法国专利FR3041477A1 BATTERY DEVICE FOR ELECTRONIC ATOMIZER

专利PDF首页>>法国专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
The present invention discloses an electronic atomizer battery device (20), comprising: an outer envelope (22), the interior of which forms a battery compartment (23), at least one battery (25) arranged in said battery compartment (23), a control circuit (26), whose input side forms a circuit connection with the batteries (25) arranged in said battery compartment (23), while its output side is connected to a an output electrode terminal (21), said control circuit (26) comprises a microcontroller (260), a mode selection module (262) for selecting the operating mode of the atomizer (10) and connected to said microcontroller (260), an adjustment module (263) for adjusting the operating parameters of the electronic atomizer (10) and connected to said microcontroller (260) and a start button (264) controlling the start-up or stopping the atomizer (10) and connected to the said microcontroller (260), wherein said selection module (262) is a multi-position switch, said multi-position switch activates the operating modes of said atomizer (10) corresponding to the different positions on which it is switched. The present invention has beneficial technical effects facilitating handling by the user.
公开号:FR3041477A1
申请号:FR1650657
申请日:2016-01-27
公开日:2017-03-24
发明作者:Jianyong Wu；Guojie Jiang；Jianhua Zhao；Weijun Xiao；Qiang Chen
申请人:Shenzhen Jieshibo Technology Co Ltd；
IPC主号:

专利说明:

