CN211268657U - Electronic cigarette and atomizer thereof - Google Patents

Abstract

The utility model provides an electron cigarette and atomizer thereof. The atomizer includes: the oil bin is provided with a smoking channel, and the atomizing core is arranged in the oil bin and used for atomizing the tobacco tar in the oil bin into smoke and outputting the smoke through the smoking channel; the electrode connecting structure is arranged at the bottom of the oil bin; the electrode connecting structure comprises a base and a communication piece; the main control board is used for storing the atomizing core and parameter information corresponding to the tobacco tar, and the communication piece is arranged on the main control board; after the atomizer is installed in the cigarette machine body, the communication member may transmit the parameter information to a control member of the cigarette machine body. Make the power supply of cigarette machine main part can be adjusted according to the parameter information of atomizing core and corresponding tobacco tar by the control for the power supply of cigarette machine main part is best output, guarantees the taste of atomizing core atomizing tobacco tar, and convenience of customers uses, promotes user experience.

Description

Electronic cigarette and atomizer thereof

Technical Field

The utility model relates to a simulation cigarette field especially relates to an electron cigarette and atomizer 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.

The existing electronic cigarette needs to replace the atomizing core regularly to keep normal use, and sometimes different types of atomizing cores need to be selected according to the type selection of tobacco tar so as to obtain the optimal taste. However, the parameters of the atomizing core and the parameters of the tobacco tar are not completely the same, and the current electronic cigarette cannot realize the automatic adjustment of the power supply, so that the mouth feel of tobacco tar atomization is influenced, and the user experience is influenced.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide an electronic cigarette capable of automatically adjusting power supply and an atomizer thereof, aiming at the problem that the current electronic cigarette cannot automatically adjust power supply to affect the taste of tobacco tar atomization.

The above purpose is realized by the following technical scheme:

an atomizer adapted to be mounted to a cigarette maker body of an electronic cigarette, the atomizer comprising:

an oil sump having a smoking channel,

the atomizing core is arranged in the oil bin and used for atomizing the tobacco tar in the oil bin into smoke and outputting the smoke through the smoke sucking channel;

the electrode connecting structure is arranged at the bottom of the oil bin; the electrode connecting structure comprises a base and a communication piece, wherein the base is used for mounting the atomizing core; and

the main control board is used for storing the atomizing core and the parameter information corresponding to the tobacco tar, and the communication piece is arranged on the main control board;

after the atomizer is installed in the cigarette machine body, the communication member may transmit the parameter information to a control member of the cigarette machine body.

In one embodiment, the communication member includes a communication terminal that is electrically connected to the main control panel, and the communication terminal is also electrically connected to the control member when the atomizer is installed in the cigarette machine body.

In one embodiment, the communication part comprises a communication module, and the communication module is integrated in the main control board and is used for being in communication connection with the control part.

In one embodiment, the oil bin is provided with at least two independent oil storage cavities, and each oil storage cavity is provided with one atomizing core;

the number of the communication pieces is equal to that of the atomization cores, the main control board stores parameter information of the atomization cores and corresponding tobacco tar respectively, and the parameter information can be transmitted to the control piece through the corresponding communication pieces.

In one embodiment, the electrode connecting structure further comprises a first electrode arranged on the base and a second electrode different from the first electrode, the first electrode is electrically connected with one pin of the atomizing core, the second electrode is electrically connected with the other pin of the atomizing core, and after the atomizer is installed on the cigarette machine body, the first electrode and the second electrode can be electrically connected to a control part of the cigarette machine body.

In one embodiment, the number of the second electrodes is multiple, one pin of each atomizing core is connected to the first electrode, the other pin of each atomizing core is connected to multiple second electrodes, and the first electrode is selectively conducted with at least one second electrode to control the corresponding atomizing core to work.

In one embodiment, the first electrode is located in the middle region, the circumference of the first electrode surrounds each atomizing core, and the second electrode is located between the two atomizing cores.

In one embodiment, the communication is between the first electrode and the second electrode.

In one embodiment, the atomizer further comprises a protective sleeve with a positioning part, the outer wall of the oil bin is provided with a matching part, the protective sleeve is installed at the bottom of the oil bin and is fixed with the matching part through the protective sleeve, and the base is covered with the protective sleeve.

In one embodiment, the atomizer further comprises a suction nozzle, and the suction nozzle is mounted on the oil bin, communicated with the smoking channel and used for outputting atomized smoke.

In one embodiment, the atomizing core comprises an atomizing cover and an atomizing component arranged in the atomizing cover, the atomizing cover is provided with an oil inlet, and the tobacco tar in the oil bin is contacted with the atomizing component through the oil inlet so as to atomize the tobacco tar into smoke.

An electronic cigarette comprises a cigarette machine main body and a atomizer according to any one of the technical characteristics;

the cigarette machine main part has atomizing seat and control, the atomizer is installed in the atomizing seat, the control is arranged in receiving the atomizing core and the parameter information that corresponds the tobacco tar of communication part transmission in the atomizer, and according to parameter information matches the power supply of atomizing core.

In one embodiment, when the number of the atomizing cores is at least two, the control part controls the corresponding atomizing core to work according to the parameter information transmitted by at least one communication part, and the working power of the corresponding atomizing core is matched according to at least one parameter information.

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

the utility model discloses an electron cigarette and atomizer thereof, atomizer are installed behind the cigarette machine main part, and communication part can be connected with the control of cigarette machine main part to transmit the atomizer of storage in the main control board and the parameter information who corresponds the tobacco tar for the control, the control can be according to the power supply power that received parameter information confirmed the cigarette machine main part and provided for the atomizing core. The problem of effectual solution present electron cigarette can't realize power supply automatic regulation and influence the tobacco tar atomizing taste for the power supply of cigarette machine main part can be adjusted according to atomizing core and the parameter information that corresponds the tobacco tar by the control, makes the power supply of cigarette machine main part be best output, guarantees the taste of atomizing core atomizing tobacco tar, and convenience of customers uses, promotes user experience.

