RU2022114544A - AEROSOL DELIVERY DEVICE WITH BUILT-IN WIRELESS COMMUNICATION FOR TEMPERATURE CONTROL - Google Patents

Claims (18)

1. An aerosol delivery device comprising at least one shroud configured to contain the aerosol precursor composition; a heating element configured to be controlled to activate and vaporize components of the aerosol precursor composition; a temperature sensor configured to measure the temperature of the heating element or measure a characteristic of the temperature sensor, based on which the temperature of the heating element can be determined; and a microcontroller unit coupled to the temperature sensor and configured to provide user-perceived feedback that indicates the temperature of the heating element as measured or determined based on said characteristic as measured by the temperature sensor. 2. The aerosol delivery device according to claim 1, also containing an integrated communication interface configured to connect to a wireless local area network and communicate with a service platform containing a database through at least one network, including the specified wireless local area network, and the delivery device of the aerosol is configured to communicate with the service platform through the specified built-in communication interface to enable the temperature to be stored in the specified database and the temperature to be analyzed from the database. 3. The aerosol delivery device of claim 2, also configured to allow the computing device associated with the service platform to remotely receive and provide user-perceived feedback that indicates that the temperature of the heating element is above, equal to, or below a threshold temperature that sets the upper allowable limit. 4. The aerosol delivery device of claim 1, further comprising an indicator circuit operatively coupled to a microcontroller unit, the microcontroller unit being configured to provide user-perceived feedback via the indicator circuit, the indicator circuit being configured to provide user-perceived feedback using visual, audible, tactile feedback based on data received from the microcontroller unit. 5. The aerosol delivery device of claim 4, wherein the visual, audible, or tactile feedback includes a visual, audible, or tactile alert indicating the temperature of the heating element, or that the temperature of the heating element is above, equal to, or below a threshold temperature that sets an upper tolerance temperature. limit. 6. The aerosol delivery device of claim 5, wherein when the heating element temperature is above a threshold temperature, the user's perceived feedback provided by the indicator circuit includes an alert, buzzer, vibration alarm, or visual indicator to alert the user of the aerosol delivery device that the temperature of the heating element is above the threshold temperature. 7. The aerosol delivery device of claim 1, wherein the temperature sensor is a sensor selected from the group consisting of a thermistor, a thermocouple, a resistance temperature detector, and bandgap silicon temperature sensors. 8. A control housing for an aerosol delivery device coupled or configured to be coupled to a cartridge to form an aerosol delivery device, the cartridge comprising a first housing configured to hold the aerosol precursor composition, a heating element operable to activate and vaporize components of the aerosol precursor composition , and a temperature sensor configured to measure the temperature of the heating element or measure a characteristic of the temperature sensor, based on which the temperature of the heating element can be determined; wherein the control housing comprises located inside the second housing connected or configured to be connected to the first housing, a microcontroller unit connected to a temperature sensor, when the control housing is connected to the cartridge, the microcontroller unit being configured to provide user-perceived feedback that indicates the temperature heating element, measured or determined on the basis of a specified characteristic, measured using a temperature sensor 9. The control housing according to claim 8, also containing an integrated communication interface, configured to provide communication with a wireless local area network and communication with a service platform containing a database through at least one communication network, including the specified wireless local area network, and the managing the housing is configured to communicate with the service platform through the specified built-in communication interface to enable the temperature to be stored in the specified database and the temperature to be analyzed from the database. 10. The control housing of claim 9, also configured to provide the computing device associated with the service platform with remote reception and provide user-perceived feedback that indicates that the temperature of the heating element is above, equal to, or below a threshold temperature that sets an upper allowable limit 11. The control housing of claim 8, further comprising an indicator circuit operatively coupled to the microcontroller unit, wherein the microcontroller unit is configured to provide user-perceived feedback via the indicator circuit, wherein the indicator circuit is configured to provide user-perceived feedback using visual , sound, tactile feedback based on data received from the microcontroller unit. 12. The control housing of claim 11, wherein the visual, audible, or tactile feedback includes a visual, audible, or tactile alert indicating the temperature of the heating element or that the temperature of the heating element is above, equal to, or below a threshold temperature that sets an upper tolerance limit. . 13. The control body of claim 11, wherein when the temperature of the heating element is above a threshold temperature, the user's perceived feedback provided by the indicator circuit includes an alert, buzzer, vibration alarm, or visual indicator to alert the user of the control body that the temperature of the heating element is higher. threshold temperature. 14. The control body of claim 8, wherein the temperature sensor is a sensor selected from the group consisting of a thermistor, a thermocouple, a resistance temperature detector, and bandgap silicon temperature sensors.