CN211268658U

CN211268658U - Electronic cigarette, atomizer and air adjusting structure thereof

Info

Publication number: CN211268658U
Application number: CN201921723675.3U
Authority: CN
Inventors: 欧俊彪
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-14
Filing date: 2019-10-14
Publication date: 2020-08-18
Anticipated expiration: 2029-10-14

Abstract

The utility model provides an electron cigarette, atomizer and accent gas structure thereof. Should transfer the qi structure and include: the air adjusting seat is provided with an air inlet hole, and the air inlet hole is used for enabling external air flow to enter an atomizing core of the atomizer; the air adjusting ring is rotatably arranged on the air adjusting seat and provided with an air adjusting hole, and the air adjusting hole can be at least partially overlapped or staggered with the air inlet hole when the air adjusting ring rotates; and the adjusting component is connected with the air adjusting ring and can be installed on a rotary driving part of a cigarette machine main body of the electronic cigarette, so that the rotary driving part drives the air adjusting ring to rotate through the adjusting component. The position of the air adjusting ring can be automatically adjusted by rotating the driving piece, so that the air adjusting hole and the air inlet hole are at least partially overlapped or staggered to adjust the air flow entering the atomizing core, and further, the smoke outlet quantity of the atomizer is adjusted, and the use requirements of different users are met.

Description

Electronic cigarette, atomizer and air adjusting structure thereof

Technical Field

The utility model relates to a simulation cigarette field especially relates to an electron cigarette, atomizer and accent gas structure thereof.

Background

The electronic cigarette is an electronic product simulating a cigarette, has similar smoke, taste and feeling as the cigarette, and causes adverse effects on the health of a user and people around the user because harmful ingredients in the tobacco enter the body of the user along with smoking; in the electronic cigarette, tobacco tar prepared from chemical substances and various flavoring agents is heated and atomized to generate smoke, and the content of nicotine is controlled by controlling the components of the tobacco tar, so that the electronic cigarette which is mainly used for quitting smoking and replacing cigarettes is rapidly popularized and used.

At present, the atomizer of electron cigarette includes suction nozzle, atomizing cover, base and heater, adjusts the gas pocket size through the adjustable ring that admits air rotates in the base cavity to adjust the size of cigarette volume. However, the air inlet adjusting ring needs manual adjustment when adjusting air, which is inconvenient for users to use.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide an electronic cigarette, an atomizer and an air adjusting structure thereof, which can realize automatic adjustment of the airflow of the atomizing wick, aiming at the problem that the current atomizer needs to manually adjust the air inlet adjusting ring to cause inconvenient adjustment.

The above purpose is realized by the following technical scheme:

a structure of transferring air, is applicable to the atomizer of electron cigarette, the structure of transferring air includes:

the air adjusting seat is provided with an air inlet hole, and the air inlet hole is used for enabling external air flow to enter an atomizing core of the atomizer;

the air adjusting ring is rotatably arranged on the air adjusting seat and provided with an air adjusting hole, and the air adjusting hole can be at least partially overlapped or staggered with the air inlet hole when the air adjusting ring rotates; and

and the adjusting component is connected with the air adjusting ring and can be installed on a rotary driving part of a cigarette machine main body of the electronic cigarette, so that the rotary driving part drives the air adjusting ring to rotate through the adjusting component.

In one embodiment, the adjusting assembly includes a toggle member, the toggle member is rotatably mounted on the air adjustment seat and connected to the output end of the rotary driving member, the toggle member is further connected to the air adjustment ring, and the rotary driving member can drive the air adjustment ring to rotate through the toggle member when rotating.

In one embodiment, the toggle member comprises a toggle rod and an extension portion arranged on the toggle rod, the extension portion extends through the air adjusting seat and can rotate relative to the air adjusting seat, and the extension portion is used for being connected with the rotary driving member so that the toggle rod can rotate along with the rotary driving member.

In one embodiment, the air adjusting ring is provided with a matching part, and the poking piece can be in matching contact with the matching part so as to drive the air adjusting ring to rotate;

the matching part is a bulge, and the end part of the poking piece can be abutted against the side surface of the bulge; or the matching part is a groove, and the end part of the poking piece extends into the groove.

In one embodiment, the adjusting assembly further comprises a stop member disposed on the air adjusting base, and the stop member is rotatably mounted on the toggle member and used for limiting the rotational displacement of the toggle member.

In one embodiment, the stop member has oppositely arranged stop blocks, and a space enclosed by the oppositely arranged stop blocks is a movable space of the toggle member.

In one embodiment, the air adjusting seat comprises a base and an inner ring arranged on the base, the air inlet hole is arranged on the inner ring, the base is provided with a mounting groove, and the mounting groove is used for rotatably mounting the air adjusting ring.