Drawings

Fig. 1 is a cross-sectional view of an atomizer in accordance with an embodiment of the present invention;

FIG. 2 is an exploded view of the atomizer shown in FIG. 1;

fig. 3 is a perspective view of the atomizer shown in fig. 1.

Wherein:

100-an atomizer;

110-an oil bin;

111-a smoking channel;

112-oil holes;

113-a mating portion;

120-an atomizing core;

121-a shield;

122-a heating wire;

123-oil cotton;

130-electrode connection structure;

131-a base;

132-a communication;

133-a first electrode;

134-a second electrode;

140-a main control board;

150-a cover plate;

160-a suction nozzle;

170-oil injection cover;

180-protective sleeve;

181-positioning section.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the electronic cigarette and the atomizer thereof of the present invention are further described in detail by embodiments and with reference to the accompanying drawings. 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. 1-3, the present disclosure provides an atomizer 100. The atomizer 100 is adapted to be mounted in the body of a cigarette maker of an electronic cigarette. It will be appreciated that the atomizer 100 is also referred to herein as a cartridge. Atomizer 100 installs behind the cigarette machine main part, and atomizer 100 switches on with the cigarette machine main part, and at this moment, the cigarette machine main part can control atomizer 100 work to make the tobacco tar atomization in atomizer 100 be smog, for the user inhales. The utility model discloses an atomizer 100 can give the cigarette machine main part with the parameter information transmission of atomizing core 120 and corresponding tobacco tar to make the power supply of cigarette machine main part can be adjusted according to atomizing core 120 and the parameter information that corresponds the tobacco tar by the control, and then make the power supply of cigarette machine main part be best output, guarantee the taste of atomizing core 120 atomizing tobacco tar, convenience of customers uses, promotes user experience.

In one embodiment, the atomizer 100 includes an oil sump 110, an atomizing core 120, an electrode connecting structure 130, and a main control board 140. The oil sump 110 has a smoking channel 111. The atomizing core 120 is disposed in the oil bin 110, and is configured to atomize the tobacco tar in the oil bin 110 into a smoke, and output the smoke through the smoking channel 111. The electrode connecting structure 130 is disposed at the bottom of the oil bin 110; the electrode connecting structure 130 includes a base 131 and a communication member 132, the base 131 being used to mount the atomizing core 120. The main control board 140 is used for storing the atomizing core 120 and the parameter information of the corresponding tobacco tar, and the communication piece 132 is arranged on the main control board 140. After the nebulizer 100 is installed in the cigarette machine body, the communication member 132 can transmit parameter information to the controls of the cigarette machine body.

The oil bin 110 is used for storing the tobacco tar of the electronic cigarette, the oil bin 110 is installed above the electrode connecting structure 130, and the atomizing core 120 is electrically connected to the electrode connecting structure 130 and is located in the oil bin 110. The top of the oil sump 110 has an oil filling hole 112 and a smoking passage 111. After the atomizer 100 is installed in the cigarette machine main body, the atomizing core 120 is conducted with a control part of the cigarette machine main body through the electrode connecting structure 130 to control the atomizing core 120 to work, so that the atomizing core 120 atomizes the tobacco tar in the oil bin 110 into smoke, and the smoke is input into the smoking channel 111 for a user to smoke, and the action of smoking the electronic cigarette is completed.

The main control board 140 is used for storing the parameter information of the atomizing core 120 and the parameter information of the tobacco tar in the oil bin 110 corresponding to the atomizing core 120. Optionally, the communication member 132 is disposed in the base 131, and the main control board 140 is disposed in the base 131. Further, the base 131 has an installation cavity, the main control board 140 is arranged in the installation cavity, the atomizer 100 further comprises a cover plate 150, the cover plate 150 covers the base 131, so that the sealing performance of the installation cavity is guaranteed, the tobacco tar in the oil bin 110 above the base 131 is prevented from entering the installation cavity, and the reliable operation of the main control board 140 is guaranteed. And, the main control board 140 is installed with a communication part 132 for realizing parameter information transmission. After the atomizer 100 is installed in the body of a cigarette machine, the atomizer 100 is electrically connected to the control members of the body of the cigarette machine via the electrode connection structure 130, and meanwhile, the communication member 132 may establish a connection relationship with the control members of the body of the cigarette machine to transmit the parameter information of the atomizing core 120 and the corresponding parameter information of the tobacco tar to the control members. It is understood that the connection relationship here is an electrical connection or a communication connection. Therefore, the control part can adjust the power supply power of the control part to the atomizing core 120 according to the parameter information of the atomizing core 120 and the parameter information of the tobacco tar, so that the power supply power of the cigarette machine main body is the optimal output power, and the taste of the tobacco tar atomized by the atomizing core 120 is ensured.

It can be appreciated that the aerosol core 120 may have different mouthfeel when it atomizes the tobacco smoke with different power. Therefore, in order to ensure the mouthfeel of the atomized tobacco oil into smoke, the main body of the cigarette maker needs to provide the optimal power supply to the atomizing core 120, so that the atomization works under the control of the power supply. Accordingly, after storing the parameter information of the atomizing core 120 and the parameter information of the tobacco tar on the main control panel 140, the parameter information is transmitted via the communication member 132 after the atomizer 100 is installed in the body of the cigarette maker, so that the control member adjusts the appropriate power supply according to the parameter information. Optionally, the main control board 140 is a PCB board or an integrated chip.