Battery device for electronic atomizer
The present invention relates to a battery device, and in particular battery device for electronic atomizer.
Electronic atomizers are often used to spray perfumes or drugs and have been accepted by many users, their use is a trend. Among the common atomizers some include a battery device, these devices provide electrical energy to the atomizers, they heat the thermoelectric son of the atomizers, so that when the substances to be atomized come into contact with the thermoelectric wire, they vaporize and can to be sucked by the users. Generally, the battery devices used by the atomizers comprise a control circuit for controlling the operation of the battery device. The input side of this control circuit forms a circuit connection with the batteries, while the output side is connected with the output electrode terminal, through the electrical connection between the output electrode terminal and the atomizer. , the atomizer is supplied with electrical energy for its operation. In order to meet the needs of the users, this control circuit generally has several operating modes, such as, for example, the temperature adjustment mode or the power adjustment mode, the user can, according to his needs, select the mode of operation. operation of the electronic atomizer that suits him. Among the current techniques, the control circuits of the battery devices have operating mode selection modules and operating parameter adjustment modules, among which the mode selection modules comprise at least two mode selection keys. mutually exclusive, pressing a key activates the corresponding operating mode; the adjustment modules comprise two independent adjustment keys, press different adjustment keys to adjust the operating parameters. Because of the use of different independent keys to perform the mode selection and the adjustment of the operating parameters, when the user uses the electronic atomizer, he must often simultaneously press several keys to operate it. For example during the process of selecting the operating temperature of the electronic atomizer, it is necessary to simultaneously press the adjustment key and the mode selection key corresponding to the mode and the temperature setting, which is very inconvenient for the user.
In addition, the battery compartment valves of the current electronic atomizer battery device are often screw-fastened, so when the batteries are empty and need to be replaced, a screwdriver must be used to open and remove the compartment valve. batteries before being able to replace the batteries, which is extremely inconvenient for the user who wishes to replace the batteries.
The technical problem that the present invention must solve is to provide an electronic atomizer battery device whose handling is convenient for the user.
Another technical problem to be solved by the present invention is to provide an electronic atomizer battery device whose handling of battery replacement by the user is facilitated.
In order to solve the aforementioned technical problems, the present invention adopts the following technical plan.
An electronic atomizer battery device characterized in that said battery device comprises an outer casing, the inside of which forms the battery compartment; at least one battery arranged in said battery compartment; a control circuit, whose input side forms a circuit connection with the cells arranged in said battery compartment, while its output side is connected to an output electrode terminal, said control circuit comprises a microcontroller, a module mode selection device for selecting the operating mode of the atomizer and connected to said microcontroller, a setting module for setting the operating parameters of the electronic atomizer and connected to said microcontroller and a start button controlling the setting when running or stopping the atomizer and connected to said microcontroller, wherein said selection module is a multi-position switch, said multi-position switch activates the operating modes of said atomizer corresponding to the different positions on which he is switched.
In the aforementioned electronic atomizer battery device, the opening of said battery compartment is closed by a battery compartment valve, said battery compartment valve comprises a valve plate, said valve plate is hinged to a next to the opening of the battery compartment, and its free end forms a container part, said container part is provided with a horizontally movable snap-in element, a spring is arranged at the front end of said snap-in element, a side of the opening of said battery compartment corresponding to the free end of said valve plate forms a latching engagement, when said battery compartment door is closed on said opening of the battery compartment, said spring pushes said snap element towards the before so that the front end of said snap-in element fits into said taken e ratchet.
The beneficial technical effects of the present invention are:
Said battery device used on electronic atomizer uses a multi-position switch as an operating mode selection switch, switching this multi-position switch to different positions enables the corresponding modes of operation via the action of the microcontroller and to select different modes of operation. When using the electronic atomizer, the multi-position switch can be switched to a position and select the corresponding operating mode, the operating parameters can then be adjusted using the adjustment module, which significantly increases the ease of handling. In addition, when the batteries need to be replaced, the user can pull the snap-in element backwards so that the front end of the snap-in element disengages from the snap-in and the battery-chamber door opens. opens to replace the batteries. After battery replacement is complete, the battery compartment door can be pushed forward so that the front end of the snap-in element fits into the snap-in socket and the battery door flap is closed. closed. Thus the user does not need to use a tool such as the screwdriver to open and close the battery compartment door, which facilitates the handling of replacement batteries.
