A machine for forming packing templates includes a infeed mechanism that can feed multiple feeds of sheet material into the machine without repositioning the infeed mechanism or forming creases or bends in the sheet material. The machine also includes a separation and cutting systems with one or more cutting tables and biased knives that cut the sheet material packaging templates. The machine also includes creasing roller(s) that forms creases in the sheet material. The machine also includes a system for reducing or eliminating the impact of irregularities in the sheet material.

A trim cover perforating apparatus and a method of perforating a trim cover. The trim cover perforating apparatus may have a plurality of punches that may be received in punch openings of a punch lifting plate. The punch lifting plate may receive a pattern plate that may have a set of pattern plate holes. Each punch that is aligned with a pattern plate hole may not perforate the trim cover. Each punch that is not aligned with a pattern plate hole perforates the trim cover.

A circle cutting system with a blade coupled to a body that rotates and is pressed into sheet material for the separation of circular portions from a larger sheet of the material, such as roofing material.

A guide carriage for a cutting device for cutting a cylindrical workpiece. The carriage has a tool carrier for the cutting device and a tensioning member which wraps around the workpiece and is guided over a tensioning element. A tensioning device disposed on a chassis acts on the tensioning element. The tensioning device exerts a tensioning force on the tensioning member via the tensioning element. The tensioning member, a belt, is secured non-displaceably on the periphery of the workpiece. The chassis is movable in the peripheral direction of the workpiece along the belt. The belt bears a connecting element, by which the belt is closed. The connecting element is not fully traversable by the guide carriage. In order to be able to execute a full cut over the periphery, the tool carrier enables the cutting device to be mounted in a first and alternatively a second working position.

A cutting head for cutting a film wrapping from palletized stacks of products, having a cutting element for cutting through the film, where the cutting element is disposed between at least two opposing contact elements and is set back with respect to the film contact plane formed by the opposing contact elements in order to form a cutting recess, and having a vacuum unit to suck the region of the film wrapping to be cut locally into the cutting recess for interaction with the cutting element. A device having a corresponding cutting head further includes a pallet place for the arrangement of the pallet correspondingly wrapped with film, where the cutting head is disposed on a support arm that is configured to travel such that the cutting head remains in contact with the film via the two opposing contact elements during cutting.

A method and apparatus are provided for die cutting label stock comprising a facestock, an adhesive and optionally a liner to form labels where a liner of the linered pressure sensitive adhesive label stock may be a thin or ultrathin liner.

The present disclosure provides an optical fiber cutting knife, including: a cutting tool post, a head cover, a fiber placing groove, a blade guide rail, and a blade fixed on the blade guide rail, at least a first magnet of a first polarity installed in the blade guide rail, and at least a second magnet of a first polarity and at least a third magnet of a second polarity installed on the cutting tool post, the head cover being installed on the cutting tool post, the fiber placing groove being installed inside the cutting tool post, and the blade guide rail being placed on an outside of the cutting tool post. The first magnet moves from a location corresponding to a second magnet to a location corresponding to a third magnet to form an automatic blade-retracting mechanism to automatically reset a position of the blade guide rail.

The film dispenser includes a folding box (51) having an outer guide wall (55) and an inner guide wall (65) which both have a guide gap (53, 63), and a cutting device (1) which is configured to be displaced in a cutting direction (S) in a manner guided in the two guide gaps (53, 63) at the two guide walls (55, 65).

A tool including a tool surface and further including coding indicia linked, at least indirectly, with the surface of the tool, the coding indicia capable of being detected by a sensor, the coding indicia functioning as a pointer to information relating to said tool or its use.

A display panel is provided. The display panel includes a substrate and a plurality of cutting rulers. The substrate includes a non-display area and a border surrounding the non-display area. The border includes at least one curved edge and at least one straight edge. The cutting rulers are disposed adjacent to the border. The numbers of the cutting rulers are determined according to the accuracy requirements and the shape of the display panel to meet various needs and improve productivity and product yield.