After the atomizer 100 of the above-described embodiments is installed in the body of a cigarette machine, the communication member 132 may be connected to the control member of the body of a cigarette machine to transmit the parameter information of the atomizer 100 and the corresponding tobacco tar stored in the main control board 140 to the control member, which can determine the power supply power provided by the body of a cigarette machine to the atomizing core 120 according to the received parameter information. The problem of effectual solution present electron cigarette can't realize power supply automatic regulation and influence the tobacco tar atomizing taste for the power supply of cigarette machine main part can be adjusted according to atomizing core 120 and the parameter information who corresponds the tobacco tar by the control, makes the power supply of cigarette machine main part be best output, guarantees the taste of atomizing core 120 atomizing tobacco tar, and convenience of customers uses, promotes user experience.

In one embodiment, the atomizer 100 further comprises a suction nozzle 160, wherein the suction nozzle 160 is installed in the oil sump 110 and is communicated with the smoking channel 111 for outputting atomized smoke. The mouthpiece 160 is used for the user to inhale smoke. The top of the atomizing core 120 is in communication with the smoking channel 111, and the smoking channel 111 is in communication with the mouthpiece 160. After the atomizer 100 is installed on the cigarette making machine main body, the atomizing core 120 is conducted with a control part of the cigarette making machine main body through the electrode connecting structure 130 to control the atomizing core 120 to work, so that the atomizing core 120 atomizes the tobacco tar in the oil bin 110 into smoke, and inputs the smoke into the smoking channel 111 and enters the suction nozzle 160 for a user to smoke, thereby completing the action of smoking the electronic cigarette.

Optionally, the atomizer 100 further comprises an oil filling cap 170, and the oil filling cap 170 is covered in the oil filling hole 112 to ensure the sealing performance of the oil filling hole 112. When the upper cover is opened, the oil bin 110 can be filled with the tobacco tar through the oil hole 112, and after the filling, the oil hole 112 is covered with the oil cover 170. In use, the cover is closed, and the mist generated by the atomizing core 120 is introduced into the mouth of the user through the smoking channel 111 and the mouthpiece 160. It is understood that the bottom of the oil bin 110 has an opening for facilitating the installation of the atomizing core 120, so that the pins of the atomizing core 120 are electrically connected to the electrode connecting structures 130 through the openings, respectively. Further, atomizer 100 still includes the sealing washer, and the sealing washer sets up between oil bin 110 and base 131 for guarantee the sealing performance of the bottom of oil bin 110, avoid the tobacco tar to reveal.

In one embodiment, the electrode connecting structure 130 further includes a first electrode 133 disposed on the base 131 and a second electrode 134 that is different from the first electrode 133, the first electrode 133 is electrically connected to one pin of the aerosol wick 120, the second electrode 134 is electrically connected to another pin of the aerosol wick 120, and the first electrode 133 and the second electrode 134 can be electrically connected to controls of the body of the cigarette machine after the atomizer 100 is installed in the body of the cigarette machine. In this way, the control member can conduct the atomizing core 120 through the first electrode 133 and the second electrode 134 to control the atomizing core 120 to work, so as to atomize the tobacco tar into the smoke.

Alternatively, the first electrode 133 may be a positive electrode or a negative electrode, and the second electrode 134 has a polarity opposite to that of the first electrode 133. That is, when the first electrode 133 is a positive electrode, the second electrode 134 is a negative electrode; when the first electrode 133 is a negative electrode, the second electrode 134 is a positive electrode. In this embodiment, the first electrode 133 is a negative electrode, the second electrode 134 is a positive electrode, the two pins of the atomizing core 120 are respectively a positive electrode pin and a negative electrode pin, and the atomizing core 120 is electrically connected to the first electrode 133 through the negative electrode pin and electrically connected to the second electrode 134 through the positive electrode pin.

In one embodiment, the atomizing core 120 includes a shield 121 and an atomizing assembly. The atomizing assembly is disposed within the shield 121 for atomizing the tobacco tar in the atomizer 100 into a mist. Because the atomizing core 120 is installed in the oil bin 110, the tobacco tar in the oil bin 110 can enter the protective cover 121, the tobacco tar entering the protective cover 121 contacts with the atomizing assembly, the tobacco tar is atomized into smoke by the atomizing assembly, and then the smoke enters the smoking channel 111 and is conveyed to the suction nozzle 160 for the user to suck.

In one embodiment, the atomizing assembly includes an oil guide cotton 123 and a heating filament 122, the oil guide cotton 123 is used for guiding the soot to the heating filament 122, and two pins of the heating filament 122 can be electrically connected to the first electrode 133 and the second electrode 134 respectively for atomizing the soot into smoke. The heating wire 122 is a main component for atomizing the smoke oil, and after the heating wire 122 is powered on, it can be understood that the aforementioned pin of the atomizing core 120 is the pin of the heating wire 122. The two pins of the heating wire 122 may be electrically connected to the first electrode 133 and the second electrode 134, respectively. One leg of the heating wire 122 is electrically connected directly to the second electrode 134, and the other leg of the heating wire 122 is electrically connected to the first electrode 133 through the electrically connected shield 121.

It should be noted that the atomizing core 120 may also employ only one protection cover 121, and as in the above embodiment, optionally, the protection cover 121 is in the shape of a polygon, a circle, an ellipse, a closed curve, or a closed straight-line and curved-line spliced type. At this time, the oil guide cotton 123 may be disposed in the heating wire 122 for guiding the soot to the heating wire 122.

Of course, the atomizing core 120 may also have two protective covers 121. Illustratively, the shield 121 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 123 is installed between the outer cover and the inner cover, the heater 122 is located in the inner cover, one pin of the heater 122 is electrically connected to the second electrode 134, the other pin of the heater 122 is electrically connected to the inner cover, and the outer cover is electrically connected to the first electrode 133.

