A system and method for a vacuum driven separating device is disclosed.

Apparatus (200) for sorting mixed waste materials, comprising: a housing (260) configured to be vibrated to assist sorting; a screen (210) supported by the housing (260) and having an inlet end (212) for receiving waste materials and an outlet end (214) for discharging at least some waste received at the inlet end (212), the screen (210) comprising at least one portion (220) pivotally coupled adjacent the inlet end (212) to a substantially horizontal axle (222) mounted in the housing (260); and drive means (224,228) configured to pivot the at least one portion (222) of the screen (210) about the axle (222) with a controlled reciprocating action.

Apparatus (200) for sorting mixed waste materials, comprising: a housing (260) configured to be vibrated to assist sorting; a screen (210) supported by the housing (260) and having an inlet end (212) for receiving waste materials and an outlet end (214) for discharging at least some waste received at the inlet end (212), the screen (210) comprising at least one portion (220) pivotally coupled adjacent the inlet end (212) to a substantially horizontal axle (222) mounted in the housing (260); and drive means (224,228) configured to pivot the at least one portion (222) of the screen (210) about the axle (222) with a controlled reciprocating action.

Apparatus (200) for sorting mixed waste materials, comprising: a housing (260) configured to be vibrated to assist sorting; a screen (210) supported by the housing (260) and having an inlet end (212) for receiving waste materials and an outlet end (214) for discharging at least some waste received at the inlet end (212), the screen (210) comprising at least one portion (220) pivotally coupled adjacent the inlet end (212) to a substantially horizontal axle (222) mounted in the housing (260); and drive means (224,228) configured to pivot the at least one portion (222) of the screen (210) about the axle (222) with a controlled reciprocating action.

Apparatus (200) for sorting mixed waste materials, comprising: a housing (260) configured to be vibrated to assist sorting; a screen (210) supported by the housing (260) and having an inlet end (212) for receiving waste materials and an outlet end (214) for discharging at least some waste received at the inlet end (212), the screen (210) comprising at least one portion (220) pivotally coupled adjacent the inlet end (212) to a substantially horizontal axle (222) mounted in the housing (260); and drive means (224,228) configured to pivot the at least one portion (222) of the screen (210) about the axle (222) with a controlled reciprocating action.

A sorting device for sorting out coins from bulk material, includes at least one sorting gap (5) for coins that is limited by at least one roller (2) which can be rotated by a drive (33) about an axis of rotation (A) such that objects that cannot be conveyed through the sorting gap (5) are applied with force by the roller (2) in a direction away from the sorting gap (5) wherein a discharge hood (6) is provided for an eddy current separator device (29), which has an adjustable trajectory separator unit (4) in a hood interior (7), wherein the at least one roller (2) is arranged in or on the discharge hood (6) in relation to the trajectory separator unit (4) such that a non-ferrous metal fraction separated from the bulk material by the trajectory separator unit (4) is guided in the direction of the sorting gap (5) by the weight force of the non-ferrous metal objects (12).

A separator as described herein separates granular input material into component materials. Each component material has a hardness. The separator includes a rebound surface, a propulsion system, and a plurality of sorting zones. The propulsion system propels granular input material toward the rebound surface. The component materials that are rebounded off of the rebound surface and land in sorting zones based on the hardness of the component materials. A method for using the separator is also described.

A separator as described herein separates granular input material into component materials. Each component material has a hardness. The separator includes a rebound surface, a propulsion system, and a plurality of sorting zones. The propulsion system propels granular input material toward the rebound surface. The component materials that are rebounded off of the rebound surface and land in sorting zones based on the hardness of the component materials. A method for using the separator is also described.

An Impact screen is used to screen materials like Urea, NPK and Iron ore . . . etc. Bulk material is received into a hopper which regulates the output. Then it falls into the impact-hopper through the top-conveyor, where it is spread into a thin layer and gets reflected hitting the hit-bar. The reflected material falls oh the bottom-conveyor, in a way fines are at the bottom and gradually the bigger particles on top. Then the layered material is delivered into the 3-way splitter by the bottom conveyor, where it is split into 3 different size ranges and delivered separately through three different ducts.

An Impact screen is used to screen materials like Urea, NPK and Iron ore . . . etc. Bulk material is received into a hopper which regulates the output. Then it falls into the impact-hopper through the top-conveyor, where it is spread into a thin layer and gets reflected hitting the hit-bar. The reflected material falls oh the bottom-conveyor, in a way fines are at the bottom and gradually the bigger particles on top. Then the layered material is delivered into the 3-way splitter by the bottom conveyor, where it is split into 3 different size ranges and delivered separately through three different ducts.