An auto-feed paper shredder is configured for placement below the surface of a desk. The auto-feeder consists of a drawer located on the front surface of the shredder. This drawer is slid out to insert a stack of documents to be shredded. When the door is slid back into the shredder and the shredding system is activated, feed rollers draw sheets of paper either from the top or the bottom surface of the stack and feed the sheets into a conventional paper shredding mechanism. An input slot is provided to insert single sheets of paper when the auto-feeder is not being used.

A medical waste processing device includes an outer housing, material intake chamber having a passageway through which material passes, and cutting members contained within the housing that cuts and shreds the waste material before entering a waste receptacle that is located in the lower portion of the housing. A vacuum filter system is further provided to capture and filter potentially harmful aerosols that may be emitted during operation of the device. A method is also provided for reducing the volume of waste material through operation of the electrical shredding device.

A paper shredder with counter-rotating shredder blades coupled to a shredder motor, including a paper tray having a floor and being shaped to receive paper. The floor has an offset slot therein adjacent to the counter-rotating shredder blades. The engagement wheels partly protrude through floor, adjacent to the offset slot. The engagement wheels frictionally engage paper and turn towards the offset slot to force paper into the shredder blades. Also, a dentate catch disposed in each corner of the paper tray temporarily holds an affixment while a sheet of paper held by the affixment is being frictionally engaged by the engagement wheels to enter the slot for comminution. A PAPER FULL sensor, a DOOR OPEN sensor, an OVERLOAD sensor, an OVERHEAT sensor, a paper-in-tray sensor, a paper-at-entry sensor, a SAFETY LOCK sensor, and a cover door open/closed sensor are provided, as are AUTO and MANUAL modes of operation.

A portable shredder unit includes a lightweight housing with an interior cavity divided into a battery storage cavity and a collection cavity, said housing includes a top opening, two opposite ends, two opposite side walls, and a floor; a removable lid attached to said top opening on said housing; a high capacity electric shredder component configured to shred paper, said shredder component includes at least one feeding slot opening, an electric shredding mechanism, and electric motor and an exit discharge opening said shredder component being oriented on said lid so that, said feeding slot opening is exposed when the lid is placed over the top opening of said housing and said exit discharge opening is oriented above and over said collection cavity in said housing so that shredded material exiting the exit discharge opening is deposited into said collection cavity; at least one pair of wheels attached to said housing near one said end; a handle attached to said housing; a GFCI receptacle having a ground wire; a 110 VAC main cable with a male electrical plug attached to one end configured to manually plug into an external 110 VAC female plug, and an opposite end being connected to said GFCI receptacle: at least one 12 VDC rechargeable battery located inside said battery storage cavity; an inverter configured to convert 12 VDC into 110 VAC, said inverter connected to said rechargeable battery to convert 12 VDC current into 110 VAC, said inverter; a control panel or set of switches electrically connected to said shredder, to said inverter and to said GFCI receptacle, said control panel or set of switches are configured to allow an operator to select the source of electricity either from said GFCI receptacle when said main cable is connected to an external 110 VAC female plug or from said inverter when connected to said rechargeable battery; and a ground roller ball attached to the floor of the housing and configured to contact a surface under the housing when, the portable shredding unit is placed onto the surface said ground roller ball electrically connected to the ground wire of said GFCI receptacle.

A print finishing machine has a die and a drive mechanism. The drive mechanism is driven by a motor and the drive mechanism is configured to drive a stack of sheets of material through the die in order to cut the stack according to the shape of the die.

Provided is a portable paper shredder, relating to the technical field of portable paper shredding devices. The portable paper shredder includes a chassis and a core disposed in the chassis. The core includes a rotating drive member and a cutter assembly that are in transmission connection. The chassis is provided with a paper shredding passage. A paper shredding end of the cutter assembly is located in the paper shredding passage. The paper shredding passage penetrates the chassis. Two ends of the paper shredding passage are provided with a paper feeding end opening and a paper outfeeding end opening separately. A side of the paper shredding passage extends outwards and forms an open notch on the sidewall of the chassis. The open notch directly communicates with the paper feeding end opening. Therefore, the portable paper shredder can broaden the application scope, help achieve miniaturization and improve portability.

A shredder assembly for shredding paper comprising: a frame; a bag; a base, where the base engages the frame and bag during use; an opening within the base; and a shredder positioned over the opening. The frame includes a top support that receives and supports the base, where the frame includes vertical supports and a cross bar support between the vertical supports. The shredder assembly may also include wheels that are mounted under the vertical supports.

The present disclosure is generally related to an apparatus having cutter elements for destroying articles such as paper sheets and a mechanism for separating at least a sheet from a stack in a tray. The separation mechanism can be activated by rotation of the cutter elements. In one embodiment, the separation mechanism is provided in the form of a helical mechanism configured for insertion into the stack and to receive separated sheets from the stack in between its space(s) as it is rotated. The separated sheets can fall via gravity into the shredder mechanism. Optionally, a paper feed mechanism can feed separated paper to the cutter elements. The tray can include an edge to assist in directing separated paper towards the cutter elements. One or more staple picking support mechanisms can also be provided to assist in separating sheets from a stapled set of pages.

A sheet supply device, a shredding device, a web forming device, and a sheet recycling system enabling smoothly supplying sheets regardless of the size and type of the sheets, and reducing equipment size. The sheet supply device includes a tray having a support surface on which a sheet is placed; a supplier configured to feed the sheet placed on the support surface; and a discharger from which the sheet is discharged by operation of the supplier. The supplier has multiple rollers disposed separated in the feed direction of the sheet; a rotation driver configured to rotationally drive the multiple rollers; and a roller support supporting the rollers in a direction to and away from the support surface. The sheet placed on the support surface contacts at least one of the multiple rollers and is fed to the discharger by displacement of the roller support.

A paper shredder support assembly for positioning a shredder above a receptacle includes a plate. A plurality of tubes is coupled to and extends from a bottom of the plate. Each tube comprises a plurality of nested sections so that the tube is selectively extensible. The plurality of tubes is positioned to support the plate over a receptacle. An opening is positioned in the plate. A shredder is positioned in the opening and is coupled to the plate. The shredder is configured to shred items that are inserted into the shredder so that shredded waste is expelled into the receptacle. A panel is selectively couplable to the plate to cover the opening.