One leg of the heating wire 122 is directly electrically connected to the second electrode 134, and the other leg of the heating wire 122 is electrically connected to the first electrode 133 through the electrically connected outer and inner covers. Specifically, the other pin of the heater 122 is electrically connected to the inner cover, the inner cover is electrically connected to the outer cover, the outer cover is electrically connected to the bracket, and the bracket is electrically connected to the first electrode 133, so that the other pin of the heater 122 is electrically connected to the first electrode 133. The oil guide cotton 123 is sleeved on the inner cover, the outer cover is covered with the oil guide cotton 123, and the oil guide cotton 123 is used for storing the tobacco tar and preventing the excessive tobacco tar from entering the inner cover.

The tobacco tar in the oil storage chamber can enter the outer cover and be absorbed by the oil guide cotton 123, and then the tobacco tar can enter the inner cover through the oil guide cotton 123 and contact with the heating wire 122 in the inner cover. When the cigarette atomizing device is used, the first electrode 133, the second electrode 134 and a control part of the cigarette machine main body are conducted, the corresponding atomizing core 120 can be controlled to work, at the moment, the heating wire 122 generates heat to atomize tobacco tar into smoke, and then the smoke enters the smoking channel 111 and enters the suction nozzle 160 through the air passage of the upper cover so as to be smoked by a user.

In one embodiment, the outer cover has a first oil inlet hole for allowing the soot in the oil bin 110 to enter the outer cover, and the inner cover has a second oil inlet hole for allowing the soot in the outer cover to enter the inner cover and be atomized by the heater 122. 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 oil cotton 123. The second oil inlet hole communicates the inside and the outside of the inner cover, so that the smoke oil in the oil guide cotton 123 can enter the inside of the inner cover through the second oil inlet hole and contact the heating wire 122. At this time, the heating wire 122 can atomize the tobacco tar into smoke, and the smoke can enter the smoking channel 111 and then enter the suction nozzle 160 through the upper cover for the user to suck.

It will be appreciated that the top of the outer and inner covers are located in the smoking passage 111, and the top of the outer and inner covers are open structure, so that the smoke generated by the heating wire 122 atomizing the smoke can flow through the openings in the top of the outer and inner covers into the smoking passage 111.

In one embodiment, the parameter information of the atomizing core 120 includes, but is not limited to, the type of the heating wire 122 used by the atomizing core 120, the optimal operating power of the heating wire 122, the type of the oil guide cotton 123, and the like. The parameter information of the tobacco tar includes, but is not limited to, the type of tobacco tar, the power of atomizing the tobacco tar, and the like. Before the atomizer 100 is shipped, the main control board 140 stores the parameter information of the atomizing core 120 and the parameter information of the tobacco tar contained therein.

In one embodiment, the communication member 132 is electrically connected to control members of the cigarette maker body to enable the transmission of data information. Specifically, the communication member 132 includes communication terminals that are electrically connected to the main control board 140 and that are also electrically connected to the control member when the atomizer 100 is installed in the body of the cigarette maker. One end of the communication terminal is electrically connected to the main control board 140, and the other end protrudes through the base 131. After the atomizer 100 is installed in the body of the cigarette machine, the communication terminal may be electrically connected to the control member, and at this time, the communication terminal may transmit the parameter information stored in the main control board 140 to the control member, so that the control member adjusts the output power of the power supply according to the parameter information.

Alternatively, the communication terminal is an electrode contact, a plug, a PIN, or other type of component that enables the main control board 140 to be electrically connected to the control member. Correspondingly, the control panel is provided with a connecting seat matched with the communication terminal, and the communication terminal is arranged in the connecting seat so as to ensure that the communication terminal is electrically connected with the control piece reliably. Of course, in the present embodiment, the structure of the communication terminal is the same as that of the connection terminal of the electrode connection structure 130, which will be described in detail later.

In one embodiment, the communication member 132 is in communication with the control member of the cigarette maker body to effect the transmission of data information. Specifically, the communication element 132 includes a communication module integrated with the main control board 140 for communicating with the control element. Of course, the communication module is also detachably mounted to the main control board 140. The cigarette machine main body is provided with a signal transmission module which can be in communication connection with the communication module, and the communication module can transmit the parameter information stored in the main control panel 140 to the control element, so that the control element can adjust the output power supply according to the parameter information.

Exemplarily, fig. 1 to 3 of the present embodiment illustrate only a case where the atomizer 100 has one atomizing core 120. The atomizer 100 has an atomizing core 12, and correspondingly, the oil chamber 110 has a cavity for installing the atomizing core 120 and containing the tobacco tar. Also, the electrode connection structure 130 has a first electrode 133 and a second electrode 134.

Of course, in another embodiment of the present invention, the atomizer 100 may comprise at least two atomizing cores 120. Specifically, the oil sump 110 has at least two independent oil chambers, and one atomizing core 120 is installed in each oil chamber. The number of the communication pieces 132 is equal to the number of the atomizing cores 120, the main control board 140 stores the parameter information of each atomizing core 120 and the corresponding tobacco tar, and the parameter information can be transmitted to the control pieces through the corresponding communication pieces 132.

The number of the atomizing cores 120 is equal to the number of the oil storage chambers, namely, the atomizing cores 120 are arranged in each oil storage chamber, and the space of the oil storage chambers outside the atomizing cores 120 is used for storing the tobacco tar. It will be appreciated that each oil storage chamber corresponds to one oil hole 112 and the smoking channel 111, and the atomizing core 120 is used for atomizing the smoke in the corresponding oil storage chamber, and the generated smoke enters the corresponding smoking channel 111 and enters the mouthpiece 160. When the residual amount of the tobacco tar in the oil storage cavity is insufficient, the tobacco tar is added through the corresponding oil filling hole 112.

