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 automatic apparel machine used in the manufacture of air suspension springs has two movable tables that move independently from each other on the rail system and where the raw material is placed. A movable winding mandrel moves up-down and forward-backward on the movable table by a servo motor. Automatic cutting bench grippers are positioned on the automatic rubber cutting bench perpendicular to the axis of the movable tables in the section where the movable winding mandrel is located so as to adjust the lengths of the cut raw material. An automatic rubber cutting bench cuts the raw material in the direction of the length and angles required for the finished product saved in the system.

A method for controlling a wall system when creating a separating cut in a workpiece between a first and a second end point is disclosed. The wall saw system includes a wall saw having a saw head, a pivotable saw arm, a saw blade and a blade guard. The separating cut is carried out in a plurality of main cuts. The pivoting movement of the saw arm in a main cutting angle is carried out in at least two steps with at least one intermediate angle, where a free cut of the saw blade is carried out in the respective intermediate angle between the pivoting movements of the saw arm.

A method for separating a dry fiber composite fabric, to a use of a separating device for separating a dry fiber composite fabric and to a wind power installation. A method for separating a dry fiber composite fabric with a multiplicity of fabric layers arranged one on top of the other, comprising providing the dry fiber composite fabric and a separating device, separating the dry fiber composite fabric with the separating device, which comprises a separating element with a toothing, wherein the toothing has a wave profile with a plurality of teeth, wherein the separating is performed by a substantially translational movement of the toothing on and/or in the dry fiber composite fabric with a stroke that is greater than a tooth tip spacing of two adjacent teeth of the toothing.

A belt cutter for cutting an end portion of a belt having regularly spaced ridges on one side. The belt cutter has a main body with a slot that receives the end portion of the belt. A blade extends from the main body into the slot. A deck having one or more grooves bounds one end of the slot. The grooves receive the belt's ridges and register the belt relative to the blade. A handle is provided to pull the cutter across the width of the belt in a direction parallel to the ridges for the blade to sever the end portion from the belt and form a new butt end parallel to the ridges.

An apparatus for the comminution of a botanical feedstock includes a vessel, a screen positioned in the vessel above a first feedstock outlet and spaced from the top of the vessel, and a blade rotatably mounted above and generally parallel to the screen. The blade has a leading side, a trailing side, and a radial blade length. At least a portion of the leading side has a cutting edge and at least a portion of the trailing side has a downwardly extending trailing portion. The downwardly extending trailing portion has a lower edge having a plurality of discontinuities along a radial length of the trailing portion. The cutting edge is spaced from the upper surface of the screen by a first distance and a lowermost portion of the lower edge is spaced from the upper surface of the screen by a second distance.

The invention described herein provides a method and material for creating tools surfaces from a granulated material comprised of a particulate and binding material in compositions and ratios described below. The granulated material may be formed using a number of methods and provides for the efficient repair of worn or damaged areas. Additionally, the granulated material may be used by placing it on the surface of a tooling encasement, or may be used by itself without any further structural support. The granulated material may also be used for both forming and trimming/machining of the part to desired tolerances.

Disclosed is an apparatus and a method for converting a sheet into a continuous strip, wherein the sheet has a sequence of cuts extending in a cutting direction transversely across the sheet with respect to the longitudinal direction to form a plurality of interconnected sheet sections, wherein the continuous strip has zig-zag sections, wherein the sheet sections are arranged to be pulled apart in a feeding direction to form the zig-zag sections, wherein the apparatus includes a separator device with a retaining device for retaining an upstream sheet section with respect to a consecutive downstream sheet section in the feeding direction and a sensor device for detecting the pulling apart of the downstream sheet section from the upstream sheet section.

A tube jacket slitting tool including first and second opposite tool portions, each tool portion including a common hinged portion at a first end for engaging the opposite tool portion. The first and second opposite tool portions are foldable about the hinged portion between an open position and a closed position. The tool includes at least one concave surface extending across the width of forming an opening, when the first and second opposite tool portions are in the closed position, through which a tube may be slid. The tool includes a blade extending inward into the opening for slitting a depth of the tube jacket as it is moved with respect to the tool. The tool includes a hinge pivot axis in the hinged portion extending in a direction substantially in the direction of the width and at an acute angle to either the plane or to the longitudinal axis of the tube or cable in the opening formed by the at least one concave surface. When the first and second opposite tool portions are folded to the closed position with the tube or cable in the opening, movement of the tube or cable with respect to the tool causes the first and second opposite tool portions to be urged toward each other.

A method for removing outer layer of rollstock includes: first step of cutting rollstock's outermost circumferential film in a first cut portion, the rollstock formed by a film sheet rolled from base end to tip end and the tip end temporarily fixed to an outer circumferential surface; second step of cutting the film in a second cut portion closer to the base end than the first cut portion, a length from the tip end to the second cut portion being equal to or more than one round of the rollstock's outermost circumference; and step of discarding a first cut-film piece from the first cut portion to the tip end and a second cut-film piece from the first cut portion to the second cut portion by drawing the first and second pieces with a drawing device while driving an unwinding roller mounted with a hollow portion of the rollstock to rotate.