A cleaning basket (120) for cleaning a breathing apparatus (112) is proposed. The cleaning basket (120) comprises at least one basket rack (140). Furthermore, the cleaning basket (120) comprises at least one mask holder (122) for holding at least one protective breathing mask (114) in the cleaning basket (120). Furthermore, the cleaning basket (120) comprises at least one suction element (156) which has at least one suction opening (160) and is configured to extend into the protective breathing mask (114) held by the mask holder (122). The suction element (156) is configured to be charged with negative pressure and to suck cleaning fluid out of at least one interior space (148) of the protective breathing mask (114) into the suction opening (160). Furthermore, a cleaning system (110) with the cleaning basket (120) and a cleaning device (118), and a method for cleaning the breathing apparatus (112) are proposed.

A portable parts washer for cleaning mechanical parts that includes a washer body having an upper portion, a lower portion, and a wash basin formed within the upper portion having inner sidewalls, a floor panel and at least one drain aperture. The portable parts washer also includes an in-use reservoir formed within the lower portion of the washer body and having a bottom panel spaced from the floor panel and outer sidewalls, and which is configured to receive cleaning fluid from the wash basin through the drain aperture when the floor panel is in a substantially horizontal orientation. The portable parts washer further includes a storage reservoir formed within the upper and lower portions and which is configured to contain the cleaning fluid from the in-use reservoir when the floor panel is rotated to a substantially vertical orientation.

A machine for washing and removing substrate material for parts produced by a 3D printer. The machine includes a housing having a working chamber and a disposal chamber. The machine has at least one inlet in fluid communication with the working chamber. The disposal chamber is disposed adjacent to the working chamber. A dividing wall is disposed between the working chamber and the disposal chamber. A pump conveys a working fluid to the at least one inlet in the working chamber. The disposal chamber and the working chamber are disposed in fluid communication via a passageway such that working fluid passes from the working chamber to the disposal chamber. The machine may also include an ultrasonic generator for generating ultrasonic vibrations within the working chamber and a heater for warming the working fluid.

A cleaning and distillation apparatus with a clean fluid tank, a cleaning tank, a recirculating fluid tank located below the cleaning tank, a removable separator panel partitioning the clean fluid tank from the recirculating fluid tank, a distillator and an outlet for dispensing fluid is provided. Also provided is a cleaning apparatus, without the distillator, the cleaning apparatus having a cleaning tank, a recirculating fluid tank located below the cleaning tank, a removable separator panel partitioning the recirculating fluid tank from the cleaning tank, and a fluid dispenser.

A cleaning basket (114), a cleaning device (116), a cleaning system (110) and a method for cleaning breathing apparatus (112) are proposed. The cleaning basket (114) comprises at least one basket rack (118), and the cleaning basket (114) further comprises at least one pressure attachment (120) connectable to at least one gas-conveying element (113) of the breathing apparatus (112), wherein the gas-conveying element (113) can have pressurized gas applied to it at least while the breathing apparatus (112) is subjected to at least one cleaning fluid (122), wherein the cleaning basket (114) has at least one pressure sensor (124), wherein the pressure sensor (124) is configured to detect when pressure is applied to the pressure attachment (120), wherein the cleaning basket (114) furthermore has at least one transmission device (126) for transmitting at least one result of the pressure application detection to a cleaning device (116).

An exemplary device is indicated for use in physically debriding thrombus fragments from a stent retriever, using hospital-grade saline, or heparinized saline, for example. This device may be used in the sterile field, during a mechanical thrombectomy procedure.

A washing container for washing or maintaining various objects includes opposite side portions, end portions, and a bottom portion. Embodiments include at least one lower support having an engagement gap extending between lower support arms and configured to releasably secure the objects. Some embodiments include opposing lower supports that secure opposite ends of the objects. An upper support arm may be used independently or together with one or more lower supports to secure one or more objects, in various positions, within the washing container. A perforated support platform support the objects above the bottom portion of the washing container and allows fluids and debris to pass to the bottom portion and into a drain trough. A debris basket within the trough limits the passage of debris into a drain.

A machine for removing substrate material from a part produced by a 3-D printer. The machine includes a housing having a working chamber defined therein. A spray header is disposed along at least a portion of the perimeter of the working chamber. A pump is configured and arranged to convey a fluid at varying pressures through the spray header. The fluid contacts the part and then flows to the bottom of the working chamber to a fluid outlet.

A disclosed system includes one or more ozone generators disposed and a fluid mixer configured to inject ozone generated by the one or more ozone generators into water received from a water source via a water inlet to produce an aqueous ozone solution that is output via an aqueous ozone solution outlet. The aqueous ozone solution outlet is fluidically coupled to a splitter. The system further includes a janitorial fill station with a first faucet fluidically coupled to a first output of the splitter and configured to dispense a first portion of the aqueous ozone solution, a carbon filter fluidically coupled to a second output of the splitter and configured to reduce an ozone concentration of a second portion of the aqueous ozone solution to produce purified water for consumption, and a second faucet fluidically coupled to the carbon filter and configured to dispense the purified water.

A method for removing substrate material from a part produced by a 3-D printer. The machine includes a housing having a working chamber defined therein. A spray header is disposed along at least a portion of the perimeter of the working chamber. A pump is configured and arranged to convey a fluid at varying pressures through the spray header. The fluid contacts the part and then flows to the bottom of the working chamber to a fluid outlet.