In one embodiment, the air adjustment ring is sleeved on the inner ring, the inner ring is provided with a sliding groove extending along the circumferential direction, the extending length of the sliding groove is not less than the rotational displacement of the stirring piece, and the sliding groove allows the stirring piece to penetrate through and be matched with the matching part and provides a movement space for the rotation of the stirring piece.

In one embodiment, the air adjusting structure further comprises an insulating ring, the insulating ring is arranged between the air adjusting seat and the stop member, the air adjusting seat is electrically connected with one pin of the atomizing core, and the stop member is electrically connected with the other pin of the atomizing core;

the atomizer is arranged behind the cigarette machine main body, and the air adjusting seat is communicated with the stop piece through an external circuit of the cigarette machine main body.

In one embodiment, the stop has an extension extending in the axial direction of the adjustment ring, the extension passing through the seat and protruding for electrical connection with the external circuit.

An atomizer comprises a suction nozzle, an oil bin, an atomizing core and an air regulating structure according to any one of the technical characteristics;

the air adjusting structure is located at the bottom of the oil bin, the atomizing core is installed on the air adjusting structure and located in the oil bin, and the suction nozzle is installed in the oil bin.

An electronic cigarette comprises a rotary driving piece, a cigarette machine main body and an atomizer according to the technical characteristics;

the rotary driving piece is arranged in the cigarette machine main body, the atomizer is installed behind the cigarette machine main body, and the air adjusting structure of the atomizer can be installed at the output end of the rotary driving piece to drive the air adjusting ring of the air adjusting structure to rotate.

In one embodiment, the cigarette machine main body is provided with an atomizing base, the air adjusting structure is mounted on the atomizing base, and the atomizing base can be electrically connected with the air adjusting base of the air adjusting structure.

In one embodiment, the cigarette maker body further has an electrode terminal for electrical connection with a stopper of the atomizer mounted in the cigarette maker body and an external circuit electrically connected to the electrode terminal.

In one embodiment, the cigarette machine body further comprises an insulating ring, and the insulating ring is arranged between the electrode terminal and the atomizing base.

In one embodiment, the electronic cigarette further comprises a connecting piece, wherein the connecting piece is arranged at the output end of the rotary driving piece and is connected with a stirring piece of the atomizer arranged in the cigarette machine main body.

After the technical scheme is adopted, the utility model discloses following technological effect has at least:

the utility model discloses an electron cigarette, atomizer and accent gas structure thereof, atomizer are installed behind the cigarette machine main part of electron cigarette, and rotary driving spare can rotate to drive through adjusting part and transfer the gas ring rotation, make and transfer the gas ring for transferring the gas seat motion, with the area of adjustment accent gas pocket and inlet hole coincidence, realize adjusting the airflow of atomizing core in the atomizer. Effectual solution current atomizer adjustment air flow needs the problem of the adjustment of being not convenient for that manual adjustment air inlet adjusting ring leads to, and the position that realizes transferring the air ring can make transfer gas pocket and inlet port at least partial coincidence or stagger through rotary driving piece automatic adjustment to the air flow in the adjustment entering atomizing core, and then reach the play cigarette volume of adjusting the atomizer, satisfy different users' user demand.

Drawings

Fig. 1 is a perspective view of an air adjustment structure according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the air accommodating structure shown in FIG. 1;

FIG. 3 is a perspective view of the air adjustment stop of FIG. 1;

fig. 4 is a cross-sectional view of the air adjustment structure shown in fig. 1 mounted to a rotary drive member.

Wherein:

100-a gas regulating structure;

110-a gas regulating seat;

111-inlet holes;

112-inner ring;

113-a base;

120-gas regulating ring;

121-air adjusting holes;

130-an adjustment assembly;

131-a toggle piece;

132-a stop member; 1321-a stop; 1322-an extension;

140-an insulating ring;

200-a rotary drive;

300-an atomizing base;

400-electrode terminals;

500-an insulating ring;

600-connecting piece.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the following embodiments are described in detail with reference to the accompanying drawings, and the electronic cigarette, the atomizer and the air-adjusting structure thereof according to the present invention are further described. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings). In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1 to 4, the present invention provides an air adjustment structure 100. The air adjustment structure 100 is suitable for an atomizer of an electronic cigarette. The atomizer has an atomizing core, and the tobacco tar in the atomizer is atomized into smoke through the atomizing core, and the details are described later. After the atomizer is installed in the cigarette machine main part of electron cigarette, this structure 100 of adjusting qi can adjust the airflow that gets into in the atomizing core, and then reaches the play cigarette volume of adjusting the atomizer. The user can adjust out the size of cigarette volume according to actual need, satisfies different user demands.

It can be understood that the air adjustment structure 100 of the present invention is installed at the bottom of the atomizing core for adjusting the air flow entering the inside of the atomizing core. When atomizing core atomizing tobacco tar, need atomizing core inside to have the air current, just can export smog to the inside air current of atomizing core can be with smog input to corresponding passageway in.

