A method of using device sensors to install a scent dispensing device, the method including receiving a request from a sensor mapping application that a scent dispensing device is being installed in a space, capturing using a device sensor on a device a space mapping of at least a portion of the space where the scent dispensing device is being installed, determining one or more installation locations within the space mapping, determining an optimal scent dispensing location from the one or more installation locations within the space mapping, generating a graphical representation depicting an installation of the scent dispensing device at the optimal scent dispensing location, and presenting in a user interface on a display screen of the device a graphical representation depicting the installation of the scent dispensing device at the optimal scent dispensing location.
A method of using device sensors to install a scent dispensing device, the method including receiving a request from a sensor mapping application that a scent dispensing device is being installed in a space, capturing using a device sensor on a device a space mapping of at least a portion of the space where the scent dispensing device is being installed, determining one or more installation locations within the space mapping, determining an optimal scent dispensing location from the one or more installation locations within the space mapping, generating a graphical representation depicting an installation of the scent dispensing device at the optimal scent dispensing location, and presenting in a user interface on a display screen of the device a graphical representation depicting the installation of the scent dispensing device at the optimal scent dispensing location.
A fragrance management system may include an interface configured to receive a request (scheduled/on-demand) to activate a scenting experience (e.g., an event, routine, or mood) include a lighting setting and an audio setting, and a controller configured to determine a scent identity as part of the scenting experience, the scent identity being associated with a scent container positioned within a fragrance management apparatus, instructing a lighting device to activate based on the lighting setting, instructing an audio device to activate based on the audio setting, and instructing the fragrance management apparatus to output a scent from the scent container based on the scenting experience.
A fragrance management system may include an interface configured to receive a request (scheduled/on-demand) to activate a scenting experience (e.g., an event, routine, or mood) include a lighting setting and an audio setting, and a controller configured to determine a scent identity as part of the scenting experience, the scent identity being associated with a scent container positioned within a fragrance management apparatus, instructing a lighting device to activate based on the lighting setting, instructing an audio device to activate based on the audio setting, and instructing the fragrance management apparatus to output a scent from the scent container based on the scenting experience.
A61L 9/14 - Disinfection, sterilisation or deodorisation of air using sprayed or atomised substances
A61L 9/02 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air by heating or combustion
A method of emitting a scent from a scent dispensing device, comprising determining an identity of a scent in a scient vial positioned within a scent dispensing device, determining a spread trait of the scent in the scent vial based on the identity, determining a scent strength setting of the scent dispensing device, determining a burst diffusion setting based on the scent strength setting and the spread trait of the scent in the scent vial, and causing a dispensing mechanism of the scent dispensing device to begin emitting a scent in one or more bursts based on the burst diffusion setting.
A method of emitting a scent from a scent dispensing device, comprising determining an identity of a scent in a scient vial positioned within a scent dispensing device, determining a spread trait of the scent in the scent vial based on the identity, determining a scent strength setting of the scent dispensing device, determining a burst diffusion setting based on the scent strength setting and the spread trait of the scent in the scent vial, and causing a dispensing mechanism of the scent dispensing device to begin emitting a scent in one or more bursts based on the burst diffusion setting.
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
10.
Systems and Methods of Smart Scent Container Detection
A device may include a multi container holder comprising a first slot and a second slot. A device may include a first side of the first slot including a smart container sensor. A device may include a partition member dividing the first slot and the second slot to position a scent container in a first slot to allow a smart container tag on the scent container to be read by the smart container sensor. A device may include a controller that receives data read by the smart container sensor and updates a scent profile based on the data.
G06K 7/10 - Methods or arrangements for sensing record carriers by electromagnetic radiation, e.g. optical sensingMethods or arrangements for sensing record carriers by corpuscular radiation
G08C 17/02 - Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispensing device may perform dynamic scent diffusion by identifying a scent type in a scent container of the fragrance management apparatus, determining a room dimension where the fragrance management apparatus is installed, determining a removal rate of a remaining scent in the scent container, determining a concentration level based on settings of the scent container, calculating a ppm output of the fragrance management apparatus for the scent type based on the room dimensions, the removal rate, and the concentration level, and causing the fragrance management apparatus to maintain a fragrance level based on the ppm output.
