A glass plate bend-breaking machine includes a flexible endless belt on which a glass plate is placed; a supporting mechanism for supporting the glass plate through the endless belt; a glass plate receiving device disposed below the endless belt and having a glass plate receiving surface for receiving the glass plate through the endless belt and a recess surrounded by the glass plate receiving surface; a moving device for moving the glass plate receiving surface of the glass plate receiving device; a press-breaking device disposed above the endless belt and having a pressing surface for press-breaking the glass plate; and a moving device for moving the pressing surface of the press-breaking device.

A method for cutting a metallic film is disclosed. The method includes: feeding the metallic film between a scoring blade and an anvil at a first speed; feeding a first protective film between the metallic film and the scoring blade; feeding a second protective film between the metallic film and the anvil; moving the scoring blade toward the anvil for applying a pressure onto the first protective film, the metallic film, and the second protective film disposed between the scoring blade and the anvil for making a score along a width of the protective film; and pulling the metallic film having passed between the scoring blade and the anvil at a second speed. The second speed being greater than the first speed. A difference between the first and second speeds causes the metallic film to cut at the score. A system for cutting a metallic film is also disclosed.

The present application provides a residual material removing device, method and system, in which the residual material removing device includes: a loading platform configured to support a material to be cut; a fixing plate abutting against an upper surface of the material to be cut is configured to fix the material to be cut, and one end of the fixing plate is in contact with a residual material in the material to be cut; a first pressing portion in contact with one end of the fixing plate is configured to apply pressing force to one end of the fixing plate to separate the residual material from the material to be cut under the action of the pressing force.

A separation unit for separating a web material along preformed lines of weakness. The separation unit has a width direction and includes at least a first roller having a rotational axis extending in the width direction and a web width extending in the width direction, and at least a second roller having a rotational axis extending parallel with the rotational axis of the first roller and a web width extending in the width direction. The second roller is positioned at a distance from the first roller. Each of the first and the second rollers is provided with at least one protrusion element extending perpendicularly from the axes. Each of the protrusion elements has a maximum width in the width direction, a maximum radial extension from the rotational axes, an inner portion adjacent to the rotational axes, and an outer portion remote from the rotational axes.

A printable blank sheet includes a sheet with defined separation lines, a first layer with cuts running through the first layer along the defined separation lines, and a second layer attached to a bottom side of the first layer, with perforations running through the second layer along the defined separation lines. A method for creating custom print cards includes running a printable blank sheet through a printer to print on defined print areas, wherein the sheet includes slit-over-perforation lines defining a periphery of an object in the sheet, bending the sheet along the slit-over-perforation lines to weaken and separate the slit-over-perforation lines, and detaching the object from the sheet.

A separation unit for separating a web material along preformed lines of weakness. The separation unit has a width direction and includes at least a first roller having a rotational axis extending in the width direction and a web width extending in the width direction, and at least a second roller having a rotational axis extending parallel with the rotational axis of the first roller and a web width extending in the width direction. The second roller is positioned at a distance from the first roller. Each of the first and the second rollers is provided with at least one protrusion element extending perpendicularly from the axes. Each of the protrusion elements has a maximum width in the width direction, a maximum radial extension from the rotational axes, an inner portion adjacent to the rotational axes, and an outer portion remote from the rotational axes.

A splitting apparatus for an LCD panel and a splitting method thereof are described. The LCD panel has a first substrate and a second substrate. The splitting apparatus includes a first splitting device and a second splitting device disposed correspondingly to the first splitting device, and the second splitting device includes protrusion adjustment devices. The protrusion adjustment device extrudes the second substrate for forming a protrusion corresponding to a split line to separate a split plate from the first substrate by a deformation portion of the protrusion and to remove the split plate by the first splitting device. The splitting apparatus makes a rapid separation of the split plate.

Systems and methods are described for controlled crack propagation in a material using ultrasonic waves. A first stress in applied to the material such that the first stress is below a critical point of the material and is insufficient to initiate cracking of the material. A controlled ultrasound wave is then applied to the material causing the total stress applied at a crack tip in the material to exceed the critical point. In some implementations, the controlled cracking is used for wafering of a material.

A patch lamination device includes a laminate feed roller, a laminating roller, and a laminate spreader. The laminate feed roller is configured to feed a patch laminate ribbon along a laminate path. The laminating roller is configured to laminate individual patch laminates of the ribbon to a surface of a card substrate. The laminate spreader is positioned between the laminate feed roller and the laminating roller. The laminate spreader is configured to reduce the formation of trough wrinkles in a patch laminate that is tensioned between the laminate feed roller and the laminating roller during lamination of the patch laminate to a card substrate using the laminating roller.

Tape cutting inserts suitable for cutting tape strips from a tape roll having a spool, a pair of spaced-apart spool flanges on the spool, a spool opening in the spool and opening through the pair of spool flanges, respectively, and tape wound on the spool between the pair of spool flanges. An illustrative embodiment of the tape cutting insert may include an insert panel having an inner panel surface, an outer panel surface opposite the inner panel surface, a cutting edge extending between the inner panel surface and the outer panel surface and a pair of elongated, parallel, spaced-apart flange receiving slots extending through the insert panel from the inner panel surface to the outer panel surface. In a stowage configuration of the insert panel, the insert panel may be configured to releasably engage the spool at the spool opening. In a functional, tape cutting configuration of the insert panel, the pair of flange receiving slots may be configured to accommodate the pair of spool flanges, respectively, on the spool. Tape cutting insert and tape roll combinations are also disclosed.