In one embodiment, the tuning structure 100 includes a tuning seat 110, a tuning ring 120, and an adjustment assembly 130. The air adjusting seat 110 has an air inlet hole 111, and the air inlet hole 111 is used for allowing the external air flow to enter the atomizing core of the atomizer. The air adjusting ring 120 is rotatably disposed on the air adjusting base 110, the air adjusting ring 120 has air adjusting holes 121, and when the air adjusting ring 120 rotates, at least a portion of the air adjusting holes 121 may overlap or be staggered with respect to the air inlet holes 111. The adjustment assembly 130 is connected to the tone ring 120 and is mountable to a rotary drive member 200 of a body of a machine of the e-cigarette such that the rotary drive member 200 drives the tone ring 120 to rotate via the adjustment assembly 130.

The air adjusting seat 110 is installed at the bottom of the atomizing core, and an air inlet hole 111 on the air adjusting seat is communicated with the outside and the atomizing core. Outside air flow enters the atomizing core through the air inlet hole 111, and after the atomizing core atomizes the tobacco tar into smoke, the air flow can be carried along a smoking channel of the atomizer to enter the mouth of a user through the suction nozzle. The air adjusting ring 120 is rotatably mounted on the air adjusting base 110, and when the air adjusting ring 120 rotates relative to the air adjusting base 110, the communication area between the air inlet hole 111 and the air adjusting hole 121 changes relatively, so as to adjust the flow of the inlet air.

When the air adjusting hole 121 and the air inlet hole 111 are staggered, the main body part of the air adjusting ring 120 can shield the air inlet hole 111 of the air adjusting seat 110, and air flow can not enter the atomizing core through the air inlet hole 111. When the air adjusting ring 120 is rotated, the air adjusting hole 121 gradually moves toward the air inlet hole 111 and communicates with the air inlet hole 111, so that the air adjusting hole 121 coincides with the air inlet hole 111. Then, the air adjusting ring 120 is rotated, and the air adjusting hole 121 is gradually far away from the air inlet hole 111 and is staggered with the air inlet hole 111. When a larger smoke amount is needed, the air adjusting holes 121 can be coincided with the air inlet holes 111; when a small amount of smoke is required, the air adjusting holes 121 may be partially communicated with the air intake holes 111. It can be understood that the required gas flow is different when atomizing the tobacco tar, through adjusting gaseous ring 120 can adaptation atomizing core and tobacco tar, guarantees the mouth feel of tobacco tar atomizing smog, the tobacco tar of different tastes and user's different demands etc..

And, the rotation of the air adjustment ring 120 is driven by the movement of the adjustment assembly 130. The cigarette maker body has a rotary drive member 200 therein, the rotary drive member 200 being for outputting rotary motion. After the atomizer is installed in the body of the cigarette maker, the adjustment assembly 130 is connected to the output end of the rotary drive member 200. The rotation of the rotary driving member 200 can drive the adjusting assembly 130 to rotate, and then the adjusting assembly 130 can drive the adjusting ring to rotate when rotating, so as to adjust the overlapping area of the air adjusting hole 121 and the air inlet hole 111, so as to adjust the air inflow entering the atomizing core, and achieve the purpose of adjusting the smoke output of the electronic cigarette.

After the air adjusting structure 100 of the above embodiment is adopted, the atomizer is installed in the cigarette machine main body of the electronic cigarette, the rotary driving member 200 can rotate, and the air adjusting ring 120 is driven to rotate by the adjusting component 130, so that the air adjusting ring 120 moves relative to the air adjusting seat 110, the area of the air adjusting hole 121 coinciding with the air inlet hole 111 is adjusted, and the air flow of the atomizing core in the atomizer is adjusted. Effectual solution current atomizer adjustment airflow needs the problem of the adjustment of being not convenient for that the regulation ring leads to of manual adjustment admitting air, realizes that the position of adjusting gas ring 120 can be through rotary driving spare 200 automatic adjustment, makes the gas regulation hole 121 and the at least partial coincidence of inlet port 111 or stagger to the airflow in the adjustment entering atomizing core, and then reaches the play cigarette volume of adjusting the atomizer, satisfies different users' user demand.

Alternatively, the tuning ring 120 may be mounted inside the tuning body 110 or outside the tuning body 110. Illustratively, the air adjustment ring 120 is sleeved on the air adjustment seat 110, and the adjustment assembly 130 can pass through the air adjustment seat 110 to contact the air adjustment ring 120 to drive the air adjustment ring 120 to rotate. Of course, in other embodiments of the present invention, the air adjustment ring 120 is rotatably disposed inside the air adjustment seat 110, and the adjustment assembly 130 may directly contact the air adjustment ring 120 to drive the air adjustment ring 120 to rotate.

