An automated sheet material cutting and handling system for producing sheet material articles having a planar shape comprises a cutting surface with a suction hold-down, a suction lifting apparatus, a robotic actuation system for moving the suction lifting apparatus, and a control system for controlling the operation of the cutting device and the suction lifting apparatus. The suction lifting apparatus comprises a suction lifting head including a suction lifting portion comprising a suction lifting plate for applying suction through a plurality of holes in the plate. The control system is configured to operate the cutting device to make at least one cut through the planiform blanks. A resiliently compressible template is adhered to the suction lifting plate. Also, methods.

According to some embodiments, an abrasive disc punch comprises: a bottom plate; a top plate parallel to the bottom plate and coupled to the bottom plate via guide pins; springs coupled between the bottom plate and the top plate; a punch coupled to the top plate; and a cutting block coupled to the bottom plate. The cutting block comprises a cutting edge that is aligned coaxially with the punch. The abrasive disc punch further comprises a trim cushion coupled to the cutting block via a spring. The trim cushion is positioned within the cutting edge of the cutting block and comprises a flat horizontal top portion. In an open position the two or more springs separate the top plate and punch from the bottom plate and the cutting block, and the flat horizontal top portion of the trim cushion is positioned above the cutting edge of the cutting block.

A device for the longitudinal cutting of a wide food band of a soft food mass which is moved in a conveyance direction on a conveyor belt, wherein a cutting cylinder rotating in the conveyance direction is provided on which is mounted a number of cutting disks disposed coaxially to the rotational axis A for cutting into the food band with the edge thereof, wherein a comb having a plurality of comb tines is provided, which in an operating position engage into the intermediate spaces between the cutting disks during the longitudinal cutting in order to hold down the cut strips on the conveyor belt, wherein the comb is held on a comb holder so as to be pivotable about the rotational axis, wherein the comb holder can be transferred from the operating position and a maintenance position by pivoting about the rotational axis.

A food product cutting system can include a food product carrier for carrying food product circumferentially around an axis of rotation, where the food product carrier includes food cutters each having a knife and a corresponding pusher. Each knife is for receiving and engaging with food product, and each pusher is slidably coupled with a knife and movable for pushing food product out of engagement with the food cutter. The food product cutting system can also include a track oriented generally circularly with respect to the food product carrier. The track can be arranged at varying radial distances from the axis of rotation and coupled with followers. Each follower can be connected to a corresponding pusher. In operation, food product moved into the knife of a food cutter and carried around the axis of rotation is incrementally pushed out of engagement with the food cutter by the corresponding pusher.

A method for manufacturing a material strand assembly for a vehicle. The method includes: extruding strand material in an extruder so that an extruded material strand is produced; monitoring the quality of the extruded material strand so as to detect faults of the extruded material strand; in case of a detection of a fault, cutting out the fault from the material strand and re-joining cutting end faces, thus producing a joint, so that a faultless material strand is produced. The cutting-out step is conducted such that any two adjacent joints are at a minimum joint distance from each other. The faultless material strand is stored in a storage unit so as to produce the material strand assembly. The extruded material strand is passed through a first strand accumulator between the extruder and the cutting arrangement and through a second strand accumulator between the cutting arrangement and the storage unit.

An automatic sampling system (100) and an automated sampling method take samples of a rubber strip after shaping and while scrolling in a predetermined direction.

Perforation tool for a device for the manufacturing by machine of a dunnage material which is to be formed of a single layer or multi-layer paper web whereby the perforation tool is configured for introducing a perforation into the dunnage material and comprises: at least one perforation nose, at least one perforation reception wherein the at least one perforation nose and the at least one perforation reception are associated with each other such that, for perforating, the at least one perforation nose can retract and extend with respect to the at least one perforation reception, and at least one stripper which is associated with the at least one perforation nose and/or the at least one perforation reception such that, when disengaging, perforated dunnage material is removed from the at least one perforation nose and/or from the at least one perforation reception.

Disclosed is a method for making a window in a thin plastic accommodating layer by inserting an insert from a thin plastic supply layer, the method including the following steps: cutting an opening in the accommodating layer according to the shape of the future window, punching the supply layer to produce an insert and inserting the insert into the opening, wherein the punching and at least one first phase of insertion are carried out in a single movement of a single punching and inserting tool, in a direction going from the supply layer to the accommodating layer.

The invention relates to a food comminution device having a base part, which has a receptacle for a cutting insert with at least one cutting blade, and having an actuation part, which is articulatedly connected to the base part and which, for pushing through food items for comminution, can be pivoted towards the cutting insert. The food comminution device is characterized in that a cutting insert with mutually spatially separate cutting regions, said cutting regions being separated from one another by an intermediate web, or a cutting insert with an uninterrupted cutting blade arrangement, in particular a cutting blade arrangement which is not interrupted by an intermediate web, or multiple separate cutting inserts simultaneously, in particular cutting inserts each with a separate frame, can be selectively fitted into the receptacle and used.

A device for the longitudinal cutting of a wide food band of a soft food mass which is moved in a conveyance direction on a conveyor belt, wherein a cutting cylinder rotating in the conveyance direction is provided on which is mounted a number of cutting disks disposed coaxially to the rotational axis A for cutting into the food band with the edge thereof, wherein a comb having a plurality of comb tines is provided, which in an operating position engage into the intermediate spaces between the cutting disks during the longitudinal cutting in order to hold down the cut strips on the conveyor belt, wherein the comb is held on a comb holder so as to be pivotable about the rotational axis, wherein the comb holder can be transferred from the operating position and a maintenance position by pivoting about the rotational axis.