法国专利FR3019443A1 DEVICE FOR ADJUSTING A QUANTITY OF NICOTINE INHALED BY A USER AND PORTABLE TERMINAL COMMUNICATING

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专利摘要:
The device (10) for adjusting a quantity of nicotine inhaled by a user comprises: two reservoirs (105, 110), a first reservoir (105) comprising a liquid having a lower nicotine density than a liquid a second reservoir (110), each liquid being configured to evaporate when this liquid is heated beyond a predetermined limit temperature, - means (115) for inhalation, by the user, of the liquid vapor s' evaporating, from each reservoir, two heating resistances (120, 125), each reservoir being associated with a heating resistor, means (130) for determining a quantity of nicotine to be vaporized, means (135) controlling the heating of each resistor to independently actuate each resistor according to the amount of nicotine to be determined, the actuation of the resistor associated with the first reservoir being an increasing function e the quantity of nicotine to be sprayed determined.
公开号:FR3019443A1
申请号:FR1401963
申请日:2014-09-03
公开日:2015-10-09
发明作者:Alexandre Scheck；Philippe Lemail；Vincent Devos；Joseph Elkhoury；Murat Suna；Celine Kayal
申请人:Agece Ecole Centrale D Electronique；
IPC主号:

专利说明:

[0001] TECHNICAL FIELD OF THE INVENTION The present invention relates to a device for adjusting a quantity of nicotine inhaled by a user and a communicating portable terminal. It applies, in particular, to the withdrawal of nicotine in an individual smoker using an electronic cigarette.
[0002] STATE OF THE ART The use of an electronic cigarette is recognized as one of the means of achieving a cessation of an individual's dependence on nicotine. However, in current systems, e-cigarettes are likely to replace conventional cigarettes due to the lack of weaning from these systems. In current systems, the nicotine withdrawal of an individual through an electronic cigarette is based solely on that individual's ability to discipline themselves. It is well known that, because of the mechanisms of nicotine addiction, the will of the individual alone is frequently insufficient in the long run. OBJECT OF THE INVENTION The present invention aims to remedy all or part of these disadvantages.
[0003] For this purpose, according to a first aspect, the present invention provides a device for adjusting a quantity of nicotine inhaled by a user, which comprises: two reservoirs, a first reservoir comprising a liquid having a lower nicotine density than a liquid a second reservoir, each liquid being configured to evaporate when the liquid is heated beyond a predetermined limit temperature, means for inhalation, by the user, vapor vapor evaporating liquid, from each reservoir, two heating resistors, each reservoir being associated with a heating resistor, a means for determining an amount of nicotine to be vaporized, a means for controlling the heating of each resistance to independently actuate each resistance according to the quantity of nicotine to be determined, the actuation of the resistance associated with the second reservoir being a function issante of the amount of nicotine spray determined. Thanks to these provisions, the amount of nicotine inhaled by a user of the device is modulated by the heating of the first or second liquid, each of these liquids having a different nicotine density. In this way, the amount of inhaled vapor is, at each inhalation, identical but the nicotine share in the inhaled vapor is different at each inhalation. In embodiments, the device that is the subject of the present invention comprises means for accessing a user profile, the means for determining a quantity of nicotine to be sprayed determining the quantity as a function of data of the user profile. . The advantage of these embodiments is that they make it possible to adapt the quantity of nicotine to a typical user profile or to a particular data of a user having entered morphological and / or medical information in a profile. In embodiments, the determining means determines a quantity of nicotine to be vaporized according to a timestamp data associated with a start of the device.
[0004] These embodiments have the advantage of allowing to adjust the amount of nicotine at a time of the day. In embodiments, the determining means determines an increasing amount of nicotine, relative to the last determined amount of nicotine, when the timestamp data is the first timestamp datum greater than a predetermined time. The advantage of these embodiments is that they allow, for example in the morning, to increase the quantity of inhaled nicotine.
[0005] In embodiments, the determining means determines a globally decreasing amount of nicotine as a function of the timestamp data. These embodiments have the advantage of allowing weaning of the user. In embodiments, the device which is the subject of the present invention comprises means for detecting an inhalation frequency of the user on the inhalation means, the determining means determining the quantity of nicotine as a function of the frequency. Inhalation detected.