In one embodiment, the tuning seat 110 includes a base 113 and an inner ring 112 disposed on the base 113, the air inlet hole 111 is disposed on the inner ring 112, and the base 113 has a mounting slot for rotatably mounting the tuning ring 120. The bottom of the air adjusting ring 120 is clamped in the mounting groove and can rotate in the mounting groove. The inner ring 112 is disposed at an edge position of the base 113, so that the air adjustment seat 110 is disposed in a cylindrical shape. Optionally, the inner ring 112 and the base 113 are an integral structure, and of course, in other embodiments of the present invention, the inner ring 112 and the base 113 may also be a detachable connection structure.

The top of the inner ring 112 is installed at the bottom of the atomizing core, and the air inlet hole 111 is arranged in the inner ring 112 in a penetrating manner so as to communicate the inside and the outside of the inner ring 112, so that the outside air flow can enter the inner ring 112 through the air inlet hole 111 and then enter the atomizing core. Further, the base 113 has a mounting hole provided therethrough. A mounting hole is located in a central region of the base 113 for the adjustment assembly 130 to pass through. Thus, with the atomizer installed in the body of a cigarette maker, the adjustment assembly 130 is accessible to the rotary drive member 200 of the body of the cigarette maker through the mounting hole.

Optionally, the number of the air inlet holes 111 is at least two, correspondingly, the number of the air adjusting holes 121 is also at least two, and the layout form of the at least two air inlet holes 111 and the at least two air adjusting holes 121 may be the same or different. The shapes of the air intake holes 111 and the air adjustment holes 121 are not limited in principle as long as the air flow entry and the air flow adjustment can be achieved. In this embodiment, the air inlet holes 111 and the air adjustment holes 121 are both oblong, however, the air inlet holes 111 and the air adjustment holes 121 may also be polygonal, elliptical, irregular, and the like, and the areas of the air inlet holes 111 and the air adjustment holes 121 may be the same or different.

In an embodiment, the adjusting assembly 130 includes a toggle member 131, the toggle member 131 is rotatably mounted on the air adjustment base 110 and connected to an output end of the rotary driving member 200, the toggle member 131 is further connected to the air adjustment ring 120, and the air adjustment ring 120 can be driven to rotate by the toggle member 131 when the rotary driving member 200 rotates. The end of the toggle member 131 is connected to the inner wall of the air adjusting ring 120, the bottom of the toggle member 131 is rotatably mounted in the mounting hole of the base 113, and the bottom of the toggle member 131 is connected to the output end of the rotary driving member 200. Like this, when the rotary driving member 200 rotates, can drive and dial 131 synchronous rotation, and then dial 131 and drive the adjustable ring and rotate for the air adjustment seat to adjust the relative position relation of air adjustment hole 121 and inlet port 111, reach the purpose of adjusting the air current in the atomizing core.

In one embodiment, the shifting member 131 includes a shifting rod and an extending portion disposed on the shifting rod, the extending portion extends through the air adjustment seat and can rotate relative to the air adjustment seat, and the extending portion is used to connect with the rotary driving member 200, so that the shifting rod rotates with the rotary driving member 200. The extension is mounted at the bottom of the shift lever, one end of the shift lever is in contact with the adjustment ring, the extension is rotatably mounted in the mounting hole of the base 113, and the extension is further connected with the output end of the rotary driving member 200. When the rotary driving piece 200 rotates, the driving lever can be driven to rotate through the extension part, and then the driving lever can drive the adjusting ring to rotate, so that the adjustment of the airflow in the atomizing core is realized.

Illustratively, the shift lever and the extension are integrally formed. Of course, in other embodiments of the present invention, the lever and the extension portion may be provided separately. Optionally, an end of the protruding portion away from the shift lever has a mounting groove for mounting an output end of the rotary driving member 200, so that the rotary driving member 200 can directly drive the protruding portion to rotate.

Alternatively, the deflector rod may be directly fixedly connected to the air adjustment ring 120. Of course, the shift lever is also separated from the air adjustment ring 120, and at this time, the shift lever can drive the air adjustment ring 120 to rotate in a contact manner. In one embodiment, the air adjustment ring 120 has a matching portion, and the toggle member 131 can be in matching contact with the matching portion to drive the air adjustment ring 120 to rotate. The matching part is a bulge, and the end part of the toggle piece 131 can be abutted against the side surface of the bulge; alternatively, the mating portion is a groove, and the end of the toggle member 131 extends into the groove. The tip of driving lever can contact with the cooperation portion cooperation, and like this, when the driving lever rotated, can drive the adjustable ring through its cooperation with the cooperation portion and rotate, realize adjusting the airflow of atomizing core. In this embodiment, the mating portion is a groove. One end of the deflector rod extends into the groove and is contacted with the side wall of the groove. The rotation of the rotary driving member 200 drives the shift lever to rotate, and the shift lever can shift the adjusting ring, so that the adjusting ring rotates relative to the air adjusting seat.

