A hand-held personal hygiene device includes a main body having an upper end, a lower end, and a pump therein. The pump is configured to pump water or another fluid from an inlet port at the upper end to an outlet port at the lower end. A reservoir has a lower base configured to removably seat in the upper end of the main body to engage and open a self-closing valve with the inlet port of the main body. A tubular nozzle member has a lower end comprising one or more nozzle outlets and an upper end configured to be removably secured to the outlet port of the main body causing liquid pumped by the pump to flow through the tubular nozzle member to the one or more nozzle outlets. The reservoir and the main body may be aligned to form a liquid flow path that may be held vertically to allow gravity flow from the reservoir to the pump.

A shaving system (10) comprising a shaving device (12) having a shaving unit (38) and a cleaning device (14) for cleaning the shaving unit, the shaving unit having at least one hair-cutting unit (25) having an outer hair-cutting member with an annular shaving track (37) with a plurality of hair-entry openings (27) and an inner hair-cutting member rotationally arranged inside of the outer hair-cutting member. The cleaning device (14) has at least one liquid-injection nozzle arranged and positioned in a receiving pit of the cleaning device for generating a jet of the cleaning liquid that, when the shaving unit is supported in a cleaning position by the cleaning device, propagates directly through one or more of the hair-entry openings (27) of the shaving unit only in a single sector (41) of the annular shaving track (37) of the outer hair-cutting member (27) extending over at most one half of the annular shaving track.

A liquid supply unit includes a tank having an inner space for storing the liquid, an inlet line for supplying the liquid from the liquid supply source to the inner space and having an inlet valve installed thereon, an outlet line for supplying the liquid from the tank to a nozzle or for recollecting the liquid to the tank and having an outlet valve installed thereon, a gas supply line for supplying a gas to the inner space and having a gas control valve installed thereon, an exhaust line for exhausting the inner space and having an exhaust valve installed thereon, a circulation line for circulating the liquid stored in the inner space, and a controller controlling the liquid supply unit so that the circulation line is pressurized while the liquid is supplied to the inner space.

A cleaning system includes a planar material beneath a soiled grow table. The planar material is non-porous except for a drain. Above the planar material is a plate layer including at least two layers of runners arranged in a grid where each successive layer is offset at an angle with respect to the grid of a previous layer. The plate layer rests upon the non-porous material. An upper layer covers the plate layer and has a plurality of holes. A roller table is provided for slideably supporting the grow table. Nozzles are positioned over the grow table and is/are interfaced to a pump for receiving and spraying liquid from the pump downwardly towards the grow table. The liquid and impurities (e.g., soil, leaves) fall to the upper layer and through the plurality of holes for cleaning and filtering the liquid before the liquid is returned to the pump.

Installation provided with at least one high-pressure circuit comprising at least one high-pressure pump and rotating nozzles attacking the four sides of crates in order to automatically remove labels, wherein the installation further comprises a low-pressure circuit able to clean the installation inwardly and to transport labels to specific filters so that stoppages are diminished and further able to recirculate the water of the high-pressure and low-pressure circuits, and wherein trolleys holding the crates are able to rotate by means of a predefined path on perimetral guides of the frame so that the jets of the nozzles attack the required walls of the crates on four sides.

A pump assembly and a high-pressure cleaning apparatus, the pump assembly includes a motor assembly, a motor housing for receiving the motor assembly, a transmission assembly driven by the motor assembly, a pump, and a pipe assembly connecting the motor housing and the pump. Mutually independent heat dissipation portions are provided at two sides of the motor housing.

The disclosure relates to a pressure shutoff valve for a pressure washer. The pressure shutoff valve has an effective throttle gap with an overall length (a), as measured in the direction of the longitudinal axis of the valve body, between the valve housing and the valve body, wherein the effective throttle gap is part of the flow connection between the inlet and the outlet. The valve body has a maximum diameter (d) extending radially with respect to the longitudinal axis. The overall length (a) of the effective throttle gap is at least 50% of the maximum diameter (d) of the valve body in the first closed position of the pressure shutoff valve.

A portable automated toilet cleaning apparatus includes a frame that fits over the toilet, and mechanical brushes or scrubbing implements that apply a scrubbing motion to surfaces of the toilet. The cleaning apparatus also includes spray jets or nozzles for directing fluid at surfaces to be cleaned. Straps may be provided to raise and hold the toilet seat and lid at angles relative to the toilet bowl, so that upper and lower surfaces of the seat and lid can be accessed by the brushes or scrubbing implements and the spray jets. A mat may also be provided at a lower side of the apparatus to collect wastewater and allow it to be poured or siphoned into the toilet bowl and disposed of by flushing.

A cleaning apparatus, optimized for cleaning optical and optoelectronic sensor devices in motor vehicles, comprising a housing, and a reciprocating piston movable in a pressure-controlled manner in the housing and movable from a retracted position into a deployed position along an actuation axis is disclosed. The reciprocating piston has an inner channel to transport a cleaning fluid through the reciprocating piston to a spray nozzle. A miniaturized, easily and inexpensively producible cleaning apparatus which makes possible exact and precise orientation of the cleaning jet, quick operational readiness, reduced tendency for follow-up flow of the cleaning fluid, and improved adaptability to different installation positions, is also disclosed. In an embodiment at least the cleaning apparatus has at least one guide to prevent rotation of the reciprocating piston about the actuation axis during its entire stroke, the at least one guide means arranged at least regionally in the inner channel.

A self-rotating device for cleaning with ultra-high water pressure having a base supported by front and rear wheels with a handle extending therefrom. A spray bar assembly with a plurality of nozzles constructed and arranged to cause rotation of the spray bar through fluid discharge is mounted beneath the base. A hydraulic pump is positioned with spray bar and coupled to a reservoir mounted on the handle. The hydraulic pump is rotated by the spray bar assembly, causing hydraulic fluid to recirculate through the reservoir, wherein an adjustable flow valve permits control of the spray bar assembly rotation speed.