system and method for improved personal vaporization device

专利摘要:
a vaporizer device system including a payload reservoir identified by a payload identifier and configured to retain a substance for atomization. a processor is configured to determine an operational configuration based on at least one of the payload identifiers and secondary data, which can include user information, prescription information, location information, payload information, historical device usage information vaporizer and historical payload reservoir information. a vaporizer device system and method of using it, which includes a vaporizer device and a computing device that includes the processor. method for controlling a vaporizer device, including determining an operational configuration of the vaporizer device based on the payload identifier and / or secondary data. operational configurations can include a duty cycle configuration, a temperature configuration, an operating time duration, a dosage configuration and a safety configuration.
公开号:BR112019019119A2
申请号:R112019019119
申请日:2018-03-15
公开日:2020-04-14
发明作者:Stewart Andrew；POPPLEWELL Peter；Penney Steven
申请人:Canopy Growth Corp；
IPC主号:

专利说明:

SYSTEM AND METHOD FOR AN IMPROVED PERSONAL VAPORIZATION DEVICE
REFERENCE TO RELATED PATENT APPLICATIONS [001] This patent application is based on and claims priority for US Provisional Patent Application No. 62 / 471.751 filed on March 15, 2017 and entitled Personal Vaporizer Device, which is incorporated into this document by reference in its entirety.
BACKGROUND OF THE INVENTION
1. FIELD OF THE INVENTION [002] The present disclosure relates to the field of personal vaporization devices or vaporizer devices and, in particular, methods and systems for controlling the operation of vaporizer devices.
2. DESCRIPTION OF RELATED TECHNIQUE [003] The use of personal vaporizers or vaporizing devices for consumption of tobacco products, as well as cannabis for medicinal and recreational purposes, has grown significantly. Many vaporizer devices simply contain an atomizer to heat and vaporize liquids or oils to be inhaled. In a basic form, vaporizer devices can be simple devices that consist of a heating element, a battery and a switch to connect the battery to the heating element, and an amount of liquid or oil to be vaporized by the heating element. Controlling the vaporizer device merely involves closing the switch to heat the liquid or oil to produce steam to be inhaled. Such simplicity does not provide control over the acceleration and / or deceleration of the applied power
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2/51 to the heating element; no control over how much steam is produced when the switch is closed; no control as to which specific fluids or oils must be heated to produce steam; or no control to prevent unauthorized use of the vaporizer device by anyone other than the user of the vaporizer device.
REDUCED SUMMARY OF THE INVENTION [004] In some embodiments, a high quality, rechargeable vaporizer device of the best category is provided. This product is simple and intuitive and instantly appeals to the naive cannabis consumer, whether medicinal or recreational. In some embodiments, the vaporizer device can communicate with a personal computing device and work interactively with an application or app that operates on the personal computing device to provide additional functions and features that can satisfy the demands and needs of the most sophisticated connoisseur or medical patient. For the purposes of this description and the claims that follow, the term personal computing device is defined as including personal computers, portable computers, personal digital assistants, personal computing tablets (such as those manufactured by Apple® and Samsung®, and by others well known to those skilled in the art), smartphones (such as those running on iOS® and Android® operating systems, and others well known to those skilled in the art), smart watches, physical fitness monitoring bracelets, devices
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3/51 wearables, smart glasses, and any other electronic computing device that comprises means for communications (wireless or wired) with other electronic devices, and with a global telecommunications or computing network.
[005] In some embodiments, the vaporizer device may comprise security settings to prevent unauthorized use of the vaporizer device by anyone other than the owner of the vaporizer device, who has a prescription for medical marijuana. In some embodiments, security settings may prevent the use of the vaporizer device in regions or jurisdictions, even by the legitimate owner of the vaporizer device, where the consumption of medical marijuana is not authorized or legal. These security settings can be implemented to satisfy government or law enforcement for unauthorized use of the vaporizer device in the consumption of cannabis products, for medical or other purposes.
[006] In some modalities, the vaporizer device may comprise a disposable or single use version with reduced functionality, but adapted from better quality modalities.
[007] In some embodiments, the vaporizer device may comprise a traditional cigarette appearance, while other embodiments may comprise a non-cigarette appearance.
[008] In some embodiments, the vaporizer device may comprise a light to emulate the ember of a cigarette when steam is being inhaled.
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4/51 [009] In some embodiments, the vaporizer device, in combination with an app that runs on a personal computing device, can control the temperature and / or the vaporization work cycle to optimize the flavor or amount of vapor for any particular type of fluid or oil to be vaporized for inhalation. In some embodiments, the app can be used to improve the efficiency of operation of the vaporizer device and to maximize the longevity of a cartridge filled with fluid or oil or payload reservoir used in the vaporizer device.
[0010] In some embodiments, the vaporizer device includes features to customize a user's vaporizer device, such as naming the vaporizer device, selecting its color and controlling a vibrating device placed on the vaporizer device. In some embodiments, the app may include security settings to control access to the vaporizer device, and to lock it when not in use.
[0011] In some embodiments, the vaporizer device may comprise a processor that operates on the firmware placed on it. The connectivity between the vaporizer device and the app placed on the personal computing device can activate ways to update the firmware on the vaporizer device to keep it operating on the most current firmware. In some embodiments, the vaporizer device may comprise a physical configuration that can be adapted to display an OEM brand or sub-brand depending on the brand, the sales channel for the branded vaporizer device, and the intended end use of the device
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5/51 vaporizer such as medicinal, recreational, etc.
[0012] In some embodiments, the vaporizer device will be used with high quality oil products that cannot leak from the vaporizer device. The vaporizer device will prevent the production of smoke by heating to high temperature, quick cooling and providing a quick route for the vapor to be inhaled from the vaporizer device.
[0013] In some embodiments, the vaporizer device may comprise a battery as a power source for vaporizing oils and liquids. The battery may comprise a lithium-ion power cell, although other battery technologies may be used, as is well known to one skilled in the art. As the vaporizer device is a device for personal use, the battery can comprise technology that prevents the advent of an explosion if the battery fails.
[0014] In some modalities, the vaporizer device can be configured to not contain or use propylene glycol (PG) or any other non-essential chemicals, either in the oils used in the vaporizer device or in materials used in its manufacture.
[0015] In some embodiments, the vaporizer device may comprise means to prevent it from overheating.
[0016] In some embodiments, the vaporizer device may comprise means to prevent it from producing smells or smells. The vaporizer device can also be configured to produce steam
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6/51 that can be seen when it is exhaled by a user.
[0017] In some modalities, the vaporizer device can be configured to allow the sight of oils or fluids in a cartridge or payload reservoir when it is inserted in the vaporizer device. In other embodiments, the vaporizer device can be configured so that oil or fluid in the cartridge is not visible when the cartridge is inserted into the vaporizer device.
[0018] In some embodiments, the vaporizer device can be configured to be water resistant or waterproof.
[0019] In some embodiments, cartridges for use with the vaporizer device can be separated from the vaporizer device, and can be available in different sizes in terms of the amount of liquid or oil it can contain.
[0020] In some embodiments, each cartridge or payload reservoir may comprise a unique serial number or payload identifier, and the vaporizer device may further comprise means for determining whether or not the vaporizer device can work with the cartridge depending on the specific serial number of the cartridge.
[0021] In some embodiments, the vaporizer device may comprise means for acquiring data in a cartridge based on the serial number of the cartridge that can be used to control the operation of the vaporizer device. For example, the vaporizer device may acquire certain data specific to the fluid or
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7/51 oil in the cartridge to know the temperature recommended by the manufacturer and / or the duty cycle for heating the fluid or oil in order to acquire an optimal vaporization. In some embodiments, the vaporizer device may comprise means to allow the user to change one or more operational settings of the vaporizer device to suit the user's personal preferences. In some embodiments, the vaporizer device may comprise means for tracking data related to the operation of the vaporizer device and its use by a user. In some embodiments, the vaporizer device can be configured to provide warnings in the event of certain conditions in the vaporizer device, such as when the cartridge is almost empty, when the battery is almost empty, when the heating element is overheated or not working, to name just a few. In some embodiments, the vaporizer device may comprise means to monitor and collect data on how the vaporizer device is being used by a user, and to provide information and assessments regarding how the user uses the vaporizer device, in addition to being able to provide warning the user how to improve or optimize their use of the vaporizer device based on the user's current use of the vaporizer device.
[0022] In some embodiments, the vaporizer device can be configured to exchange data with other personal computing devices that a user can use or own, such as a device or smart phone (such as iPhone® or Apple® Watch®) or
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8/51 physical fitness monitoring bracelet (such as a Fitbit®) to provide the user with additional information about their life and habits.
[0023] In some embodiments, the vaporizer device may comprise means to locate it if it is lost. This may include means for communicating with a smart phone or device to provide functionality similar to the Find iPhone TM app as used on Apple® iPhones® and iPad®®.
[0024] In some modalities, the vaporizer device can be configured to communicate with an app that runs on a smartphone or personal computing device, where the app can understand the ability to adjust the temperature and / or duty cycle where the heating element operates, as well as being able to control the operation of the vaporizer device for users of different experiences. As an example, the app can enable an antitox setting on the vaporizer device for a new user.
[0025] A personal vaporizer device or vaporizer device can communicate with phones or smart devices and operate in conjunction with applications that run on it to control and monitor a user's use of the vaporizer device.
[0026] In some modalities, the app can be configured to acquire specific information about the liquid or oil being vaporized based on the cartridge serial number. This information can then be used to control or measure the dose of vapor inhaled by the user. The app can also track when the cartridge is
