A device for processing feed material, with a housing enclosing a processing space in which a rotor rotatable about the axis of rotation is arranged. The rotor has a rotor disk at which circumference a plurality of axially disposed impact plates is arranged uniformly distributed. A coaxially arranged processing path surrounds the impact plates while maintaining a working gap. Via a material inlet, the device is fed in the axial direction with feed material centrally ending in the processing space, which upon deflection in the region of the rotor disk is fed in the radial direction to the working gap. To ensure complete and gentle processing of the feed material while maintaining its original taste, smell and color, the processing path is part of a basket rotating about the rotational axis.

A device for processing feed material, with a housing enclosing a processing space in which a rotor rotatable about the axis of rotation is arranged. The rotor has a rotor disk at which circumference a plurality of axially disposed impact plates is arranged uniformly distributed. A coaxially arranged processing path surrounds the impact plates while maintaining a working gap. Via a material inlet, the device is fed in the axial direction with feed material centrally ending in the processing space, which upon deflection in the region of the rotor disk is fed in the radial direction to the working gap. To ensure complete and gentle processing of the feed material while maintaining its original taste, smell and color, the processing path is part of a basket rotating about the rotational axis.

Disclosed embodiments include diesel-electric powered, substantially heavier (e.g., 120 ton), larger (e.g., 11 8 and 12 6 diameter wheels), and more powerful (e.g., 250-350 hp per wheel) landfill compactors. Disclosed embodiments also include an integral hammer mill, oriented in an upside-down configuration to additionally compact landfill waste.

Disclosed embodiments include diesel-electric powered, substantially heavier (e.g., 120 ton), larger (e.g., 11 8 and 12 6 diameter wheels), and more powerful (e.g., 250-350 hp per wheel) landfill compactors. Disclosed embodiments also include an integral hammer mill, oriented in an upside-down configuration to additionally compact landfill waste.

The present disclosure relates to a rock processing apparatus (12) for crushing and/or sorting granular mineral material (M) according to size, comprising: a material feeding apparatus (22) including a material buffer (24), at least one working unit of: at least one crushing apparatus (14) and at least one screening apparatus (16, 18), at least one conveyor apparatus (26, 32) for conveying material between two apparatus components, at least one discharge conveyor apparatus (29, 42, 46) for conveying processed material onto a stockpile (30, 44, 48), a control unit (60), at least one stockpile sensor (96, 98) for detecting at least one state and/or a change over time of a size of the stockpile (30, 44, 48), the stockpile sensor (96, 98) being connected to the control unit (60), at least one output device (66) for outputting information, the output device (66) being connected to the control unit (60).

The control unit (60) is designed to ascertain, in an operation with a discontinuous reduction of the at least one stockpile (30, 44, 48), on the basis of the at least one detection signal, a piece of reduction time information about an execution time of a future reduction of the stockpile (30, 44, 48), wherein the output device (66) is designed to output the ascertained reduction time information.

The present disclosure relates to a rock processing apparatus (12) for crushing and/or sorting granular mineral material (M) according to size, comprising: a material feeding apparatus (22) including a material buffer (24), at least one working unit of: at least one crushing apparatus (14) and at least one screening apparatus (16, 18), at least one conveyor apparatus (26, 32) for conveying material between two apparatus components, at least one discharge conveyor apparatus (29, 42, 46) for conveying processed material onto a stockpile (30, 44, 48), a control unit (60), at least one stockpile sensor (96, 98) for detecting at least one state and/or a change over time of a size of the stockpile (30, 44, 48), the stockpile sensor (96, 98) being connected to the control unit (60), at least one output device (66) for outputting information, the output device (66) being connected to the control unit (60).

The control unit (60) is designed to ascertain, in an operation with a discontinuous reduction of the at least one stockpile (30, 44, 48), on the basis of the at least one detection signal, a piece of reduction time information about an execution time of a future reduction of the stockpile (30, 44, 48), wherein the output device (66) is designed to output the ascertained reduction time information.

The invention relates to a rock processing apparatus (12) for crushing and/or sorting granular mineral material (M) according to size, the rock processing apparatus (12) comprising as apparatus components: a material feeding apparatus (22) including a material buffer (24), at least one working unit of at least one crushing apparatus (14) and at least one screening apparatus (16, 18), at least one conveyor apparatus (26, 32) for conveying material between two apparatus components, a control unit (60) for controlling apparatus components, at least one sensor (72, 74, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94, 96, 98) for detecting at least one operating parameter, the sensor (72, 74, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94, 96, 98) being connected to the control unit (60) for transmitting a detection signal, at least one output device (66) for outputting information, the output device (66) being connected to the control unit (60) for transmitting information. The control unit (60) is designed to ascertain, in an operation with discontinuous material feed, on the basis of the at least one detection signal, a piece of time information about a future material feed, wherein the output device (66) is designed to output the ascertained time information.

The invention relates to a rock processing apparatus (12) for crushing and/or sorting granular mineral material (M) according to size, the rock processing apparatus (12) comprising as apparatus components: a material feeding apparatus (22) including a material buffer (24), at least one working unit of at least one crushing apparatus (14) and at least one screening apparatus (16, 18), at least one conveyor apparatus (26, 32) for conveying material between two apparatus components, a control unit (60) for controlling apparatus components, at least one sensor (72, 74, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94, 96, 98) for detecting at least one operating parameter, the sensor (72, 74, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94, 96, 98) being connected to the control unit (60) for transmitting a detection signal, at least one output device (66) for outputting information, the output device (66) being connected to the control unit (60) for transmitting information. The control unit (60) is designed to ascertain, in an operation with discontinuous material feed, on the basis of the at least one detection signal, a piece of time information about a future material feed, wherein the output device (66) is designed to output the ascertained time information.

A mill includes a housing with a first end portion, a second end portion, and a lateral area disposed therebetween. The housing includes a raw material inlet, an air inlet, a recirculated material inlet, and a material outlet. An impeller is supported by the housing and includes a shaft disposed along the longitudinal axis of the housing, with a plurality of curved blades. A method for milling includes receiving a material of a first size range, introducing the material to an apparatus via a first inlet and introducing air into the apparatus via a second inlet. The method also includes agitating the material via an impeller, where the agitation reduces at least some of the material to a second size range by the time the material reaches an outlet of the apparatus. The processed material is delivered to subsequent processing operations.

A mill includes a housing with a first end portion, a second end portion, and a lateral area disposed therebetween. The housing includes a raw material inlet, an air inlet, a recirculated material inlet, and a material outlet. An impeller is supported by the housing and includes a shaft disposed along the longitudinal axis of the housing, with a plurality of curved blades. A method for milling includes receiving a material of a first size range, introducing the material to an apparatus via a first inlet and introducing air into the apparatus via a second inlet. The method also includes agitating the material via an impeller, where the agitation reduces at least some of the material to a second size range by the time the material reaches an outlet of the apparatus. The processed material is delivered to subsequent processing operations.