A chemical mechanical polishing (CMP) system include apparatus and methods to clean brushes used to scrub substrates, including brush cleaning using periodic chemical treatment. One or more embodiments include a method of operating the CMP system to rotate a first one or more scrubber brushes while the first one or more scrubber brushes are in contact with a first substrate, performing, concurrent with the rotating during the first time duration, a cleaning operation for a second one or more scrubber brushes, performing, during a second time duration of the cleaning cycle, the cleaning operation for the first one or more scrubber brushes, and rotating, concurrent with the performing the cleaning operation during the second time duration, the second one or more scrubber brushes while the second one or more scrubber brushes are in contact with a second substrate.

In one example, we describe a method and system for cosmetic brush cleaning and drying. It solves all the problems mentioned for the other products in the industry. Our system cleans multiple brushes effectively at one time without user intervention. After cleaning, the device can be placed into a drying mode that dries the brushes many times faster than air-drying along. Also, a mechanism can be included that transitions the device from the cleaning mode to the drying mode without user intervention, thereby, creating a fully automated system. In addition, our system/example cleans brushes in only one minute. Our system has four sub-assemblies/sub-systems/main components: Power cord; Handle (which holds the makeup brushes during cleaning and drying); Base (which holds the cleaning solution); and Cradle (which fits between the base and the handle). Various examples and variations are also presented here.

A system for moulding three-dimensional products from a mass of one or more food starting materials which are suitable for consumption, in particular human consumption, has a production device having a frame, a mould member provided with at least one mould cavity, the frame supporting the mould member, mass feed means for feeding the mass to the one or more mould cavities of the mould member. The system also has at least one cleaning device for cleaning one or more parts of the production device which come into contact with the mass. The mould member is removable from the frame. The system has a storage device for storing a plurality of mould members, which may be provided with an identification, has recognition means for recognizing the identification of a mould member, and may have a memory for storing at least one history of a mould member.

A cleaning system comprises a first cleaning tank, a carrying and moving unit, a first cleaning spray head, and a rolling brush unit. The carrying and moving unit is configured to move a polishing film to be cleaned into the first cleaning tank and hold the polishing film in the first cleaning tank. The first cleaning spray head is configured to spray a cleaning liquid on the polishing film held in the first cleaning tank. The rolling brush unit is configured to brush the polishing film while the first cleaning spray head sprays the cleaning liquid on the polishing film.

A self-cleaning device of the present disclosure includes: a cleaning member configured to clean a cleaning tool that cleans a substrate; and an injection unit configured to inject a liquid toward the cleaning member or the cleaning tool. The cleaning member has a cleaning surface that cleans the cleaning tool when the cleaning tool is pressed thereagainst, and the cleaning surface is inclined with respect to a horizontal plane.

A waste removal and transfer assembly for a 3D printing system comprises a waste material remover and a waste material collector. The waste material remover comprises a movable waste removing element selectively movable into contact with a planerizer roller to remove 3D printing waste material from the planerizer roller. The waste material remover is coupled to translate with the planerizer roller and comprises an opening leading to a waste material receptacle configured to receive waste material and at least one port selectively operable to transfer waste material from the waste receptacle. The waste material collector has a receiving position that is stationary relative to the waste material remover. The waste material collector comprises an opening and a waste material storage recess to receive waste material transferred from the waste material remover via the at least one port and to store the received waste material for subsequent disposal.

A substrate cleaning device 1 includes a substrate holding unit 10 configured to hold a substrate W, a first cleaning unit 11 having a first cleaning member 11a caused to come into contact with a first surface WA of the substrate W held by the substrate holding unit 10 to clean the first surface WA, a second cleaning unit 12 having a second cleaning member 12a caused to come into contact with the first surface WA of the substrate W held by the substrate holding unit 10 to clean the first surface WA, and a controller 50 configured to control the first and second cleaning units 11, 12 so that, when any one of the first cleaning member 11a and the second cleaning member 12a cleans the first surface WA of the substrate W held by the substrate holding unit 10, the other cleaning member is at a position apart from the substrate W held by the substrate holding unit 10.

The present invention relates to a disposal splash guard for drain clog remover wherein the disposal splash guard is a clear, bendable guard that can be placed over the drain during the clog removal process. It is designed to prevent splashes of dirty water and debris from escaping the train and potentially causing unsanitary conditions. The material is both durable and easy to clean, and is able to withstand exposure to water, household chemicals, cleaning agents, and other substances commonly found in stinks and drains. In an embodiment of the present invention, the disposal splash guard has a spiral-storage system attached to the side of the device designed to hold the drain clog remover when it is not in use, keeping it within reach for the next time it is needed ensuring that the drain clog remover is always available and easy to find when it is needed. The spiral storage system also has small brushes, that can be used to clean the clogging instrument as it gets inserted and pulled out of it.

A system for molding three-dimensional products from a mass of one or more food starting materials which are suitable for consumption, in particular human consumption, has a production device having a frame, a mold member provided with at least one mold cavity, the frame supporting the mold member, mass feed means for feeding the mass to the one or more mold cavities of the mold member. The system also has at least one cleaning device for cleaning one or more parts of the production device which come into contact with the mass. The mold member is removable from the frame. The system has a storage device for storing a plurality of mold members, which may be provided with an identification, has recognition means for recognizing the identification of a mold member, and may have a memory for storing at least one history of a mold member.

A filter cleaning device has an improved structure which is capable of effectively cleaning dust in a filter used in an air conditioner. The filter cleaning device includes: a filter; a brush unit movably installed at one side of the filter to separate dust from the filter; a brush movement unit configured so that the brush unit is movable along the filter; and brush guides installed at two sides of the brush unit to guide a movement of the brush unit. Each of the brush guides includes: a first guide groove formed so that the brush unit is moved to be in contact with the filter; and a second guide groove formed so that the brush unit is moved to be separated from the filter.