A device (1) for delivering mist to the human face is capable of targeting different kinds of mist to different zones of the human face. To this end, the device (1) comprises different nozzle sets, wherein each of the different nozzle sets serves for letting out a different kind of mist, and wherein each of the different nozzle sets is positioned in a zone (7, 10) of the device (1) corresponding to a zone of the human face to be treated by means of the mist delivered by the nozzle set concerned during operation of the device (1). By having an appropriate number and positioning of the nozzles (2, 3, 4, 5), facial zones can be treated separately, wherein it is possible to realize optimal skin treatment per facial zone.

Provided is a sprayer usable as a cosmetic mist device and an inhaler. The sprayer includes an air pump, a motor, a battery, a mist nozzle, a tank for storing a mist liquid concentrate, and a vertically long, cylindrical, main body case. The main body case is divided into front and back chambers by a division wall, and the tank is housed in the front chamber. The air pump, the motor, and an electrical component section including the battery are disposed, in this order, in the back chamber. The tank is formed in a vertically long shape occupying most of the front chamber without affecting an outer shape of the main body case. A grip portion is formed in a recessed manner at an upper portion of a back face of the main body case and the air pump and the motor are disposed near the grip portion.

An aerosol-generating system is provided, including a housing having a first portion and a second portion. The housing includes an air inlet; a nicotine source; a volatile delivery enhancing compound source; and an air outlet. The first portion of the housing and the second portion of the housing are movable relative to one another between an open position and a closed position. In the open position, the air inlet and the air outlet are unobstructed and the nicotine source and the volatile delivery enhancing compound source are both in fluid communication with an airflow pathway through the housing between the air inlet and the air outlet. In the closed position, either the air inlet is obstructed or the nicotine source and the volatile delivery enhancing compound source are both not in fluid communication with an airflow pathway through the housing between the air inlet and the air outlet or both.

A method for controlling an electronic cigarette with multiple output modes includes following steps. Whether button signals are input for a first preset number of times is determined when a system is powered on. The system is controlled to enter a locked state if the button signals are input for the first preset number of times. Whether a switch signal for switching between the output modes is input via a button under the locked state is determined, the output modes comprising a voltage output mode and a power output mode. A current output mode is switched to a new output mode and the new output mode is stored in the memory if the switch signal is input, and outputs are controlled according to the stored output mode after a user unlocks the system and the first controller receives a smoking signal.

A steam therapy equipment including a vessel for heating a mixture of water and organic materials, a compressor to inject pressurized air into the vessel producing pressurized steam. The pressurized steam is conducted into the equipment via one or more valves. The therapy equipment is formed from at least one panel and may include a supporting frame. The therapy equipment includes a temperature sensor to measure the temperature inside the therapy equipment when pressurized steam is admitted via the valves. A patient enters the equipment and is exposed to the pressurized steam, causing dilation of the skin pores of the patient, whereby toxins are removed from the patient. One or more applicators may conduct pressurized steam to specific portions of the body of the patient. The patient may be provided with a portion of the mixture to consume as part of the steam therapy treatment.

A steam therapy equipment including a vessel for heating a mixture of water and organic materials, a compressor to inject pressurized air into the vessel producing pressurized steam. The pressurized steam is conducted into the equipment via one or more valves. The therapy equipment is formed from at least one panel and may include a supporting frame. The therapy equipment includes a temperature sensor to measure the temperature inside the therapy equipment when pressurized steam is admitted via the valves. A patient enters the equipment and is exposed to the pressurized steam, causing dilation of the skin pores of the patient, whereby toxins are removed from the patient. One or more applicators may conduct pressurized steam to specific portions of the body of the patient. The patient may be provided with a portion of the mixture to consume as part of the steam therapy treatment.

An exemplary atomizer includes an atomizing assembly and a liquid supply. The liquid supply includes a connection end. The atomizing assembly is detachably connected to the connection end. The connection end defines at least one liquid outlet, through which the tobacco liquid flows into the atomizing assembly. The atomizing assembly further includes a sealing element and an elastic element. The sealing element is configured for sealing the liquid outlet when in a first position, and the elastic element abuts against the sealing element. When the atomizing assembly is connected with the liquid supply, the atomizing assembly is configured for driving the sealing element to move to a second position where the liquid outlet is opened. When the atomizing assembly is detached from the liquid supply, the atomizing assembly is configured for driving the sealing element to return to the first position where the sealing element seals the liquid outlet.

A control body is coupled or coupleable with a cartridge that is equipped with a heating element and contains an aerosol precursor composition, the control body and cartridge forming an aerosol delivery device. The control body includes a control component to control the heating element to activate and vaporize components of the aerosol precursor composition. An input device including a capacitive sensor is configured to detect a user input. And the input device or control component controls operation of at least one functional element of the control body, cartridge or aerosol delivery device in response to the user input so detected. In another aspect, a cartridge may include a input device including a capacitive sensor to detect a user input, and operation of functional element(s) may be controlled in response to thereto.

An aerosol-generating system is provided, including a nicotine source; a volatile delivery enhancing compound source downstream of the nicotine source and including an acid; heating means for heating the nicotine source; and a physically separate heat transfer barrier between the nicotine source and the volatile delivery enhancing compound source. The heating means is configured to heat the nicotine source to a temperature of between about 80 C. and about 150 C. The heat transfer barrier is configured so that the temperature of the volatile delivery enhancing compound source is less than about 50 C. when the nicotine source is heated to a temperature of between about 80 C. and about 150 C. by the heating means.

An aerosol-generating system is provided, including a nicotine source; a volatile delivery enhancing compound source, wherein a volatile delivery enhancing compound comprises an acid; and a heating means for heating one or both of the nicotine source and the volatile delivery enhancing compound source, wherein one or both of the nicotine source and the volatile delivery enhancing compound source is encapsulated in a cylindrical polymeric capsule, and the cylindrical polymeric capsule includes a thermally conductive material.