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9/51 running out of liquid or oil, and can also be configured to ask the user to replace or order a new cartridge, as well as to be able to automatically order a new cartridge.
[0027] In some modalities, the vaporizer device can be locked or unlocked by the user with his personal computing device. In some embodiments, the vaporizer device can be unlocked by the user by opening his personal computing device by satisfying the security settings of the device, that is, by the user providing his security access code or password to the personal computing device, or by using a fingerprint scanner available on the personal computing device, or by using a camera placed on the device for scanning the user's face or retina. In some embodiments, the vaporizer device can be configured to be resistant to children, as well as to prevent use by an unauthorized user. In some embodiments, the vaporizer device can be configured to block inherently when not connected to the app for regulatory purposes. In some embodiments, the vaporizer device may further comprise means for identifying an unauthorized user when connectivity to the user's phone or smart device is lost, such as when the user does not have his or her smart phone or device, or when the battery is smart phone or device is discharged. Such means may include a fingerprint sensor placed on the device itself.
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10/51 vaporizer device, in which the vaporizer device can retain personal data about the user such as data from one or more fingerprint scans stored in a memory on the vaporizer device for the purpose of determining whether a fingerprint scan by the sensor fingerprint data corresponds to the fingerprint scan data stored in memory to confirm that the identity of the person trying to use the vaporizer device is an authorized user.
[0028] In general terms, in some embodiments, an improved vaporizer device may be provided which comprises: an atomizer comprising a heating coil, the atomizer further comprising an inlet and an outlet; a nozzle operatively coupled to the outlet; and a payload reservoir operatively coupled to the inlet, the payload reservoir comprising an identifier (ID) tag comprising a unique identifier for the payload reservoir, the payload reservoir configured to contain liquid or oil that can be dragged into the atomizer to be vaporized when the user inhales through the mouthpiece.
[0029] In general terms, in some modalities, the vaporizer device may also comprise a radio frequency transceiver or wireless transceiver and at least one antenna operatively coupled to the transceiver, the combination of the transceiver and the antenna configured to allow wireless transmission of data between the vaporizer device and a personal computing device.
[0030] In general terms, in some modalities,
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11/51 an improved vaporizer device system can be provided, the system comprising a vaporizer device comprising: an atomizer comprising a heating coil, the atomizer further comprising an inlet and an outlet, a nozzle operatively coupled to the outlet, a reservoir payload tank operatively coupled to the inlet, the payload reservoir comprising an identifier (ID) tag comprising a unique identifier for the payload reservoir, the payload reservoir configured to contain liquid or oil that can be dragged in. the atomizer to be vaporized when the user inhales through the mouthpiece, and a radio frequency transceiver and at least one antenna operatively coupled to the transceiver, the combination of the transceiver and at least one antenna configured to transmit and receive data wirelessly; and a personal computing device configured for wirelessly transmitting data to and from the vaporizer device.
[0031] In general terms, in some embodiments, the vaporizer device may also comprise a switch or a traction sensor operatively coupled to the nozzle, the switch or the traction sensor configured to cause electric current to flow through the heating coil when the switch is operated or when the user inhales through the mouthpiece.
[0032] In general terms, in some modalities, the vaporizer device can also comprise a battery configured to supply electric current.
[0033] In general terms, in some modalities, the
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The vaporizer device may further comprise a battery charger configured to charge the battery.
[0034] Generally speaking, in some embodiments, the personal computing device may comprise a software application that runs on that one, in which the combination of the vaporizer device and the personal computing device can be configured to wirelessly control the vaporizer device using the personal computing device.
[0035] In general terms, in some modalities, the software application can be further configured to perform the steps of: interpreting the ID tag through the first data transmitted to the personal computing device from the vaporizer device, the first data comprising the unique payload identifier; use the unique identifier to determine which liquid or oil is in the payload reservoir; and transmitting an operational configuration to the vaporizer device from the personal computing device, the operational configuration comprising instructions for the vaporizer device to allow operation of the vaporizer device if the user is authorized to use the vaporizer device or disable operation of the vaporizer device if the user is not is authorized to use the vaporizer device.
[0036] In general terms, in some modalities, the operational configuration may also include instructions for the vaporizer device or allow operation of the vaporizer device if the user is located in a
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13/51 geographic region where the liquid or oil can be vaporized by the user or disable operation of the vaporizer device if the user is located in a geographic region where the liquid or oil cannot be vaporized by the user [0037] In general terms, in some embodiments, the vaporizer device may further comprise a microcontroller operatively coupled to the atomizer and to the ID tag, the microcontroller configured to control the operation of the vaporizer device.
[0038] In general terms, in some modalities, the vaporizer device may also comprise a user interface operatively coupled to the microcontroller.
[0039] In general terms, in some embodiments, the user interface may comprise one or more user input control devices operatively coupled to the microcontroller, the input control devices configured to control the operation of the vaporizer device when operated by the user .
[0040] In general terms, in some modalities, the user interface may comprise one or more user output indication devices operatively coupled to the microcontroller, the output indication devices configured to relay information about the operation of the vaporizer device to the user .
[0041] In general terms, in some modalities, the atomizer can be positioned in a subset of atomizer; the nozzle and the payload reservoir can
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14/51 are both positioned in a nozzle subset; and the microcontroller can be positioned in a control subset, where the atomizer subset can be positioned between the nozzle subset and the control subset.
[0042] In a preferred embodiment, a vaporizer device system includes an atomizer that has an inlet and outlet, a nozzle attached to the outlet, an activation mechanism attached to the atomizer, a payload shell attached to the inlet, and a processor . The payload reservoir is identified by a payload identifier, and the payload reservoir is configured to contain a substance for vaporization. The processor is configured to determine an operational configuration based on at least one of the payload identifier and a secondary data.
[0043] The processor can be physically coupled directly or indirectly to at least one of the atomizer, the nozzle, the activation mechanism, and the payload reservoir. Alternatively, the system may include (i) a vaporizer device comprising the atomizer, the nozzle, the activation mechanism, the payload shell, a second processor, and a wireless transceiver, and (ii) a computing device that understands the processor. The second processor is preferably configured to receive the payload identifier and transmit the payload identifier to the wireless transceiver. The wireless transceiver is preferably configured to transmit the payload identifier to the processor, and the wireless transceiver is
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15/51 preferably still configured to receive the operational configuration from the processor and transmit the operational configuration to the second processor.
[0044] Secondary data is preferably selected from the group consisting of user information, prescription information, location information, and payload information. The operational configuration preferably includes at least one of a duty cycle configuration, a temperature configuration, an operating time duration, a dosing configuration, and a safety configuration.
[0045] A method of controlling a vaporizer device comprising a payload reservoir that is identified by a payload identifier includes steps of transmitting the payload identifier to a processor, determining an operational configuration of the vaporizer device with the processor based on the payload identifier and a secondary data, and control the vaporizer device based on the operational configuration.
[0046] The processor may be located on a computing device remotely from the vaporizer device, wherein the vaporizer device comprises a second processor that receives the payload identifier and transmits the payload identifier to the processor to a wireless device transceiver vaporizer. The wireless transceiver preferably transmits the payload identifier to the processor, and the wireless transceiver preferably receives
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16/51 the operational configuration from the processor and transmits the operational configuration to the second processor.
[0047] Secondary data can be historical information of use of the vaporizer device or historical information of the payload reservoir, and the operational configuration includes at least one among a duty cycle configuration, a temperature configuration, an operating time duration , and a dosage setting. Secondary data can be prescription information, and the operational configuration includes at least one of a duty cycle configuration, a temperature configuration, an operating time duration, and a dosing configuration.
[0048] Secondary data can be location information, and the operational configuration is a security configuration of the vaporizer device. Secondary data can be user information, and the operational setting is a security setting for the vaporizer device. Secondary data can be user information, and the operational configuration includes at least one of a duty cycle configuration, a temperature configuration, an operating time duration, and a dosing configuration.
[0049] A method of determining an operational configuration for a vaporizer device that comprises a payload reservoir that is identified by a payload identifier includes steps to authenticate a user through a software application on a computing device, pass the identifier
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17/51 payload from a wireless transceiver from the vaporizer device to the computing device, determining the operational configuration with the computing device based at least in part on the payload identifier or secondary data, transmitting the operational configuration from the computing device to the vaporizer device, and control the vaporizer device based on the operational configuration. Secondary data and operational settings can be any of those described above. The method may comprise unlocking or locking the vaporizer device based on a detected movement, acceleration, altitude or speed of the vaporizer device or the computing device.
[0050] Additional aspects of the invention, together with the advantages and innovative features are pertinent to it, will be presented in part in the description that follows, and in part will become evident to those skilled in the art after examining what follows, or they can be learned from the practice of the invention. The objectives and advantages of the invention can be achieved and achieved through the instrumentalities and combinations particularly presented in the attached claims.
BRIEF DESCRIPTION OF THE DRAWINGS
[0051] Figure 1 is one diagram of blocks that represents a modality in one device vaporizer enhanced.[0052] Figure 2 is one diagram of blocks that represents another modality in : one device vaporizer
