A hands-free footwear and foot cleaning device which allows the user to clean the bottom or the sole of the footwear as well as the exterior surrounding sides of the footwear. The device can also be used to clean a user's bare foot. The device utilizes a plurality of rollers and a series of water line sprayers that are adapted to spray in a direction to contact one or more of the side portion, bottom portion, or top portion of the sole of a footwear or foot. The sprayers are activated by either a sensor or a pressure devise. The device may also include the option of incorporating additional elements for the purpose of cleaning bare feet rather than just the bottoms of the footwear.

An automatic system for providing full body shower with round the body cleaning to a user is illustrated. The automatic system includes a solid supporting unit with horizontal and vertical frames. A primary cleaning unit and a secondary cleaning unit are provided for the cleaning of the head portion and the body surface of a user. The first horizontal frame and the secondary cleaning unit are configured with vertical upward and downward movement along the vertical frame using an elevating means. Each of the primary and secondary cleaning units comprises a plurality of nozzles, brushes and ultraviolet (UV) light sources. An air dryer chamber propelling dry air for drying the wet body and head portion of the user is utilized. The automatic shower system can also be used in the horizontal orientation.

An automatic system for providing full body shower with round the body cleaning to a user is illustrated. The automatic system includes a solid supporting unit with horizontal and vertical frames. A primary cleaning unit and a secondary cleaning unit are provided for the cleaning of the head portion and the body surface of a user. The first horizontal frame and the secondary cleaning unit are configured with vertical upward and downward movement along the vertical frame using an elevating means. Each of the primary and secondary cleaning units comprises a plurality of nozzles, brushes and ultraviolet (UV) light sources. An air dryer chamber propelling dry air for drying the wet body and head portion of the user is utilized. The automatic shower system can also be used in the horizontal orientation.

A liquid jet device for skin cleaning includes a liquid jet nozzle including a nozzle hole, a pressurized liquid supply unit configured to pressurize liquid and supply the liquid to the liquid jet nozzle, and a processor configured to control operation of the pressurized liquid supply unit to cause the liquid jetted from the nozzle hole to fly as droplets formed by splitting a continuous flow, in which a nozzle hole diameter of the nozzle hole is from 0.01 mm to 0.03 mm, and the processor controls a supply pressure of the pressurized liquid supply unit such that a jetting velocity of the liquid jetted from the nozzle hole is from 10 m/s to 60 m/s.

A liquid jet device for skin cleaning includes a liquid jet nozzle including a nozzle hole, a pressurized liquid supply unit configured to pressurize liquid and supply the liquid to the liquid jet nozzle, and a processor configured to control operation of the pressurized liquid supply unit to cause the liquid jetted from the nozzle hole to fly as droplets formed by splitting a continuous flow, in which a nozzle hole diameter of the nozzle hole is from 0.01 mm to 0.03 mm, and the processor controls a supply pressure of the pressurized liquid supply unit such that a jetting velocity of the liquid jetted from the nozzle hole is from 10 m/s to 60 m/s.

The present invention relates generally to the field of personal cleaning devices having a housing with a front surface with at least one brush and a rear surface with at least one attachment feature for attachment to a surface such as a shower wall. The brush is powered by a motor which causes the brush to spin or move in different directions. The device may also have a soap dispenser that dispenses soap or other liquids which can be applied to the brush before use. The motor may further have a plurality of speeds and can be configured to run for a fixed period of time.

The present invention relates generally to the field of personal cleaning devices having a housing with a front surface with at least one brush and a rear surface with at least one attachment feature for attachment to a surface such as a shower wall. The brush is powered by a motor which causes the brush to spin or move in different directions. The device may also have a soap dispenser that dispenses soap or other liquids which can be applied to the brush before use. The motor may further have a plurality of speeds and can be configured to run for a fixed period of time.

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.

The present invention is an applicator tip for a hand piece assembly used in dermal abrasion procedures, the applicator tip having a cap shape with a plurality of apertures that form ports communicating with a fluid supply line in the hand piece assembly and a vacuum source to remove the abrading fluid. The fluid is introduced onto the outer abrading surface of the applicator tip through a first central aperture and spreads out along the outer abrading surface when the applicator tip is placed against the patient's skin. Recesses in the outer abrading surface establish pathways for the abrading fluid to move along as the applicator tip is moved over the patient's skin. The fluid emitting from the central port is moved into one of four quadrants defined by recesses in the outer abrading surface, each quadrant serving as a fluid chamber that receives fluid from the central fluid supply port. Each sector shaped chamber includes within its border a C-shaped barrier with its opening facing a dividing sector wall. As the applicator tip forms a seal with the patient's skin, fluid is introduced through the supply port and through the entrance of the chamber, filling each chamber with working fluid as the working fluid flows to and around the C-shaped barrier. Disposed inside each C-shaped barrier is a respective vacuum port that removes the working fluid from each chamber. Fluid from each chamber is vacuumed through its vacuum port after having flowed around a maze-like path, navigating the C-shaped barrier and sector walls in a vortex flow pattern.