A manufacturing frame comprises one or more alignment tabs. Each alignment tab comprises an alignment element. The alignment element interacts with a corresponding alignment element at a manufacturing station to identify to the manufacturing station the position and orientation of the frame. The frame supports a flexible material in a known position and orientation relative to the frame, allowing the manufacturing station to infer the position and orientation of the flexible material on the frame from the interaction of the alignment elements on the frame and the manufacturing station.

The present invention comprises a surface on which to place the insulation that is almost flush with the floor minimizing vertical displacement of the fiberglass. A hinged design allows a top member to compress the insulation. A machined slit provides a location for a cutting implement to be inserted and the insulation cut. Extending past the machined slit, the top portion provides a location where the user can rest his knee. Thus, an efficient cutting angle can be easily achieved and if needed more force can be used to further compress the insulation. A flange positioned at the end of the cutting slit protects the user's knee from the blade as well as any airborne insulation particles. It is also smaller than most other proposed solutions and so more easily stored and transported by a home owner or a professional from job site to job site.

Metal foil base material placed on lower blade is first restricted under pressure by lower blade and pad and then cut by a shearing action based on an engagement of lower blade side cutting edge and upper blade side cutting edge. Resin face sheets are fixed to the top surface of lower blade and the pressing surface of pad, the face sheets having a larger friction coefficient than that of these surfaces. By frictional forces imparted by face sheets, metal foil base material is prevented from being dragged and moved by the pressing force of the upper blade prior to cutting. Consequently, the occurrence of burr, roll-up, and so forth is eliminated thereby ensuring a good cutting quality.

A die apparatus includes an upper die and a lower die used for blanking a thin plate, a stripper which is formed on the upper die and is arranged between the upper die and the lower die, and a punch which blanks a part of the thin plate. The stripper or the lower die is provided with a protruding part which reduces flexure of the stripper occurring when a test punching is performed by actuating the punch without the thin plate.

An apparatus and a method for trimming a module are disclosed. In and embodiment the method includes fixing a rear transverse side of module, guiding the rear cutting head along the rear transverse side thereby cutting off a rear overlapping portion of the overlapping film and releasing the rear transverse. The method further includes moving the module into a region of two longitudinal cutting devices, fixing the module on both longitudinal sides, guiding longitudinal cutting heads along the longitudinal sides thereby cutting off longitudinally overlapping film portions on both longitudinal sides, and releasing the longitudinal sides of the module. The method furthermore includes moving the module into a region of the front cutting device, fixing a front transverse side of the module, guiding a front cutting head along the front transverse side thereby cutting off a front overlapping portion of the overlapping film.

A pressure plate 12 has an upper surface 12a and a lower surface 12b. A blade die unit 16 for machining a workpiece by applying a pressure to a principal surface of the workpiece is arranged on the lower surface 12b. A face plate 24 has an upper surface 24a and a lower surface 24b, and is arranged such that the upper surface 24a faces the lower surface 12b with the blade die unit 16 interposed therebetween. An upper pressure roller 20 applies a pressure directed from the upper surface 12a side toward the lower surface 12b side of the pressure plate 12 to a portion of the upper surface 12a. A lower pressure roller 22 applies a pressure directed from the lower surface 24b side toward the upper surface 24a side of the face plate 24 to a portion of the lower surface 24b. A motor changes a portion that the upper pressure roller 20 pressurizes, and also, a portion that the lower pressure roller 22 pressurizes is changed such that the portion that the lower pressure roller 22 pressurizes is aligned with the portion that the upper pressure roller 20 pressurizes when viewed from a direction crossing the lower surface 24b.

A safety cover is provided for a cutter head or punch head of the type used in making holes and slits in plastic film, so that the punch head may be transported, stored, installed or removed without exposing the sharp cutting blades to an operator's hands. The safety cover may be of a box-like construction with a generally keyhole-shaped opening formed on its upper wall. The keyhole opening has a wider portion open to the distal or machine side, a narrow slot portion, and a round portion that accommodates the round punch blade of the punch head.

There is provided a cutting apparatus with which, even if a plate body to be cut is warped, it is easy to obtain a cut product of the same quality as when a plate body which is not warped is cut. The cutting apparatus is provided on a conveyor for conveying a plate body and cuts the plate body being conveyed by the conveyor. The cutting apparatus includes a cutting blade that cuts the plate body in a direction parallel to a direction of conveying the plate body, and a pressing unit including, at a side position of the cutting blade, a pressing plate provided to be movable between a pressing position where the pressing plate presses the plate body and a retracted position where the pressing plate is retracted from the pressing position. The cutting apparatus cuts the plate body with the cutting blade while pressing the plate body with the pressing plate.

A cutter module, the cutter module comprising a blade and a sacrificial face. The blade and the sacrificial face face each other along a cutting axis, the blade and the sacrificial face being arranged on either side of a plane of passage for a tape for cutting, and at a distance therefrom, the cutter assembly and the sacrificial face being movable in translation along the cutting axis and respectively in two opposite cutting directions in order to enter into contact in the plane of passage during a stage of cutting, the cutter assembly and the sacrificial face being movable in translation along the cutting axis and respectively in two opposite return directions in order to move away from the plane of passage after the cutting operation.

A cutting machine having a first wheel pair and an opposite second wheel pair, an first vertical wheel, an opposite second vertical wheel, a first drive wheel, a second opposite drive wheel, and a single cutting blade, the first vertical and the second vertical wheels being configured to travel simultaneously and in a same horizontal direction, the first and the second wheel pairs being configured to travel simultaneously and in a same vertical direction, the first wheel pair having a first slanted wheel and the second wheel pair having a second slanted wheel, the single cutting blade being routed over all wheels such that at any moment during a travel of the single cutting blade while driven by the first and second drive wheels, a vertical blade portion extends between and can travel horizontally with the first vertical wheel and the second vertical wheel during vertical cutting and a horizontal blade portion extends between and can travel vertically with the first and second wheel pairs during horizontal cutting, wherein the slant of the first slanted wheel and the slant of the second slanted wheel prevents intersection of the horizontal blade portion and the vertical blade portion.