A filter apparatus is for use with a hydraulic machine. The filter apparatus includes a connecting part and a filter cartridge. The connecting part includes a sealing face, which is configured for sealing abutment on the hydraulic machine. An input connector and an output connector are arranged within the sealing face. The filter apparatus further includes a separate retaining part on which the filter cartridge is fixedly received. The connecting part has a pivoting appendage extending along a pivot axis on a side of the connecting part facing away from the sealing face. The retaining part is fluid-tightly adapted to the pivoting appendage such that (i) its pivoting position with respect to the pivot axis is continuously adjustable relative to the connecting part, and (ii) between the retaining part and the pivoting appendage, a first and a second pressure chamber are arranged.

A system may include a catch tray coupled with a flow distributor. A mesh screen and carriage may be positioned within the catch tray. A drive bar may be coupled with the carriage and a pitman arm. A gear box may be coupled with a motor and the pitman arm. A process may include distributing contaminated fluid onto the mesh screen. A screen plane of the mesh screen may be at a screen angle that is oblique relative to the direction of the force of gravity. The screen plane is defined by a top surface of the mesh screen. The process may include moving the carriage in a reciprocating linear motion by rotating the pitman arm, and spraying a liquid onto the mesh screen. Liquid may flow through the mesh screen forming clarified liquid, and contaminate may move along the top of the mesh screen to a contaminate outlet.

A system may include a catch tray coupled with a flow distributor. A mesh screen and carriage may be positioned within the catch tray. A drive bar may be coupled with the carriage and a pitman arm. A gear box may be coupled with a motor and the pitman arm. A process may include distributing contaminated fluid onto the mesh screen. A screen plane of the mesh screen may be at a screen angle that is oblique relative to the direction of the force of gravity. The screen plane is defined by a top surface of the mesh screen. The process may include moving the carriage in a reciprocating linear motion by rotating the pitman arm, and spraying a liquid onto the mesh screen. Liquid may flow through the mesh screen forming clarified liquid, and contaminate may move along the top of the mesh screen to a contaminate outlet.

A reclamation unit including a frame and a settling tank. The settling tank being pivotably mounted to the frame, the settling tank being pivotable between a first position and a second position. The settling tank defining at least a partially open top, the at least partially open top being configured and arranged to receive a fluid when the settling tank is in the first position. The settling tank also being configured to promote emptying of the fluid from the at least partially open top when the settling tank is pivoted into a given second position.

A filtration system (1) has a filtration unit (2) with at least one filter element (4) for filtration of a fluid. The at least one filter element (4) has a main flow direction (C) for the fluid. The filtration unit (2) is configured to tilt the at least one filter element (4) around a tilting axis (B) to change an orientation of the main flow direction (C). A main unit (3) is fluidly connectable to the filtration unit (2) and includes a supply unit (18) configured to supply the fluid to the at least one filter element (4). A control unit is configured to control supplying and/or evacuating the fluid to/from the at least one filter element (4) and to control tilting of the at least one filter element (4) around the tilting axis (B).

A water machine with unaffected water purification under disassembly includes a filter element device and a filter element main body seat, the filter element device includes a filter element main body and a self-sealing assembly; the filter element main body includes an inner core and an outer shell; the self-sealing assembly includes an upper ceramic sheet and a lower ceramic sheet; the upper and lower ceramic sheets are respectively provided with through ports; the filter element main body seat includes a seat body-and a water flow switching assembly; the water flow switching assembly includes a sliding body and an elastic member.

A system may include a catch tray coupled with a flow distributor. A mesh screen and carriage may be positioned within the catch tray. A drive bar may be coupled with the carriage and a pitman arm. A gear box may be coupled with a motor and the pitman arm. A process may include distributing contaminated fluid onto the mesh screen. A screen plane of the mesh screen may be at a screen angle that is oblique relative to the direction of the force of gravity. The screen plane is defined by a top surface of the mesh screen. The process may include moving the carriage in a reciprocating linear motion by rotating the pitman arm, and spraying a liquid onto the mesh screen. Liquid may flow through the mesh screen forming clarified liquid, and contaminate may move along the top of the mesh screen to a contaminate outlet.

A beer filter and a method of brewing beer is disclosed, the beer filter including an outer sheath, an outer permeable sheath disposed in the outer sheath, and an inner permeable sheath disposed in the outer permeable sheath. The method includes steps of disposing an outer permeable sheath within an outer sheath, filling an outer permeable sheath with hops, disposing an inner permeable sheath within the outer permeable sheath, and causing beer to flow from a vessel through and out of the inner permeable sheath, through the hops in the outer permeable sheath, out of the outer permeable sheath and into the outer sheath, and from the outer sheath and back into the vessel.

A tiltable filter canister including a housing and a lid adjacent to each other. The lid encloses the housing to form an interior of the tiltable filter canister. A seal may be disposed between the housing and the lid for forming a vacuum tight seal. A handle is connected to the lid, the handle having a first position and a second position. When the handle is in the first position, the seal may form the vacuum tight seal. A pin connects the handle to the lid and allows the handle to rotate between the first position and the second position. An arcuate surface may be present on the handle with a first protrusion for receiving a stop and a second protrusion. A first canister position of the tiltable filter canister is configured for performing a filtering operation and a second canister position of the tiltable filter canister is configured for performing a maintenance operation. A filtration media may be disposed within the interior of the tiltable filter canister for filtering a fluid during the filtering operation.

A system may include a catch tray coupled with a flow distributor. A mesh screen and carriage may be positioned within the catch tray. A drive bar may be coupled with the carriage and a pitman arm. A gear box may be coupled with a motor and the pitman arm. A process may include distributing contaminated fluid onto the mesh screen. A screen plane of the mesh screen may be at a screen angle that is oblique relative to the direction of the force of gravity. The screen plane is defined by a top surface of the mesh screen. The process may include moving the carriage in a reciprocating linear motion by rotating the pitman arm, and spraying a liquid onto the mesh screen. Liquid may flow through the mesh screen forming clarified liquid, and contaminate may move along the top of the mesh screen to a contaminate outlet.