A battery box, including an end cover, a housing, and an elastic connector. The end cover is disposed on the housing and is connected to the housing via the elastic connector. The elastic connector is configured to control the opening and closing of the end cover with respect to the housing.

A battery box, including an end cover, a housing, and an elastic connector. The end cover is disposed on the housing and is connected to the housing via the elastic connector. The elastic connector is configured to control the opening and closing of the end cover with respect to the housing.

The present invention provides an aerosol generation system comprising: a controller for an inhalation device, the controller including a first power supply, a first connector, and a first processor configured to perform energization control of a heater which is used to heat an aerosol source, and a power supply device including a second power supply, a second connector which is connected to the first connector at the time of charging of the first power supply, and a second processor configured to perform control of power supply from the second power supply to the controller via the second connector, wherein a first voltage applied to a power supply terminal of the first processor and a second voltage applied to a power supply terminal of the second processor are different from each other.

An electronic cigarette case and an information acquisition method are provided. The electronic cigarette case includes: a case body; a microcontroller arranged inside said case body; a trigger module, used for generating a trigger signal, being arranged on said case body; said trigger module being connected to said microcontroller; said microcontroller being used for acquiring, according to said trigger signal, a user smoking signal from the electronic cigarette; a GPS transmission module connected to said microcontroller and used for transmitting said user smoking information to a preset database.

A battery assembly, including a button, a support, a control panel, a silicone cap, a silicone insulator, and a USB panel. The output end of the cell is soldered on the input end of the control panel. The USB panel is soldered on the control panel to charge the cell. The silicone insulator is disposed on the top end of the cell. The silicone cap is disposed on a power switch of the control panel. The support is transparent and disposed on the control panel to fix the button. The button is disposed on the support.

A battery assembly, including a button, a support, a control panel, a silicone cap, a silicone insulator, and a USB panel. The output end of the cell is soldered on the input end of the control panel. The USB panel is soldered on the control panel to charge the cell. The silicone insulator is disposed on the top end of the cell. The silicone cap is disposed on a power switch of the control panel. The support is transparent and disposed on the control panel to fix the button. The button is disposed on the support.

A container for an aerosol generating device comprises receiving means for receiving the aerosol generating device. One or more tanks are each arranged to retain a substance in use. For each tank, there is dispensing means for controllably transferring the substance from the tank to the aerosol generating device while the aerosol generating device is in the container.

A power supply unit includes: a power supply configured to discharge power to a load for generating an aerosol from an aerosol generation source; a charger configured to convert inputted power into charging power; a temperature measuring unit configured to measure a temperature of the power supply; and a charging controller configured to perform a first control for stopping the charger from supplying the charging power to the power supply and a second control for causing the charger to supply the charging power to the power supply, the charging controller setting a duty ratio to a value greater than 0 and smaller than 100 in a case where the temperature of the power supply is within a predetermined range, and the duty ratio being obtained by dividing a time during which the charging controller performs the first control by a unit time.

A power supply unit includes: a power supply configured to discharge power to a load for generating an aerosol from an aerosol generation source; a charger configured to convert inputted power into charging power; a temperature measuring unit configured to measure a temperature of the power supply; and a charging controller configured to perform a first control for stopping the charger from supplying the charging power to the power supply and a second control for causing the charger to supply the charging power to the power supply, the charging controller setting a duty ratio to a value greater than 0 and smaller than 100 in a case where the temperature of the power supply is within a predetermined range, and the duty ratio being obtained by dividing a time during which the charging controller performs the first control by a unit time.

An electronic cigarette charging apparatus is used for charging a battery component (1) of an electronic cigarette. A first electrode connecting piece and a second electrode connecting piece used for being electrically connected to the electronic cigarette charging apparatus are disposed at an end of the battery component (1). The electronic cigarette charging apparatus comprises a first charging electrode (5) that corresponds to the first electrode connecting piece and may extend and contract, and a collision sound-making mechanism (6) disposed on an extension and contraction path of the first charging electrode (5). During charging, the first charging electrode (5) elastically contracts along the extension and contraction path to a predetermined position, and the first charging electrode (5) and the first electrode connecting piece are electrically connected. The first charging electrode (5) triggers the collision sound-making mechanism (6) to make an engaging prompt sound.