And, one communication member 132 for each atomizing core 120. The main control board 140 stores parameter information of each atomizing core 120 and parameter information of the tobacco tar corresponding to the atomizing core 120. Each set of parameter information corresponds to a communication 132. When the corresponding atomizing core 120 is electrically connected with the control member through the electrode connecting structure 130, the communication member 132 corresponding to the atomizing core 120 is also electrically connected with the control member, the communication member 132 can transmit the parameter information corresponding to the conductive atomizing core 120 to the control member, and the control member adjusts the power supply of the cigarette machine main body so as to control the atomizing core 120 to work under the control of the optimal power supply through the electrode connecting structure 130, so that the heating wire 122 is at the optimal working power, and the atomized smoke is ensured to produce the optimal taste.

Further, at least two oil storage cavities are used for storing tobacco tar with the same or different taste. That is, the flavors of the tobacco tar stored in the oil storage chambers may be the same or different, or the flavors of the tobacco tar in some oil storage chambers may be the same, and the flavors of the tobacco tar in the rest oil storage chambers may be different. Therefore, the user can select the atomizing core 120 corresponding to the tobacco tar with the required taste to work according to actual needs, and the device is convenient and practical.

In one embodiment, the atomizer 100 includes a partition plate located in the oil sump 110 for partitioning the oil sump 110 into a plurality of oil storage chambers. The partition plate can perform a separating function, and is used for separating the cavity in the oil bin 110 into a plurality of oil storage chambers and ensuring that the oil storage chambers are independent and not communicated with each other. Can make the different tobacco tar of oil storage chamber storage taste like this to guarantee that the tobacco tar can not reveal to other oil storage chambeies in, in order to guarantee the taste of tobacco tar. It will be appreciated that each reservoir corresponds to a single oil hole 112 and a single smoking channel 111. Thus, the oil storage chamber can be replenished with smoke through the corresponding oil filling hole 112, and atomized smoke is output through the corresponding smoking passage 111.

In one embodiment, the shape of the partition plate is a cross, a Y shape, an S line shape, a curved line splicing type, a straight line splicing type or a straight line and curved line splicing type. For example, the shape of the partition plate is a cross, and in this case, the partition plate can partition the oil bin 110 into four oil storage chambers, and the four oil storage chambers can store tobacco tar with the same or different tastes, or two of the four oil storage chambers can store tobacco tar with the same taste, and the other two oil storage chambers can store tobacco tar with different tastes. Of course, the shape of the partition plate may also be Y-shaped, and in this case, the partition plate may divide the oil bin 110 into three oil storage chambers. The utility model discloses an among other embodiments, the shape of division board still can be for S line type, curve concatenation type, straight line and curve concatenation type etc. as long as the division board can be with the cavity partition formation independent oil storage chamber of oil bunker 110 can.

Of course, in other embodiments of the present invention, the oil bin 110 has a plurality of open slots, and the open slots are oil storage cavities. That is, the oil bin 110 is an integral structure, and a plurality of open slots are formed in the oil bin 110, the open slots are oil storage cavities for storing the smoke oil, and the open slots are used for installing the atomizing core 120.

The atomizer 100 of the above-mentioned embodiment corresponds different oil storage chambeies through each atomizing core 120 for each oil storage chamber can save the tobacco tar of different tastes, realizes the mixed smoking of different taste tobacco tar, satisfies the different demands of user. In addition, by arranging and combining the atomizing cores 120 in the oil storage cavities and controlling different atomizing cores 120 to work through a control piece, not only can the single atomizing core 120 work be realized, but also a plurality of atomizing cores 120 can work, and users with different requirements can be used to produce different smoking tastes.

In an embodiment, the number of the second electrodes 134 is multiple, one pin of each atomizing core 120 is connected to the first electrode 133, another pin of each atomizing core 120 is connected to the multiple second electrodes 134, and the first electrode 133 is selectively conducted with at least one second electrode 134 to control the operation of the corresponding atomizing core 120.

The two pins of the atomizing core 120 are electrically connected to the first electrode 133 and the second electrode 134, respectively. Specifically, one of the pins of each atomizing core 120 is folded into the first electrode 133 at the same time, so as to electrically connect with the first electrode 133, that is, each atomizing core 120 shares the same first electrode 133. The other pin of each atomizing core 120 is respectively folded into the plurality of second electrodes 134, so as to realize the electrical connection with the second electrodes 134. Since there is no other electrical connection between the first electrode 133 and the second electrode 134 except for the electrical connection established through the two pins of the atomizing core 120, the two electrodes are open-circuited. When the atomizer 100 is installed in the cigarette machine main body of the electronic cigarette, the electrode connecting structure 130 can be electrically connected to the control part in the cigarette machine main body, at this time, the first electrode 133 can be electrically connected to the conductive end in the control part, and the second electrode 134 can also be electrically connected to the conductive end in the control part, so that the first electrode 133 and the second electrode 134 are conducted through an external circuit, and further the first electrode 133 and the second electrode 134 are electrified, the atomizing core 120 can work, the tobacco tar in the atomizer 100 is heated, and the tobacco tar is atomized into smoke and is inhaled from the suction nozzle 160 of the atomizer 100 by a user.

The number of the second electrodes 134 is plural, and the plural second electrodes 134 correspond to the plural atomizing cores 120, respectively. After the atomizer 100 is installed in the body of a cigarette maker, the control member may control which second electrode or electrodes 134 are in communication with the first electrode 133 via the control member. When a user smokes the electronic cigarette, the user can control which one or more second electrodes 134 are conducted with the first electrode 133, so that the at least one atomizing core 120 works, and thus the user can select the tobacco tar with the proper taste to smoke according to actual needs and can also select the tobacco tar with at least two tastes to mix.

In one embodiment, the first electrode 133 is located in the middle region, the atomizing cores 120 are disposed around the first electrode 133, and the second electrode 134 is located between the two atomizing cores 120.