In an embodiment, the adjusting assembly 130 further includes a stop member 132, the stop member 132 is disposed on the air adjustment base 110, and the stop member 132 is rotatably mounted on the toggle member 131 for limiting the rotational displacement of the toggle member 131. The stopper 132 is used for limiting the rotation stroke of the air adjusting ring 120, so that the air adjusting ring 120 is located at the first position or the second position, and when the air adjusting ring 120 is located at the first position, the air adjusting hole 121 is completely staggered with the air inlet hole 111; when the air adjusting ring 120 is located at the second position, the air adjusting hole 121 completely coincides with the air inlet hole 111, and when the air adjusting ring 120 is located between the first position and the second position, the air adjusting hole 121 partially coincides with the air inlet hole 111.

When the air adjusting ring 120 is located at the first position and the airflow of the atomizing core needs to be adjusted, the rotary driving member 200 works and drives the air adjusting ring 120 to rotate, when the shift lever touches the stop member 132, the air adjusting ring 120 stops moving, at this time, the air adjusting ring 120 is located at the second position, the air adjusting hole 121 and the air inlet hole 111 are completely overlapped, and the smoke output amount of the electronic cigarette can be ensured. When the air adjusting ring 120 is at the second position and stops injecting the air flow into the atomizing core, the rotary driving member 200 works and drives the air adjusting ring 120 to rotate, when the shift lever touches the stop member 132, the air adjusting ring 120 stops moving, at this time, the air adjusting ring 120 is at the first position, the air adjusting hole 121 is completely staggered with the air inlet hole 111, and the air flow cannot enter the atomizing core. When the air flow in the atomizing core needs to be reduced, the rotary driving member 200 is controlled to rotate and displace, so that the shifting lever drives the air adjusting ring 120 to move towards the second position and stop moving at the position where the shifting lever does not touch the stop member 132, and at the moment, the air adjusting ring 120 is located between the first position and the second position, so that the smoke output of the electronic cigarette is reduced, and different use requirements of users are met.

In one embodiment, the stopper 132 has an opposite stop 1321, and the space surrounded by the opposite stop 1321 is a movable space of the toggle member 131. The stop member 132 is secured to the base by fasteners, as shown. The two stoppers 1321 are disposed opposite to each other. Therefore, no matter the rotary driving piece 200 drives the shifting rod to rotate clockwise or anticlockwise, the shifting rod can be in contact with the stop block 1321, the over-travel operation of the adjusting ring is avoided, and the accuracy of the airflow adjustment of the atomizing core is guaranteed.

When the air adjusting ring 120 is sleeved on the inner ring 112, the inner ring 112 has a sliding groove to ensure that the driving lever can drive the adjusting ring to move. Specifically, the inner ring 112 has a sliding groove extending in the circumferential direction, the extending length of the sliding groove is not less than the rotational displacement of the toggle member 131, and the sliding groove allows the toggle member 131 to pass through and engage with the engagement portion, and provides a movement space for the rotation of the toggle member 131. The slide slot is disposed through the inner ring 112 such that the shift lever can be installed in the adjustment slot of the adjustment ring through the inner ring 112. Moreover, when the rotary driving member 200 drives the shift lever to rotate, the shift lever can slide along the sliding slot and drive the adjusting ring to move relative to the air adjusting seat, so as to adjust the relative position relationship between the adjusting ring and the air inlet 111.

In an embodiment, the air adjustment structure 100 further includes an insulating ring 140, the insulating ring 140 is disposed between the air adjustment seat 110 and the stop member 132, the air adjustment seat 110 is electrically connected to one pin of the atomizing core, and the stop member 132 is electrically connected to another pin of the atomizing core. After the atomizer is installed in the body of the cigarette maker, the damper 110 is in electrical communication with the stopper 132 through an external circuit of the body of the cigarette maker. It can be understood that the utility model provides a gas modulation seat 110 and stop part 132 are made by conducting material, and at this moment, the atomizing core does not adopt the electrode with external circuit's electricity is connected, but directly is connected with the external circuit electricity of stop part 132 and cigarette machine main part through gas modulation seat 110, realizes switching on of atomizing core to atomizing tobacco tar. Alternatively, the stopper 132 may correspond to a positive electrode and the gas-regulating base 110 corresponds to a negative electrode. Of course, the stopper 132 may correspond to a negative electrode, and the damper base 110 may correspond to a positive electrode. In order to avoid direct conduction between the tuning seat 110 and the stopper 132, an insulating ring 140 is provided between the tuning seat 110 and the stopper 132, thereby providing insulation between the tuning seat 110 and the stopper 132.

