A dip tank is fillable with a liquid. An accommodation device accommodates components and is rotatingly drivable around an axis of rotation. The accommodation device and the dip tank are movable relative to each other to dip the components in the dip tank or to lift the components out of the dip tank. A splash guard is provided. A lifting device is arranged to move the splash guard relative to the dip tank.

An apparatus for removing material from an object surface is disclosed, including a fluid source, a flexible carrier, and a tubular member. The tubular member is connected to the flexible carrier, which is configured to conform to the object surface. The tubular member is configured to carry fluid from the fluid source to the flexible carrier, and has an aperture configured to release fluid and generate cavitation bubbles proximate the object surface.

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.

The invention is generally a system for washing off residual resin from objects which are three-dimensionally (3D) printed through a vat polymerization (VP) process. Exemplary systems may include a solvent receptacle, a wash reservoir in fluid communication with the solvent receptacle, and a controller configured to pump a solvent from the solvent receptacle to the wash reservoir for washing off residual resin from a 3D-printed object. Exemplary methods may include pumping a first solution of a plurality of solvent solutions from the solvent receptacle to the wash reservoir, dispersing the first solution onto the 3D-printed object, pumping the first solution from the wash reservoir to the solvent receptacle, pumping a second solution of the plurality of solvent solutions from the solvent receptacle to the wash reservoir, and dispersing the second solution onto the 3D-printed object.

An apparatus for cleaning game, vegetables, fruit, fish or crustacea in a container has a pipe with a first and second portion, and a connector connected to the pipe. The second portion extends generally transverse to the first portion. The second portion has a plurality of apertures formed through the wall thereof. The apertures direct the flow of water in a cyclonic path in the container. The connector is adapted to connect with a water hose or water conduit so as to introduce water into and through the pipe. The first portion of the pipe extends generally vertically and the second portion of the pipe extends generally horizontally.

A method and a system for cleaning a work, the sum A of the areas (mm.sup.2), the sum B of the areas (mm.sup.2) and the determined supply flow rate Q (L/min) or the supply flow rate Q (L/min) and one or both of the determined sum A of the areas (mm.sup.2) and the determined sum B of the areas (mm.sup.2) satisfy the predetermined relations.

To realize excellent durability of an apparatus, realize a dissolved gas amount suitable for propagation of ultrasonic waves, and stably generate fine bubbles that further comply with a treatment using ultrasonic waves. An ultrasonic treatment apparatus according to the present invention includes: a treatment part capable of accommodating a treatment liquid and an object to be treated; an ultrasonic generator that is provided in the treatment part and applies ultrasonic waves to the object to be treated; and a circulation path for circulating the treatment liquid in the treatment part, in which a fine bubble generator which performs deaeration on an extracted treatment liquid and generates fine bubbles in the treatment liquid, is provided to the circulation path, in series with a treatment liquid extraction pipe. The fine bubble generator has two or more narrow portions each having an opening flow path with a size narrower than an inside diameter of the treatment liquid extraction pipe, in which the opening flow paths of the narrow portions adjacent to each other are configured to prevent the treatment liquid from proceeding straight, and an opening cross-sectional area at each pressure reduction zone satisfies a predetermined relation.

A system may include a circulation subsystem and a circuit coupled to the circulation subsystem. The circuit may provide one or more signals to control the circulation subsystem to circulate a treatment solution including one or more of microbubbles or nanobubbles in a selected ratio. In one aspect, the nanobubbles may include a first gas, and the microbubbles may include a second gas. In another aspect, the treatment solution may include a first percentage of nanobubbles and a second percentage of microbubbles. In another aspect, mechanical agitation can be applied to the solution on an object to assist in cleaning.

Methods and apparatus for cleaning large numbers of brushes quickly, comfortably and efficiently are disclosed. The apparatus contains a cleaning chamber comprising cleaning elements disposed on a cleaning plate within the chamber that contacts the brushes during cleaning, the cleaning chamber in contact with a drive and a motor that can deliver repetitive motions to the cleaning elements. Further it comprises a lid configured to hold brushes in securement members on the lid, one or more vibratory motors that provides vibratory motions to the cleaning chamber, and a solvent circulation system that is configured to deliver and drain solvents between the reservoir and cleaning chambers and also filter and recirculate them during the cleaning cycles, and drain out used solvents from the cleaner after a cleaning operation. The apparatus also contains means to hasten drying of washed brushes. Some embodiments allow easy transport of the large capacity cleaner.

Techniques for depowdering in additive fabrication are provided. According to some aspects, techniques are provided that separate powder from additively fabricated parts through liquid immersion of the parts. Motion of the liquid, such as liquid currents, may dislodge or otherwise move powder away from additively fabricated parts to which it is adhered or otherwise proximate to. The liquid may also provide a vehicle to carry away powder from the additively fabricated parts. Removed powder may be filtered or otherwise separated from the liquid to allow recirculation of the liquid to the parts and/or to enable re-use of the powder in subsequent additive fabrication processes. Techniques for depowdering through liquid immersion may be automated, thereby mitigating challenges associated with manual depowdering operations.