In one embodiment, each second electrode 134 is electrically connected to another pin of one atomizing core 120. That is, the number of the second electrodes 134 is equal to the number of the atomizing cores 120, and each of the second electrodes 134 may be electrically connected to the atomizing core 120 one-to-one. Therefore, one atomizing core 120 can be prevented from corresponding to a plurality of second electrodes 134, and one second electrode 134 can be prevented from corresponding to a plurality of atomizing cores 120, so that a plurality of circuits which are not interfered with each other are formed, and a single circuit or a plurality of circuit combination modes are realized.

In one embodiment, each second electrode 134 is electrically connected to another pin of at least two atomizing cores 120. That is, one second electrode 134 may be connected to at least two atomizing cores 120, so that the number of the second electrodes 134 may be reduced, and at least two atomizing cores 120 connected to the same second electrode 134 may form a parallel circuit, so that the at least two atomizing cores 120 may operate simultaneously. For example, one second electrode 134 is electrically connected to the other pins of the two atomizing cores 120, and the number of the second electrodes 134 can be reduced by half without affecting the operation of the atomizer 100.

Still alternatively, a part of the second electrodes 134 corresponds to another pin of one atomizing core 120, and another part of the second electrodes 134 corresponds to another pin of at least two atomizing cores 120. This allows the electrode connecting structure 130 to have both an independent circuit and a parallel circuit, so that when a user selects only one flavor of tobacco tar, a single atomizer 100 can be selected to operate; when a user selects tobacco oil with various tastes or inhales a large amount of smoke, the second electrode 134 which can be connected with the atomizing core 120 in parallel can be selected to be connected, and a plurality of independent second electrodes 134 can also be connected.

Alternatively, the first electrode 133 and the second electrode 134 may also be electric conductors made of an electrically conductive material, so that the atomizing core 120 is electrically connected to the control member.

In one embodiment, the first electrode 133 is located in the middle region, and the atomizing cores 120 are disposed around the first electrode 133. That is, the first electrode 133 is located at the central region of the base 131, and each atomizing core 120 is located at the edge of the base 131. It will be appreciated that the atomizing cores 120 are located on the same circumference. Therefore, the occupied space of each atomizing core 120 can be reduced, and meanwhile, the pins of each atomizing core 120 can be directly bent inwards to the first electrode 133, so that the pins of each atomizing core 120 are conveniently and electrically connected with the first electrode 133. In other embodiments of the present invention, each atomizing core 120 may also be distributed in a polygonal shape, an oval shape, etc., which will be described in detail later.

In one embodiment, the second electrode 134 is positioned between two atomizing wicks 120. That is, there is one second electrode 134 between the two atomizing cores 120. This may reduce the footprint and thus the overall size of the nebulizer 100. The second electrode 134 may correspond to one atomizing core 120, or may correspond to at least two atomizing cores 120. Of course, in other embodiments of the present invention, the second electrode 134 may not be located between the two atomizing cores 120. For example, the plurality of second electrodes 134 are located on the circumference side of the atomizing core 120 away from the first electrode 133, and correspond to the connected atomizing core 120. That is, each second electrode 134 is located outside each atomizing core 120.

In the present embodiment, the number of the second electrodes 134 is equal to that of the atomizing cores 120, and the second electrodes 134 are disposed alternately with the atomizing cores 120. That is, one second electrode 134 corresponds to one atomizing core 120, and the second electrodes 134 are spaced and staggered with respect to the atomizing cores 120, and each atomizing core 120 and each second electrode 134 are located on the same circumference.

In one embodiment, the communication member 132 is located between the first electrode 133 and the second electrode 134. The first electrode 133 is located at a central region of the base 131, the respective communication members 132 are located at outer sides of the first electrode 133, and the respective second electrodes 134 are located at outer sides of the respective communication members 132. For example, when the number of the communication members 132 and the number of the second electrodes 134 are four, the first electrode 133 is located at the central position, the four communication members 132 and the four second electrodes 134 are arranged in a square shape, the four second electrodes 134 are located at the outer circle, and the four communication members 132 are located at the inner circle. Of course, when the number of the communication member 132 and the second electrode 134 is one, the communication member 132 is located in the middle area, and the first electrode 133 and the second electrode 134 are respectively located at both sides of the communication member 132.

In one embodiment, the electrode connecting structure 130 further includes a plurality of connecting terminals mounted to the second electrode 134 for electrically connecting with the control member. The connection terminal has a conductive property, and after the connection terminal is installed on the second electrode 134, the second electrode 134 can be electrically connected with the control member. The connection terminals may facilitate the series or parallel connection of the atomizing cores 120. Specifically, the connection terminals may connect the second electrodes 134 corresponding to the atomizing cores 120 to each other, so as to connect the atomizing cores 120 in parallel or in series.

The connection terminal is used to extend the length of the second electrode 134, and may be used as a conductive portion of the second electrode 134 to protrude out of the base 131 for facilitating electrical connection with the control member. After the connecting terminal is arranged, the connecting terminal can be electrically connected with the second electrode 134 and the control piece, the reliability of the electrical connection of the second electrode 134 and the control piece is guaranteed, the problem that the second electrode 134 and the control piece are not firmly connected is avoided, and the normal work of the electronic cigarette is guaranteed. In this way, the cigarette machine body effects operation of the controlled atomization wick 120 through control of the connection terminals.

The number of the connection terminals is plural, and the plural connection terminals correspond to the plural atomizing cores 120 through the plural second electrodes 134, respectively. After the atomizer 100 is installed in the body of a cigarette maker, the control member may control which second electrode or electrodes 134 are electrically connected to the control member via the connection terminals so that the second electrodes 134 are in electrical communication with the first electrodes 133. Therefore, the user can select the tobacco tar with proper taste for smoking according to the actual requirement, and can also select at least two flavors for mixing.

