A cleaning vehicle generally has a grey water reservoir having a pre-filter; an aspiration conduit leading into the grey water reservoir upstream from the pre-filter and a vacuum pump adapted to create a vacuum inside the grey water reservoir to draw grey water; a vortex separation subsystem connected downstream from the pre-filter; a filtration bag subsystem connected downstream from the vortex separation subsystem; a filtrate reservoir connected downstream from the filtration bag subsystem; a high pressure hose having an end connected downstream from the filtrate reservoir and another end having a high pressure spray nozzle; a filtrate path extending from the grey water reservoir to the high pressure spray nozzle via the pre-filter, the vortex separation subsystem, the filtration bag subsystem and the high pressure hose; and at least one pump adapted to entrain a flow of fluid along the filtrate path.

A cleaning vehicle generally has a grey water reservoir having a pre-filter; an aspiration conduit leading into the grey water reservoir upstream from the pre-filter and a vacuum pump adapted to create a vacuum inside the grey water reservoir to draw grey water; a vortex separation subsystem connected downstream from the pre-filter; a filtration bag subsystem connected downstream from the vortex separation subsystem; a filtrate reservoir connected downstream from the filtration bag subsystem; a high pressure hose having an end connected downstream from the filtrate reservoir and another end having a high pressure spray nozzle; a filtrate path extending from the grey water reservoir to the high pressure spray nozzle via the pre-filter, the vortex separation subsystem, the filtration bag subsystem and the high pressure hose; and at least one pump adapted to entrain a flow of fluid along the filtrate path.

In order to provide a device and a method for treating workpieces (102), in which an optimized workpiece treatment is possible, it is proposed that a treatment station (114) comprise a treatment chamber (136) that can be flooded for workpiece treatment.

In order to provide a device and a method for treating workpieces (102), in which an optimized workpiece treatment is possible, it is proposed that a treatment station (114) comprise a treatment chamber (136) that can be flooded for workpiece treatment.

A sensor lens assembly includes a cylindrical sensor body including a lower surface, a sensor lens surface, and a side surface extending between the lower surface and an outer edge of the sensor lens surface, a sensor enclosed within the cylindrical sensor body and adjacent to the sensor lens surface, and a nozzle configured to deliver a fluid near a center point of the sensor lens surface. The sensor lens surface is concave and rotates relative to the side surface of the cylindrical sensor body such that centrifugal force causes the fluid to form a film on the sensor lens surface that acts as a barrier, cushion, and particle collecting medium on the sensor lens surface.

A sensor lens assembly includes a cylindrical sensor body including a lower surface, a sensor lens surface, and a side surface extending between the lower surface and an outer edge of the sensor lens surface, a sensor enclosed within the cylindrical sensor body and adjacent to the sensor lens surface, and a nozzle configured to deliver a fluid near a center point of the sensor lens surface. The sensor lens surface is concave and rotates relative to the side surface of the cylindrical sensor body such that centrifugal force causes the fluid to form a film on the sensor lens surface that acts as a barrier, cushion, and particle collecting medium on the sensor lens surface.

A method of using an ultrasonic system includes positioning at least one component to a ultrasonic system, the ultrasonic system including: an ultrasonic device, comprising a plurality of ultrasonic transducers coupled to a flexible body; a power supply coupled to the ultrasonic device; a fluid vessel configured to supply fluid to the at least one component; and a waste vessel configured to collect the fluid supplied to the ultrasonic device from the fluid vessel. The method includes applying, via the power supply, a current to a plurality of ultrasonic transducers to dislodge a plurality of contaminants from the at least one component. The method includes flushing, via fluid from the fluid vessel, the plurality of contaminants dislodged from the at least one component.

Disclosed is a treatment device and/or cleaning device (10), with at least three treatment stations and/or cleaning stations (26, 36, 42), as well as a method used for the separate treatment of individual components of packaging units (14) formed in each instance by primary, secondary, and tertiary packagings.

The primary packagings are in each instance gathered together in secondary packagings as groups of two or more individual primary packagings. In addition, at least two such secondary packagings are accommodated in a tertiary packaging.

The device (10) comprises at least one separating station (16, 20, 48) used for the separation of the packaging units (14) into their individual components to be treated, as well as at least three cleaning stations (24, 34, 40) and/or inspection stations used for the separate treatment of the primary, secondary, and tertiary packagings, said cleaning stations (24, 34, 40) and/or inspection stations being arranged downstream of the at least one separating station (16, 20, 48).

The corresponding method provides the separation of the packaging units (14) into their individual components to be treated and the cleaning and/or inspection of at least the primary packagings as well as the cleaning and/or inspection of the secondary packagings performed separately therefrom and/or the cleaning and/or inspection of the tertiary packagings performed separately therefrom.

A rotary cutting tool cleaning system, device, and method for cleaning debris and shavings from a rotary cutting tool such as a drill bit or reamer. The system includes at least one roller rotatably mounted in a cartridge, wherein the cartridge includes a rotary cutting tool opening in a top thereof for insertion of the rotary cutting tool into the cartridge. The rollers that remove the debris may be brushed rollers configured for axial rotational engagement with the rotary cutting tool. The system can be non-electric or, alternatively include a power supply that rotate the at least one roller.

A rotary cutting tool cleaning system, device, and method for cleaning debris and shavings from a rotary cutting tool such as a drill bit or reamer. The system includes at least one roller rotatably mounted in a cartridge, wherein the cartridge includes a rotary cutting tool opening in a top thereof for insertion of the rotary cutting tool into the cartridge. The rollers that remove the debris may be brushed rollers configured for axial rotational engagement with the rotary cutting tool. The system can be non-electric or, alternatively include a power supply that rotate the at least one roller.