FIG. 1 shows the structural diagram of the electronic atomizer, FIG. 2 is a sectional view of a battery device according to one embodiment of the invention, FIG. 3 is a sectional view of the battery device when the battery compartment flap is open, according to one embodiment of the invention, FIG. 4 is a perspective view of the battery device when the battery compartment flap is open, according to one embodiment of the invention. FIG. 5 represents the diagram of the principle of the control circuit of the battery device according to one embodiment of the invention, FIG. 6 represents the connection diagram of the rotary multi-position switch with the microcontroller, FIG. is a sectional view of the battery compartment valve of the battery device.
In order to clarify to a person skilled in the art the technical problem to be solved by the present invention as well as its technical plan and its technical beneficial effects, a more detailed description of the present invention combined with the appended figures and embodiments is given herein. -Dessous.
As seen in FIG. 1, the electronic atomizer comprises an atomizer 10 and a battery device 20 connected to said atomizer 10. Said battery device 20 is provided with an output electrode terminal 21 and said atomizer 10 is provided with an input electrode terminal 11 matched to said output electrode terminal 21. In the embodiment shown in the accompanying figures, said output electrode terminal 21 uses a female threaded electrode terminal, while the input electrode terminal 11 uses a paired male threaded electrode terminal. Said input electrode terminal 11 is screwed to said output electrode terminal 21 and forms an electrical connection between said atomizer 10 and said battery device 20, so that said battery device 20 provides a power supply to said atomizer 10, and heats the thermoelectric wire (not shown in FIG. 1) of the atomizer 10.
As seen in FIGS. 2 to 6, the battery device 20 of the electronic atomizer comprises an outer casing 22, a battery compartment 23 formed inside said outer casing 22, a battery compartment clapper 24 closing said battery compartment 23 at the opening of the battery compartment 230, at least one battery 25 arranged in said battery compartment 23 and a control circuit 26 arranged inside said outer envelope 22. In a preferred embodiment said outer casing 22 is of rectangular shape, furthermore its longitudinal angles are treated to be rounded, which increases the comfort in the hands of said battery device 20.
The input side of said control circuit 26 and the batteries 25 installed in said battery compartment 23 form a circuit connection, while the output side is connected to said output electrode terminal 21, and serves to control the operation of said device battery operated 20.
Fig. 5 shows an embodiment of the control circuit 26, in this embodiment. Said control circuit 26 comprises a microcontroller 260 (Microcontroler Unit MCU), a display module 261 intended to display the operating mode of the electronic atomizer and connected to said microcontroller 260, a mode selection module 262 intended to select the operating mode of the atomizer and connected to said microcontroller 260, an adjustment module 263 for adjusting the operating parameters of the electronic atomizer and connected to said microcontroller 260, a start button 264 controlling the start-up or at the stopping the atomizer and connected to said microcontroller 260, a booster-booster circuit 266 connected to said microcontroller 260 via a PWM control circuit 265 and a current detecting circuit 267 connected to the output side of said booster-booster circuit 266 and for detecting the output current, wherein the interior of said microcontroller 260 is provided with an electronic atomizer multiple operation module, an output of said cells 25 is connected to said microcontroller 260 and provides a power supply to said microcontroller 260, the other output is connected to the input side of said booster-booster circuit 266, a once the voltage regulated by said booster-booster circuit 266, the output is sent to the atomizer 10 to actuate the heating of the thermoelectric wire of the atomizer 10. Said microcontroller 260 produces a control signal depending on the operating mode selected by said mode selection module 262 and according to the operating parameters determined by said setting module 263 and sent to said PWM control circuit 265, the PWM control circuit 265 produces and sends, as a function of said control signal, a PWM pulse signal to said booster-booster circuit 266 to control the operation thereof Thus, said microcontroller 260 adjusts the control signal supplied to said PWM control circuit 265 as a function of the output current parameters detected by the detection circuit 266 and thus adjust the output voltage to the atomizer 10. Simultaneously, said microcontroller 260 adjusts the control signal to said PWM control circuit 265. current 267 to adjust the voltage of said booster-boost circuit 266 to the defined values.
In some embodiments, the microcontroller based on the Cotex M3 processor produced by ARM can be used for said microcontroller 260. Of course, those skilled in the art understand that the control circuit 26 used by the battery device 20 does not Although not limited to the embodiment shown in FIG. 5, various embodiments may use control circuits 26 with modules for different functions.
In some embodiments, said mode select module 262 is a multi-position rotary switch. Switching this multi-position rotary switch to different positions enables the pins of the corresponding operating modes of the microcontroller 260 and activates a signal to thereby select different modes of operation. FIG. 3 shows a mode of connection of a multi-position rotary switch with the microcontroller 260. The common port of this multi-position rotary switch is connected to a supply voltage Vcc, for example the + 3V supply voltage. provided by the batteries 25, and the terminals of the multiple positions are respectively connected to the pins (I / O pins) of the multiple operating modes of said microcontroller 260. The user can, by rotating said multi-position rotary switch in different positions, send an activation signal to the corresponding I / O pin of the microcontroller and activate the corresponding operating mode of the electronic atomizer.