[0006] The advantage of these embodiments is to allow, when the user has a marked lack of nicotine, for example during a party, to increase the amount of inhaled nicotine. In embodiments, the device that is the subject of the present invention comprises a means of capturing an alcohol concentration of the user, the determining means determining the quantity of nicotine to be vaporized as a function of the alcohol concentration. These embodiments have the advantage, when a detected alcohol concentration is lower than a predetermined limit value, to allow to increase the concentration of the user by inhalation of a larger quantity of nicotine.
[0007] In embodiments, the device comprises a means for capturing a datum representative of a temperature in at least one reservoir, the control means controlling the heating of the resistance associated with each said reservoir as a function of the temperature sensed. . The advantage of these embodiments is that they make it possible to detect a dysfunction of a resistor for example. In addition, these embodiments make it possible to take into account the characteristic cooling time of each resistor. According to a second aspect, the present invention is directed to a communicating portable terminal, which comprises: a means for determining information representative of a quantity of nicotine to be vaporized and a means of transmission, to a device according to one of the Claims 1 to 8, information representative of a quantity of nicotine to be sprayed object of the present invention. The advantages, aims and particular characteristics of this communicating portable terminal being similar to those of the device for adjusting a quantity of nicotine inhaling object of the present invention, they are not recalled here. BRIEF DESCRIPTION OF THE FIGURES Other advantages, aims and particular characteristics of the invention will emerge from the following nonlimiting description of at least one particular embodiment of the device and the terminal objects of the present invention, with reference to the accompanying drawings. , in which: FIG. 1 represents, schematically and in section, a particular embodiment of the device that is the subject of the present invention; FIG. 2 is a diagrammatic sectional view of a particular embodiment of the terminal that is the subject of the present invention and FIG. 3 represents, schematically and in section, a particular flow diagram of the process of the present invention.
[0008] DESCRIPTION OF EXAMPLES OF EMBODIMENT OF THE INVENTION The present description is given in a non-limiting manner. FIG. 1, which is not to scale, shows a sectional view of an embodiment of the device 10 which is the subject of the present invention. This device 10 comprises: two reservoirs 105 and 110, a first reservoir 105 comprising a liquid having a lower nicotine density than a liquid a second reservoir 110, each liquid being configured to evaporate when this liquid is heated beyond a predetermined temperature limit, a means 115 for inhalation, by the user, vapor vapor of liquid, from each reservoir, 105 and 110, two resistors, 120 and 125, heating, each reservoir, 105 and 110, being associated with a heating resistor, 120 and 125, a means 130 for determining a quantity of nicotine to be vaporized, a means 135 for controlling the heating of each resistor, 120 and 125, a means 140 access to a user profile, means 145 for detecting an inhalation frequency of the user on the inhalation means 115, means 150 for capturing a user's blood alcohol level and means 155 catching a do representative of a temperature in at least one tank, 105 and 110. The two tanks, 105 and 110, are, for example two tanks of identical dimensions configured to be transportable in a device of dimensions comparable to those of an electronic cigarette . These tanks, 105 and 110, for example, have dimensions to contain 6 ml of liquid each. Each of these reservoirs, 105 and 110, comprises a cavity, not shown, allowing the insertion of a heating resistor, 120 and 125. A heating resistor, 120 or 125, is associated with each reservoir, 105 or 110, so that when a heating resistor, 120 or 125, is heated, only the liquid contained in the associated tank 105 or 110 is heated. In variants, the two tanks, 105 and 110, are positioned parallel along a longitudinal axis of a generally cylinder-shaped tube of revolution. This tube comprises, downstream of one side of the air path passing through an outlet of each tank, the inhalation means 115 and, upstream of the air path, an air inlet, not shown. The inhalation means 115 is, for example, a conduit configured to allow a user to inhale the vapors at the outlet of the tanks, 105 and 110.
