A soaking chair comprising: a seat surface and a support structure; wherein the chair is designed for use in a shower; and wherein the seat surface encourages water to pool in the chair. The chair provides hydrotherapy to the anogenital, hip, buttocks, and/or lower back areas.

A soaking chair comprising: a seat surface and a support structure; wherein the chair is designed for use in a shower; and wherein the seat surface encourages water to pool in the chair. The chair provides hydrotherapy to the anogenital, hip, buttocks, and/or lower back areas.

Provided is a bidet device. The bidet device according to the present invention comprises: a seat as a place to sit; a steaming chamber housing which is imbedded in a bidet tank coupled to one side of the seat and has built-in parts therein; a nozzle for hip fumigation, which is connected to the steaming chamber housing for jetting medicinal steam; and a steam generator which is provided in the steaming chamber housing and connected to the nozzle for hip fumigation, allowing the medicinal steam and medicinal extracts generated for hip-fumigation bath to be supplied to the nozzle for hip fumigation, wherein the steam generator and a medicine container of the steaming chamber disposed in the steaming chamber housing are integrally installed to eject the fumigated medicinal steam and medicinal extracts of drugs into a stool.

An induction heating system for a basin of a pedicure chair and a pedicure chair with one or more pumps and one or more heating sources are disclosed. A conducting object is located on an interior side of a first wall of the basin, with an induction heater located on the exterior side of the first wall. The conducting object is separated from the induction heater by a solid portion of the first wall. The induction heater is configured to generate a high frequency field that passes through the solid portion of the first wall and causes the conducting object to generate heat. A controller is configured to turn on/off the induction heater to maintain a desired temperature in the basin.

A system (5) for generating a gaseous mixture for an enclosure (7) for treatment of a wound (3), comprising a generator (11) for generating the gaseous mixture and for delivering said gaseous mixture to the treatment enclosure (7) at a defined flow rate, the generator (11) of the gaseous mixture being designed to vary a molar fraction of dioxygen of said delivered gaseous mixture and to vary a molar fraction of water vapour of said delivered gaseous mixture, a control unit (39) which serves for controlling the delivered gaseous mixture and is provided with a processor (41) for receiving information relating to a pressure (P) inside the treatment enclosure (7) and/or designed to determine a flow rate of said gaseous mixture to be delivered in the treatment enclosure (7) in order to obtain an internal target pressure, the target pressure being defined by a time variation function of the pressure between a minimum pressure, corresponding to an ambient pressure outside the treatment enclosure (7), and a maximum pressure.

A foot spa tub includes a tub basin, a first magnetic drive member rotatably coupled to a drive motor, and a first casing supporting the magnetic drive member. The first casing is disposed against an exterior surface of a sidewall of the basin. A second magnetic drive member is rotatably coupled to a blade. The first and second magnetic drive members are magnetically coupled to each other so that the blade is drivingly coupled to the drive motor. A nozzle houses the second magnetic drive member and the blade. The nozzle is detachably securable to an interior surface of the sidewall by a magnetic attraction force between the first and second magnetic drive members. A method of circulating liquid in a foot tub spa is also provided.

Various irrigation fluid containment systems and components are disclosed. In some embodiments, the irrigation fluid containment system comprises a medical kit and/or an irrigation kit. In some embodiments, the irrigation fluid containment system comprises a medical basin and/or an irrigation basin. In some embodiments, the irrigation fluid containment system comprises an irrigation shield. In some embodiments, the irrigation fluid containment system comprises a suction hose.

Various irrigation fluid containment systems and components are disclosed. In some embodiments, the irrigation fluid containment system comprises a medical kit and/or an irrigation kit. In some embodiments, the irrigation fluid containment system comprises a medical basin and/or an irrigation basin. In some embodiments, the irrigation fluid containment system comprises an irrigation shield. In some embodiments, the irrigation fluid containment system comprises a suction hose.

The shower head nozzle as disclosed herein includes a quick-connect coupling for selectively attaching the nozzle to a downwardly extending conduit or tube for directing tested water through a test unit and into a bucket or drain, wherein the test unit may include a flow meter for measuring real-time water flow rate and a temperature sensor for measuring real-time water temperature dispensed from the shower head, thereby reducing the testing time, more accurately determining flow-rate and water temperature, and decreasing the amount of waste water.

The shower head nozzle as disclosed herein includes a quick-connect coupling for selectively attaching the nozzle to a downwardly extending conduit or tube for directing tested water through a test unit and into a bucket or drain, wherein the test unit may include a flow meter for measuring real-time water flow rate and a temperature sensor for measuring real-time water temperature dispensed from the shower head, thereby reducing the testing time, more accurately determining flow-rate and water temperature, and decreasing the amount of waste water.