A method for determining components of a mechanical action torsor at the guiding point of a cutting blade for a cutting machine, the blade being guided in a presser foot of a cutting head of the machine, such that the method includes the positioning of a five-component dynamometer on the presser foot, the dynamometer comprising a plurality of sensors for determining a frontal force, a lateral force, a rolling moment, a pitching moment and a yawing moment of the cutting blade, the establishment of a calibration matrix of the dynamometer, and the determination of the forces in three dimensions to which the cutting blade is subjected, on the basis of the measurements obtained by the sensors and the calibration matrix.

A system for cutting a three-dimensional portion from a foodstuff includes a conveyor for carrying a foodstuff to be portioned, a scanner located adjacent to the conveyor for scanning the foodstuff, a computer coupled to the scanner for receiving scan information to determine one or more cutting paths for the foodstuff, and a cutter for portioning the foodstuff according to the determined cutting path(s). The computer performs generally four steps: (i) receiving scan information from the scanner; (ii) building a three-dimensional map of the foodstuff based on the received scan information; (iii) fitting at least one desired shape, which is stored in the memory of the computer, onto the built three-dimensional map; and (iv) determining one or more cutting paths for portioning the foodstuff to produce one or more portioned foodstuffs corresponding to the at least one desired shape.

This disclosure relates to a device for producing adhesive labels, in particular in a self-service area, for example of a drug store. The device comprises a printer for printing a printing pattern based on user inputs onto an adhesive film, a cutting apparatus for cutting the adhesive film along a specified cutting pattern which can be selected by a user, and a transferring apparatus for automatically transferring the printed adhesive film from the printer to the cutting apparatus, wherein the transferring apparatus comprises a first moving unit for automatically moving the printed adhesive film in a forward direction from the printer to the cutting apparatus. A control apparatus controls the automatic transfer of the printed adhesive film from the printer to the cutting apparatus.

A system 10 may be used to carry out methods for portioning substantially uniform food products 12 into a series of intentionally created unique variations of one or more predetermined reference shapes to resemble naturally occurring food product shapes. The method includes scanning the uniform food product and generating digital data based on the results of the scanning. This data is used to generate a series of unique variations of one or more predetermined reference shapes based on one or more specified physical parameters for the unique variation shapes. Cutting paths are generated for cutting the substantially uniform food product 12 into the digitally generated unique variation shapes 44. A control system 30 controls the operation of a cutting apparatus 22 cut the substantially uniform food product 12 along the generated cutting paths thereby portioning the substantially uniform food product into unique variations of naturally occurring food product shapes.

A method and apparatus for cutting a Non-Crimp Fabric for improving edge stability and reducing stitch retraction is disclosed. The part of the NCF to be cut is treated with a binder and heated to activate the binder and therefore bind the tows and stitches together. By treating only the cutting path the drapability of the wider fabric is maintained. This may be achieved by heating only the part of the NCF to be cut, or applying binder to only the part of the NCF to be cut. The NCF may be compressed and cooled before cutting to improve binding action. A ply cutter may be adapted to carry out the invention by including a heat source and optionally a binder dispenser, compressor and cooler.

A tool set for manufacturing adhesive patches, by processing laminate web. The tool set includes a cutting tool having a cutting face lying in a cutting plane, and an embossing tool having a pressing face lying in a pressing plane, where the cutting plane and the pressing plane are parallel. The embossing tool is configured to press an edge area shape of the adhesive patch to be manufactured, and the cutting tool is configured to cut out the adhesive patch to be manufactured by cutting in edge area or outside the edge area. Furthermore, a method of manufacturing adhesive patches. The method essentially includes a feeding step, a pressing step and cutting step. Lastly an adhesive layering having a backing layer and an adhesive matrix layer. The backing layer having a larger size than the adhesive matrix layer.

An apparatus for adjusting a knife edge offset in a cutter toolhead having a cutter toolhead frame. The apparatus including a knife moveably coupled to the toolhead, an actuated arm moveably attached to the cutter toolhead frame, a computer controller for controlling the movement of the knife and actuated arm, an abrasive sharpener moveably attached to the actuated arm and adapted to contact the knife, and a sensor adapted to determine a distance between the cutter toolhead frame and the actuated arm. The computer controller of the apparatus is further capable of adjusting the movement of the knife and the actuated arm as a function of the distance determined by the sensor.

Among other things, a piece of furniture is formed from three separate precut pieces of flat cardboard. A first one of the pieces has a bottom edge to rest on a floor with the first piece rising vertically from the bottom edge and has at least one slot at an upper edge of the first piece. A second one of the pieces has a bottom edge to rest on the floor with the second piece rising from the bottom edge and having at least one slot at an upper edge of the second piece. A third one of the pieces has a crease across the piece and at least two slots along at least one edge that is parallel to the fold. The piece of furniture is formed by mating the one slot in the first piece with one of the slots of the third piece, folding the third piece of cardboard at the crease, and mating the one slot in the second piece with another one of the slots of the third piece, with the third piece folded along the crease.

A modular comb element for a machine for automatically cutting a mat of sheets of material. The cutting machine includes a plurality of cutting supports. The comb element includes a plate forming a support from which a first and a second row of teeth extend longitudinally. The teeth of the first row alternate with the teeth of the second row, and a free end of the teeth of the first row are farther from a downstream edge of the support than a free end of the teeth of the second row of teeth. A ramp is mounted on the downstream edge of the support and inclined with respect to the latter so as to limit the contact surface between the mat of sheets and the comb element. Air injection means are at a downstream edge of the ramp over an entire width thereof.

An apparatus for adjusting a knife edge offset in a cutter toolhead having a cutter toolhead frame. The apparatus including a knife moveably coupled to the toolhead, an actuated arm moveably attached to the cutter toolhead frame, a computer controller for controlling the movement of the knife and actuated arm, an abrasive sharpener moveably attached to the actuated arm and adapted to contact the knife, and a sensor adapted to determine a distance between the cutter toolhead frame and the actuated arm. The computer controller of the apparatus is further capable of adjusting the movement of the knife and the actuated arm as a function of the distance determined by the sensor.