[0009] The two resistors, 120 and 125, are, for example, electrical resistors heated by the Joule effect when a current is applied to these resistors. The heating of such a resistor, 120 and 125, depends on the intensity of the current passing through said resistor, 120 and 125. Thus, the heating of the resistor, 120 and 125, can be modulated by a control means 135 configured to apply a current of a given intensity to this resistor, 120 and 125. The determining means 130 is, for example, a computer program integrated with a communicating portable terminal. This communicating portable terminal is, for example, a smart mobile phone or a digital tablet. This determination means 130 comprises an access means 140 to a user profile. This user profile corresponds to a typical user profile determined according to consumption data declared or learned by the user. These consumption data comprise, for example: a frequency of consumption as a function of a moment of a day or a week, a moment of a day of usual consumption and distribution of nicotine inhalation from an electronic cigarette and a cigarette. In the case where the consumption data are learned, this data is obtained by accumulation of data associated with the use of the stored control means. The control means is, for example, during a learning period, configured to control the vaporization of a constant amount of nicotine. Each inhalation is dated by a time stamping means, such as an electronic clock. Data representative of each inhalation is transmitted through a means of transmission to a memory. This transmission means is, for example, an antenna configured to transmit a wireless signal according to Bluetooth technology. In variants, the memory is in the same housing as the inhalation means. In other variants, the memory is integrated with the communicating portable terminal. In other variants, the memory is remote. Depending on the stored data, a means for determining a user profile determines a user profile. This means for determining a user profile is, for example, a computer program configured to compare a nicotine consumption curve as a function of time at the scale of a day and / or a week with typical consumption curves. When a typical consumption curve closest to the learned consumption curve is determined, the means for determining a user profile determines that the user profile associated with this standard curve corresponds to the user's typical profile. whose mode of consumption has been learned. The access means 140 is, for example, an antenna configured to communicate with a remote server having data relating to the user profile.
[0010] The determining means 130 is configured to determine a quantity of nicotine to be vaporized based on a typical weaning curve associated with the determined typical user profile. This curve is globally decreasing as a function of time on a scale of one week for example. However, this curve can be increasing at certain times of a day or a week depending on the observed consumption habits of the user. Timestamp data is associated with a determination time by the determining means 130. This timestamp data is obtained, for example, by an electronic clock configured to measure a date and an hour of activation of one of the means. of the device 10. The means 130 for determining a quantity of nicotine to be vaporized determining the quantity as a function of data of the user profile. The determination means 130 determines a quantity of nicotine to be vaporized according to a time stamp data item associated with a start-up of the device 10. The determination means 130 determines an increasing quantity of nicotine, relative to the last quantity of nicotine. determined, when the timestamp data is the first timestamp datum greater than a predetermined time. For example, the first inhalation of the day has a greater amount of nicotine than the last inhalation of the previous day. In variants, the determining means 130 determines an increasing amount of nicotine when a time longer than a predetermined time has elapsed since the last inhalation. The determining means 130 determines a nicotine quantity that is globally decreasing as a function of the timestamp data. The means 145 for detecting an inhalation frequency of the user on the inhalation means 115 is, for example, an electronic circuit comprising a counter of the number of inhalations made by the user on the inhalation means. 115. The inhalation number is determined, for example, by the use of a helix 30 configured to rotate as air passes through the conduit of the inhalation means 115 in a predetermined direction. This inhalation number, measured for a sliding predetermined time, divided by the sliding predetermined time limit, gives an inhalation frequency.
[0011] When this inhalation frequency is greater than a predetermined limit frequency, the determination means 130 determines a quantity of nicotine to vaporize increasing relative to the previous amount of nicotine determined. In general, the determining means 130 determines the amount of nicotine as a function of the detected inhalation frequency. The device 10 comprises means 150 for capturing an alcohol concentration of the user. This capture means 150 is, for example, an ethylotest associated with the inhalation means 115. The determination means 130 determines the quantity of nicotine to be vaporized as a function of the alcohol concentration. If the alcohol concentration is high, and a variable or non-variable user profile indicates that the user is driving, the amount of nicotine determined is increased. Conversely, if the user profile indicates that the user is not a driver, the amount of nicotine determined is reduced.