In one embodiment, the stop 132 has an extension 1322 extending in the axial direction of the adjustment ring, the extension 1322 passing through the adjustment seat 110 and protruding for electrical connection with an external circuit. The extensions 1322 extend through mounting holes in the base 113, and after the atomizer is mounted to the body of the cigarette maker, the extensions 1322 can be electrically connected to electrode terminals 400 of an external circuit, making electrical connection to the external circuit.

The utility model also provides an atomizer, the structure of transferring qi in the air 100 including suction nozzle, oil sump, atomizing core and any above-mentioned technical characteristic. The air regulation structure 100 is located at the bottom of the oil bin, the atomizing core is installed on the air regulation structure 100 and located in the oil bin, and the suction nozzle is installed on the oil bin.

The oil bin is used for storing the tobacco tar of the electronic cigarette, and the oil bin is located above the air regulating structure 100. It is understood that the number of the atomizing cores can be one or more. When the number of the atomizing cores is one, the air regulating structure 100 is directly installed at the bottom of the oil bin. When the quantity of atomizing core was a plurality of, the oil storehouse had a plurality of oil storage chambeies, and at this moment, the atomizer still includes the support, and the oil storehouse is installed in the support, and the atomizing core is installed in the support to be located the oil storage chamber in oil storehouse, the bottom of atomizing core is for transferring gas structure 100. The top of the oil bin is provided with an oil filling hole and a smoking channel. And the top of the atomizing core is communicated with the smoking channel which is communicated with the suction nozzle. The suction nozzle is used for a user to suck smoke. After the atomizer is installed on the cigarette machine main body, the air adjusting seat 110 of the air adjusting structure 100 is communicated with the stop part 132 through an external circuit, and controls the corresponding atomizing core to work, the atomizing core can atomize the tobacco tar in the oil bin into smoke, the smoke is input into the smoke absorbing channel and enters the suction nozzle for the user to absorb, and the action of absorbing the electronic cigarette is completed.

Optionally, the atomizing core includes a shield and an atomizing assembly. The atomization assembly is arranged in the protective cover and used for atomizing the tobacco tar in the atomizer into smoke. Because the atomizing core is installed in the oil storage intracavity, in the tobacco tar in the oil storage chamber can get into the protection casing, the tobacco tar that gets into in the protection casing then contacts with atomization component, becomes smog by atomization component atomizing, during smog gets into the smoking passageway afterwards, and then is carried to the suction nozzle and supplies the user to inhale.

In one embodiment, the atomizing assembly includes an oil guide cotton and a heating filament, the oil guide cotton is used for guiding the tobacco tar to the heating filament, and two pins of the heating filament can be electrically connected to the air adjusting base 110 and the stop member 132 respectively for atomizing the tobacco tar into smoke. The heater is the main part of atomizing tobacco tar, and after the heater circular telegram, can understand, the pin of the atomizing core of the fore-mentioned is the pin of heater. One pin of the heater is directly electrically connected to the stopper 132, and the other pin of the heater is electrically connected to the gas-adjusting base 110 through the electrically connected shield.

It should be noted that the atomizing core may also be provided with only one protective cover, and as in the above-mentioned embodiment, the protective cover may alternatively be in the shape of a polygon, a circle, an ellipse, a closed curve, or a spliced shape of a closed straight line and a closed curve. At this time, the oil guide cotton may be provided in the heating wire for guiding the soot to the heating wire.

Of course, the atomizing core may also have two protective covers. Illustratively, the shield includes an inner cover and an outer cover covering the inner cover, the inner cover is electrically connected to the outer cover, the oil guide cotton is installed between the outer cover and the inner cover, the heater is located in the inner cover, one pin of the heater is electrically connected to the stopper 132, the other pin of the heater is electrically connected to the inner cover, and the outer cover is electrically connected to the gas adjusting base 110.

Specifically, the other pin of the heater is electrically connected to the inner cover, the inner cover is electrically connected to the outer cover, and the outer cover is electrically connected to the air adjustment base 110, so that the other pin of the heater is electrically connected to the air adjustment base 110. The oil guide cotton is sleeved on the inner cover, the outer cover is covered with the oil guide cotton, and the oil guide cotton is used for storing tobacco tar and preventing excessive tobacco tar from entering the inner cover.

The tobacco tar in the oil storage cavity can enter the outer cover and be absorbed by the oil guide cotton, and then the tobacco tar can enter the inner cover through the oil guide cotton and be contacted with the heating wire in the inner cover. During the use, switch on with the external circuit of stopper 132 and cigarette machine main part through air adjusting seat 110, can control the atomizing core work that corresponds, at this moment, the heater generates heat in order to become smog with the tobacco tar atomizing, and subsequently, during smog gets into the smoking passageway, the air flue through the upper cover gets into the suction nozzle, supplies the user to inhale.