enhanced.
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18/51 [0053] Figure 3 is a block diagram representing a vaporizer system comprising an improved vaporizer capable of wireless communication with a computing device.
[0054] Figure 4 is a flow chart that represents a modality of the steps performed by the system of Figure 3.
DETAILED DESCRIPTION OF THE PREFERRED MODE [0055] In this description, references to a modality or modalities mean that the resource or resources being referred to are included in at least one modality of the technology. Separate references to a modality or modalities in this description do not necessarily refer to the same modality and are also not mutually exclusive unless so mentioned and / or except when it is easily evident to those skilled in the art from the description. For example, a resource, structure, actions, etc. described in one modality may also be included in other modalities, but are not necessarily included. Therefore, the present technology may include a variety of combinations and / or integrations of the modalities described in this document.
[0056] Referring to Figure 1, a modality of the vaporizer device 10 is shown. The vaporizer device 10 includes a nozzle assembly 12, an atomizer subset 19, a payload section 24 and a control subset 14. Any the nozzle assembly 12, the atomizer subset 19, the payload section 24 and the control subset 14 can be formed integrally together and included within a
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19/51 common housing suitable for grabbing by a user. In addition, any of the nozzle assembly 12, atomizer subset 19, payload section 24 and control subset 14 can be formed in separate housings which are releasably connected to each other by means of connection means 15 , which may comprise, for example, one or more of pressure or friction plug-in connection means, mechanical torsion locking means, magnetic connection means or any other connection means as are well known to those skilled in the art. As an example, the nozzle assembly 12 can be releasably connected to the atomizer subset 19, the payload section 24 and the control subset 14, which are formed either integrally together or in separate housings that are connected releasable with each other. The nozzle assembly 12 and the atomizer subset 19 can be integrally formed together and releasably connected to the payload section 24 and to the control subset 14, which are formed either integrally together or in separate housings that are connected in a way that is releasable with each other. In addition, the nozzle assembly 12, the atomizer subset 19 and the payload section 24 can be integrally formed together and releasably connected to the control subset 14.
[0057] In some embodiments, the nozzle assembly 12 is operatively coupled to the control subset 14 by means of connection 15. In some embodiments, a heater or atomizer 20 is placed in atomizer section 19, with atomizer 20 comprising still one
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20/51 heating coil 22 placed on that to heat and vaporize liquids or oils. The atomizer 20 can comprise an inlet 21 and an outlet 23, where the inlet 21 can be in communication, via the fluid connector 46, with the payload reservoir 26 placed in the payload section 24, where the reservoir payload 26 may contain liquid or oil for vaporization or atomization. Output 23 may be in communication with user nozzle 16 of nozzle assembly 12 via conduit 17. In some embodiments, the payload section 24 may comprise an identifier (ID) tag 28, which may further comprise a unique payload identifier that identifies the payload reservoir 26, and also optionally, secondary data as described below. The unique payload identifier on the ID 28 tag can be a serial number or tracking number for reservoir 26 as a means of identifying which liquid or oil is contained in reservoir 26 in order to obtain information on specific operating parameters atomizer 20, or operational configurations, which are great for vaporizing the specific liquid or oil contained in reservoir 26. For example, the payload identifier can be compared to a database that includes payload identifiers from a plurality of payload tanks. The database can include specific operational configurations and secondary data for each of the payload identifiers, as described below.
[0058] The ID 28 tag can be any type of device that includes memory or
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21/51 storage to store the payload identifier and, optionally, secondary data, and means to allow the payload identifier and / or secondary data to be retrieved by another device, such as microcontroller 31 and / or the transceiver circuit RF 36, for further processing and / or transmission. For example, the ID tag can be an RFID tag or non-volatile memory.
[0059] For the purpose of this patent application, the term electrical connection will include any form of electrical connection through a wired or wireless connection, such as conductors or electrical wires suitable for transmitting alternating or continuous electrical energy, electrical signals analogue or digital or radio frequency signals, as appropriate and as well known to those skilled in the art.
[0060] In some embodiments, the nozzle assembly 12 may comprise a traction switch 18 operatively coupled to the atomizer 20 by means of an electrical connection 44, in which the traction switch 18 may cause electrical current from battery 42 to flow through the coil heating element 22. In some embodiments, the switch 18 may comprise a traction sensor, such as a mass airflow sensor, which can produce an electrical signal in response when a user inhales or aspirates through the mouthpiece 16, in which the electrical signal can cause electrical current from battery 42 to flow through heating coil 22. In some embodiments, the traction switch 18 can be used as a simple switch as a means of turning on atomizer 20 to
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22/51 vaporize liquid or oil dragged into the atomizer 20 from the reservoir 26 when the user inhales through the nozzle 16. In some modalities, the traction switch 18 can be configured to monitor the amount of liquid or oil being vaporized or how much steam is being inhaled by the user. Traction switch 18 is a type of activation mechanism that can be used to activate atomizer 20. Traction switch 18 can be replaced by or used in combination with another type of activation mechanism that receives an input to switch it from an off position, in which the atomizer 20 is not activated, to an on position, in which the atomizer 20 is activated. For example, traction switch 18 can be replaced by or used in connection with any of the following types of activation mechanisms: a button, switch, traction sensor, pressure transducer, proximity sensor, touch sensor, voice recognition, haptic sensor, saliva and respiration biosensor, and the like.
[0061] In some embodiments, the nozzle 16 and the traction switch 18 can be part of a single piece nozzle subset 12, or they can be positioned in a separate nozzle section 13 that forms part of the nozzle subset 12.
[0062] In some embodiments, the atomizer 20 can be positioned in the atomizer subset 19 which can either be integral with the nozzle subset 12, or be a physically separate housing that can be coupled to the nozzle subset 12. Instead of or in addition to include a
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23/51 heating coil 22 As disclosed herein, atomizer 20 may include any other structure capable of vaporizing a liquid or oil in a form suitable for inhalation. For example, atomizer 20 may include a jet nebulizer, an ultrasonic nebulizer, or a mesh nebulizer.
[0063] In some modalities, the reservoir in useful load 26 and the ID tag 28 may be positioned at section of useful load 24 that can to be integral to subset of nozzle 12 and / or to the subset in
atomizer 19, or be a physically separate housing that can be coupled to the nozzle subset 12 and / or atomizer subset 19, which can include one or more of the connecting means 15 described above. Preferably, the ID tag 28 is physically coupled to the payload reservoir 26, either directly or indirectly (for example, the ID tag 28 and payload reservoir 26 are included in a common housing of the payload section 24) in a tamper-resistant mode.
[0064] In some embodiments, the control subset 14 can comprise one or more antennas 40, a battery 42 and a circuit board 30 which can also comprise a microcontroller 31 configured to perform one or more electronic functions in relation to the operation of the device vaporizer 10. The fact that there is more than one antenna 40 may allow the ability for diversified wireless communications of RE signals, as well known to those skilled in the art. In some embodiments, circuit board 30 may comprise a
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24/51 charger circuit 32 for charging battery 42. Charger circuit 32 can be integral with circuit board 30 or it can be positioned on a separate circuit board operatively connected to circuit board 30 and battery 42 via a connection electrical 54. Charger circuit 32 can be configured to be operatively connected to an external power source, either through a shared or dedicated electrical connector 35 operatively coupled to circuit board 30 with an internal connection to charger circuit 32, or by a wireless connection for power transfer, as well known to those skilled in the art.
[0065] In some embodiments, circuit board 30 may comprise user input interface circuit 34 and output interface circuit 38. Either or both input interface circuit 34 and input circuit
interface about to leave 38 can be integral The board in circuits 30 or can be positioned in an board in circuits separated operatively connected The board in circuits 30. In some modalities, the circuit in
Input interface 34 can provide the electrical interface between user controls and activation mechanisms arranged on the vaporizer device 10, such as buttons, switches, traction sensors, pressure transducers, proximity sensors, touch sensors, recognition sensors voice, haptic sensors, saliva and respiration biosensors, and the like, and microcontroller 31 and therefore can provide the means to relay user input commands
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25/51 from the user controls as instructions for the microcontroller 31 to operate the vaporizer device 10. For example, the input interface circuit 34 may be electrically coupled to the traction switch 18 to receive an on signal from the traction switch 18 when a user inhales through the nozzle 16. When the input interface circuit 34 receives the start signal from the traction switch 18, it can send instructions to the microcontroller 31 to activate the atomizer 20. In some embodiments, the output interface circuit 38 can provide the electrical interface between microcontroller 31 and output display devices, such as indicator lights, alphanumeric display screens, audio speakers, surface heaters, vibrating devices, and any other forms of tactile feedback devices as well known to those skilled in the art and therefore can provide the means for feedback information related to the operation of the vaporizer device 10 of the microcontroller 31 to the user.
[0066] In some embodiments, circuit board 30 may comprise radio frequency transceiver (RE) circuit 36 to provide the means for wireless data communication between the vaporizer device 10 and a personal computing device, such as the computing device 72 shown in Figure 3. In some embodiments, the RE 36 transceiver may be integral with circuit board 30 or may be arranged on a separate circuit board operatively connected to circuit board 30. The RE 36 transceiver circuit may be
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26/51 connected to one or more antennas 40 via electrical connection 52, as well known to those skilled in the art. The RF transceiver circuit 36 and one or more antennas 40 comprise a wireless transceiver of the vaporizer device 10.