The utility model discloses an electrode connection structure 130 adopts the principle of sharing first electrode 133, and two pins of atomizing core 120 are connected the setting with first electrode 133 and second electrode 134 respectively, and wherein, every second electrode 134 all is connected the setting with solitary connecting terminal to make second electrode 134 and connecting terminal one-to-one.

In other embodiments of the present invention, the connection terminal may be provided only on the first electrode 133; of course, the connection terminals may be disposed on the first electrode 133 and the second electrode 134, respectively.

In one embodiment, each connection terminal is electrically connected to one second electrode 134. That is, the number of the connection terminals is equal to the number of the second electrodes 134, the number of the second electrodes 134 is equal to the number of the atomizing cores 120, each of the second electrodes 134 may be electrically connected to one of the atomizing cores 120 one by one, and each of the second electrodes 134 is electrically connected to one of the connection terminals. Therefore, one connecting terminal can be prevented from corresponding to a plurality of second electrodes 134, and one second electrode 134 can be prevented from corresponding to a plurality of connecting terminals, so that a plurality of non-interfering circuits can be formed, and a single circuit or a plurality of circuit combinations can be realized. When the atomization core 120 is used, the connection terminals are in contact with the control part of the cigarette machine main body, one or more connection terminals are controlled to be communicated with the first electrode 133 through the control part, and then the second electrode 134 is communicated with the first electrode 133 to control the corresponding atomization core 120 to work.

In one embodiment, each connection terminal is connected to at least two second electrodes 134. That is, one connection terminal may connect at least two atomizing cores 120. This may allow for parallel connection of atomizing cores 120. When the atomization core 120 is used, the connection terminals are in contact with the control part of the cigarette machine main body, one or more connection terminals are controlled to be communicated with the first electrode 133 through the control part, and then the second electrode 134 is communicated with the first electrode 133 to control the corresponding atomization core 120 to work. It is understood that at least two atomizing cores 120 may be electrically connected to the same second electrode 134, and the second electrode 134 is electrically connected to one connection terminal; it is also possible that each atomizing core 120 is electrically connected to one second electrode 134, and at least two second electrodes 134 are electrically connected to one connection terminal.

In one embodiment, the connection terminal includes a contact portion and a connection portion electrically connected to each other, the connection portion is used for contacting the second electrode 134, and the contact portion is used for electrically connecting to the control element. The contact portion is installed in the electrode hole of the base 131, and the connection portion is installed above the contact portion and electrically connected to the second electrode 134, thereby electrically connecting to one pin of the atomizing core 120. After the atomizer 100 is installed on the cigarette machine main body, the second electrode 134 is electrically connected with the control member through the connecting portion and the contact portion, so that the second electrode is conducted with the first electrode 133, and the corresponding atomization core 120 is controlled to work.

In an embodiment, the connection terminal further includes an elastic member disposed between the contact portion and the connection portion, for enabling the contact portion to move in a direction away from the connection portion when the contact portion is connected to the control member. The elastic member is in a stretched state. When the atomizer 100 is installed in the cigarette maker body, the elastic member stretches to push the contact portion toward a direction away from the connection portion, so that the contact portion is electrically connected with the control member through elastic pressing in the contact process, at this time, the contact portion tightly abuts against the control member, so that the electrical connection between the second electrode 134 and the control member is firmer, and the power-off condition cannot occur in use. Alternatively, the elastic member includes, but is not limited to, a spring, and may be other members capable of elastically pressing and electrically connecting.

In an embodiment, the atomizer 100 further includes a protective sleeve 180 having a positioning portion 181, the outer wall of the oil bin 110 has a matching portion 113, the protective sleeve 180 is installed at the bottom of the oil bin 110 and fixed with the matching portion 113 through the protective sleeve 180, and the protective sleeve 180 covers the base 131. The protective sleeve 180 is sleeved on the bottom of the oil bin 110 and wraps the base 131. The protective sleeve 180 is used for connecting the oil bin 110 and the base 131 into a whole, so that the base 131 is prevented from falling from the bottom of the oil bin 110, and the working reliability of the atomizer 100 is ensured. Further, the protective sleeve 180 has through holes corresponding to the first electrode 133, the second electrode 134 and the communication member 132, so that the first electrode 133, the second electrode 134 and the communication member 132 are exposed to facilitate electrical connection with the control member. Exemplarily, the positioning portion 181 and the fitting portion 113 are fitting structures of a clip and a clip hole, and of course, in other embodiments of the present invention, the protection sleeve 180 may also be fixed to the oil sump 110 by an interference fit manner or a screwing manner.

The utility model also provides an electronic cigarette, including the atomizer 100 in cigarette machine main part and any above-mentioned embodiment. The cigarette machine main body is provided with an atomizing seat and a control part, the atomizer 100 is installed in the atomizing seat, and the control part is used for receiving the atomizing core 120 transmitted by the communication piece 132 in the atomizer 100 and the parameter information of the corresponding tobacco tar, and matching the power supply power of the atomizing core 120 according to the parameter information. The utility model discloses an electronic cigarette adopts foretell atomizer 100 back, can receive the parameter information of the atomizing core 120 and the tobacco tar of being transmitted by communication piece 132 for the control can adjust the power supply of cigarette machine main part output according to parameter information, makes the best power supply of cigarette machine main part output, and then atomizing core 120 atomizes the tobacco tar under best power supply, so that smog produces the best taste.

In one embodiment, the control component includes a microprocessor and an external circuit thereof, and after the microprocessor receives the parameter information of the atomizing core 120 and the parameter information of the tobacco tar, the microprocessor adjusts the power supply of the cigarette machine body and controls the atomizing core 120 in cooperation with the external circuit, so that the smoke generates the best taste and the user experience is improved. After the atomizer 100 is installed on the cigarette machine body, the communication member 132 can transmit the parameter information of the atomizing core 120 and the parameter information of the tobacco tar to the microprocessor, the microprocessor processes the parameter information to obtain the optimal power supply power corresponding to the operation of the atomizing core 120, and then the microprocessor controls the power supply power output by the cigarette machine body through an external circuit to control the operation of the atomizing core 120. And, the microprocessor can also control which second electrodes 134 are conducted with the first electrode 133 according to the use requirement.