In one embodiment, the outer cover is provided with a first oil inlet hole for enabling the tobacco tar in the oil bin to enter the outer cover, and the inner cover is provided with a second oil inlet hole for enabling the tobacco tar in the outer cover to enter the inner cover and be atomized by the heating wire. The inside and the outside of first inlet port intercommunication dustcoat, like this, the tobacco tar in the oil storage chamber can get into the inside of dustcoat through first inlet port, soaks and leads the oil cotton. The second inlet port communicates the inside and outside of inner cover, like this, leads the tobacco tar in the oil cotton and can get into the inside of inner cover through the second inlet port to contact with the heater. At the moment, the heating wire can atomize the tobacco tar into smoke, the smoke can enter the smoke suction channel and then enter the suction nozzle through the upper cover for the user to suck.

It can be understood that the top of the outer cover and the top of the inner cover are positioned in the smoking channel, and the top of the outer cover and the top of the inner cover are of an open structure, so that smoke generated by the heating wire atomized smoke can flow through the openings in the tops of the outer cover and the inner cover to enter the smoking channel.

The utility model also provides an electronic cigarette, including rotary driving piece 200, cigarette machine main part and the atomizer in the above-mentioned embodiment. The rotary driving member 200 is arranged in the cigarette machine main body, after the atomizer is installed in the cigarette machine main body, the air adjusting structure 100 of the atomizer can be installed at the output end of the rotary driving member 200 to drive the air adjusting ring 120 of the air adjusting structure 100 to rotate. After the electronic cigarette adopts the atomizer of above-mentioned embodiment, can adjust the airflow that gets into the atomizing core through the structure 100 motion of transferring qi in the air of the drive atomizer of rotary driving piece 200 drive atomizer, and then adjust the play cigarette volume of electronic cigarette to satisfy different users' user demand. Alternatively, the rotary drive member 200 includes, but is not limited to, a motor, and may be other structures capable of outputting rotational motion.

The cigarette maker body includes a circuit board, which is the aforementioned external circuit, and a battery well for mounting a battery. After the battery is arranged in the battery groove, the battery is electrically connected with the circuit board to supply power for the circuit board. After the atomizer is installed on the cigarette machine main body, the circuit board can be electrically connected with the air adjusting seat 110 and the stop part 132 so as to conduct the air adjusting seat 110 and the stop part 132 and control the corresponding atomization core to work. The circuit board is located in the cigarette main body.

Optionally, the battery can be integrated with the cigarette machine main body, and at the moment, the battery can be a lithium ion rechargeable battery, so that the cigarette machine is convenient for users to use. Of course, the battery can be detachably installed in the cigarette machine main body, and at the moment, the battery can be a rechargeable battery or a disposable battery.

In one embodiment, the cigarette maker body has an atomizing base 300, the air-adjusting structure 100 is mounted on the atomizing base 300, and the atomizing base 300 can be electrically connected to the air-adjusting base 110 of the air-adjusting structure 100. The atomizing base 300 is used for mounting the air regulating structure 100. When the atomizer is installed on the cigarette machine body, the air adjusting structure 100 can be directly installed on the atomizing base 300, the atomizing base 300 can be electrically connected with the air adjusting base 110, and the atomizing base 300 is further electrically connected to the circuit board. Thus, the atomizing base 300 can electrically connect the air adjustment base 110 with the circuit board. Alternatively, the atomizing base 300 has a central region having a through hole, and the register base 110 may be installed in the through hole.

In one embodiment, the cigarette maker body also has an electrode terminal 400 and an external circuit electrically connected to the electrode terminal 400, the electrode terminal 400 for electrical connection with the stopper 132 of the atomizer mounted in the cigarette maker body. The electrode terminals 400 are disposed in the cigarette maker body and electrically connected to the circuit board. After the atomizer is mounted on the cigarette maker body, the extension 1322 of the stopper 132 may be electrically connected to the electrode terminal 400, thereby electrically connecting the stopper 132 to the circuit board. Thus, after the atomizer is installed on the cigarette machine main body, the stop part 132 is electrically connected with the circuit board through the electrode terminal 400, and the air adjusting seat 110 is electrically connected with the circuit board through the atomizing seat 300, so that the stop part 132 is communicated with the air adjusting seat 110 to control the work of the atomizing core.

In one embodiment, the cigarette maker body further has an insulating ring 500, and the insulating ring 500 is disposed between the electrode terminal 400 and the atomization seat 300. In order to avoid short circuit between the electrode terminal 400 and the atomizing base 300, the electrode terminal 400 and the atomizing base 300 are isolated by the insulating ring 500, so that short circuit is avoided, and the air adjusting base 110 and the stop piece 132 can be conducted through a circuit board, so that normal work of the atomizing core is ensured.

