit comprises an electronic cigarette battery (5) and a microprocessor (4). The microprocessor (4) is connected to the signal amplification module (3) and is used for controlling, on the basis of the real-time voltage, the power outputted by the electronic cigarette battery (5) to the electric heating wire (1), thus allowing the power to be increased with an increase in the real-time voltage when the real-time voltage is less than a preconfigured value and the power to be decreased with an increase in the real-time voltage when the real-time voltage is greater than or equal to the preconfigured value. As such, the electric heating wire (1) is prevented from atomizing an e-liquid when the temperature is overly high and thereby producing toxic substances.
A24F 47/00 - Articles pour fumeurs non prévus ailleurs
G05D 23/22 - Commande de la température caractérisée par l'utilisation de moyens électriques avec un élément sensible présentant une variation de ses propriétés électriques ou magnétiques avec les changements de température l'élément sensible étant un thermocouple
G05D 23/24 - Commande de la température caractérisée par l'utilisation de moyens électriques avec un élément sensible présentant une variation de ses propriétés électriques ou magnétiques avec les changements de température l'élément sensible ayant une résistance variant avec la température, p. ex. une thermistance
96.
ELECTRONIC CIGARETTE AND E-LIQUID LEAKAGE PREVENTION METHOD THEREFOR
An electronic cigarette and an e-liquid leakage prevention method therefor. The electronic cigarette comprises an atomizer (1) and a battery component (4) detachably connected to the atomizer (1). The atomizer (1) comprises an atomizing sleeve (14), a mouthpiece (15) provided at an extremity of the atomizing sleeve (14), an atomizing core (16) inserted into the atomizing sleeve (14), an e-liquid storage cavity (18) used for storing an e-liquid, a ventilation pipe (17) connected between the mouthpiece (15) and the atomizing core (16), and a ventilation channel running through the atomizer (1). An atomizing cavity (11) is provided within the atomizing core (16). An electric heating wire component (12) is provided at an extremity of the atomizing cavity (11). The ventilation channel runs through the atomizing cavity (11) and is used for allowing, when a user is smoking, an external airflow to be introduced to into the atomizing cavity (11) and to be delivered together with smoke within the atomizing cavity (11) into the oral cavity of the smoker. An opening/closing mechanism (2) used for controlling the opening or closing of the ventilation channel is inserted onto the atomizing cavity (11). The opening/closing mechanism (2) is used for closing the ventilation channel by changing the position of a movable core rod (23) relative to a fixed sleeve pipe (21) to prevent the e-liquid from leaking, permeating, and entering into the battery component (4) via the ventilation channel.
An atomizing component and an electronic cigarette. The atomizing component comprises a light-permeable e-liquid storage sleeve (21). An atomizing core (3) is detachably connected to an extremity of the e-liquid storage sleeve (21). A fastening element (5) used for restricting radial expansion of the e-liquid storage sleeve (21) is sleeved at where the e-liquid storage sleeve (21) is insertedly connected to the atomizing core (3). An extremity of a ventilation pipe (22) away from the atomizing core (3) is a smoke emitting outlet in communication with a mouthpiece (1). An e-liquid filler opening is extended from the extremity of the ventilation pipe (22) provided with the smoke emitting outlet. The smoke emitting outlet of the ventilation pipe (22) and the e-liquid filler opening of the e-liquid storage sleeve (21) are located on planes of different heights; hence, while an e-liquid is being added, even when the e-liquid is splashed accidentally, the outer circumferential wall of the ventilation pipe (22) will block the e-liquid, thus preventing the e-liquid from being splashed into the ventilation pipe (22); in addition, replacement of the atomizing core (3) is facilitated and e-liquid leakage prevention is improved.
An atomizer and an electronic cigarette. The atomizer comprises: an e-liquid storage component (2) and an atomizing component (3). The e-liquid storage component (2) is used for storing an e-liquid to be atomized by the atomizing component (3). The e-liquid storage component (2) is movably and insertedly connected to the atomizing component (3). A sidewall of the e-liquid storage component (2) is flexibly abutted against a sidewall of the atomizing component (3). A first limiting part (31) is provided at the extremity of the atomizing component (3) adjacent to the e-liquid storage component (2); a second limiting part (21) is provided at the extremity of the e-liquid storage component (2) connected to the atomizing component (3); hence, when the e-liquid storage component (2) is subjected to an external force in the direction away from the atomizing component (3), the second limiting part (21) is engaged and held by the first limiting part (31) to prevent the e-liquid storage component (2) from falling off. An e-liquid outlet (22) of the e-liquid storage component (2) and the abutting surface of the atomizing component (3) are provided with a first sealing element (32). The first sealing element (32) is used for allowing the e-liquid outlet (22) of the e-liquid storage component (2) to be in either a sealed state or an opened state when the e-liquid storage component (2) and the atomizing component (3) slide relative to each other, thus preventing the e-liquid from leaking.
An electronic cigarette case for use in detecting e-liquid information of an electronic cigarette and displaying the e-liquid information and comprising: a case body (101) and a case cover (102). A microprocessor (201) and a cigarette case battery (202) are provided within the case body (101). A first detection module (203) is also provided within the case body (101). When the electronic cigarette is placed into the case body (101), the first detection module (101) is triggered to detect the weight of the electronic cigarette to produce a first weight value and to transmit the first weight value to the microprocessor (201). A first display module (204) is provided on a sidewall of the case body (101). When the first weight value is received by the microprocessor (201), same computes, on the basis of the first weight value and of a preset second weight value and according to a preset rule, to produce first e-liquid level information of the electronic cigarette and transmits the first e-liquid level information to the first display module (204). As such, the microprocessor (201) is allowed to produce e-liquid level information in the electronic cigarette by computing on the basis of the first weight value and of the preset second weight value and to transmit the e-liquid level information to the first display module (204) to be displayed thereby, thus facilitating a user in learning about the e-liquid level information of the electronic cigarette from the electronic cigarette case and increasing product practicability.
An atomizing component and an electronic cigarette. The atomizing component comprises a mouthpiece (1), an e-liquid storage component (2), and an atomizing core component (3). The e-liquid storage component (2) comprises an e-liquid storage sleeve (21) connected at an extremity thereof to a rotating structure (4). The mouthpiece (1) is provided at an extremity of the rotating structure (4) facing away from the e-liquid storage sleeve (21). Provided within the e-liquid storage sleeve (21) is a ventilation pipe (22) having an extremity thereof run through the rotating structure (4) and in communication with the mouthpiece (1) and another extremity sleeved on the exterior of an extremity of the atomizing core component (3). The atomizing core component (3) comprises an atomizing base (31). An extremity of the atomizing base (31) provided with an electric heating wire component (32) is embeddedly sleeved within an extremity of the ventilation pipe (22), while a portion that is extended outside of the ventilation pipe (22) seals off an e-liquid filler opening. An e-liquid inlet (310) is also provided on the atomizing base (31). An e-liquid guide hole (220) is provided on the extremity of the ventilation pipe (22) corresponding to the e-liquid inlet (310). The rotating structure (4) and the ventilation pipe (22) are fixed with each other. The rotating structure (4) drives the ventilation pipe (22) into rotation when rotating under the effect of an external force in the circumferential direction, thus allowing the e-liquid guide hole (220) on the ventilation pipe (22) and the e-liquid inlet (310) on the atomizing base (31) to be either overlapped or staggered with each other. The apparatus is capable of preventing an e-liquid in the e-liquid storage cavity (23) from permeating into the atomizing cavity.
