Method of manufacturing a substrate with a cut thermal film comprises obtaining an input digital image of a design to be transferred to the substrate; storing the input image in memory; rendering design elements of the design as a single output image; based upon a bleed size value, a maximum number of negative areas, a maximum number of positive areas, and attribute values: resizing the image to include a border for bleed; filling transparent areas of the image with the substrate attribute values; creating a cutting path; creating a mask image; inverting the mask image; modifying the mask image to adjust fill areas around details, to limit negative areas to be less than the maximum number of negative areas, and to limit positive areas to be less than the maximum number of positive areas; creating cutting path data in memory as a vector path outlining the mask image.

An apparatus for cable stripping and preparation. The apparatus includes a first drive mechanism and a second drive mechanism which is spaced from and in line with the first drive mechanism. Blade control arms with insulation cutting blades are movably mounted relative to the first drive mechanism and the second drive mechanism. The first drive mechanism moves the insulation cutting blades from a first position to a second position. The second drive mechanism rotates the insulation cutting blades when the insulation cutting blades are in the second position.

Systems and methods can include scoring a backing material of a luxury vinyl plank (“LVP”) to allow an otherwise rigid plank to flex within a scoring section. The scoring section can include multiple parallel grooves that reach a depth that partially scores the backing material. The LVP can be positioned on a stair tread such that the scoring section wraps around an edge of the tread nose. The LVP can be clamped on top and bottom of the stair tread nose to allow adhesives to take effect. A scoring device can include a blade assembly with multiple blades to create multiple scored grooves in one pass.

The slitter-scorer machine includes a suction unit for removing trims cut by the cutting blades. The suction unit in turn includes a first pair of suction nozzles associated with a first set of cutting tools, and a second pair of suction nozzles, associated with a second set of cutting tools. The first pair of suction nozzles is adapted to suck trims generated by the first set of cutting tools and the second pair of suction nozzles is adapted to suck trims generated by the second set of cutting tools.

The slitter-scorer machine includes a suction unit for removing trims cut by the cutting blades. The suction unit in turn includes a first pair of suction nozzles associated with a first set of cutting tools, and a second pair of suction nozzles, associated with a second set of cutting tools. The first pair of suction nozzles is adapted to suck trims generated by the first set of cutting tools and the second pair of suction nozzles is adapted to suck trims generated by the second set of cutting tools.

A rule to be inserted into a die-board that is pressed onto a plate matter, the rule including: a multi-edge cutting blade having a cutting blade edge, the cutting blade edge divided into multiple sections with multiple spacings between the multiple sections; and a plurality of connecting pieces configured to fit into the multiple spacings and to provide support for the multiple sections of the cutting blade edge when the rule is pressed onto the plate matter.

A rule to be inserted into a die-board that is pressed onto a plate matter, the rule including: a multi-edge cutting blade having a cutting blade edge, the cutting blade edge divided into multiple sections with multiple spacings between the multiple sections; and a plurality of connecting pieces configured to fit into the multiple spacings and to provide support for the multiple sections of the cutting blade edge when the rule is pressed onto the plate matter.

This invention relates to a container pre-cutting system, applicable to multilayer and/or single-layer (3) container forming machines (4) that provide intermittent advances to the multi-layer and/or single-layer material with a length according to an advance step of the machine; said system being suitable for making a lower pre-cut (32) on the lower surface and an upper pre-cut (32) on the upper surface of the multilayer and/or single-layer material (3). The system comprises a lower pre-cutting device (1) and an upper pre-cutting device (2), provided with respective lower (11) and upper (21) blades having relative vertical movement with respect to the multilayer and/or single-layer material (3); and wherein the lower pre-cutting device (1) and the upper pre-cutting device (2) are separated in the advance direction of the multilayer and/or single-layer material (3) at a length approximately equal to a multiple of the advance step of the machine.

A slitter-scorer apparatus comprises: a corrugated paperboard-processing tool comprising a plurality of slitters and a plurality of scorers; a width directional movement mechanism and an up-down directional movement mechanism configured to move the corrugated paperboard-processing tool in a width direction and an up-down direction, respectively; and a control device configured to control the two movement mechanisms. The control device is configured to: set a target setup time for moving the corrugated paperboard-processing tool for an order change, based on a cutter cutoff length of a portion of a corrugated paperboard to be cut off by a cutter during the order change, and a paperboard feed speed; set a target acceleration/deceleration so as to allow the movement of the corrugated paperboard-processing tool to be completed in the target setup time; and control the movement mechanisms to move the corrugated paperboard-processing tool with the target acceleration/deceleration.

A feed and cutting unit for selectively cutting and dispensing individual weight material segments from a common strip of backing material is disclosed. The feed and cutting unit comprises a feed assembly, a sensor and a cutter member. The feed assembly includes a drive roller and a follower roller that frictionally engages first and second surfaces of a strip of weight material to selectively move the strip of weight material to a cutter member. The sensor is connected to a controller and measures an amount of segmented weight material on the backing material as the strip of weight material moves past the sensor. The cutter member is actuated to separate weight material segments from the backing material by cutting at least a portion of the backing material in a gap disposed between adjacent segments. Weight apply devices that receive the segments for application to an imbalanced member, are also disclosed.