A waste compaction apparatus may include a housing and a connector arm. The housing may define a drive chamber and a compaction chamber and the connector arm may include a drive piston portion movably positioned within the drive chamber and a compaction piston portion movably positioned within the compaction chamber. The drive chamber may be selectively fluidly coupleable to the near-vacuum of outer space, such that the compaction piston portion of the connector arm is configured to move within the compaction chamber to compact waste material contained within the compaction chamber in response to movement of the drive piston portion of the connector arm within the drive chamber.

A waste compaction apparatus may include a housing and a connector arm. The housing may define a drive chamber and a compaction chamber and the connector arm may include a drive piston portion movably positioned within the drive chamber and a compaction piston portion movably positioned within the compaction chamber. The drive chamber may be selectively fluidly coupleable to the near-vacuum of outer space, such that the compaction piston portion of the connector arm is configured to move within the compaction chamber to compact waste material contained within the compaction chamber in response to movement of the drive piston portion of the connector arm within the drive chamber.

A recycling appliance is for processing non-organic recyclable materials and organic materials. The recycling appliance includes a non-organic processing assembly configured to receive, process and store the non-organic recyclable materials. An organic processing assembly is spaced apart from the non-organic processing assembly. The organic processing assembly is configured to receive, process and store the organic materials. A housing assembly is configured to house the non-organic processing assembly and the organic processing assembly.

A compactor system for compacting waste having liquid components. The compactor system includes a storage container having a storage chamber and a dump door. A charge container includes a compacting chamber and a loading opening. An outlet fitting is mounted to the charge container. The outlet fitting is in fluid communication with the compacting chamber. A pump is in fluid communication with the outlet fitting. A storage tank is in fluid communication with the pump. The storage tank, storage container and charge container are positioned on a support surface. The pump pumps fluid from the compacting chamber into the storage tank.

A press for processing organic waste has two plungers. Preferably, the plungers have rectangular cross sections. The two plungers are mounted in the press such that they are perpendicular to each other and have partially overlapping stokes. The press has walls that partially enclose a pressing chamber. The pressing chamber is as wide as one plunger on one side, and as wide as the other plunger on another side. In operation, one of the two plungers is used to optionally load organic waste into the pressing chamber, to partially enclose the pressing chamber while the waste is compressed, and to eject compressed waste from the pressing chamber. The other plunger is used to compress waste in the pressing chamber whereby a pressate is produced through perforations in a wall of the pressing chamber. The other plunger may also partially enclose the pressing chamber while compressed waste is ejected.

The invention relates to an apparatus for processing solid waste, which comprises a base provided with linear rails (10) on which a carriage (20) moves, said carriage being held on the rails by castors and supported by a hydraulic cylinder; a collection unit arranged at the head end of the rails (10) and provided with an upper opening (30) that receives the waste and transfers it by gravity to a processing unit (40) comprising conical elements (not depicted) in the inner region thereof, and, centrally, a shaft with a helicoid (41) surface, said shaft (41) being rotated by a motor with a motor-reduction unit (42); and an extrusion unit (50) that receives the triturated waste from the collection unit, said extrusion unit (50) comprising a base provided with holes and a conical opening opposite the area of inflow of the waste from the processing unit (40).

A system for compacting waste includes a trolley and a cabin monument. The trolley or the cabin monument has a compacting device. The compacting device includes a cover with a bellows that is arranged on the lower face of the cover and is designed to be movable between a folded-together position, in which the bellows interior has a first volume, and an unfolded position, in which the bellows interior has an enlarged second volume. By suctioning fluid from a container interior formed in the trolley by means of a first cover channel arranged in the cover of the trolley, the bellows can be moved into the unfolded position such that the bellows protrudes far enough into the container interior that the waste container and/or waste in the waste container is compacted.

A system includes a vehicle monument, a hose with a fluid line, and an adapter with a triggering unit and a housing, which has a fluid connection. The fluid connection couples to a fluid mating connection, wherein the monument has a fluid main valve and a control unit for controlling the fluid main valve, an inlet of the fluid main valve couples to a fluid suction source, and a first end of the hose connects to the monument such that a first end of the fluid line is coupled to a first outlet of the fluid main valve. A second end of the hose is connected to the adapter such that a second end of the fluid line is coupled to the fluid connection, and the control unit controls the fluid main valve based on a triggering signal from the triggering unit.

The invention relates to a light and convenient pneumatic device for preparing tea brick includes a worktable, a supporting device arranged at the bottom of the worktable, a punching device arranged on the top of the supporting device and a limiting device arranged on the top of the worktable. The bottom of the worktable is provided with a rectangular receiving cavity with an opening upward. The supporting device includes a supporting component. The punching device includes a power component, a punching component and a waterproof component. The punching component includes a punching block. The light and convenient pneumatic device for preparing tea brick of the present invention includes a working compartment for holding tea leaves which is constituted by a limit block, a rectangular receiving cavity and a punching block. The punching block is used to punch. The tea leaves in the working compartment are extruded to tea bricks. The punched tea brick can be ejected together with the limiting blocks which facilitates to take the tea bricks out. The bottom of the worktable is provided with a water receiving tray which is used to receive the water during the extrusion process. The device is small and convenient which facilitates to process and prepare tea bricks on a small-scale.

Exemplary embodiments include improved systems and methods for sorting and metering materials to be recycled at a material recovery facility. Systems and methods for the accurate and automated sorting and metering of recoverable materials may include a bunker with an integral conveyor adapted to meter presorted materials such that predetermined amounts of the materials may be delivered to a baler for baling and sale. Exemplary systems may include an auger screw type conveyor sized and shaped to deliver the materials to, for example, a baling system. The systems may also include a crusher for reducing the volume of the materials prior to metering from the bunker; by reducing the volume of the materials in the bunker, a baler may operate more efficiently, increasing output from the facility.