[0067] In some embodiments, the microcontroller 31 may comprise a microprocessor (which for the purpose of this disclosure also incorporates any type of processor) that has a central processing unit as well known to those skilled in the art, in which the microprocessor can still comprise a memory configured to store a series of instructions for operating the microprocessor in addition to storing data collected from the sensors disposed in the vaporizer device 10 or data received by the vaporizer device 10 to control its operation, such as operational settings. Microcontroller 31 is in electrical communication with charger circuit 32, user input interface circuit 34, output interface circuit 38 and RF transceiver circuit 36 to receive instructions and / or data from and / or transmit instructions and / or data to charger circuit 32, user input interface circuit 34, output interface circuit 38 and RF transceiver circuit 36. In some embodiments, atomizer 20 can be operatively and electrically connected to circuit board 30 via connection electric 48, which can provide the means to activate the atomizer 20 when an activation mechanism such as the pull switch 18 sends a signal to connect to the microcontroller 31 (for example, delivery of electric current
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27/51 from battery 42 to heating coil 22), as well as receiving data signals from the traction switch 18 and / or the atomizer 20. In this way, the activation mechanism (ie, traction switch 18) is coupled to the atomizer 20 indirectly via microcontroller 31, and a direct connection between the activation mechanism and atomizer 20 is not required (i.e., the activation mechanism sends a signal to microcontroller 31 which sends a signal to activate atomizer 20). In addition to controlling the operation of the atomizer 20 based on a signal received from the activation mechanism, the microcontroller 31 also controls the operation of the atomizer 20 based on the operational settings as described in this document. In some embodiments, the microcontroller 31 can be operatively connected to the ID tag 28 via electrical connection 50, which can be a wired or wireless connection.
[0068] The operational configurations referred to in this document include any type of configuration or instruction that instructs the vaporizer device 10 or certain components of the vaporizer device 10 to operate or not to operate in a specific mode. Specifically, the operational settings of the vaporizer device 10 include a duty cycle setting, a temperature setting, an operating time duration, a dosing setting and a safety setting. The duty cycle configuration preferably corresponds to a pulse width modulation instruction transmitted from the microcontroller 31 to the battery 42 and the heating coil 22 to send electrical current to the heating coil 22
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28/51 in a specific desired mode. The temperature setting corresponds preferably to a temperature instruction transmitted from microcontroller 31 to battery 42 and heating coil 22 to send electrical current to heating coil 22 to maintain heating coil 22 at a desired temperature or temperature range. A temperature sensor can be coupled to the microcontroller 31 to measure the actual temperature of the heating coil 22 and transmit that information to the microcontroller 31 to determine the amount and duration of the electrical current that needs to be sent to the heating coil 22 to maintain a temperature or specific temperature range. The operating time duration preferably corresponds to a time instruction transmitted from the microcontroller 31 to the battery 42 and the heating coil 22 to maintain the heating coil 22 at a temperature suitable for vaporizing the contents of the payload reservoir 26 for a desired time . The dosing configuration preferably corresponds to a dosing instruction transmitted from the microcontroller 31 to the battery 42 and the heating coil 22 which disconnects the heating coil 22 when a desired volume of steam passes through the atomizer 20. A steam measuring device can measure the volume of steam that passes through the atomizer 20 and transmits that information to the microcontroller 31, which compares the actual volume that passed through the atomizer 20 with the dosing setting to determine when to turn off the heating coil 22. The safety setting corresponds preferably to a safety instruction that makes the microcontroller 31
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29/51 prevent the operation of atomizer 20 when an event has occurred or has not occurred. The safety settings described in this document that would prevent the operation of the atomizer 20 include a payload reservoir 26 that has been tampered with or stolen, an unauthorized user (for example, the user does not have a valid prescription for the substance inside the cargo reservoir 26, or the user is not identified as the owner or has valid rights to use the payload tank 26), a user who is in a location that does not allow the use of a vaporizer device 10, a user who is traveling in a vehicle , a user who has exceeded his permitted use of the substance in the payload reservoir 26 within a specific time interval, and any other safety settings described in this document or why the vaporizer device 10 is inoperable as described in this document.
[0069] In some embodiments, the ID 28 tag can be used to identify the person who has a prescription to vaporize the liquid or oil stored in the payload reservoir 26 (for example, the ID 28 tag includes a load identifier useful that is associated in a database with user information and prescription information for a specific individual who has a prescription for content within the payload reservoir 26). This information (that is, payload identifier and prescription information associated with the payload identifier) can be used as a security measure to determine whether a user of a vaporizer device 10 is the person who owns it
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30/51 of the vaporizer device 10 and has a valid prescription for consuming the liquid or oil contained in the vaporizer device 10. The ID 28 tag and / or microcontroller 31, together with the appropriate sensors, can also be used as part of a system for collecting data related to the use of the vaporizer device 10 by the user by monitoring what may include, without limitation, historical information on the use of the vaporizer device, such as how many times the vaporizer device 10 is used during a certain period of time (hour , day, week, etc.), the duration of each use of the vaporizer device 10, how many inspirations the user makes in the vaporizer device 10, the amount of liquid or oil consumed during each use of the vaporizer device 10, among others. In some modalities, information regarding how much liquid or oil is consumed by the user can be used as clinical data to determine whether the user is consuming the correct amount of medication to be vaporized and inhaled and at the exact times of the day. The information can be used to provide feedback to the user in terms of whether the user should consume medication more often or less frequently during the day and / or increase or decrease the amount of medication consumed for general use or for use at specific times of the day. In some modalities, the information collected regarding the user's consumption of cannabis liquid or oil with vaporizer device 10 can be used to estimate intoxication or damage based on the user's physical characteristics and the amount of cannabis liquid or oil consumed.
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31/51
This estimate can be relayed to the user as a means of informing the user if the user is too intoxicated or harmed to operate a motor vehicle or to operate tools or machinery, as an example.
[0070] In some modalities, the vaporizer device 10 and / or the computing device 72 can monitor when the payload reservoir 26 is almost empty of liquid or oil and alert the user of the fact. In some embodiments, the system can automatically order a replacement payload reservoir 26 for computing device 72 connected to the global telecommunications network 92 via wireless communications link 90, as shown in Figure 3, if the user has configured the system to perform that function. In some embodiments, information and data can be transmitted as first data to be used as inputs to a software application 74 that runs on the user's personal computing device 72 or through cloud computing from a manufacturer or supplier of the vaporizer device 10, where the application is configured to control the operation of the vaporizer device 10.
[0071] In some embodiments, application 74 can use the payload identifier on the ID tag 28 to determine which liquid or oil is currently placed inside the vaporizer device 10 and then use the unique payload identifier on the ID tag 28 to determine the operational settings of the vaporizer device 10 to vaporize the specific liquid or oil placed in the vaporizer device 10 as
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32/51 the settings recommended by the manufacturer of the liquid or oil and / or the vaporizer device 10. Application 74 can access those operational settings via a connection to an online data source, or can access a data table that is included no, or is otherwise incorporated into application 74 (for example, stored in memory on computing device 72) to locate operational settings. In some embodiments, application 74 can access the online data source or operational settings to update the data table stored locally on computing device 72, which can be done periodically and automatically, or manually by the user who requests application 74 to update the data, or a combination of both processes. The localized operating configuration (s) can then be transmitted as operational configuration (s) to the vaporizer device 10 from the personal computing device 72 of the user.
[0072] Referring to Figure 2, another embodiment of the vaporizer device 100 is shown. In some embodiments, the vaporizer device 100 may comprise the control subset 14, the atomizer subset 79 and the nozzle subset 88 operatively coupled together in that order using mechanical connection means 56 to join the subsets together. Mechanical connection means 56 may comprise one or more of threaded connection means, magnetic connection means and friction or pressure fitting connection means, and any of the connection means 15 described above. In some modalities, the
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33/51 nozzle subset 88 may comprise a nozzle 58 in communication with outlet 17 of atomizer 20 via conduit 60. The nozzle subset 88 may further comprise a payload reservoir 62 that can be filled with liquid or oil 64 Liquid or oil 64 can flow from the payload reservoir 62 to the inlet 21 of the atomizer 20 via one or more valves 68. In some embodiments, the nozzle subset 88 may comprise the ID tag 28 and an oil gauge 66, which can be configured to monitor the volume of liquid or oil 64 in the payload reservoir 62 and relay that information to microcontroller 31. In this embodiment, the nozzle subset 88 can be a consumable element that can be replaced when a complete subset is exhausted, or simply exchanged for another subset of nozzle 88 that contains a different liquid or oil 64 for consumption, depending on the user's needs and desires. In some embodiments, oil gauge 66 may simply be a glass sight glass placed over nozzle subset 88 to provide a visual indicator to the user as to the amount of liquid or oil remaining in that.
[0073] In some embodiments, atomizer subset 79 may also be a replaceable vaporizer device subcomponent 100 if and when atomizer 20 is damaged or simply stops working. In some embodiments, the control subset 14 may comprise sensors 70 electrically coupled to the input interface circuit 34 along with buttons and user input controls (not shown) positioned on the
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34/51 vaporizer device 10 in addition to the traction switch 18, as described above and shown in Figure 1.
[0074] The control subset 14 of the vaporizer device 100 is preferably substantially similar to the control subset 14 of the vaporizer device 10. The atomizer 20 of the vaporizer device 100 is preferably substantially similar to the atomizer 20 of the vaporizer device 10, and may include alternative means for vaporizing liquid or oils other than a heater as described above in connection with the vaporizer device 10. It is within the scope of the invention that the atomizer subset 79 and the nozzle subset 88 are integrally formed within a common housing which is connected reliably to the control subset 14. Furthermore, it is within the scope of the invention that the control subset 14 and the atomizer subset 79 are integrally formed within a common housing that is releasably connected to the nozzle subset 88. It is also within the scope of the invention the subset of atomizer 79, nozzle subset 88 and control subset 14 are integrally formed within a common housing.
