The present disclosure relates to a cutting apparatus including a jig having a seating jig on which a machining target is seated and a fixing jig matched with the seating jig to fix the machining target, a cutter configured to cut the machining target along reference scheduled cutting lines, a first carrier reciprocating to allow the fixing jig to match with the seating jig or to be spaced apart from the seating jig, and a cooler configured to cool the machining target down to a reference temperature.

The present disclosure relates to a cutting apparatus including a jig having a seating jig on which a machining target is seated and a fixing jig matched with the seating jig to fix the machining target, a cutter configured to cut the machining target along reference scheduled cutting lines, a first carrier reciprocating to allow the fixing jig to match with the seating jig or to be spaced apart from the seating jig, and a cooler configured to cool the machining target down to a reference temperature.

Punch jaws are provided and are configured to punch holes and/or recesses in parts made of sheet metal. The punch jaws include first and second jaws pivotally connected to each other around a pivoting axis to pivot in a pivoting plane. A work region is formed by a punch ram on the first pivoting jaw and a punch opening on the second pivoting jaw. The punch ram carries a punch sleeve having a punch edge on its circumference. The punch sleeve moves in a side view, in which the pivoting axis is punctiform, along a circular line, a center point of which is formed by the pivoting axis, during its pivoting motion. The punch sleeve is introduced into the punch opening in a side view initially penetrates the punch opening with a front region the punch edge referred to the pivoting direction. The front region is in this side view formed on the side of the pivoting axis of the circular line with respect to a pivoting circle, along which the punch sleeve moves.

A bale splitter attachment for use with a bale including a frame comprising a frame base and a cutting arm rotatably connected to the frame base at a pivot, the rotatable cutting arm comprising an elongate blade, the frame base and the rotatable cutting arm together defining a bay to receive the bale; a powered actuation device comprising a first end connected to the frame base and a second end connected to the rotatable cutting arm at a connection point, the powered actuation device arranged to apply cutting force in a pulling arrangement; and a hook apparatus connected to the frame, the hook apparatus comprising a plurality of hooks.

A punching/perforating machine (10) for generating a punching/perforating pattern in a supplied material unit/web (M), comprising a punching tool (12) having a plurality of punches/perforating needles (16) which are arranged in a predetermined grid in a longitudinal direction (L) and which are movable via a pressure beam (36) which is operatively connected via a control device (30) to a drive unit (18) for generating a punching/perforating stroke (H) transversely to the longitudinal direction (L), and comprising a control block (14) for actuating/activating/deactivating the punches/perforating needles (16) by the control device (30) during the punching/perforating process, characterized in that the punching tool (12) and/or the control block (14) is/are each designed as a separate subassembly which is/are each arranged within the punching/perforating machine (10) so as to be removably fastenable separately as a unit.

A wishbone separator device for separating a wishbone from a poultry carcass includes a primary wishbone cutter including a front cutter portion including a central front apex, a left and a right front cutting edge, which diverge from said central front apex, a wishbone limb cutter portion, including a left and a right limb cutting edge. An intersection point of an extension of the left limb cutting edge and an extension of the right limb cutting edge is arranged on a center line parallel to the cutting direction through the central front apex. The left and right front cutting edge are arranged forward of the left and right limb cutting edge, respectively as seen in the cutting direction and outward relative to said imaginary extension line from the left and right limb cutting edge, respectively.

A crumpling apparatus including a frame, a funnel coupled to the frame, the funnel having a first opening and a second opening, the first opening being larger than the second opening, at least one mount located proximate to the first opening, the mount being configured to support a roll of packing material, and a drive device coupled to the frame proximate to the second opening of the funnel. The drive device pulls packing material through the funnel. The funnel further includes at least one sidewall defining a cross section, the cross section being larger near the first opening and smaller near the second opening. The at least one sidewall crumples the packing material as is moves from the first opening to the second opening.

The subject of the invention is a device with a reciprocating motion mechanism enabling the conversion of its moment of inertia into rotational speed or rotational speed into moment of inertia, characterised in that on the rotating shaft (11) there is a releasable mechanism (2) of reciprocating motion in two perpendicular directions, including two circular discs (3 and 4), tiled in parallel, with profiled notches (7 and 8) on their surfaces, whereby both discs are connected with each other by bolts (10) and have a releasable connection with the rotating shaft (11) and between each pair of profiled notches (7 and 8) of both discs there are upper connectors (14) of the upper ends of each pair of opposite moving arms (15), having an articulated connection with each other, of which the other ends also have an articulated connection with the two ring connectors (17) of two hydraulic actuators (18), which have a releasable connection with this shaft, whereby all upper connectors are equipped with functional components (22) placed on them and having a releasable connection with them.

The present disclosure is directed, in part, to a cutting apparatus comprising a drive shaft having a longitudinal axis, a drum configured to orbit the longitudinal axis when driven by the drive shaft, a first actuator, and a cutting assembly joined to the drum and configured to orbit the longitudinal axis with the drum. The cutting assembly comprises a second actuator operably engaged with a portion of the cutting assembly, and a cutting device driven by the second actuator. The second actuator is configured to rotate the cutting device at least 1,500 revolutions per minute during cutting of an article. The first actuator is operably engaged with a portion of the cutting assembly and is configured to reciprocate the cutting device in directions substantially parallel to the longitudinal axis as the cutting assembly orbits the longitudinal axis.

The present disclosure is directed, in part, to a cutting apparatus comprising a drive shaft having a longitudinal axis, a drum configured to orbit the longitudinal axis when driven by the drive shaft, a first actuator, and a cutting assembly joined to the drum and configured to orbit the longitudinal axis with the drum. The cutting assembly comprises a second actuator operably engaged with a portion of the cutting assembly, and a cutting device driven by the second actuator. The second actuator is configured to rotate the cutting device at least 1,500 revolutions per minute during cutting of an article. The first actuator is operably engaged with a portion of the cutting assembly and is configured to reciprocate the cutting device in directions substantially parallel to the longitudinal axis as the cutting assembly orbits the longitudinal axis.