A milling system to comminute a material may generally include a hopper feeder system, a cutting mill, a collection system, each in fluid communication to provide a flow path, and a control system. The control system may include a controller operatively connected to at least one sensor to sense the amount of material, if any, along the flow path, and the speed, if any, of the material along the flow path. The control system, in response to signals received from the at least one sensor, may cause at least one of the hopper feeder, cutting mill, and collection system to increase the speed, decrease the speed, or stop the flow of material along at least a portion of the flow path. Methods of making and using the same are also described.

A shredding device for use in the field of recycling and waste processing has a shredding roller having a basic roller body rotatable about an axis and a feed means for feeding material to the shredding roller, wherein shredding tools are provided on the basic roller body, which are spaced apart from one another and are arranged in rows extending in the longitudinal direction of the basic roller body and extending obliquely with respect to the longitudinal direction. A larger quantity of material is produced at the first end than at the second end of the basic roller body, wherein directly adjacent shredding tools of a row are arranged such that the shredding tool facing the second end is set back in the direction of rotation relative to the shredding tool facing the first end and/or wherein different distances are provided between directly adjacent shredding tools of a row.

A high crushing efficiency medical waste treatment machine includes a crushing cylinder, a crushing knife set provided at the bottom of the crushing cylinder, an intermittent material discharge mechanism set on one side of the crushing knife set, a pressurizing mechanism slidingly set along the axis of the crushing cylinder on the other side of the crushing knife set. The pressurizing mechanism includes a mounting frame slidingly connected to the inner wall of the crushing cylinder, the mounting frame rotatably connected to a material tumbling plate made of magnetic material; when the intermittent material discharging mechanism discharges material, the pressurizing mechanism moving in a direction close to the crushing knife set; when the intermittent material discharges mechanism stops discharging material, the material tumbling plate rotates.

The disclosure extends to apparatuses, methods, and systems, for producing frozen confections and conditioning ice for use in frozen confections. The disclosure further extends to apparatuses, methods, and systems for providing a frozen confection machine that is portable and sized for easy storage as well as a portable frozen convection experience.

A sheet shredding device includes a stacking unit configured to stack paper; a cutting unit configured to cut paper supplied from the stacking unit; a transferring unit configured to transfer paper from the stacking unit to the cutting unit; and removing units configured to remove a binder attached to the paper. The removing units are provided so as to overlap in a transfer direction of the paper along a transfer path of the paper from the stacking unit to the cutting unit.

An apparatus for shredding meat with a hopper and a frame. The hopper has upper and lower rotor assemblies mounted to rotate horizontally within a shredding region. Each rotor assembly is composed of an arbor and fingers arranged in paraxial rows around the arbor. Four rows of pegs extend horizontally into the shredding region. A front row and a back row are each 0.75 inch above and below, respectively, the upper rotor assembly. A back row and a front row are each 0.75 inch above and below, respectively the lower rotor assembly. The hopper is suspended in the frame, which houses the drive mechanism that rotates the rotor assemblies in opposite directions. The upper rotor assembly pushes product dropped into the shredding region into the upper back row to shred the product. The lower rotor assembly pushes the shredded product into the lower front row to further shred the product.

A sheet shredding device includes a stacking unit configured to stack paper; a cutting unit configured to cut paper supplied from the stacking unit; a transferring unit configured to transfer paper from the stacking unit to the cutting unit; and removing units configured to remove a binder attached to the paper. The removing units are provided so as to overlap in a transfer direction of the paper along a transfer path of the paper from the stacking unit to the cutting unit.

The present disclosure provides an apparatus for shredding a pre-defined amount of waste. The apparatus includes a main frame positioned to provide support to the apparatus. Further, the apparatus includes a rotating core to shred, masticate and grind the pre-defined amount of waste. Furthermore, the apparatus includes a body mechanically linked to the main frame through a linkage plate. Moreover, the apparatus includes a hopper mounted vertically on the body. Further, the apparatus includes a first set of mash double row ball bearings symmetrically positioned near the first distal end of the main shaft. In addition, the apparatus includes a second set of mash double row ball bearings symmetrically positioned near the second distal end of the main shaft.

A comminution device for product for comminution such as memory cards or mobile terminal apparatuses has a comminution unit which has two interacting cutting rollers having cutting discs that have cutting edges on the external peripheral edges and form a cutting gap. The cutting discs of the one cutting roller each engage in an annular groove between adjacent cutting discs of the other cutting roller and along the external circumference have a plurality of teeth, each having one tooth tip and one tooth blade. The tooth blades of the one cutting roller during operation upon rotation of the cutting rollers each lie beside the tooth blades of the other cutting roller. The comminution unit yet has an infeed having an infeed track for the product for comminution to the comminution unit, said infeed track terminating above the cutting gap. An elongate piloting device which extends across a length of at least 30% of the length of the cutting rollers, and which in the longitudinal profile thereof slopes downward is disposed therebetween.

A sheet shredding device includes a stacking unit configured to stack paper; a cutting unit configured to cut paper supplied from the stacking unit; a transferring unit configured to transfer paper from the stacking unit to the cutting unit; and removing units configured to remove a binder attached to the paper. The removing units are provided so as to overlap in a transfer direction of the paper along a transfer path of the paper from the stacking unit to the cutting unit.