A shredding arrangement for shredding material to be shredded, such as household waste, industrial waste, plastics, wood, paper and/or biomass, comprising a shredding device, which is arranged on a machine frame, and a supply device having at least one infeed roller drivable to rotate using an associated drive device for supplying the material to be shredded to the shredding device. The shredding arrangement is distinguished in that the infeed roller is configured to accommodate the associated drive device, and the drive device has an electric motor, gearing, and a flexible coupling.

A method and apparatus for grinding a particulate material is disclosed. The method may include providing a system including a roller mill apparatus and a hammermill apparatus, operating the roller mill apparatus and the hammermill apparatus, adjusting a feed rate of particulate material to the roller mill apparatus until power consumption by operation of the roller mill apparatus achieves a target power consumption for the roller mill apparatus, and adjusting a gap between mill rolls of the roller mill apparatus until power consumption by operation of the hammermill apparatus achieves a target power consumption for the hammermill apparatus. The system may include roller and hammermill apparatus with sensing and controlling apparatus configured to operate the roller and hammermill apparatus according to the methods disclosed.

A shredding rotor rotatably coupled to a support frame is configured to remove plant leaves from plant stems fed into an aperture in the support frame. The shredding rotor includes many flexible shredding strands attached to a rotor axle. The shredding strands are sufficiently flexible to strip leaves from all sides of the stems without breaking the stems into pieces. Shredding strands are spaced far enough apart from one another to prevent plant material from becoming lodged between the strands. A destemming and shredding apparatus including two shredding rotors separates an incoming stream of plant materials into an output stream of shredded leaves and another output stream of essentially intact stems. A shredding apparatus having no more than one shredding rotor receives destemmed leaves at an inlet aperture and outputs shredded leaf fragments.

A mobile shredder for metal materials comprising a feeding device, a shredding mill with a plurality of hammers associated with a rotor, and a removal device and an actuating device are provided, wherein: the feeding device comprises a hopper and a shredder with a first toothed roller and a second toothed roller that rotates in the opposite direction to that of the first roller and at a greater speed. The actuating device comprises a single motor. A control system is also provided with a plurality of hydraulic pumps for moving the rollers and a hydraulic clutch with a variable flow for moving the rotor, the plurality of hydraulic pumps and the hydraulic clutch being joined to the motor. The control system is configured to modify the rotational speed of the toothed rollers based on the motor load associated with the shredding mill; and the devices are mounted on a frame.

A material reduction machine includes a prime mover driving a cutting mechanism. An infeed portion engages a piece of material to feed it forward to the cutting mechanism. A sensor senses a machine load parameter via the cutting mechanism and/or prime mover and reports a signal to a controller operatively coupled to the infeed portion to control sequential cutting cycles on the piece of material. The controller utilizes a stored first stop threshold value for stopping a first cutting cycle and continues monitoring the signal as machine load increases momentarily after reaching the first stop threshold. The controller determines and adopts a second stop threshold value based on observation of the machine load parameter indicative of maximum load during the continued monitoring following attainment of the first stop threshold, and further being based on a stored correction factor. The second stop threshold value is used for a second cutting cycle.

A shredding rotor rotatably coupled to a support frame is configured to remove plant leaves from plant stems fed into an aperture in the support frame. The shredding rotor includes many flexible shredding strands attached to a rotor axle. The shredding strands are sufficiently flexible to strip leaves from all sides of the stems without breaking the stems into pieces. Shredding strands are spaced far enough apart from one another to prevent plant material from becoming lodged between the strands. A destemming and shredding apparatus including two shredding rotors separates an incoming stream of plant materials into an output stream of shredded leaves and another output stream of essentially intact stems. A shredding apparatus having no more than one shredding rotor receives destemmed leaves at an inlet aperture and outputs shredded leaf fragments.

A method and apparatus for grinding a particulate material is disclosed. The method may include providing a system including a roller mill apparatus and a hammermill apparatus, operating the roller mill apparatus and the hammermill apparatus, adjusting a feed rate of particulate material to the roller mill apparatus until power consumption by operation of the roller mill apparatus achieves a target power consumption for the roller mill apparatus, and adjusting a gap between mill rolls of the roller mill apparatus until power consumption by operation of the hammermill apparatus achieves a target power consumption for the hammermill apparatus. The system may include roller and hammermill apparatus with sensing and controlling apparatus configured to operate the roller and hammermill apparatus according to the methods disclosed.

A bi-directional rotation feed roller for tree processing devices preferably includes a drive wheel, a drive disc, a plurality of reinforcement rings and a plurality of reinforcement plates. The drive wheel includes a drive cylinder and a plurality of media engagement thumb nails attached to the drive cylinder. The plurality of media engagement thumb nails are preferably arranged in a plurality of rows. A side wall of the plurality of media engagement thumb nails are preferably angularly offset from a lengthwise axis of the drive plate. The drive disc is attached to the drive wheel in substantially a middle of a with thereof. The plurality of reinforcement rings are attached to an inner perimeter of the drive wheel. The plurality of reinforcement plates are attached to an inside perimeter of the drive wheel between the drive disc and one end of the drive wheel.

A mobile shredder for metal materials comprising a feeding device, a shredding mill with a plurality of hammers associated with a rotor, and a removal device and an actuating device are provided, wherein: the feeding device comprises a hopper and a shredder with a first toothed roller and a second toothed roller that rotates in the opposite direction to that of the first roller and at a greater speed. The actuating device comprises a single motor. A control system is also provided with a plurality of hydraulic pumps for moving the rollers and a hydraulic clutch with a variable flow for moving the rotor, the plurality of hydraulic pumps and the hydraulic clutch being joined to the motor. The control system is configured to modify the rotational speed of the toothed rollers based on the motor load associated with the shredding mill; and the devices are mounted on a frame.

A machine for comminuting laminated glass members, such as automotive windshields and architectural glass, comprises infeed rollers feeding the member over a breaker bar, where an impactor assembly breaks the glass into small fragments and the plastic disposed between layers of the glass member into larger fragments, so that a size-based separation may be employed. The speed of the infeed rollers is controlled responsive to the thickness of the glass member.