In certain preferred embodiments, a circular adjustment member 2620 is attached to the axis of rotation of said multi-position rotary switch, said circular adjustment member 2620 is arranged on one side of said outer envelope 22, to provide control. manipulating said multi-position rotary switch. Preferably, said start button 264 is arranged at the center of said circular regulating member 2620, whereby the arrangement of the multi-position rotary switch and the start button 264 on the outer shell 22 is denser, which facilitates the manipulation by rutilisateur.
In the embodiments shown in the accompanying figures, the multi-position rotary switch is used as the mode selection module 262, while in other embodiments, other types of multi-position switches such as the multi-position rocker switches are used instead of the multi-position rotary switch as the mode selection module 262.
As seen in the accompanying figures, in some embodiments, said adjustment module 263 is a thumb wheel switch, the fan-shaped adjustment member 2630 of said wheel switch emerges from one side of said outer envelope 22 to provide a thumb wheel switch for user manipulations. The rotary switch is used as an adjustment module 263 to adjust the operating parameters of the electronic atomizer, in comparison with current techniques where two independent adjustment keys are used to adjust the operating parameters, its use is more convenient.
During operation, the operating mode of the electronic atomizer is selected by means of said mode selection module 262 and the operating parameters of the electronic atomizer are selected by means of said adjustment module 263, said microcontroller 260 produces a signal based on the aforementioned mode and operating parameters and when said start button 264 is pressed and the electronic atomizer is turned on, it sends this control signal to said PWM control circuit 265, which produces a signal of PWM pulse and sends it to said booster-booster circuit 266 to control the conduction / shutdown of said booster-booster circuit 266 and thus adjust the output voltage of said batteries 25 to the atomizer 10 to activate the heating of the wire thermoelectric device 10. Once the electronic atomizer is running, said detection circuit of current 267 detects the output-side current of said booster-booster circuit 266 in real time and then transmits the detected current parameters to said microcontroller 260, said microcontroller 260 adjusts the output control signal accordingly, thereby adjusting the output voltage of said device battery operated 20.
In some preferred embodiments, a low voltage regulator 268 is inserted between said batteries 25 and said microcontroller 260 and stabilizes the voltage sent by said cells 25 to said microcontroller 260 to prevent output voltage fluctuations of said batteries from being damaged. said microcontroller 260.
Said battery device 20 uses the multi-position switch as the mode selection module of the control circuit 26. Switching this multi-position switch to different positions enables the corresponding operating modes via the action of the microcontroller 260 and to select different modes of operation. When using the electronic atomizer, the multi-position switch can be switched to a position to select the corresponding operating mode, and then the operating parameters can be set using the adjustment module 263, which significantly increases the ease of handling.
In combination with FIG. 7, said battery compartment valve 24 comprises a plate of the valve 240, the connection end 241 of said valve plate 240 is hinged to one side of the battery compartment opening 230, and its free end 242 forms a container portion 243. Said container portion 243 is provided with a snap-in element 244 horizontal mobility, a spring 245 is arranged at the front end 2440 of said snap-in element 244. One side of the opening of said battery compartment 230 corresponding to the free end 242 of said valve plate 240 forms a latching engagement 231. When said battery compartment valve 24 is closed on said battery compartment opening 230, said spring 245 pushes said element snap 244 forward so that the front end 2441 of said snap-in member 244 fits into said socket 231, which allows to fix in place said valve battery compartment 24.
When the batteries 25 are to be replaced, the user can pull the snap-on element 244 backwards, said snap-in element 244 compresses said spring 245 by moving it backwards, the front end 2441 of the snap-in element 244 is disengaged from the latching engagement 231, so the battery compartment door 24 opens and the batteries can be replaced. Once battery replacement is complete, the battery compartment valve 24 can be pushed forward so that the front end 2441 of the snap-in element 244 fits into the snap-in receptacle 231 and the flapper battery compartment 24 is closed again. Thus the user does not need to use a tool such as the screwdriver to open and close the battery compartment door 24, which facilitates the handling of replacement batteries 25.
As seen in FIG. 7, in some preferred embodiments, the central portion of said snap-in member 244 stretches to form a pinch-retained portion 2442 emerging from the valve plate 240, said pinch-retained portion 2442 allows user to hold it to pull said snap-in member 244 backwards. Preferably, the front side of said pinch-retained portion 2442 forms a recess 2443, by virtue of the arrangement of said recess 2443, the user can more firmly retain said pinch-retained portion 2442, thereby making it easier to pull said snap-in member 244.
As seen in FIG. 7, in some preferred embodiments, the apex of the front end 2441 of said snap-in member 244 includes a bevel 2444. During the closing process of the battery compartment flap 24, the edge of said snap-in engagement 231 exerts pressure on said snap-in member 244 along said bevel 2444, such that said snap-in member 244 moves rearwardly and retracts into said valve plate 240.
Preferably, rechargeable lithium batteries may be chosen for said batteries 25, which have the advantages of being high specific energy and reusable, however the skilled person understands that other types of batteries such as dry cells can be used as batteries 25.
The foregoing constitutes preferred embodiments of the present invention and does not constitute a limitation of any kind to the present invention. Those skilled in the art can make all kinds of modifications and improvements based on the above-mentioned embodiments, any change or modification made within the scope of the claims is within the scope of protection of the present invention.