In one embodiment, the electronic cigarette further comprises a connector 600, wherein the connector 600 is disposed at the output end of the rotary driving member 200 and is connected with the toggle member 131 of the atomizer installed in the cigarette maker body. The connecting piece 600 is used for realizing the connection between the extending part of the stirring piece 131 and the rotary driving piece 200, the rotary driving piece 200 drives the stirring piece 131 to rotate through the connecting piece 600, and then the gas adjusting ring 120 is driven to rotate through the stirring piece 131 so as to realize the adjustment of the gas flow in the atomizing core. Alternatively, the connecting member 600 has a groove at one end and a protrusion at the other end, and the connecting member 600 is mounted to the output end of the rotary driving member 200 through the groove and connected to the extending portion 1322 of the toggle member 131 through the protrusion.

It can be understood that after the atomizer is installed on the cigarette machine body, the air adjusting structure 100 is directly installed on the atomizing base 300, at this time, the toggle member 131 is installed on the connecting member 600, the stop member 132 is electrically connected with the electrode terminal 400, and the air adjusting base 110 is electrically connected with the atomizing base 300. When the atomizer is pulled out, the air adjustment seat 110 is separated from the atomization seat 300, the stirring piece 131 is separated from the connecting piece 600, and the stop piece 132 is separated from the electrode terminal 400.

The utility model discloses an electron cigarette adopts behind the atomizer that has accent gas structure 100, can control rotary driving piece 200 and rotate, at this moment, rotary driving piece 200 can drive and dial piece 131 clockwise or anticlockwise rotation, and then dial piece 131 and can drive accent gas ring 120 clockwise or anticlockwise rotation, realize accent gas pocket 121 and the arbitrary state staggered of at least partial coincidence of inlet port 111, adjust the area that accent gas pocket 121 and inlet port 111 are linked together promptly, with the air flow of adjusting the atomizing core, and then adjust the play cigarette volume of electron cigarette, in order to satisfy the user demand that the user is different.

The technical features of the embodiments described above can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. The utility model provides a structure of transferring qi, its characterized in that is applicable to the atomizer of electron cigarette, the structure of transferring qi includes:

2. The air adjustment structure of claim 1, wherein the adjustment assembly comprises a toggle member, the toggle member is rotatably mounted on the air adjustment base and connected to the output end of the rotary driving member, the toggle member is further connected to the air adjustment ring, and the rotary driving member can drive the air adjustment ring to rotate through the toggle member when rotating.

3. The air regulating structure according to claim 2, wherein the toggle member comprises a toggle rod and an extension portion disposed on the toggle rod, the extension portion extends through the air regulating base and is rotatable relative to the air regulating base, and the extension portion is configured to be connected to the rotary driving member so that the toggle rod rotates with the rotary driving member.

4. The structure of claim 3, wherein the air adjustment ring has a mating portion, and the toggle member is in mating contact with the mating portion to rotate the air adjustment ring;

5. The air regulating structure according to claim 4, wherein the regulating assembly further comprises a stop member disposed on the air regulating seat, the stop member rotatably mounting the toggle member for limiting the rotational displacement of the toggle member;

the stop piece is provided with oppositely arranged stop blocks, and the space enclosed by the oppositely arranged stop blocks is the moving space of the toggle piece.

6. The structure of claim 5, wherein the seat comprises a base and an inner ring disposed on the base, the air inlet hole is disposed on the inner ring, the base has a mounting groove for rotatably mounting the air adjusting ring;

the air adjusting ring is sleeved on the inner ring, the inner ring is provided with a sliding groove extending along the circumferential direction, the extending length of the sliding groove is not less than the rotating displacement of the stirring piece, and the sliding groove allows the stirring piece to penetrate through and be matched with the matching part and provides a movement space for the rotation of the stirring piece.

7. The structure of claim 5, further comprising an insulating ring disposed between the gas-adjusting seat and the stop, the gas-adjusting seat being electrically connected to one pin of the atomizing core, and the stop being electrically connected to another pin of the atomizing core;

8. An atomizer, characterized in that, comprising a suction nozzle, an oil bin, an atomizing core and the air regulating structure of any one of claims 1 to 7;

9. An electronic cigarette comprising a rotary drive member, a cigarette machine body, and the atomizer of claim 8;

10. The electronic cigarette of claim 9, wherein the cigarette maker body has an atomizing base, the air-regulating structure is mounted to the atomizing base, and the atomizing base is electrically connectable to the air-regulating base of the air-regulating structure;

the cigarette maker body further having an electrode terminal for electrical connection with a stopper of the atomizer mounted in the cigarette maker body and an external circuit electrically connected with the electrode terminal;

the cigarette machine main body is further provided with an insulating ring, and the insulating ring is arranged between the electrode terminal and the atomizing seat.