[0012] In variants, the determining means 130 is integrated in the same housing as the inhalation means 115. In other variants, the determining means 130 is in a remote memory, such as a server for example. The quantity of nicotine to be determined is emitted, by a means of transmitting an information representative of the quantity of nicotine determined, towards the control means 135. This transmission means is, for example, a terminal antenna. communicating portable device comprising the determining means 130 configured to transmit a signal according to Bluetooth technology. The control means 135 is, for example, an electronic circuit connected to an autonomous power source, not shown. The control means 135 transmits to each resistor, 120 and 125, an electric current depending on the amount of nicotine to be determined. In variants, the autonomous power source is recharged by a dynamo positioned on the air path inside the conduit and actuated by the passage of air through a propeller for example. The control means 135 for the heating of each resistor, 120 and 125, to independently activate each resistor, 120 and 125, depending on the quantity of nicotine to be determined, the actuation of the resistor 125 associated with the second reservoir 110 being an increasing function of the quantity of nicotine to be determined. This control means 135 transmits an electric current depending on the liquids present in each tank, 105 and 110. The nature of these liquids can be transmitted by the communicating portable terminal. The device 10 comprises a means 155 for capturing data representative of a temperature in at least one reservoir 105 and 110. This capturing means 155 is, for example, an electronic thermometer. The control means 135 controls the heating of the resistor 120 and 125 associated with each said tank 105 and 110 as a function of the temperature sensed. In variants, the device 10 comprises means for capturing the inhalation flow rate of a user. This flow capture means is, for example, an electronic circuit connected to a helix positioned in the conduit. Based on a rotation of the captured helix and a predetermined value representative of the duct section surface at the helix location, the rate capture means calculates the inhalation rate. In variants, the device 10 includes means for transmitting to a remote memory consumer information of the user. This transmission means is, for example, an antenna configured to transmit a wireless signal according to the IEEE 802.11 standard, called "Wifi", for example. The consumption information thus stored makes it possible, for example, to establish statistics transmitted to a communicating portable terminal of the user. In variants, the device 10 comprises means for transmitting a light signal. This means for emitting a light signal is, for example, a light emitting diode configured to emit light when a detected user's inhalation frequency is greater than a predetermined limit value. In variants, the control means 135 is deactivated for a predetermined time limit when a predetermined limit quantity of nicotine has been vaporized for a predetermined time limit. In variants, at least one of the reservoirs 105 and 110 comprises a drug configured to be taken orally or inhalatively. This drug is, for example, in the form of large molecules broken by an ultrasound emission means. In variants, the determining means 130 determines a quantity of nicotine to inhale based on a user-declared event information associated with a timestamp datum. When the determination of a quantity of nicotine takes place during the memorized event, the quantity of nicotine determined is increased. In variants, the inhalation means 115 is connected to a geolocation means and a location representative data is associated in memory with each data of an inhalation. In variants, at least one transmitting means transmitting a signal according to Bluetooth technology implements the Bluetooth Low Energy technology (translated as "Bluetooth low energy consumption" in French). FIG. 2 shows a particular embodiment of the communicating portable terminal 20. This terminal 20 comprises: a means 205 for determining an information representative of a quantity of nicotine to be vaporized and a means 210 for transmitting, to a device 10, as described in FIG. 1, information representative of a amount of nicotine to spray. The determining means 205 is similar to the determining means 130 described in FIG. 1. The transmission means 210 is, for example, an antenna configured to transmit a wireless signal according to Bluetooth technology. FIG. 3 shows a particular step logic diagram of the method 30 of the present invention. This method comprises a step 305 for determining a user profile and, iteratively: a step 310 for inhaling a quantity of vaporized nicotine, a step 315 for detecting an inhalation frequency greater than an expected frequency, a step 320 of increasing the amount of nicotine to be vaporized, a step 325 of detecting a user's blood alcohol level, a step 330 of decreasing a quantity of nicotine to be vaporized.
