Exemplary integrated cluster tools may include a factory interface including a first transfer robot. The tools may include a wet clean system coupled with the factory interface at a first side of the wet clean system. The tools may include a load lock chamber coupled with the wet clean system at a second side of the wet clean system opposite the first side of the wet clean system. The tools may include a first transfer chamber coupled with the load lock chamber. The first transfer chamber may include a second transfer robot. The tools may include a dry etch chamber coupled with the first transfer chamber. The tools may include a second transfer chamber coupled with the first transfer chamber. The second transfer chamber may include a third transfer robot. The tools may include a process chamber coupled with the second transfer chamber.

A touchless cleaning assembly for cleaning a room in a touch-less manner includes a cabinet is recessed into a wall of a room. A plurality of hose reels is positioned in the cabinet and each of the hose reels includes a hose that is drawable outwardly from the cabinet for spraying a fluid for cleaning surfaces in the room, for blowing air to dry the surfaces and to vacuum the surfaces. An air compressor is positioned within the cabinet to direct compressed air into a respective hose reel to dry the surfaces. A vacuum is positioned within the cabinet to supply vacuum pressure to the a respective hose reel for suctionally removing the fluid from a floor of the room.

A touchless cleaning assembly for cleaning a room in a touch-less manner includes a cabinet is recessed into a wall of a room. A plurality of hose reels is positioned in the cabinet and each of the hose reels includes a hose that is drawable outwardly from the cabinet for spraying a fluid for cleaning surfaces in the room, for blowing air to dry the surfaces and to vacuum the surfaces. An air compressor is positioned within the cabinet to direct compressed air into a respective hose reel to dry the surfaces. A vacuum is positioned within the cabinet to supply vacuum pressure to the a respective hose reel for suctionally removing the fluid from a floor of the room.

A handheld snow removing system includes an intake scoop with a rotating intake auger, a discharge chute configured to direct a flow of material to a point outside of the handheld snow removing system, a fan chamber disposed between the intake scoop and the discharge chute, and an energy-conversion device configured to drive elements of the fan chamber and the rotating intake auger. The fan chamber includes a fan configured to create a suction force within the fan chamber to create the flow of material from the intake scoop, through the fan chamber, and out through the discharge chute.

A handheld snow removing system includes an intake scoop with a rotating intake auger, a discharge chute configured to direct a flow of material to a point outside of the handheld snow removing system, a fan chamber disposed between the intake scoop and the discharge chute, and an energy-conversion device configured to drive elements of the fan chamber and the rotating intake auger. The fan chamber includes a fan configured to create a suction force within the fan chamber to create the flow of material from the intake scoop, through the fan chamber, and out through the discharge chute.

A continuous dust accumulation monitoring system, device and method monitors and measures dust accumulation via an enclosure and a machine vision subsystem which can include a digital camera. A dirty optics detection subsystem monitors optical clarity and can invoke a cleaning assembly to help maintain clarity of optics for monitoring and measuring dust accumulation.

A continuous dust accumulation monitoring system, device and method monitors and measures dust accumulation via an enclosure and a machine vision subsystem which can include a digital camera. A dirty optics detection subsystem monitors optical clarity and can invoke a cleaning assembly to help maintain clarity of optics for monitoring and measuring dust accumulation.

A device for cleaning a handle, includes a handle including a gripping surface to be disinfected, an application member for applying a cleaning liquid to the gripping surface, and cleaning liquid supply including at least one reservoir for receiving cleaning liquid and distributing it to the application member. The application member includes at least one buffer reserve arranged in contact with the gripping surface. The device includes a unit for actuating the application member, including a driver configured to move the buffer reserve and/or the gripping surface relatively with respect to one another so as to apply cleaning liquid to substantially the entire gripping surface during this movement.

A device for cleaning a handle, includes a handle including a gripping surface to be disinfected, an application member for applying a cleaning liquid to the gripping surface, and cleaning liquid supply including at least one reservoir for receiving cleaning liquid and distributing it to the application member. The application member includes at least one buffer reserve arranged in contact with the gripping surface. The device includes a unit for actuating the application member, including a driver configured to move the buffer reserve and/or the gripping surface relatively with respect to one another so as to apply cleaning liquid to substantially the entire gripping surface during this movement.

The invention relates to a facility which has a dirty facility area and an adjacent clean facility area, baskets for receiving the dirty articles, and a wall separating the dirty area from the clean area, the dirty area including an entry door for receiving the dirty articles, pre-processing stations with tables for the pre-washing and/or sorting by a human operator, or even by a robotic operator, of the dirty articles and for arranging the pre-washed and/or sorted articles in the baskets, pick-up points at the pre-processing stations for pick-up of the baskets with the pre-washed and/or sorted articles, a plurality of washers, eg. machines operating in a manner similar to a dishwasher, positioned along the dividing wall, for washing the pre-washed and/or sorted articles arranged in the baskets, the washers having an inlet opening in the dirty area and an outlet opening for washed articles in the clean area, the clean area including processing stations with tables for processing by a human operator, or even a robotic operator, of the washed articles. One or more unmanned vehicles are configured for travelling on the floor of the dirty area at least between pick-up points and an inlet opening of the respective washers, each vehicle including a base with a front end and a rear end, an upper part with a loading platform configured for supporting the baskets, an on-board control device for receiving and executing mission information, each pre-processing station including a first type control device for direct or indirect communication with one or more of the vehicles, each washer including a respective second type control device for direct or indirect communication with the one or more vehicles and/or for direct or indirect communication with the first control devices, each first control device being for calling a vehicle to the pick-up point and/or for dispatching a vehicle from the pick-up point.