权利要求:
Claims (12)
[1" id="c-fr-0001]
An electronic atomizer battery device characterized in that said battery device (20) comprises: an outer envelope (22), the interior of which forms the battery compartment (23); at least one battery (25) arranged in said battery compartment (23); a control circuit (26), whose input side forms a circuit connection with the cells (25) arranged in said battery compartment (23), while its output side is connected to an output electrode terminal (21); ), said control circuit (26) comprising a microcontroller (260), a mode selection module (262) for selecting the operating mode of the atomizer (10) and connected to said microcontroller (260), a module of a setting (263) for setting the operating parameters of the electronic atomizer (10) and connected to said microcontroller (260) and a start button (264) controlling the starting or stopping of the atomizer ( 10) and connected to said microcontroller (260), wherein said selection module (262) is a multi-position switch, said multi-position switch for activating the modes of operation of said atomizer (10) corresponding to the diffs erent positions on which it is switched.
[2" id="c-fr-0002]
An electronic atomizer battery device according to claim 1, characterized in that said multi-position switch is a multi-position rotary switch or a multi-position rocker switch.
[3" id="c-fr-0003]
An electronic atomizer battery device according to claim 1, characterized in that said multi-position switch is a multi-position rotary switch, a circular adjustment element (2620) is attached to the rotational axis of said rotary switch with multiple positions, said circular regulating element (2620) is arranged on one side of said outer shell (22).
[4" id="c-fr-0004]
An electronic atomizer battery device according to claim 3, characterized in that said start button (264) is arranged at the center of said circular adjustment member (2620).
[5" id="c-fr-0005]
An electronic atomizer battery device according to claim 1, characterized in that said adjustment module (263) is a thumb wheel switch, the fan-shaped adjustment member (2630) of said wheel switch emerges from one side of said outer shell (22).
[6" id="c-fr-0006]
The electronic atomizer battery device according to claim 1, characterized in that said control circuit (26) further comprises a display module (261) for displaying the operating mode of the electronic atomizer (10). ) and connected to said microcontroller (260), a booster-boost circuit (266) connected to said microcontroller (260) via a PWM control circuit (265), wherein an output of said batteries is connected to said microcontroller (260) and provides the supplying power to said microcontroller (260), another output is connected to the input of said booster-booster circuit (266), once the voltage is regulated by said booster-booster circuit (266) the output is sent to the atomizer (10) ), said microcontroller (260) generates a signal according to the operating mode selected by said mode selection module (262) and according to the operating parameters determined by said adjusting module (263) and sending it to said PWM control circuit (265), the PWM control circuit (265) generates and sends, as a function of this control signal, a PWM pulse signal to said booster-booster circuit (266) to control the operation of said booster-booster circuit (266) and thereby adjust the output voltage to the atomizer (10).
[7" id="c-fr-0007]
The electronic atomizer battery device according to claim 6, characterized in that said control circuit (26) further comprises a current detecting circuit (267) connected to the output side of said booster-boost circuit (266) and for detecting the output current, said microcontroller (260) adjusts the control signal supplied to said PWM control circuit (265) according to the output current parameters detected by the current detection circuit (267), and adjusts the electrical voltage of said booster-boost circuit (266) at set values.
[8" id="c-fr-0008]
The electronic atomizer battery device according to claim 7, characterized in that a low voltage regulator (268) is inserted between said cells (25) and said microcontroller (260).
[9" id="c-fr-0009]
The electronic atomizer battery device according to claim 1, characterized in that the opening of the battery compartment (23) is closed by a battery compartment valve (24), said battery compartment valve (24). comprises a valve plate (240), said valve plate (240) is hinged to one side of the battery compartment opening (230), and its free end (242) forms a container portion (243), said container portion (243) is provided with a horizontally movable snap-in member (244), a spring (245) is arranged at the front end of said snap-in member (244), one side of the opening of said battery compartment ( 230) corresponding to the free end (242) of said valve plate (240) forms a latching engagement (231), when said battery compartment door (24) is closed over said battery compartment opening (230). ), said spring (245) pushes the said snap-fit member (244) forwards so that the front end of said snap-in member (244) fits into said snap-in socket (231).
[10" id="c-fr-0010]
The electronic atomizer battery device according to claim 9, characterized in that the central portion of said snap-in member (244) stretches to form a pinch-retained portion (2442) emerging from the valve plate (240).
[11" id="c-fr-0011]
An electronic atomizer battery device according to claim 10, characterized in that the front side of said pinch-retained portion (2442) forms a recess (2443).
[12" id="c-fr-0012]
12. Electronic atomizer battery device according to any one of claims 9, 10 or 11, characterized in that the vertex of the front end (2441) of said snap-in element (244) comprises a bevel (2444).