[0075] Referring to Figure 3, a vaporizer device system 102 includes vaporizer device 10 and computing device 72 that runs application 74 therein. It is understood that computing device 72 includes a processor 94 that runs application 74, and that references in this document to computing device 72 include its processor 94. The vaporizer device 100 may also be operated with the
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35/51 computing device 72 in the same manner as described below in relation to the vaporizing device 10. In some embodiments, the vaporizing device 10 can communicate wirelessly with computing device 72 and application 74 via the communications communications link. RE 73. In some embodiments, the RE 73 communications link may comprise one or more of Bluetooth TM communications protocol, Wi-Fi ™ IEEE 802 communications protocol, Zigbee IEEE 802.15.4 based protocol, and any other short-range and long-range RE communications protocol as well known to those skilled in the art. The vaporizer device 10 can also communicate with computing device 72 via a wired connection established, for example, between electrical connector 35 of vaporizer device 10 and a communications connector (not shown) of computing device 72 In some embodiments, application 74 may comprise a visual panel 75 that comprises visual information and controls that can be operated by a user. In some embodiments, the panel 75 may comprise a user information window 76 for displaying information regarding the operation of the vaporizer device 10 in addition to general information. This general information may include general news as well as information about updates available for the vaporizer device 10 or application 74 provided by the manufacturer or supplier of the device. In some embodiments, application 74 can access the online data source described above to update the data table, which can be done periodically and automatically, or
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36/51 manually by the user who asks the application to update the data, or a combination of both processes. As described above, this online data source preferably includes operational configurations for a plurality of vaporizer devices 10 and substances contained in the payload reservoirs 26.
[0076] In some embodiments, panel 75 may comprise a locate button 7 8 as a means for the user to determine the location of the vaporizer device 10 if the user has lost it. By pressing the locate button 78, the computing device 72 can send a wireless signal to the vaporizer device 10 to operate an audible signal from an audio speaker or bell or other similar device arranged there to assist the user in finding the vaporizer device 10. In other modalities, pressing the locate button 78 can assist the user in determining their geographic location (using computing device geographic location capabilities 72) and whether cannabis products can be consumed using the vaporizer device 10 on that location (for example, if there are applicable or mandatory governmental rules, laws, or rules in the geographic area where the vaporizer device is located that may subject the user of the vaporizer 10 to criminal or administrative penalties, fines, or enforcement actions). In some embodiments, panel 75 may comprise heat pass button 80 as a means for the user to manually control the heat used to vaporize liquid or oil 64, in which the transmitted signal
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37/51 by application 74 to the vaporizer device to control the heat can be included in the operational configuration. In some embodiments, panel 75 may comprise a lock indicator 82, unlock indicator 84 and pass button 86 as a means for enabling and disabling the vaporizer device 10 by the user by sliding pass button 86 to the right or left, respectively .
[0077] In some embodiments, application 74 may use the unique payload identifier received from the ID 28 tag as a means of determining whether the person in possession of the vaporizer device 10 and computing device 72 is an allowed user (for example, application 74 can compare user information associated with the payload identifier with application user information that a user provides to application 74 to determine whether application user 74 is allowed to operate the vaporizer device 10 and the specific payload reservoir 26). Application 74 can use the general security settings of computing device 72 to enable or disable the operation of the vaporizer device 10, where such security settings may comprise one or more passwords, fingerprint scanning (using the fingerprint scanner digital 85 as shown in Figure 3), facial recognition scanning, retinal scanning and any other security settings for computing device 72 as well known to those skilled in the art. The person in possession of the computing device 72 and the device
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38/51 vaporizer 10 is allowed to open applications on computing device 72 and therefore access application 74, then application 74 can send an enabling signal to vaporizer device 10, where the enabling signal may be included in the operational configuration, to allow the vaporizer device 10 to operate, provided that all other factors or conditions to enable operation of the vaporizer device 10 have been satisfied. In some modalities, when the computing device 72 goes to sleep, is turned off or off due to a low battery charge condition, as well known to those skilled in the art, application 74 can send a disabling signal to the vaporizer device 10, wherein the disable signal may be included in the operational configuration, to prevent the vaporizer device 10 from operating. In some embodiments, when the vaporizer device 10 and computing device 72 are separated by a predetermined physical distance, the vaporizer device 10 may turn off or become disabled until it receives an enabling signal from computing device 72. In some embodiments , application 74 may require a user to enter a password, in addition to any password to be provided or other security measure required by computing device 72 to open, to allow operation of application 74 and, therefore, operation of the vaporizer device 10. If the user can provide application 74 with the correct password, then application 74 can send an enabling signal to the vaporizer device 10 as part of the operational configuration. On the other hand,
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39/51 while application 74 is closed, application 74 can send a disabling signal to the vaporizer device 10 to disable it.
[0078] In some modalities, application 74 may use secondary data sources, such as user information, prescription information, location information, payload information, historical use information of the vaporizer device, and historical reservoir information. payload, but not limited to these. Secondary data can be stored in the memory of computing device 72 which is accessible by application 74, in microcontroller memory 31, and / or in the remote memory of vaporizer device 10 and computing device 72 which is accessible via the global network of telecommunications 92.
[0079] User information may include several physiological characteristics, such as height, weight, age, gender, medical record and medical history, and a user's medical conditions, but are not limited to these.
[0080] In another modality, user information also includes demographic information, such as a user's employer, employment history, educational history, criminal history, and the like. Not only can such user information be used to control operational settings of the vaporizer device 10, but demographic information can be used to display target content, advertisements and material from panel 75 and / or information window 76.
[0081] User information can be retrieved
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40/51 of, for example, third party social, health and fitness software applications on computing device 72, such as Facebook®, Linkedln®, Snapchat®, Twitter® and / or Fitbit®. In addition, user information can be retrieved by the application 74 from third party databases, such as health information databases, medical records databases, health insurance company databases, health insurance databases. crimes, legal and judicial databases, and the like.
[0082] In yet another modality, user information can be provided to application 74 and / or vaporizer device 10 (through, for example, user input devices coupled to user input interface circuit 34) by the user.
[0083] Prescription information can be retrieved from, for example, databases of pharmacies and dispensaries, as well as doctors, pharmacists, and other licensees to prescribe and / or handle prescriptions. Prescription information preferably includes whether a specific user has a valid, unexpired prescription for using the substance within the payload reservoir 26.
[0084] Location information can include at least one of the geographical location of the vaporizer device 10, a regulatory code, a government law and a legal status. Location information can be determined and used as follows. In some embodiments, application 74 may use the payload identifier on the ID 28 tag as a means of determining whether the liquid or oil can be
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41/51 consumed in the geographic region, location, country, state, or municipality where the user is located. In these modalities, application 74 can access global positioning system (GPS) resources that computing device 72 can have to determine the physical location of computing device 72 and therefore its user, as well as determining whether cannabis oil can be legally consumed by the user at that location using a vaporizer device 10. In other embodiments, computing device 72 may use cell tower triangulation techniques or other cell phone techniques, as well known to those skilled in the art, to determine the its geographic location.
[0085] Location information relating to the geographic location of computing device 72 can be used by application 74 to send an enabling or disabling control signal to the vaporizer device 10. If cannabis oil can be consumed by the user at that location, then application 74 can send the enable signal to the vaporizer device 10 to allow it to operate. If cannabis oil cannot be consumed by the user at that location, because its use would violate laws or regulations or for any other reason, then application 74 can send the disable signal to the vaporizer device 10 to prevent it from operating. In either case, the enable signal or the disable signal can be included in the operational configuration. Application 74 preferably compares the geographic location of the
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42/51 computation 72 with a location information database to determine if the user can legally use cannabis at that location. Location information can include a simple yes or no as to whether cannabis can be consumed using a vaporizer device 10 in any specific location, and / or more specific information about specific substances can be consumed by the user using vaporizer device 10 in any specific location. .
[0086] Payload information may include an identification of the specific substance located within a payload reservoir 26 and the original volume of the substance located within payload reservoir 26. Payload information can be used in conjunction with historical information payload reservoir to determine if a payload reservoir 26 is empty. In addition, payload information can be used in conjunction with user information to determine whether a user is authorized to use the substance located within the payload reservoir 26. Payload information can also be used in conjunction with location information to determine whether a specific substance located in the payload reservoir 26 can be legally consumed in the jurisdiction where the vaporizer device 10 is located.
[0087] In another modality, application 74 can use historical information of use associated with the vaporizer device 10 and / or the payload reservoir 26. Such historical information of use of the
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43/51 vaporizer device may include the number of previous sessions in which the vaporizer device 10 was accessed, user information from previous sessions, duration of previous sessions, operational settings from previous sessions, measurement and dosage information from previous sessions, and similar, but not limited to them.
[0088] In another embodiment, historical payload reservoir information may include details relating to payload reservoir 26, such as original fluid or oil content, remaining content, used content, usage of content per session, and the like .
