The present invention relates to a method of cleaning an optical film-thickness measuring system used for measuring a film thickness of a substrate, such as a wafer, while polishing the substrate. The method includes: cleaning an optical sensor head (7) by supplying a rinsing liquid into a through-hole (51) formed in a polishing pad (2) on a polishing table (3) before or after polishing of a substrate (W) with use of slurry, the optical sensor head (7) being located below the through-hole (51); and discharging the rinsing liquid from the through-hole (51) through a drain line (54).

A bottle cleaner includes a housing defining a chamber therein. A support frame is disposed within the housing to support one or more bottles. A base is disposed below the housing. A bottom liner is at least partially received within the housing. The bottom liner defines a plurality of openings and a fluid reservoir. At least one pump is disposed within the base to pump liquid from within the fluid reservoir to one or more spray jets for cleaning the bottles. Further, a blower and heater are disposed within the base. The blower discharges air into the chamber through the plurality of openings to dry the bottles. A heater element produces steam which aids in steam sterilization functionality.

A self-cleaning plunger includes an elongate cylindrical handle; a fluid reservoir clamped to the handle; a pump housed within the handle; and a resilient plunger cup coupled to a fluid dispersing sprayer assembly. A grip is formed around one end of the handle and the fluid dispersing assembly is coupled to the other. The fluid reservoir communicates fluid to the pump which communicates fluid to the dispersing assembly. The cup has a central aperture and the sprayer assembly is coupled to the handle. The sprayer assembly has an upper component with spray nozzles to direct spray toward a convex surface of the cup and a lower component extending through the central aperture to direct spray toward a concave surface of the cup. A method of cleaning a plunger with the self-cleaning plunger includes putting cleaning fluid in the fluid reservoir and actuating the pump.

A pressure washer disclosed herein may include a pump mechanism configured to pressurize water supplied through a water inlet and pump out the water through a water outlet, an electric motor configured to drive the pump mechanism, and a housing that houses the pump mechanism and the electric motor. An outer surface of the housing most proximate to the electric motor may have a shape that does not allow the pressure washer to stand on its own when the outer surface is used as a placement surface.

A nozzle device applied to a high-pressure cleaning machine is provided, including: a nozzle, including a nozzle casing, where a water outlet channel is provided in the nozzle casing, and a front end of the nozzle casing is provided with at least one liquid discharge port connecting with the water outlet channel; and an exhaust valve, connected to the nozzle casing, and including: a valve seat, provided with a valve cavity; and a valve core, movably arranged in the valve cavity; where the valve seat is provided with an air inlet hole and an air outlet hole, the water outlet channel and a main exhaust passage are arranged in parallel in the nozzle casing, and the valve core is movable relative to the valve cavity to a closed position for blocking the main exhaust passage and an open position for opening the main exhaust passage. In the nozzle device applied to a high-pressure cleaning machine and a handheld high-pressure cleaning machine that are provided in this application, the exhaust valve is provided, and the exhaust valve implements an exhaust function at the open position, and implements a water outlet function at the closed position, thereby implementing self-suction and ensuring that a pressure anomaly is quickly eliminated within a short time during use, to meet a use requirement.

A method for cleaning a firearm suppressor having firing residue deposits on inner surfaces thereof, includes: providing a hydraulic system including a cleaning chamber, a turbulence-inducing nozzle, and a non-petroleum-based cleaning solution; installing a used firearm suppressor onto the turbulence-inducing nozzle; placing the used firearm suppressor into the cleaning chamber; tempering the non-petroleum-based cleaning solution to a temperature between about 120° F. and about 180° F.; and flowing the non-petroleum-based cleaning solution through the turbulence-inducing nozzle and the used firearm suppressor at a predetermined pressure and flow rate during a predetermined period of time. An apparatus for cleaning a firearm suppressor having internal baffles and expansion chambers is also described.

According to an implementation, a pressure washer system may include a pump and an engine drivingly coupled with the pump. A pressure washer controller may be associated with one or more of the pump and the engine. A battery may be communicatively coupleable with the pressure washer controller for one or more of receiving data from the pressure washer controller and transmitting data to the pressure washer controller. The battery may include a memory module for storing one or more of data received from the pressure washer controller and data to be transmitted to the pressure washer controller.

The present invention relates to a cleaning device assembly, including a spray gun assembly, where the spray gun assembly includes a spray gun housing, a spray gun liquid inlet for a fluid to enter and a spray gun liquid outlet for a fluid to be sprayed are provided in the spray gun housing, and the spray gun housing further includes a handle for holding; a power assembly, where the power assembly and the spray gun assembly are separately disposed, the power assembly includes a pump and a motor configured to drive the pump to work, and the power assembly further includes a fluid inlet for a fluid to enter and a fluid outlet for a pressurized fluid to be sprayed; a power supply assembly, supplying energy to the motor; and a connecting path, connected between the spray gun assembly and the power assembly, where the connecting path includes a liquid outlet pipeline connected between the spray gun liquid inlet and the fluid outlet, where the power supply assembly is independent of the power assembly, and the power supply assembly is disposed on the spray gun assembly.

The present invention relates to a system (1) for cleaning an optical sensor (3), notably of a motor vehicle, comprising: —an element (5) for spraying a cleaning liquid, —a tank (7) of cleaning liquid fluidically connected to the element (5) for spraying cleaning liquid, —a pump (9) configured to pump the cleaning liquid from the tank (7) to the element (5) for spraying the cleaning liquid, the system (1) also comprising a containment wall (11) for the cleaning liquid, which is movable between a retracted position in which the containment wall is configured to be positioned outside the field of view of the optical sensor (3) and a cleaning position in which the containment wall (11) is configured to be positioned in front of the optical sensor (3) so as to define a collection vessel (13) for the cleaning liquid, and in that it comprises an evacuation pipe (15) for the cleaning liquid that is connected both to the collection vessel (13) in the cleaning position and to the tank (7) of cleaning liquid.

The invention relates to a system (1) for cleaning an optical sensor (3), in particular for a motor vehicle, comprising: at least one projection member (5) for protecting a cleaning fluid, characterized in that the system (1) includes a confinement wall (11) that supports the at least one projection member (5) and can move from a retracted position in which the confinement wall is designed to be outside the field of view of the optical sensor (3) and a cleaning position in which the confinement wall (11) is designed to be located across from the optical sensor (3) and in which the at least one projection member (5) is positioned in such a way as to project the cleaning fluid against the optical sensor (3).