[0013] When a user equipped with the device 10 as described in Figure 1 starts nicotine withdrawal, this user is associated with a user profile. This user profile is either declarative or learned. In the variants where this user profile is declarative, the user informs, through a user interface, such as an application of a communicating portable terminal for example, a predetermined number of information fields. These information fields include, for example, information on a nicotine consumption mode, for example in terms of: frequency, consumption moment and distribution between electronic cigarette and cigarette. Other information fields may include information relating to morphological or medical data of the user. In the variants where this profile is learned, the device 10 stores the behavior of a user, according to time stamp data, without adjusting a quantity of nicotine vaporized during a vapor inhalation of the user. The data thus memorized make it possible, for example, to determine the times of the day when the user inhales the most frequently nicotine and a usual pattern of consumption depending on the day of the week. For example, a user may consume more nicotine on Friday nights than on Tuesday afternoons. In these variants, the learning carried out may continue once the means of determination begins to determine a quantity of nicotine to be vaporized. This declarative or learned user profile is associated in variants with a predetermined typical user profile. This typical user profile generally represents a certain mode of nicotine consumption by a user. The weaning performed depends, as described below, on this typical user profile associated with the user profile. This user profile is stored, for example, in a memory of the communicating portable terminal. This communicating portable terminal is, for example, a smart mobile phone or a digital tablet. In variants, this user profile is stored in a memory associated with the means for determining the device 10. In other variants, this user profile is stored in a remote memory associated with the device 10 and whose determination means can obtain, via a wireless signal transmission, data of the stored profile. When the user profile has been determined, the means for determining the device 10 determines an initial amount of nicotine to vaporize comparable to a quantity of nicotine usually consumed by the user depending on the typical user profile associated with the user. . Then, each new determination of a quantity of nicotine to be vaporized is generally lower than the amounts determined previously so as to follow a typical withdrawal curve associated with the standard profile. This curve, although globally decreasing, may include temporary nicotine peaks on certain days of the week, for example. The means for determining the device 10 determines the amount of nicotine to be vaporized as a function of a memory of the quantities determined previously and of a timestamp captured. When a frequency of inhalation, by a user, on the means of inhalation of the device 10 is greater than a predetermined limit frequency, the determination means is configured to determine a quantity of nicotine greater than the amount of nicotine determined by the use of the standard curve. When a blood alcohol level of a user of the sensed device is greater than a predetermined limit value, the amount of nicotine to be determined is greater than the amount of nicotine determined by use of the standard curve. Nicotine acts, unlike alcohol, as a means of concentration of the user. This concentration, when the user drives a vehicle, for example, avoids the risk of road accidents. In variants, the alcohol concentration is only considered if the user has declared in the user profile to be a driver. In variants, the device 10 includes means for switching between a declaration by the user, the driver status and the non-driver status. This switching means is, for example, a button of a graphical interface of the communicating portable terminal of the device 10. Depending on the selected status, the means for determining the device 10 determines the quantity of nicotine as described above or not. . When a quantity of nicotine to be vaporized has been determined, information representative of this quantity of nicotine determined is transmitted to a control means of the device 10. This control means is configured to actuate the heating of a first and / or a second resistor associated, each, with a reservoir comprising a liquid. A first reservoir comprises a liquid having a lower nicotine density relative to the liquid in the second reservoir. This control means is, for example, an electronic circuit connected to a means for receiving information representative of a quantity of nicotine to be vaporized. This receiving means is, for example, an antenna configured to receive a wireless signal transmitted by a transmission means associated with the determination means.
[0014] Depending on the information of the quantity of nicotine determined received, the control means of the device 10 controls the actuation of the first and / or second resistance so that the volume of vapor is identical between two inhalations , and the amount of nicotine in this different volume. When a larger amount of vapor of the first liquid, having a lower nicotine density, is vaporized, the total vapor formed by the sum of the vapors of each tank has a decreased amount of nicotine compared to a steam composed solely of steam from the second tank.