The atomizing base is used to mount the atomizer 100. In one embodiment, the atomizing base fixes the atomizer 100 in a clamping manner, a magnetic attraction manner, or an interference manner. It will be appreciated that the atomizer 100 is insertedly mounted in the atomizing mount. In order to ensure reliable fixation of the atomizer 100 in the atomizing base, the atomizer 100 may be embedded in the atomizing base, so as to prevent the atomizer 100 from loosening when the electronic cigarette is smoked. Alternatively, the atomizer 100 may be installed by interference when it is inserted into the atomizing base. Optionally, the atomizing base has a first suction part therein, the atomizer 100 has a second suction part, and after the atomizer 100 is installed in the atomizing base, the second suction part of the atomizer 100 can cooperate with the first suction part in the atomizing base, so that the atomizer 100 is reliably fixed in the atomizing base. Alternatively, the atomizer 100 may be fixed to the atomizing base by means of a snap fit or the like. Of course, the atomizer 100 may also be rotatably mounted to the atomizing base.

In an embodiment, when the number of the atomizing cores 120 is at least two, the control component controls the corresponding atomizing core 120 to operate according to the parameter information transmitted by the at least one communication member 132, and matches the operating power of the corresponding atomizing core 120 according to the at least one parameter information. When a user needs to suck the smoke with single taste, the control part is connected with one of the communication parts 132, and the communication part 132 can transmit the parameter information to the control part, so that the control part adjusts the required power supply of the atomizing core 120 according to the parameter information and controls the atomizing core 120 to work through the conduction of the first electrode 133 and the second electrode 134. When the control piece is used for sucking a large amount of smoke or multi-taste smoke, the control piece is electrically connected with the at least two communication pieces 132, the at least two communication pieces 132 respectively transmit the parameter information of the corresponding atomizing cores 120 and the parameter information of the corresponding tobacco tar to the control piece, the control piece adjusts the power supply of the at least two atomizing cores 120 according to the at least two sets of parameter information, and the corresponding atomizing cores 120 are controlled to work through the conduction of the first electrodes 133 and the corresponding at least two second electrodes 134.

The utility model discloses an electronic cigarette passes through the control and receives the parameter information of atomizing core 120 and the parameter information of tobacco tar in atomizer 100, and according to the power supply power of received parameter information adjustment cigarette machine main part, and, the control still switches on atomizing core 120 through first electrode 133 and second electrode 134, with control atomizing core 120 work under this power supply power, in order to obtain the best smog taste, make the electronic cigarette intelligent, convenience of customers uses.

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 (10)

1. An atomizer, characterized in that, be suitable for and install in the cigarette machine main part of electron cigarette, the atomizer includes:

an oil sump having a smoking channel,

the atomizing core is arranged in the oil bin and used for atomizing the tobacco tar in the oil bin into smoke and outputting the smoke through the smoke sucking channel;

the electrode connecting structure is arranged at the bottom of the oil bin; the electrode connecting structure comprises a base and a communication piece, wherein the base is used for mounting the atomizing core; and

the main control board is used for storing the atomizing core and the parameter information corresponding to the tobacco tar, and the communication piece is arranged on the main control board;

after the atomizer is installed in the cigarette machine body, the communication member may transmit the parameter information to a control member of the cigarette machine body.

2. The nebulizer of claim 1, wherein the communication member comprises a communication terminal that is electrically connected to the main control board, the communication terminal further being electrically connectable with the control member when the nebulizer is mounted to the cigarette machine body.

3. The nebulizer of claim 1, wherein the communication member comprises a communication module integrated with the main control board for communicative connection with the control member.

4. The atomizer according to any one of claims 1 to 3, wherein said oil reservoir has at least two separate oil reservoirs, one of said atomizing cores being mounted in each of said oil reservoirs;

the number of the communication pieces is equal to that of the atomization cores, the main control board stores parameter information of the atomization cores and corresponding tobacco tar respectively, and the parameter information can be transmitted to the control piece through the corresponding communication pieces.

5. The nebulizer of claim 4, wherein the electrode connecting structure further comprises a first electrode disposed on the base and a second electrode distinct from the first electrode, the first electrode being electrically connected to one pin of the nebulizing cartridge and the second electrode being electrically connected to another pin of the nebulizing cartridge, the first and second electrodes being electrically connectable to a control of the body of the cigarette machine.

6. The atomizer according to claim 5, wherein the number of the second electrodes is plural, one pin of each atomizing core is connected to the first electrode, the other pin of each atomizing core is connected to the plural second electrodes, and the first electrode is selectively conducted with at least one of the second electrodes to control the corresponding atomizing core to operate.

7. The atomizer of claim 6, wherein said first electrode is located in a central region, said first electrode circumferentially surrounding each of said atomizing wicks, said second electrode being located between two of said atomizing wicks.

8. A nebulizer as claimed in claim 7, wherein the communication is located between the first electrode and the second electrode.

9. The atomizer of any one of claims 1 to 3, further comprising a protective sleeve having a positioning portion, wherein the outer wall of the oil sump has a fitting portion, the protective sleeve is mounted at the bottom of the oil sump and fixed with the fitting portion through the protective sleeve, and the protective sleeve covers the base.

10. An electronic cigarette comprising a cigarette machine body and a nebulizer of any one of claims 1 to 9;

the cigarette machine main part has atomizing seat and control, the atomizer is installed in the atomizing seat, the control is arranged in receiving the atomizing core and the parameter information that corresponds the tobacco tar of communication part transmission in the atomizer, and according to parameter information matches the power supply of atomizing core.

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