A die assembly for forming finished parts from blanks includes an upper die section and a lower die section. The upper die section includes an upper segmented die having a plurality of upper die segments releasably coupled to each other. The lower die section includes a lower segmented die having a plurality of lower die segments releasably coupled to each other. The die assembly is usable with a movable gantry press configured to move to a location of the die assembly and operate the die assembly.

A modular guided keeper base, guided keeper assembly, and related method includes a modular guided keeper base that mounts to a die member. The guided keeper base has an integrated stop for guide pin retention. The guided keeper base can also accommodate a variety of bushings within the base. The guided keeper base is attached to a die member using a mounting flange(s). Mounting fasteners pass through the fastener holes in the mounting flanges and are anchored in the die member to securely retain the guided keeper assembly in place. A retainer ring is mounted in an associated groove in the base over the heads of the mounting fasteners to prevent unintentional unfastening of the fasteners from the die member.

A modular guided keeper base, guided keeper assembly, and related method includes a modular guided keeper base that mounts to a die member. The guided keeper base has an integrated stop for guide pin retention. The guided keeper base can also accommodate a variety of bushings within the base. The guided keeper base is attached to a die member using a mounting flange(s). Mounting fasteners pass through the fastener holes in the mounting flanges and are anchored in the die member to securely retain the guided keeper assembly in place. A retainer ring is mounted in an associated groove in the base over the heads of the mounting fasteners to prevent unintentional unfastening of the fasteners from the die member.

A die mechanism comprises a first support member and a second support member, the first and second support members extending in a first direction; a plurality of pin modules between the first and second support members, wherein each of the plurality of pin modules extends in a second direction perpendicular to the first direction, and each pin module comprises a plurality of pins; wherein heights of ends of the plurality of pins within each of the plurality of pin modules together define a shape profile for shaping the component during creep-age forming; and wherein: the plurality of pin modules are configured to be movable along the first and second support members in the first direction, and/or the plurality of pins are configured to be movable along respective pin modules in the second direction.

A die mechanism comprises a first support member and a second support member, the first and second support members extending in a first direction; a plurality of pin modules between the first and second support members, wherein each of the plurality of pin modules extends in a second direction perpendicular to the first direction, and each pin module comprises a plurality of pins; wherein heights of ends of the plurality of pins within each of the plurality of pin modules together define a shape profile for shaping the component during creep-age forming; and wherein: the plurality of pin modules are configured to be movable along the first and second support members in the first direction, and/or the plurality of pins are configured to be movable along respective pin modules in the second direction.

An object of the present invention is to provide a bending die that has a simple configuration and is capable of bending a rod-shaped body in a three-dimensional XYZ direction quickly and reliably, the bending die comprising a pair of forming dies clamped in a Z direction, wherein the forming dies have, respectively, rod-shaped body-forming recess portions, and rod-shaped body guide portions for guiding a rod-shaped body to the rod-shaped body-forming recess portions, the rod-shaped body-forming recess portions are each formed into a shape with a semicircular cross section that defines, between the forming dies when clamping the forming dies, a long, cylindrical cavity for forming the rod-shaped body bent in a three-dimensional XYZ direction, and the rod-shaped body guide portions are each formed into a V-shape that spreads outward from both sides of each of the rod-shaped body-forming recess portions having a semicircular cross section.

A punch assembly with interchangeable tips includes a punch body and a punch tip releasably coupled to the punch body. The punch body includes a proximal end, a distal end opposite the proximal end, and a cross-sectional shape defined between the proximal end and the distal end. The proximal end includes a flange configured to engage a punch holder. The distal end includes a distal surface defining a lateral direction. The punch tip is coupled to the distal end of the punch body via a magnetic coupling provided by a plurality of magnets. The punch tip includes a working surface and a coupling member. The distal end of the punch body engages the coupling member of the punch tip in a tongue-in-groove arrangement wherein the plurality of magnets are provided within a tongue and cupped within a groove.

A variable die according to an embodiment of the present invention may comprise: a first lower die part; and a first upper die part disposed above the first lower die part, wherein: the first lower die part comprises a first lower die center part and a first lower die side part; the first lower die center part includes a first sensor unit which measures a distance; a first lower die side part includes an inner member having a slope, and a drive unit which moves the inner member toward the first lower die center part; the first sensor unit measures a forming distance which is the distance from the first sensor unit to a material; and the driver unit is driven on the basis of the forming distance to adjust a correction distance which is the moving distance of the inner member.

A variable die according to an embodiment of the present invention may comprise: a first lower die part; and a first upper die part disposed above the first lower die part, wherein: the first lower die part comprises a first lower die center part and a first lower die side part; the first lower die center part includes a first sensor unit which measures a distance; a first lower die side part includes an inner member having a slope, and a drive unit which moves the inner member toward the first lower die center part; the first sensor unit measures a forming distance which is the distance from the first sensor unit to a material; and the driver unit is driven on the basis of the forming distance to adjust a correction distance which is the moving distance of the inner member.

The invention relates to an apparatus for working, in particular for working without machining, for example for separating and/or forming, a web of material, having a plurality of individual tools for different manners of working the web of material with designated workpieces temporarily held therein, and having a machine direction along which the web of material with the designated workpieces and the plurality of individual tools can be moved incrementally relative to one another in such a way that the web of material can be worked multiple times within one work cycle by means of the plurality of individual tools, wherein the individual tools are designed as individual modules which can be fixed to one another to form an individual module cluster, but can be detached as well.