类似技术:

公开号 | 公开日 | 专利标题

FR3041477A1|2017-03-24|BATTERY DEVICE FOR ELECTRONIC ATOMIZER

FR2850863A3|2004-08-13|Massage apparatus for massaging a computer user whilst at the computer has connection to the USB port of a computer

US8267736B2|2012-09-18|Animal bubble assembly

KR101249792B1|2013-04-03|A power saving outleet which cut off standby power at standby mode

EP1215976B1|2004-01-07|Hand-held electrical appliance such as a hair drier provided with position adjustable control members

KR20130127309A|2013-11-22|A power saving outleet which cut off standby power at standby mode

EP2475465A1|2012-07-18|Packaging and dispensing device including a miniature electric pump

CN210494671U|2020-05-12|Portable sterilizer

KR101550333B1|2015-09-08|Digital control type electronic cigarette

US11051792B2|2021-07-06|Sperm sampler driving device

US20190191771A1|2019-06-27|Automatic manual battery assembly and electronic cigarette thereof

CN208568601U|2019-03-01|A kind of Raman spectrum pretreating device

FR3025656A3|2016-03-11|PULSE GENERATOR FOR DELETING BATTERY SULFATATION

CN205337606U|2016-06-29|Electron is power supply and electron cigarette for cigarette

FR2626452A1|1989-08-04|Scent diffuser for motor vehicle

HUE034479T2|2018-02-28|Hand-held device for electrically powered skin treatment

FR2885777A1|2006-11-24|Make-up case, has time delay control circuit ensuring automatic extinction of diodes, push button arranged inside cover, and regulating unit with roller acting on potentiometer for controlling light intensity of diodes

EP3389436B1|2019-08-14|Vorrichtung zur behandlung von menschlichen keratinsubstanzen

JP3234882U|2021-11-11|Infrared sensing soap dispenser

JP2012070829A|2012-04-12|Cosmetic instrument

JPWO2007011035A1|2009-02-05|Spraying equipment

FR2943223A1|2010-09-24|Conditioning device for anticellulite fluid product, has electric switch actuated by displacement of movable part between open and closed positions, and electric system operating based on state of electric switch

CN208573193U|2019-03-05|A kind of ion electric brush head and ion cleaning device

CN212591474U|2021-02-26|Intelligent plain water cup

JP3629269B2|2005-03-16|Ion supply apparatus having a bristle

同族专利:

公开号 | 公开日

US20170079327A1|2017-03-23|

CN205199822U|2016-05-04|

RU2015150532A|2017-05-29|

GB201522162D0|2016-01-27|

GB2542642A|2017-03-29|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US2844270A|1956-08-24|1958-07-22|Joseph W Kepka|Clothes pin box|

AT214575T|1993-06-29|2002-04-15|Ponwell Entpr Ltd|DONOR|

US5564442A|1995-11-22|1996-10-15|Angus Collingwood MacDonald|Battery powered nicotine vaporizer|