[0089] Such historical usage information (historical usage information for vaporizer device and historical payload reservoir information) can be used by application 74 to determine if a payload reservoir 26 was previously used, and then modify the settings correspondingly operational so that tampered, improperly refilled, or illegally refilled payload reservoirs 26 cannot be used by the vaporizer device 10, or other vaporizer devices that operate within the scope of this invention. For example, the vaporizer device 10 and / or application 74 can track the use of the payload reservoir 26 and calculate when the original contents of the payload reservoir 26 have run out. When the original content of the payload reservoir 26 runs out, the vaporizer device 10 and / or the application 74 can
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44/51 update the historical payload reservoir information to indicate that the payload reservoir 26 cannot be used again. If a user tries to continue using the payload reservoir 26, the operational settings of the vaporizer device 10 will be updated by that user or application 74 to disable the vaporizer device 10 and prevent the use of the payload reservoir 26.
[0090] In another mode, the application 74 and / or the vaporizer device 10 can use acceleration, movement, altitude and / or speed sensors to determine whether the user is inside, for example, a moving vehicle or aircraft. Such information can be used by application 74 and / or the vaporizer device 10 to restrict access to, or block, the vaporizer device 10. Sensors 70 such as accelerometers, altimeters, gyroscopes, and speed sensors may be integrated with the vaporizer device 10 and / or computing device 72.
[0091] In one embodiment, application 74 may use any combination of the payload identifier and secondary data, including user information, prescription information, location information, payload information, historical usage information for the vaporizer device, and historical payload reservoir information for the purpose of modifying, determining, adjusting, or otherwise controlling the operational settings of, and accessing, the vaporizer device 10.
[0092] With reference to Figure 4, are shown
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45/51 steps according to an exemplary method for operating and controlling the vaporizer device 10 or 100. Although the method is described below in connection with the vaporizer device 10, the method can also be used with the vaporizer device 100. The method can run by the vaporizer device 10 in connection with application 74 which runs on the computing device 72, shown in Figure 3. The method can start in step 402 with the vaporizer device 10 in a standard locked state, meaning it cannot be operated. When a user has access to his computing device 72 at step 404, computing device 72 can confirm the user's identification in order to be able to move to step 406, where computing device 72 can open the application 74 and then communicate with the vaporizer device 10 to query by the payload identifier of the ID tag 28. Application 74 can also be used to authenticate the user prior to the transmission of the payload identifier to the computing device 72. On step 408, the vaporizer device 10 can, after being consulted by the computing device 72, read the ID tag 28 and then transmit the payload identifier to the computing device 72. Specifically, in one embodiment, the microcontroller 31 of the device vaporizer 10 receives the payload identifier from the ID 28 tag, transmits the payload identifier to the wireless transceiver (ie , RE transceiver circuit 36 and antenna (s) 40), and antenna (s) 40 transmit (s) the payload identifier to computing device 72. In step 410, application 74 can
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46/51 use the ID 28 tag payload identifier and, optionally, secondary data, and then determine the operational or vaporization settings associated with the ID 28 tag payload identifier and, optionally, also in the light of secondary data. In some embodiments, application 74 proceeds to step 412 and transmits the operational settings to the vaporizer device 10. Specifically, in one embodiment, a wireless transceiver from the computing device 72 transmits the operational settings to the antenna (s) 40 and RF transceiver circuit 36 of the vaporizer device, which transmits the operational settings to the microprocessor of the microcontroller 31. In step 414, the microcontroller 31 in the vaporizer device 10 then operates and controls the vaporizer device 10 based on the operational settings.
[0093] In other modalities, application 74 proceeds to step 416 instead of step 414, after which application 74 can confirm that the user is authorized to use the vaporizer device 10. Application 74 can use any combination secondary data (for example, user information, prescription information, location information, payload information, historical vaporizer usage information, and historical payload reservoir information) and the payload identifier for the purpose to determine if the user is authorized to use the vaporizer device 10. For example, application 74 can use secondary data such as prescription information as well as loading information
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47/51 payload that indicate the contents of the payload reservoir 26, to determine whether the prescription associated with the prescription information allows the user to access the payload contents within the payload reservoir 26.
[0094] In yet another example, application 74 may use user information such as gender, age and weight, as well as historical information on the use of the vaporizer device, to determine an appropriate dosage and / or measurement of the vaporizer device 10.
[0095] If the user is authorized in this way, application 74 can further determine whether the payload reservoir 26 (in Figure 1) or nozzle subset 88 (in Figure 2) is genuine and not counterfeit or, optionally, whether it is stolen or otherwise unauthorized for use by the user (for example, application 74 can compare the payload identifier to payload information that indicates whether payload reservoir 26 or nozzle subset 88 has been registered as tampered or stolen ). If genuine and not stolen, then application 74 can proceed to step 412 where operational settings can be transmitted to the vaporizer device 10 and the user is subsequently authorized to operate the vaporizer device 10 in step 414. If not genuine or stolen, the application 74 can lock the vaporizer device 10 to prevent its use.
[0096] In other modalities, application 74 proceeds from step 416 to step 418, instead of proceeding to step 414. In step 418, application 74 can determine the geographic location of the device
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48/51 vaporizer 10 and whether the liquid or oil in the vaporizer device 10 can be consumed in that location by comparing the geographical location with the geographical location obtained by the application 74. If the liquid or oil in the vaporizer device 10 can be consumed in the location of the device vaporizer 10, application 74 can proceed to step 412 where operational settings can be transmitted to vaporizer device 10, and the user is subsequently authorized to operate vaporizer device 10 in step 414. If the liquid or oil in vaporizer device 10 is not can be consumed at the location of the vaporizer device 10, application 74 can block the vaporizer device 10 to prevent its use.
[0097] In other embodiments, application 74 proceeds to step 420 where a permitted length of time is set for which the vaporizer device 10 can be used. The allowed length of time can be determined based on any combination of secondary data (for example, user information, prescription information, location information, payload information, historical vaporizer usage information, and historical reservoir information payload) and / or the payload identifier. The allowable length of time can be transmitted to the vaporizer device as an operational configuration in step 412. As soon as operational settings are received by the vaporizer device 10 in step 414, the vaporizer device 10 can implement these operational configurations to properly vaporize the
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49/51 liquid or oil contained therein. In this mode, the vaporizer device 10 can be unlocked for use by the user according to the operational settings received. In addition, the vaporizer device 10 can be locked in step 402 after the permissible or usage time has expired.
[0098] Furthermore, after the vaporizer device 10 is operated in step 414, the vaporizer device 10, either by means of microcontroller 31 and / or application 74, can be locked in step 402 after use, after a predetermined duration, after be deactivated by the user, after the payload reservoir 26 is considered or calculated to be empty or to be used, after a new user has been detected, and / or for any other reason that the vaporizer device 10 can be locked as described in this document.
[0099] In one embodiment, the method shown in Figure 4 can be performed by the vaporizer device 10 when running application 74, or an application similar to that, on the microprocessor of microcontroller 31 without the use of computing device 72. In such an embodiment, step 402 remains the same as described above. Step 404 can be modified so that user information is provided to the vaporizer device 10 to determine whether the user is an approved user of the vaporizer device 10 and the contents of the payload tank 26. Steps 406 and 408 can be omitted, or optionally, step 408 may comprise the microprocessor of microcontroller 31 receiving the payload identifier from the ID tag 28. In step
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410, operational settings are determined based on the payload identifier and / or the secondary data as described above, but are determined by the microprocessor of the microcontroller 31 of the vaporizer device 10. Step 412 is omitted because the operational settings are already contained in the device vaporizer 10. Step 414 proceeds as described above. Optional steps 416, 418 and 420 can proceed as described above, but with an application running on microcontroller microprocessor 31 performing the steps.
[00100] In yet another modality, the computing device 72 is integrated, or physically coupled to the vaporizer device 10. In this modality, the payload identifier can be transmitted to the computing device 72 through an electrical connection between the reservoir of payload 26 and the integral computing device 72. Similarly, computing device 72 can transmit operational settings via the electrical connection to microcontroller 31. In yet another embodiment, integral computing device 72 can include a wireless transceiver, or an optical transceiver, and can operate as in the modalities of the remote computing device described in this document.
[00101] Although a few modalities have been shown and described, it will be understood by those skilled in the art that various changes and modifications can be made to these modalities without altering or diverging from their scope, objective or functionality. The terms and expressions
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51/51 used in the preceding specification have been used in this document as terms of description and not of limitation, and there is no intention in using such terms and expressions to exclude equivalents of the features shown and described or their portions, it being recognized that the invention is defined and limited only by the following claims.
[00102] From the above, it will be seen that this invention is well adapted to meet all the purposes and objectives mentioned above in this document, along with the other advantages that are obvious and that are inherent to the invention.
[00103] Since many possible modalities can be made of the invention without departing from its scope, it should be understood that all matters in this document presented or shown in the attached drawings must be interpreted as illustrative and not in a limiting sense.
[00104] Although specific modalities have been shown and discussed, evidently several modifications can be made, and the invention is not limited to the specific forms or arrangement of parts or steps described in this document, except to the extent that such limitations are included in the claims Next. In addition, it will be understood that certain resources and sub-combinations are useful and can be used without reference to other resources and sub-combinations. This is contemplated and is within the scope of the claims.