权利要求:
Claims (9)
[0001]
REVENDICATIONS1. Device (10) for adjusting a quantity of nicotine inhaled by a user, characterized in that it comprises: two reservoirs (105, 110), a first reservoir (105) comprising a liquid having a lower nicotine density that a liquid a second tank (110), each liquid being configured to evaporate when this liquid is heated beyond a predetermined limit temperature, means (115) of inhalation, by the user, of the steam liquid evaporating from each reservoir, two resistors (120, 125) heating, each reservoir being associated with a heating resistor, means (130) for determining a quantity of nicotine to vaporize, means (135) ) for controlling the heating of each resistor to independently actuate each resistor according to the quantity of nicotine to be determined, the actuation of the resistor associated with the second reservoir being a fo increasing action of the quantity of nicotine to be determined.
[0002]
2. Device (10) according to claim 1, which comprises means (140) for access to a user profile, the means (130) for determining a quantity of nicotine to be sprayed determining the quantity according to data. the user profile.
[0003]
3. Device (10) according to one of claims 1 or 2, wherein the means (130) for determining determines a quantity of nicotine to vaporize according to a timestamp data associated with a start of the device.
[0004]
The device (10) of claim 3, wherein the determining means (130) determines an increasing amount of nicotine, relative to the last amount of nicotine determined, when the timestamp data is the first time stamp data at a predetermined time.
[0005]
5. Device (10) according to claim 3 or 4, wherein the means (130) for determining determines a nicotine amount globally decreasing according to the timestamp data.
[0006]
6. Device (10) according to one of claims 3 to 5, which comprises means (145) for detecting an inhalation frequency of the user on the means (115) for inhalation, the means (130) ) determining the amount of nicotine as a function of the detected inhalation frequency.
[0007]
7. Device (10) according to one of claims 1 to 6, which comprises means (150) for capturing a blood alcohol level of the user, the means (130) for determining the amount of nicotine to vaporize according to of the alcohol concentration.
[0008]
8. Device (10) according to one of claims 1 to 7, which comprises means (155) for capturing a data representative of a temperature in at least one tank (105, 110), the means (135) command controlling the heating of the resistor (120, 125) associated with each said tank according to the sensed temperature.
[0009]
9. Communicating portable terminal (20), characterized in that it comprises: means (205) for determining information representative of a quantity of nicotine to be vaporized and transmission means (210) for a device ( 10) according to one of claims 1 to 8, representative of a quantity of nicotine vaporizing object of the present invention.