KR100289448B1|1997-07-23|2001-05-02|미즈노 마사루|Flavor generator|

US6342822B1|2000-11-28|2002-01-29|Fairchild Semiconductor Corporation|Method and apparatus for implementing improved pulse width modulation|

US20140339213A1|2010-10-21|2014-11-20|Fan Bao|LED Torch|

US8548633B2|2010-11-30|2013-10-01|Bayco Products, Inc.|Battery pack control circuit for handheld battery operated device|

KR101057774B1|2010-12-13|2011-08-19|신종수|Electronic cigarette|

KR20130027255A|2011-09-07|2013-03-15|삼성전자주식회사|Key assembly and rotary input device using the same|

US8820330B2|2011-10-28|2014-09-02|Evolv, Llc|Electronic vaporizer that simulates smoking with power control|

US8872048B2|2011-11-22|2014-10-28|Nidec Motor Corporation|Illuminated thumbwheel switch assembly|

US8881737B2|2012-09-04|2014-11-11|R.J. Reynolds Tobacco Company|Electronic smoking article comprising one or more microheaters|

US9629394B2|2013-04-09|2017-04-25|Alan Benet Aronie|Portable vaporizer with central pin heater having heat diffuser-mixer blades|

US9076610B2|2013-12-10|2015-07-07|Visteon Global Technologies, Inc.|Rotary knob assembly|

US20150257451A1|2014-03-13|2015-09-17|Terry Brannon|Vapor device with switch assembly|

EP2941970B1|2014-04-28|2021-03-10|Shenzhen First Union Technology Co., Ltd.|Aerosol inhaling device|

CN203986114U|2014-06-27|2014-12-10|深圳市艾维普思科技有限公司|The electronic cigarette of a kind of mechanical MOD and magnetic induction pattern integrative-structure|

CN203986130U|2014-07-30|2014-12-10|深圳市艾维普思科技有限公司|Single double mode adjustable electronic cigarette|US10244793B2|2005-07-19|2019-04-02|Juul Labs, Inc.|Devices for vaporization of a substance|

US10279934B2|2013-03-15|2019-05-07|Juul Labs, Inc.|Fillable vaporizer cartridge and method of filling|

US10058129B2|2013-12-23|2018-08-28|Juul Labs, Inc.|Vaporization device systems and methods|

US10159282B2|2013-12-23|2018-12-25|Juul Labs, Inc.|Cartridge for use with a vaporizer device|

US10512282B2|2014-12-05|2019-12-24|Juul Labs, Inc.|Calibrated dose control|

US20160366947A1|2013-12-23|2016-12-22|James Monsees|Vaporizer apparatus|

US10076139B2|2013-12-23|2018-09-18|Juul Labs, Inc.|Vaporizer apparatus|

DE202017007467U1|2016-02-11|2021-12-08|Juul Labs, Inc.|Fillable vaporizer cartridge|

US10405582B2|2016-03-10|2019-09-10|Pax Labs, Inc.|Vaporization device with lip sensing|

JP1584537S|2016-07-06|2017-08-28|

CN206005954U|2016-08-29|2017-03-15|卓尔悦欧洲控股有限公司|A kind of electronic cigarette of manual-automatic integrated|

EP3547861B1|2016-12-02|2021-01-20|VMR Products LLC|Combination vaporizer|

CN110191735A|2016-12-12|2019-08-30|Vmr产品有限责任公司|Evaporator|

EP3743977A1|2018-01-26|2020-12-02|Juul Labs, Inc.|Charging case assembly|

US11094993B2|2018-08-10|2021-08-17|Rai Strategic Holdings, Inc.|Charge circuitry for an aerosol delivery device|

法律状态:
2017-01-11| PLFP| Fee payment|Year of fee payment: 2 |

2018-11-02| ST| Notification of lapse|Effective date: 20180928 |

优先权:

申请号 | 申请日 | 专利标题

CN201520736458.3U|CN205199822U|2015-09-22|2015-09-22|A battery device for electronic fog spinning disk atomiser|

[返回顶部]