权利要求:
Claims (25)
[1]
1. Vaporizer device system, characterized by the fact that it comprises:
an atomizer comprising an inlet and an outlet;
a nozzle coupled to the outlet;
an activation mechanism coupled to the atomizer;
a payload reservoir coupled to the inlet, where the payload reservoir is identified by a payload identifier and where the payload reservoir is configured to hold a substance for vaporization; and a processor that is configured to determine an operational configuration based on at least one of the payload identifiers and secondary data.
[2]
2. Vaporizer device according to claim 1, characterized in that it further comprises a vaporizer device comprising the atomizer, the nozzle, the activation mechanism, the payload reservoir, a second processor and a wireless transceiver and comprising still a computing device comprising the processor.
[3]
3. Vaporizer device system according to claim 2, characterized in that the second processor is configured to receive the payload identifier and transmit the payload identifier to the wireless transceiver, where the wireless transceiver is configured to transmit the payload identifier to the processor and where the wireless 0 transceiver is further configured to receive the operational configuration from the processor and transmit the operational configuration to the
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2/6 second processor.
[4]
4. Vaporizer device system according to claim 1, characterized by the fact that the secondary data is selected from a group consisting of user information, prescription information, location information and payload information.
[5]
5. Vaporizer device system according to claim 1, characterized in that the operational configuration includes at least one of a duty cycle configuration, a temperature configuration, an operating time duration, a dosing configuration and a security setting.
[6]
6. Vaporizer device system according to claim 1, characterized by the fact that the processor is configured to control the operation of the atomizer based on the operational configuration.
[7]
7. Vaporizer device system, according to claim 1, characterized by the fact that the processor is coupled to at least one of the atomizers, nozzle and payload reservoir.
[8]
8. Vaporizer device system according to claim 1, characterized by the fact that the atomizer comprises a heating element and in which the activation mechanism is configured to cause the electric current from an energy source to flow through the heating element.
[9]
9. Method for controlling a vaporizer device comprising a payload tank identified by a payload identifier, the method characterized by the fact that it comprises:
Petition 870190091736, of 9/13/2019, p. 17/27
3/6 transmit the payload identifier to a processor;
determine an operational configuration of the vaporizer device with the processor based on the payload identifier and secondary data; and control the vaporizer device based on the operational configuration.
[10]
10. Method according to claim 9, characterized by the fact that the processor is located in a computing device remotely from the vaporizer device, in which the vaporizer device comprises a second processor that receives the payload identifier and transmits the identifier payload to a wireless vaporizer device transceiver, where the wireless transceiver passes the payload identifier to the processor and the wireless transceiver receives the operational configuration from the processor and transmits the operational configuration to the second processor.
[11]
11. Method according to claim 9, characterized by the fact that the secondary data is historical information of use of the vaporizer device or historical information of the payload reservoir, and the operational configuration includes at least one of a cycle configuration. work, a temperature setting, an operating time duration and a dosing setting.
[12]
12. Method, according to claim 9, characterized by the fact that the secondary data is prescription information and the operational configuration includes at least one among a cycle configuration.
Petition 870190091736, of 9/13/2019, p. 18/27
4/6 service, a temperature setting, an operating time duration and a dosing setting.
[13]
13. Method according to claim 9, characterized by the fact that the secondary data is location information and the operational configuration is a safety configuration of the vaporizer device.
[14]
14. Method, according to claim 13, characterized by the fact that the location information includes at least one of geographic location, a regulatory code, a government law and a legal status.
[15]
15. Method, according to claim 9, characterized by the fact that the secondary data is user information and the operational configuration is a safety configuration of the vaporizer device.
[16]
16. Method according to claim 9, characterized by the fact that the secondary data is user information and the operational configuration includes at least one of a duty cycle configuration, a temperature configuration, an operating time duration and a dosage setting.
[17]
17. Method according to claim 16, characterized by the fact that the user's information includes at least one weight, gender of the user, height of the user, age of the user, age of the user, medical record and medical condition.
[18]
18. Method for determining an operational configuration of a vaporizer device comprising a payload reservoir that is identified by a payload identifier, the method characterized by the fact that it comprises:
Petition 870190091736, of 9/13/2019, p. 19/27
5/6 authenticate a user through a software application on a computing device;
transmitting the payload identifier of a wireless transceiver from the vaporizer device to the computing device;
determine the operational configuration with the computing device based, at least in part, on the payload identifier or secondary data;
transmit the operational configuration of the computing device to the vaporizer device; and control the vaporizer device based on the operational configuration.
[19]
19. Method, according to claim 18, characterized by the fact that the secondary data comprises at least one of the user's information, prescription information, location information, payload information, historical use information of the vaporizer device and information historical payload reservoir, where the operational configuration is determined based at least in part on secondary data and further comprising unlocking or locking the vaporizer device for a specified time based on the operational configuration.
[20]
20. Method according to claim 18, characterized in that it further comprises unlocking or locking the vaporizer device based on a detected movement, acceleration, altitude or speed of the vaporizer device or the computing device.
[21]
21. Method, according to claim 18, characterized by the fact that secondary data
Petition 870190091736, of 9/13/2019, p. 20/27
6/6 comprise user information and the operational configuration is based on the payload identifier and secondary data.
[22]
22. Method according to claim 21, characterized by the fact that user information includes at least one weight, user gender, user height, user age, user age, medical record and medical condition.
[23]
23. Method, according to claim 21, characterized by the fact that the user's information includes a pharmaceutical prescription.
[24]
24. Method, according to claim 21, characterized by the fact that it also includes the request for a vaporizer device payload identifier by the software application.
[25]
25. Method according to claim 21, characterized by the fact that the operational configuration includes at least one of a duty cycle configuration, a temperature configuration, an operating time duration and a dosing configuration.

