A pressing device is capable of selectively pressing either a coiled material or a sheet material. The pressing device includes a pair of bars and a first retracting mechanism. Each bar includes a holding section capable of holding the sheet material, a first end section separably linked to the holding section on an upstream side of the holding section along a conveyance direction of a material, and a second end section separably linked to the holding section on a downstream side of the holding section along the conveyance direction. The first retracting mechanism is configured to move the first end sections to an upper first retracted position during the pressing of the coiled material.

A pressing device is capable of selectively pressing either a coiled material or a sheet material. The pressing device includes a pair of bars and a first retracting mechanism. Each bar includes a holding section capable of holding the sheet material, a first end section separably linked to the holding section on an upstream side of the holding section along a conveyance direction of a material, and a second end section separably linked to the holding section on a downstream side of the holding section along the conveyance direction. The first retracting mechanism is configured to move the first end sections to an upper first retracted position during the pressing of the coiled material.

A device (1) for the stepwise advancing of workpieces, in which a first swing arm (7) and a second swing arm (11) of a drive unit (8, 9) are respectively designed at each gripping rail (2, 3) of two gripping rails (2, 3), which are arranged in parallel to each other, for detecting and transporting the workpieces in a first end region (4) and a second end region (5), which include a gripping region (6) between them. The first swing arm and the second swing arm engage with the respective gripping rail (2, 3) at a distance from one another and movably retain them along a direction of extension of the gripping rail (2, 3).

A pilot assembly and method for metal forming dies has a generally cylindrical pilot with a stripper that strips stock from the pilot when metal forming dies diverge. The pilot assembly is secured to one die member by a fastener by itself or in combination with a window mount. A spring within the pilot assembly contacts the stripper to force the stripper to reciprocate when the dies are pulled apart. Thus, the pilot assembly helps locate the stock within the metal forming die while also having a stripper to help strip the stock from the pilot.

A pilot assembly and method for metal forming dies has a generally cylindrical pilot with a stripper that strips stock from the pilot when metal forming dies diverge. The pilot assembly is secured to one die member by a fastener by itself or in combination with a window mount. A spring within the pilot assembly contacts the stripper to force the stripper to reciprocate when the dies are pulled apart. Thus, the pilot assembly helps locate the stock within the metal forming die while also having a stripper to help strip the stock from the pilot.

A method and a device are provided for construction of a workpiece-related workpiece gripping device for press automation, the workpiece-related workpiece gripping device having workpiece-specific components fastened to a support. The respective precise positions and orientations of the workpiece-specific components to be fastened to the support are reproduced by a motion automaton, in particular a robot.

A stock ejector assembly and method for metal forming dies includes a stock ejector with a large spring and a ring-style stripper. The ring-style stripper provides a larger surface area for contacting the stock. The large compression spring is preloaded and when a load is applied, the stripper retracts and the spring pressure increases. When the dies separate, the stock ejector pushes the part off flat surfaces, separating surfaces sealed by adhesion, including but not limited to oil or lubricant adhesion.

A stock ejector assembly and method for metal forming dies includes a stock ejector with a large spring and a ring-style stripper. The ring-style stripper provides a larger surface area for contacting the stock. The large compression spring is preloaded and when a load is applied, the stripper retracts and the spring pressure increases. When the dies separate, the stock ejector pushes the part off flat surfaces, separating surfaces sealed by adhesion, including but not limited to oil or lubricant adhesion.

A workpiece transport device is used in a press machine. The workpiece transport device includes a pair of supports and drive mechanisms. The pair of supports support a holder useable to hold a workpiece, so as to allow movement in a transport direction of a workpiece. The drive mechanisms are provided to the pair of supports. The drive mechanisms are configured to move the supports in an up and down direction and a width direction. Each drive mechanism includes a first drive component and a second drive component with each including an electric motor as a drive source, a first link mechanism connecting the first drive component and the support, and a second link mechanism connecting the second drive component and the support.

In a forming system in particular for metallic workpieces (31, 32) with several forming stations (21-23) a transport device (1) is provided with one or more rails (13) on which carriages (141, 142) can be moved. In a conventional mode of operation of the rails, it is provided that two carriages (141, 142) on the same rail (13) are moved by a varying distance relative to each other during the transport of a respective workpiece (31, 32) from one forming station (21-23) to another forming station (21-23), namely in particular are driven towards each other or away from each other with their distance relative to each other being increased or decreased. New production sequences can thereby be provided.