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US20110265806A1|2010-04-30|2011-11-03|Ramon Alarcon|Electronic smoking device|

US20120260927A1|2010-11-19|2012-10-18|Qiuming Liu|Electronic cigarette, electronic cigarette smoke capsule and atomization device thereof|

EP2609820A1|2011-12-30|2013-07-03|Philip Morris Products S.A.|Detection of aerosol-forming substrate in an aerosol generating device|

US20130192615A1|2012-01-31|2013-08-01|Altria Client Services Inc.|Electronic cigarette|

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

US6202642B1|1999-04-23|2001-03-20|Medtrac Technologies, Inc.|Electronic monitoring medication apparatus and method|

AT364873T|1999-10-01|2007-07-15|Glaxo Group Ltd|SYSTEM FOR MONITORING PATIENT DATA|

AU5375301A|2000-04-25|2001-11-07|Natural Answers Inc|Method of reducing or quitting smoking|

US6543443B1|2000-07-12|2003-04-08|Aerogen, Inc.|Methods and devices for nebulizing fluids|

US20030111088A1|2001-10-29|2003-06-19|Addiction Therapies, Inc.|Device and method for treating combination dependencies|

US20030168057A1|2001-12-14|2003-09-11|Inhale Therapeutic Systems, Inc.|Electronically controllable aerosol delivery|

US6886557B2|2002-10-31|2005-05-03|Hewlett-Packard Development Company, L.P.|Inhalation device and method for delivering variable amounts of different components|

DE102004021789A1|2004-05-03|2006-04-27|Boehringer Ingelheim International Gmbh|Atomizers for dispensing liquids for medical purposes|

EP2211955B1|2007-10-02|2017-04-12|Philip Morris Products S.A.|Dispensing method and system of a capillary aerosol generator|

NZ575836A|2009-03-27|2009-08-28|Nexus6 Ltd|Improvements in or Relating to Medicament Delivery Systems|

CN102217788A|2010-04-17|2011-10-19|徐兵|Method and cigarette for smoking cessation in gradual active ingredients substitution manner|

US8910630B2|2010-06-28|2014-12-16|Palliatech, Inc.|Cannabis drug delivery and monitoring system|

US20120291791A1|2011-05-19|2012-11-22|Neurofocus, Inc.|Methods and apparatus for nicotine delivery reduction|

WO2013040275A1|2011-09-14|2013-03-21|The Safe Cig, Llc|Vapor delivery device|

KR20140148455A|2012-04-12|2014-12-31|제이티 인터내셔널 소시에떼 아노님|Aerosol-generating devices|

US20130284192A1|2012-04-25|2013-10-31|Eyal Peleg|Electronic cigarette with communication enhancements|

US10004259B2|2012-06-28|2018-06-26|Rai Strategic Holdings, Inc.|Reservoir and heater system for controllable delivery of multiple aerosolizable materials in an electronic smoking article|

US9814262B2|2012-07-11|2017-11-14|Sis Resources, Ltd.|Hot-wire control for an electronic cigarette|

US20140041655A1|2012-08-11|2014-02-13|Grenco Science, Inc|Portable Vaporizer|

RU2602962C2|2012-08-31|2016-11-20|Кимри Хай-Тек Инк.|Electronic cigarette|

US9333311B2|2012-08-31|2016-05-10|Huizhou Kimree Technology Co., Ltd., Shenzhen Branch|Electronic cigarette and electronic cigarette device|

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

EP2754361B1|2013-01-10|2018-03-07|Shenzhen First Union Technology Co., Ltd.|Atomizer and electronic cigarette having same|

US20140261488A1|2013-03-15|2014-09-18|Altria Client Services Inc.|Electronic smoking article|

US9423152B2|2013-03-15|2016-08-23|R. J. Reynolds Tobacco Company|Heating control arrangement for an electronic smoking article and associated system and method|

CN203633508U|2013-12-13|2014-06-11|深圳葆威道科技有限公司|Dual-taste sound-making electronic cigarette|

FR3019442A1|2014-04-04|2015-10-09|Agece Ecole Centrale D Electronique|DEVICE FOR ADJUSTING A QUANTITY OF NICOTINE INHALED BY A USER AND PORTABLE TERMINAL COMMUNICATING|

US9775382B2|2015-06-15|2017-10-03|Dan Wang|Multiple mode vapor generator|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|

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

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|

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

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

FR3019442A1|2014-04-04|2015-10-09|Agece Ecole Centrale D Electronique|DEVICE FOR ADJUSTING A QUANTITY OF NICOTINE INHALED BY A USER AND PORTABLE TERMINAL COMMUNICATING|

CA2975857A1|2015-02-04|2016-08-11|Lubby Holdings, LLC|Personal vaporizer with medium and chamber control|

