An electric pressure washer includes an electric motor operably connected to a pump, one or more removable detergent tanks, a removable accessory bucket in which a spray gun, high pressure hose, and other accessories may be stored, and a foot pedal for facilitating operator control of one or more features of the electric pressure washer during use. The electric pressure washer may also include a folding handle for facilitating storage and transport.

A process for cleaning an object, such as for instance an outdoor playground structure or other communal object, includes applying a degreaser solution to a surface of the object. The surface is also power washed using water at or above ambient temperature, and additionally steam is applied to the surface. A disinfectant solution is applied to the surface, and if a final contaminant level of the surface is below a predetermined threshold value then finally an antimicrobial product is applied. The process removes contaminants including microorganisms and organic residues and provides a surface that remains resistant to recontamination for an extended period of time.

An undercarriage washing assembly includes a base that may be rolled along a support surface. Thus, the base may be rolled beneath an undercarriage of a vehicle. A plurality of wheels is provided. Each of the wheels is rotatably coupled to the base to roll along the support surface. A handle is movably coupled to the base. A spray unit is coupled between the handle and the base. The spray unit may be coupled to a fluid source to deliver a fluid onto the undercarriage thereby facilitating the undercarriage to be cleaned. The spray unit includes a reservoir. The reservoir may contain a detergent thereby facilitating the spray unit to deliver the detergent to the undercarriage.

An air-conductive rotary sprinkler includes an air-conductive rotary sprinkling device, a fluid supply assembly and a dust-collecting cover. The air-conductive rotary sprinkling device further includes a main housing tube, an inner rotary tube and a rotary spray head. The rotary spray head includes a spray-head casing connected with the inner rotary tube and a guide plug installed inside the spray-head casing and further including a helical actuating groove, a helical conductive groove, a central channel and a sideway channel. The dust-collecting cover is assembled to the air-conductive rotary sprinkling device. The pressured airflow from the helical air channel rotates the rotary spray head, and the pressured airflow from the helical conductive channel also alters the spray direction of the fluid originally flowing along the base axis, such that the fluid can be sprayed out of the rotary spray head in a rotary manner.

A high-pressure cleaning apparatus including a high-pressure pump that includes a suction chamber, at least one pump chamber in which liquid is pressurized, and a pressure chamber arranged downstream of the pump chamber is disclosed. The high-pressure pump includes a return line via which the pressure chamber is in flow communication with the suction chamber, and a valve unit by which a free cross-sectional area of the return line is changeable. The high-pressure cleaning apparatus also includes a drive unit associated with the valve unit, a control unit coupled to the drive unit and a pressure sensor coupled to the control unit for detecting liquid pressure on the pressure side of the pump chamber. Depending on the signal of the pressure sensor, the liquid pressure can be controllable to a predetermined or predeterminable liquid pressure by changing of the free cross-sectional area of the return line.

In some embodiments, a maintenance apparatus is provided for maintaining semiconductor processing equipment. The maintenance apparatus has an articulated member having a first member with a handle engagement portion and a second member with a first tool engagement portion. The first member is rotationally coupled to the first member about an articulation axis. A first tool member in selective engagement with the first tool engagement portion of the second member.

A high pressure surface cleaner includes a housing having an open end, a high pressure coupling in fluid communication with the housing and having a first end and a second end, the first end configured to receive a high pressure water source, and a supply conduit rotatably secured to the second end of the high pressure coupling and configured to rotate about the high pressure coupling defining a horizontal plane within the housing. The cleaner also includes first and second nozzles having a vertical axis therethrough and secured proximate to the first and opposing second ends of the supply conduit, respectively, the vertical axis of the first and second nozzles approximately normal to the first horizontal plane, and a directional nozzle coupled to the supply conduit and having a directional outlet orientated to cause the supply conduit with the first and second nozzles to rotate when discharging water.

The present invention relates to an apparatus designed to control the application of the previously uncontrollable reaction of a peroxide composition and an alkaline composition, and accurately maintain the desired composition ratios for removal of and destruction of microbiological and organic contamination on a surface safely and without waste of the materials. The apparatus may also be used to maintain the highest demulsifying and antimicrobial activity of an organic acid composition blended with a peroxide composition by limiting contact time and the level of degradation of the components of the organic acid composition. A method of using the apparatus is provided for removing biofilm, bacteria, fungal cells, spores, fragments, and hyphae, microbiological slime, and organic contaminants from porous and non-porous surfaces, maintaining the integrity and life expectancy of the substrates, and increasing their resistance to new biofilm formation and microbiological deposition.

A method of cleaning and a system and method of determining the effectiveness of a cleaning process for an HVAC system including a heat exchanger having a coil matrix. The coil matrix includes a plurality of rows of heat exchanging coils in which each adjacent row of coils is offset. The plurality of rows define channels extending through the coil matrix between an upstream side and a downstream side. The heat exchanger cleaning method includes applying a cleaning solution and a wet steam mixture directed into the channels. The effectiveness of the cleaning method is determine by a system and method which measures various operating parameters at the inlet side and outlet side of the heat exchanger both before and after the cleaning process. The system and method calculate a SEER rating using the total amount of heat removed by the HVAC system and the total power usage of the HVAC system.

A high pressure cleaner with adjustable flow and/or pressure. A controller (CTL) serves to receive a wireless control signal (WCS) from a remote control unit (RCU), e.g. integrated in the spray handle (SH), in response to an input from a user. The controller (CTL) controls the high pressure module (HPM), e.g. electric power to its electric motor, so as to adjust a flow and/or pressure level at the liquid output (L_O) of the high pressure module (HPM) in accordance with the wireless control signal (WCS), between a plurality of different flow and/or pressure levels in an active state of the high pressure module (HPM). Further, the controller may be arranged to switch off electric power to the motor of the high pressure module (HPM) and/or activate a safety valve in response to a wireless control signal (WCS). The user interface (U_I) that allows the user to enter the desired flow and/or pressure level, may further visualize the flow and/or pressure level to the user.