A scent dispensing device may perform dynamic scent diffusion by identifying a scent type in a scent container of the fragrance management apparatus, determining a room dimension where the fragrance management apparatus is installed, determining a removal rate of a remaining scent in the scent container, determining a concentration level based on settings of the scent container, calculating a ppm output of the fragrance management apparatus for the scent type based on the room dimensions, the removal rate, and the concentration level, and causing the fragrance management apparatus to maintain a fragrance level based on the ppm output.
H04L 67/125 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks involving control of end-device applications over a network
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispensing apparatus may include a scent container retaining apparatus configured to receive and securely retain a scent container, wherein the scent container includes a smart vial tag, a smart vial sensor directionally positioned to have a direct line of sight with the smart vial tag to read the smart vial tag when the scent container is securely retained in the scent retaining apparatus, and a fragrance management application that receives an identity of the smart vial tag from the smart vial sensor and generates a unique container profile for the scent container.
A scent dispensing apparatus may include a scent container retaining apparatus configured to receive and securely retain a scent container, wherein the scent container includes a smart vial tag, a smart vial sensor directionally positioned to have a direct line of sight with the smart vial tag to read the smart vial tag when the scent container is securely retained in the scent retaining apparatus, and a fragrance management application that receives an identity of the smart vial tag from the smart vial sensor and generates a unique container profile for the scent container.
G06K 19/06 - Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the kind of the digital marking, e.g. shape, nature, code
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
G06K 19/067 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards
G06K 19/02 - Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the selection of materials, e.g. to avoid wear during transport through the machine
A scent solution weight loss device including a housing configured to retain a scent solution, a sensor configured to detect weight loss data of the scent solution, a heating element configured to heat the scent solution, and an output device configured to provide the weight loss data to a weight loss application, wherein the weight loss application is configured to determine a scent solution lifetime based on the weight loss data.
A scent solution weight loss device including a housing configured to retain a scent solution, a sensor configured to detect weight loss data of the scent solution, a heating element configured to heat the scent solution, and an output device configured to provide the weight loss data to a weight loss application, wherein the weight loss application is configured to determine a scent solution lifetime based on the weight loss data.
G01F 23/20 - Indicating or measuring liquid level or level of fluent solid material, e.g. indicating in terms of volume or indicating by means of an alarm by measurement of weight, e.g. to determine the level of stored liquefied gas
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
Administration of a customer loyalty program which provides customers with access to fragrance selection, discounts on fragrance products, related event access, and exclusive content, including interviews with perfumers; Membership club services in the nature of providing discounts to members in the field of fragrances and access to related events, including interviews with perfumers
A scent dispensing device may comprise a scent vial holder configured to hold a scent vial, a lop having a plurality of openings, the plurality of openings including a scent opening and an airflow opening, a heater configured to apply heat to the scent vial, and a fan configured to cause a flow of air to pass through the airflow opening creating a difference in air pressure between the airflow opening and the scent opening such that scent from the scent vial is drawn through the scent opening and into the flow of air.
B65D 83/14 - Containers for dispensing liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant
B65D 83/44 - Valves specially adapted for the discharge of contentsRegulating devices
B65D 83/60 - Containers for dispensing liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant with contents and propellant separated
A61L 9/04 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air without heating
A scent dispensing device may comprise a scent vial holder configured to hold a scent vial, a top having a plurality of openings, the plurality of openings including a scent opening and an airflow opening, a heater configured to apply heat to the scent vial, and a fan configured to cause a flow of air to pass through the airflow opening creating a difference in air pressure between the airflow opening and the scent opening such that scent from the scent vial is drawn through the scent opening and into the flow of air.