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

US10433580B2|2016-03-03|2019-10-08|Altria Client Services Llc|Methods to add menthol, botanic materials, and/or non-botanic materials to a cartridge, and/or an electronic vaping device including the cartridge|

US10455863B2|2016-03-03|2019-10-29|Altria Client Services Llc|Cartridge for electronic vaping device|

US10368580B2|2016-03-08|2019-08-06|Altria Client Services Llc|Combined cartridge for electronic vaping device|

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

US10357060B2|2016-03-11|2019-07-23|Altria Client Services Llc|E-vaping device cartridge holder|

US10368581B2|2016-03-11|2019-08-06|Altria Client Services Llc|Multiple dispersion generator e-vaping device|

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

EP3562338A1|2016-12-27|2019-11-06|Juul Labs, Inc.|Thermal wick for electronic vaporizers|

CN206403206U|2016-12-30|2017-08-15|深圳市合元科技有限公司|Aerosol producer and fume extraction device|

FR3064491B1|2017-03-31|2020-06-26|Enovap|PORTABLE DEVICE FOR INHALING AT LEAST ONE ACTIVE COMPOSITION|

FR3064490A1|2017-03-31|2018-10-05|Enovap|PORTABLE DEVICE FOR VAPORIZING AT LEAST ONE ACTIVE COMPOSITION|

EP3600505B1|2017-03-31|2021-07-07|Enovap|Portable device for inhalation of at least one active composition|

US20200015524A1|2018-07-16|2020-01-16|Lubby Holdings, LLC|Personal vaporizer|

US20200146359A1|2018-11-09|2020-05-14|Tanya M. Stephens|Assembly facilitating the generation of vapor|

US20220016364A1|2018-11-22|2022-01-20|Smokeless.World Gmbh|Adapted e-cigarette with authentication for nicotine delivery|

EP3883405A1|2018-11-22|2021-09-29|Smokeless.world GmbH|E-cigarette with authentication for nicotine delivery|

EP3883404A1|2018-11-22|2021-09-29|Smokeless.world GmbH|E-cigarette|

WO2020112734A1|2018-11-27|2020-06-04|Blackship Technologies Development Llc|Micro-vaporizer with multiple liquid reservoirs|

US20200229508A1|2019-01-18|2020-07-23|Hava Health, inc.|Vaporization Device|

KR102235643B1|2019-08-05|2021-04-02|주식회사 케이티앤지|Aerosol generating device|

法律状态:
2015-08-07| PLFP| Fee payment|Year of fee payment: 2 |

2016-09-03| PLFP| Fee payment|Year of fee payment: 3 |

2017-08-28| PLFP| Fee payment|Year of fee payment: 4 |

2018-08-29| PLFP| Fee payment|Year of fee payment: 5 |

2019-09-26| PLFP| Fee payment|Year of fee payment: 6 |

2020-03-13| TP| Transmission of property|Owner name: ENOVAP, FR Effective date: 20200130 |

2020-08-31| PLFP| Fee payment|Year of fee payment: 7 |

2021-09-10| PLFP| Fee payment|Year of fee payment: 8 |

优先权:

申请号 | 申请日 | 专利标题

FR1400817A|FR3019442A1|2014-04-04|2014-04-04|DEVICE FOR ADJUSTING A QUANTITY OF NICOTINE INHALED BY A USER AND PORTABLE TERMINAL COMMUNICATING|

FR1401963A|FR3019443B1|2014-04-04|2014-09-03|DEVICE FOR ADJUSTING A QUANTITY OF NICOTINE INHALED BY A USER AND PORTABLE TERMINAL COMMUNICATING|FR1401963A| FR3019443B1|2014-04-04|2014-09-03|DEVICE FOR ADJUSTING A QUANTITY OF NICOTINE INHALED BY A USER AND PORTABLE TERMINAL COMMUNICATING|

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