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同族专利:

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公开号 | 公开日

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US20180263283A1|2018-09-20|

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US10327479B2|2019-06-25|

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EP3595468A1|2020-01-22|

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PE20191446A1|2019-10-15|

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CN111315244A|2020-06-19|

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KR20190131053A|2019-11-25|

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CA3056499A1|2018-09-20|

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CL2019002628A1|2019-12-13|

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MX2019010792A|2019-10-24|

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AR114698A1|2020-10-07|

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IL269285D0|2019-11-28|

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EP3595468A4|2021-04-21|

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AU2018233586A1|2019-10-10|

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JP2020513851A|2020-05-21|

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CO2019009991A2|2019-09-30|

---

WO2018165758A1|2018-09-20|

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WO2021185975A1|2020-03-20|2021-09-23|Jt International S.A.|Method for preventing a non-authorized using of an aerosol generation device in a restricted area and associated system|

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WO2021185951A1|2020-03-20|2021-09-23|Jt International S.A.|Method for preventing a non-authorized using of an aerosol generation device in a restricted area and associated system|

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US11109622B1|2020-03-30|2021-09-07|Gofire, Inc.|System and method for metered dosing vaporizer|

法律状态:
2021-06-22| B11A| Dismissal acc. art.33 of ipl - examination not requested within 36 months of filing|

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2021-09-08| B11Y| Definitive dismissal - extension of time limit for request of examination expired [chapter 11.1.1 patent gazette]|

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2021-10-19| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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US201762471751P| true| 2017-03-15|2017-03-15|

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US15/921,144|US10327479B2|2017-03-15|2018-03-14|System and method for an improved personal vapourization device|

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PCT/CA2018/050310|WO2018165758A1|2017-03-15|2018-03-15|System and method for an improved personal vapourization device|

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