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A vehicle scent dispensing device may comprise a scent cartridge configured to contain a scenting agent, a controller configured to determine a scent diffusion level of the scenting agent, a valve, and a fan. The controller may be configured operate the valve and control the fan to regulate an airflow pathway to the scenting agent and to draw air through the airflow pathway and over the scenting agent based on the scent diffusion level.
A vehicle scent dispensing device may comprise a scent cartridge configured to contain a scenting agent, a controller configured to determine a scent diffusion level of the scenting agent, a valve, and a fan. The controller may be configured operate the valve and control the fan to regulate an airflow pathway to the scenting agent and to draw air through the airflow pathway and over the scenting agent based on the scent diffusion level.
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
39.
SYSTEMS AND METHODS OF SMART SCENT CONTAINER DETECTION
A device may include a multi container holder comprising a first slot and a second slot. A device may include a first side of the first slot including a smart container sensor. A device may include a partition member dividing the first slot and the second slot to position a scent container in a first slot to allow a smart container tag on the scent container to be read by the smart container sensor. A device may include a controller that receives data read by the smart container sensor and updates a scent profile based on the data.
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
42.
Fragrance intensity control mechanism with PID control
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
43.
Device scent state recovery mechanism with GPS intelligence
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A61L 9/02 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air by heating or combustion
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
H05B 3/14 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor characterised by the composition or nature of the conductive material the material being non-metallic
42 - Scientific, technological and industrial services, research and design
Goods & Services
provision of an online marketplace for buyers and sellers of scents and fragrances for use in connection with electronic fragrance dispensing units; business analytical services, namely, collecting, analyzing and reporting of data and analytics related to consumer use of fragrance dispensing units and the scents and fragrances used in the fragrance dispensing units providing temporary use of non-downloadable software for use in accessing the data and analyses related to consumer use of fragrance dispensing units and the scents and fragrances used in the fragrance dispensing units
09 - Scientific and electric apparatus and instruments
11 - Environmental control apparatus
Goods & Services
Computer software for operating, controlling, scheduling activation and de-activation of, and monitoring the operational performance of an electronic fragrance dispensing unit which also features a night light; computer software for operating, controlling, scheduling, and monitoring a multifunction electronic device comprising a fragrance dispensing unit and night light, namely, to remotely turn the device on and off, to schedule use of the device, to select fragrance options for dispensation, and to select color options for the night light Electronic fragrance dispensing units which also feature a night light
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A61L 9/02 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air by heating or combustion
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A61L 9/02 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air by heating or combustion
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A61L 9/02 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air by heating or combustion
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A vehicle scent dispensing device may comprise a scent cartridge configured to contain a scenting agent, a controller configured to determine a scent diffusion level of the scenting agent, a valve, and a fan. The controller may be configured operate the valve and control the fan to regulate an airflow pathway to the scenting agent and to draw air through the airflow pathway and over the scenting agent based on the scent diffusion level.
A61L 9/04 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air without heating
B65D 83/14 - Containers for dispensing liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant
B65D 83/44 - Valves specially adapted for the discharge of contentsRegulating devices
B65D 83/60 - Containers for dispensing liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant with contents and propellant separated
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A61L 9/02 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air by heating or combustion
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A scent dispenser may comprise a vial retaining mechanism, a heating element, vial sensor, and a controller. The vial retaining mechanism includes a vial coupling that removeably retains a vial containing a scented solution. The includes a wick extending from a cavity of the vial through an opening of a neck of the vial. The heating element is shaped to receive and heat the wick of the vial. The vial sensor includes an array of sensor pads that are arranged in alignment with the vial retained by the vial coupling. The controller is electrically coupled to the heating element and electrically coupled to the array of sensor pads. The controller regulates a temperature level of the heating element, and receives signals from the array of sensor pads and processing the signals to determine a fluid level of the vial.
A61L 9/02 - Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air by heating or combustion
