A wedge drive (1) has a slide upper part (4), a slide lower part (2), and a slide (3) arranged between the slide upper part (4) and the slide lower part (2). The slide (3) is movable between a closed and an open position in a working position. The slide (3) has a variable-position device (10), a first stop (30) and second stop (40), to obtain either the working position or an installation position. In the working position, the device (10) is positioned so that it is used as the limiter for the first stop (30) when the wedge drive (1) is actuated or is in its intended fully open position. In the installation position, the device (10) is positioned so that the second stop (40) supports itself on the device (10).

A wedge drive (1) has a slide upper part (4), a slide lower part (2), and a slide (3) arranged between the slide upper part (4) and the slide lower part (2). The slide (3) is movable between a closed and an open position in a working position. The slide (3) has a variable-position device (10), a first stop (30) and second stop (40), to obtain either the working position or an installation position. In the working position, the device (10) is positioned so that it is used as the limiter for the first stop (30) when the wedge drive (1) is actuated or is in its intended fully open position. In the installation position, the device (10) is positioned so that the second stop (40) supports itself on the device (10).

A hem punch is floating-supported to a slide cam by a floating-support mechanism. After the hem punch is moved to be positioned at a pre-hemming start position by a driver cam, preliminary hemming is performed. Subsequently, the hem punch is moved to be positioned at a final-hemming start position by the driver cam, and then the hem punch is moved downward by the floating-support mechanism to perform final hemming.

A first-face forming portion of a workpiece and a second-face forming portion spaced apart from it by the length of an intermediate portion are clamped with a first-face forming die and a second-face forming die, respectively. The first-face forming die is moved either upward or downward and the second-face forming die is moved in a direction toward the first-face forming die, and the second-face forming die is pressed against the first-face forming die to shape the upright wall portion.

A wedge drive designed to redirect a vertical pressing force into a horizontal, linear working motion, comprising a sliding element and a sliding element holder which are two guide elements on which a guide device with a sliding plate assembly which has two side sliding plates and the central guide is arranged, which sliding plates are distanced from each other in the transverse direction perpendicular to the sliding direction. The central guide is arranged between the two sliding plates and is fastened to the sliding element. Each sliding plate lies against the sliding element holder by at least the following contact surfaces wherein one contact surface lies on a first plane and extends in the transverse direction and a second contact surface lies on a second plane at a distance from the first plane and also extends in the transverse direction and a third contact surface extends perpendicularly thereto.

A multi-directional multi-cam press device may include a cam base fixed to the lower mold, a first cam slide provided to slide forwards and backwards along a first direction of the cam base, at least a first punch unit provided in the first cam slide along a first direction, a cam drive fixed to an upper mold configured of moving in a vertical direction with respect to the lower mold, and making cam contact with the first cam slide, a second cam slide provided in the cam drive to move forwards and backwards in a second direction perpendicular to the first direction and in contact with the cam base side, and at least a second punch unit provided on the second cam slide along a second direction.

The invention relates to a slider arrangement (1) designed in particular as a wedge drive tool with a slider upper portion (10) and a slider lower portion (20) which, due to a relative movement with respect to the slider upper portion (10), can be displaced along guides (30) from an initial position into a working position and vice versa, wherein at least one return device (40) is provided in order to bring about the initial position of the slider upper portion (10) and slider lower portion (20), wherein the return device (40) comprises a screw plug (50) at the end in order to attach the return device (40) in a recess (11) of the slider arrangement (1), characterized in that the screw plug (50) comprises at least two rotation prevention means (51) which are designed to prevent a rotation of the screw plug (50) beyond a maximum acceptable rotation angle α.

A multi-directional multi-cam press device may include a cam base fixed to the lower mold, a first cam slide provided to slide forwards and backwards along a first direction of the cam base, at least a first punch unit provided in the first cam slide along a first direction, a cam drive fixed to an upper mold configured of moving in a vertical direction with respect to the lower mold, and making cam contact with the first cam slide, a second cam slide provided in the cam drive to move forwards and backwards in a second direction perpendicular to the first direction and in contact with the cam base side, and at least a second punch unit provided on the second cam slide along a second direction.

There is provided a die device capable of reliably releasing a workpiece from a die even when the workpiece has an undercut, and conveying the workpiece to a next process. A die device including: a lower die; and a lifter that lifts a pressed workpiece from the lower die, the lower die having an undercut region which is a portion that interferes with the workpiece when the workpiece is moved along a press direction, the lifter including: a vacuum cup that comes into contact with the workpiece; a rod part having a distal end provided with the vacuum cup; and a linear drive servomotor for causing the rod part to advance/retreat in an axial direction, and further including a rotary drive servomotor that turns the lifter in a direction orthogonal to the axial direction, wherein the lifter moves the workpiece by combining both movement along the press direction and movement in a direction inclined to the press direction.

A cam-type press apparatus includes a lower die, an upper die corresponding to the lower die and provided to be vertically movable, a cam base configured on a first die among the lower die and the upper die, at least one cam block provided on the cam base, a slide base configured on a second die among the lower die and the upper die, a cam slide in cam-contact with the cam base and slidably provided on the slide base, and a plurality of wear plates provided in contact with each other between the cam base and the cam slide and between the slide base and the cam slide, where at least one first pair of wear plates among the plurality of wear plates is in point-contact or line-contact with each other.