The present invention provides an apparatus for the delivery of a mist-borne solution substantially contained within a predefined volume. The apparatus thus disclosed is comprised of an active delivery area (herein referred to as a “predefined volume”), at least one detection sensor, a chamber or other suitable area within which to contain an amount of a solution in a liquid state, at least one piezoelectric transducer, and a microcontroller.

The present invention provides an apparatus for the delivery of a mist-borne solution substantially contained within a predefined volume. The apparatus thus disclosed is comprised of an active delivery area (herein referred to as a “predefined volume”), at least one detection sensor, a chamber or other suitable area within which to contain an amount of a solution in a liquid state, at least one piezoelectric transducer, and a microcontroller.

An electronic fluid applicating device for applying fluid to and spreading the fluid over a user includes a tube coupled to a handle, the tube defining a channel. An applicator is rotationally coupled to the tube. The applicator includes a cavity and a dispensing nozzle extending from the cavity to an outer surface. The cavity is fluidically coupled to the channel and the dispensing nozzle, and the dispensing nozzle is configured to dispense a fluid. The applicator is configured to rotate and spread the fluid over the user when the outer surface of the applicator frictionally engages a user and the fluid while the fluid covers the user. A pump is fluidically coupled to the channel and is positioned such that the pump is configured for compelling the fluid from a fluid source serially through the channel, the cavity of the applicator, and the dispensing nozzle.

An electronic fluid applicating device for applying fluid to and spreading the fluid over a user includes a tube coupled to a handle, the tube defining a channel. An applicator is rotationally coupled to the tube. The applicator includes a cavity and a dispensing nozzle extending from the cavity to an outer surface. The cavity is fluidically coupled to the channel and the dispensing nozzle, and the dispensing nozzle is configured to dispense a fluid. The applicator is configured to rotate and spread the fluid over the user when the outer surface of the applicator frictionally engages a user and the fluid while the fluid covers the user. A pump is fluidically coupled to the channel and is positioned such that the pump is configured for compelling the fluid from a fluid source serially through the channel, the cavity of the applicator, and the dispensing nozzle.

A cleaning device includes at least one T-shaped frame and a first sheet roll surrounding an internal space. The T-shaped frame abuts the internal space. First and second rollers are spaced apart from each other within the internal space and are disposed at opposite first and second ends of the at least one T-shaped frame, such that the first sheet roll abuts each of the first and second rollers. A third roller, exterior to, and spaced apart from, the first sheet roll, rotatably attached to the at least one T-shaped frame at a third end thereof.

A cleaning device includes at least one T-shaped frame and a first sheet roll surrounding an internal space. The T-shaped frame abuts the internal space. First and second rollers are spaced apart from each other within the internal space and are disposed at opposite first and second ends of the at least one T-shaped frame, such that the first sheet roll abuts each of the first and second rollers. A third roller, exterior to, and spaced apart from, the first sheet roll, rotatably attached to the at least one T-shaped frame at a third end thereof.

Provided is a skin care device including at least one brush brought into contact with skin of a user, a motor configured to rotate or vibrate at least one of the at least one brush, a battery configured to supply power to the moto, a main body provided with the at least one brush disposed on one surface thereof and having an accommodation space configured to accommodate the motor and the battery therein, and a cradle having an accommodation space configured to accommodate the at least one brush and having a charging module configured to supply power to the battery.

Provided is a skin care device including at least one brush brought into contact with skin of a user, a motor configured to rotate or vibrate at least one of the at least one brush, a battery configured to supply power to the moto, a main body provided with the at least one brush disposed on one surface thereof and having an accommodation space configured to accommodate the motor and the battery therein, and a cradle having an accommodation space configured to accommodate the at least one brush and having a charging module configured to supply power to the battery.

An automatic suction cleaning structure is disclosed. The automatic suction cleaning structure is disposed on a cleaner body. The automatic suction cleaning structure comprises a fixing base (1) connected to the cleaner body and a number of brush heads (2) arranged on the fixing base (1). The brush heads (2) are made of silica gel, and are of a hexagon shape and a hollow structure. The number of brush heads (2) are arranged on the fixing base (1) in an array and distributed in a cellular arrangement. By arranging the cellular brush heads (2) of a hollow structure and utilizing a suction force produced by the tightly-attached brush heads (2) during use, dirt on the skin surface is sucked automatically by means of a sucking disc principle in a process of contact with the skin, to allow more thorough cleaning. A cleaner is also provided.

An automatic suction cleaning structure is disclosed. The automatic suction cleaning structure is disposed on a cleaner body. The automatic suction cleaning structure comprises a fixing base (1) connected to the cleaner body and a number of brush heads (2) arranged on the fixing base (1). The brush heads (2) are made of silica gel, and are of a hexagon shape and a hollow structure. The number of brush heads (2) are arranged on the fixing base (1) in an array and distributed in a cellular arrangement. By arranging the cellular brush heads (2) of a hollow structure and utilizing a suction force produced by the tightly-attached brush heads (2) during use, dirt on the skin surface is sucked automatically by means of a sucking disc principle in a process of contact with the skin, to allow more thorough cleaning. A cleaner is also provided.