An apparatus to produce a letterbox using a strip of material includes: a bender to receive and bend the strip of material into a desired shape of a letterbox including flanges and notches, and the bender to bend at least one end of the strip of material slightly to produce a slight bent; a processor to measure a first plurality of hole positions on a first end of the strip of material and a second plurality of hole positions on flanges of the strip of material, wherein the first plurality of hole positions on the first end are measured to match a first plurality of holes on a second end of the strip of material, wherein the second plurality of hole positions on the flanges are measured to match a second plurality of holes on a base plate; and a puncher to punch the first plurality of holes on at least one of the first end and the second end of the strip of material according to the first plurality of hole positions, and the puncher to punch the second plurality of holes on the flanges according to the second plurality of hole positions.

The invention relates to a jaw pair for punching out holes or recesses, preferably in sheet metal parts, the jaw pair being connectable to a device (23) to be operated preferably hydraulically and being designed, for example, as a pivoting jaw pair, wherein a punch (8) is formed on one jaw and a punching opening (6) is formed on the other jaw. To provide an advantageous jaw pair for punching out holes or recesses, preferably in sheet metal parts, it is proposed that a stripper part (10) which is situated outside of an outer contour of the punch (8) in the punching direction is formed in the jaw having the punch (8) and is movable in relation to the punch (8).

The invention relates to a jaw pair for punching out holes or recesses, preferably in sheet metal parts, the jaw pair being connectable to a device (23) to be operated preferably hydraulically and being designed, for example, as a pivoting jaw pair, wherein a punch (8) is formed on one jaw and a punching opening (6) is formed on the other jaw. To provide an advantageous jaw pair for punching out holes or recesses, preferably in sheet metal parts, it is proposed that a stripper part (10) which is situated outside of an outer contour of the punch (8) in the punching direction is formed in the jaw having the punch (8) and is movable in relation to the punch (8).

A lighted assembly includes a perforated member having a plurality of relatively small openings therethrough. The openings are arranged to provide areas forming letters, designs, or the like. A light source may be positioned adjacent the perforated member whereby light from the light source travels through the openings to form illuminated letters, designs or the like. The perforations may be filled with a light-transmitting polymer material. The light source may comprise an LED and a light guide that distributes light along a lower side of the perforated member. The light source may be positioned in a waterproof housing that is sealed to the perforated member.

A lighted assembly includes a perforated member having a plurality of relatively small openings therethrough. The openings are arranged to provide areas forming letters, designs, or the like. A light source may be positioned adjacent the perforated member whereby light from the light source travels through the openings to form illuminated letters, designs or the like. The perforations may be filled with a light-transmitting polymer material. The light source may comprise an LED and a light guide that distributes light along a lower side of the perforated member. The light source may be positioned in a waterproof housing that is sealed to the perforated member.

A setting unit and a method for setting a connecting element on a work piece. The setting unit has a hold-down clamp. A punch is displaceably mounted in the hold-down clamp, is drivable in a feed direction by way of a plunger and has a front punch head, and a punch sleeve which surrounds the punch head. The punch sleeve is movable together with the punch in the feed direction to a first stroke position. The punch head is movable relative to the punch sleeve to a second stroke position such that it is possible to carry out both a hole punching operation and a setting operation by way of the one punch in connection with the punch sleeve.

A punch press quick tool change system comprising a reciprocally movable upper support member arranged on a punch press frame. The system also includes a lower support member arranged on the punch press frame. A pair of tool gripping members are arranged on the upper support member and also on the lower support member. The tool gripping members comprises a 1.sup.st pair of spaced-apart parallel keeper positioners secured to the upper support member for securing the tool gripping arrangement plate adjustably against the upper support member. A 2.sup.nd pair of parallel keeper positioners are secured to the lower support member for securing a 2.sup.nd tool gripping plate adjustably against the lower support member.

A method for producing a door element comprising a planar panel (30) and protruding edges (32a, 32b, 32c), each edge (32a, 32b, 32c) being joined to at least one adjacent edge (32a, 32b, 32c) by a joining edge, comprising:—providing a rectangular planar blank,—cutting out said blank to retrieve a corner part being adapted to form a joining edge (34),—stamping the cut-out blank to obtain a door element part (52) comprising the panel (30) and the edges (32a, 32b, 32c), said edges (32a, 32b, 32c) being separated one from the others,—joining the adjacent edges (32a, 32b, 32c) by attaching a joining part (54) to the door element part, said joining part (54) being made of a material different from the material of the door element part (52) and forming a joining edge.

A method for producing a door element comprising a planar panel (30) and protruding edges (32a, 32b, 32c), each edge (32a, 32b, 32c) being joined to at least one adjacent edge (32a, 32b, 32c) by a joining edge, comprising:—providing a rectangular planar blank,—cutting out said blank to retrieve a corner part being adapted to form a joining edge (34),—stamping the cut-out blank to obtain a door element part (52) comprising the panel (30) and the edges (32a, 32b, 32c), said edges (32a, 32b, 32c) being separated one from the others,—joining the adjacent edges (32a, 32b, 32c) by attaching a joining part (54) to the door element part, said joining part (54) being made of a material different from the material of the door element part (52) and forming a joining edge.

Provided is a technology capable of suppressing an edge crack occurring due to stretch flange deformation without being constrained by a target pressed component shape. The technology includes two-stage cutting processing of, when it is estimated that there is concern about risk of occurrence of an edge crack due to stretch flange deformation on an edge of a material (1) to be pressed in press forming, performing twice cutting processing on an edge including at least a site where there is concern about risk of occurrence of the edge crack as pre-processing for press forming in which there is concern about risk of occurrence of the edge crack. In the two-stage cutting processing, cutting to form a partial, beam-shaped overhang portion at a position including a site where there is concern about risk of occurrence of the edge crack is performed in the first cutting and the overhang portion is cut in the second cutting.