The disclosure relates to a workpiece support for a processing machine for flat workpieces, wherein the workpiece support has support elements forming a plurality of support points for the workpieces which span a workpiece support plane for the flat workpiece, wherein a transfer device for transferring at least one of the support elements from a first position into at least one further position is provided. At least one support element is thus configured to be transferred from the first position into the at least one further position even when a workpiece is loaded, by a movement parallel to the workpiece support plane. The disclosure also relates to a processing machine including such a workpiece support and a method for processing a workpiece.

A fixture includes a supporting body configured to support a front door panel (workpiece) in an inclined state, a pad capable of being abutted to a plate surface of the front door panel, and a negative-pressure unit serving to bring the plate surface of the front door panel into an attracted state by maintaining an inside of a space enclosed by the plate surface and the pad under negative pressure, while the pad is abutted to the plate surface of the front door panel. This negative-pressure unit can switch between a shutdown state in which an attracted state is not achieved, a weakly attracted state in which the attracted state is achieved with a relatively weak negative pressure, and a firmly attracted state in which the attracted state is achieved with a relatively strong negative pressure.

The invention relates to a method and machining device for clamping and machining a control cabinet component in a machining device. The method includes the following steps: Arranging a workpiece configured as a control cabinet component on a work surface of a machining device; clamping the workpiece on the work surface, wherein a supporting unit with at least one clamping device arranged on it, is shifted to an edge of the workpiece using an actuator-driven shifting unit and a clamping element of the at least one clamping device is shifted from a released position to a clamped position when guided towards the edge of the workpiece, meaning that the clamping element comes to rest at multiple contact points on the workpiece so that the clamping element secures the workpiece in a machining position, preventing it from shifting perpendicularly to the work surface, and machining the workpiece using a machining tool.

The present invention provides a clamp for holding a workpiece that is particularly suitable for use in CNC machining. The clamp is particularly useful for use in picture-frame machining techniques as it allows a workpiece to be held in a position wherein a machine can have substantially unencumbered access to both sides of the workpiece without the need to remove the workpiece from the clamp. The clamp comprises a frame comprising a base, a first arm, and a second arm, the first arm and the second arm each mounted to the base at an inner end such that they are parallel with one another.

An inverter manufacturing cell includes a table including a base, a frame configured to receive a work piece, and at least one pivotable lift arm attached to the base and to the frame. The pivotable lift arm is configured to pivot relative to the base about at least one axis such that the frame and work piece rotate from a first, generally horizontal position to a second, generally vertical position. After rotating to the second, vertical position, the frame is configured to slide such that the frame and work piece further rotate to a third, generally horizontal position wherein the frame and work piece are inverted relative to the first, generally horizontal position.

An inverter manufacturing cell includes a table including a base, a frame configured to receive a work piece, and at least one pivotable lift arm attached to the base and to the frame. The pivotable lift arm is configured to pivot relative to the base about at least one axis such that the frame and work piece rotate from a first, generally horizontal position to a second, generally vertical position. After rotating to the second, vertical position, the frame is configured to slide such that the frame and work piece further rotate to a third, generally horizontal position wherein the frame and work piece are inverted relative to the first, generally horizontal position.

The present invention provides a clamp for holding a workpiece that is particularly suitable for use in CNC machining. The clamp is particularly useful for use in picture-frame machining techniques as it allows a workpiece to be held in a position wherein a machine can have substantially unencumbered access to both sides of the workpiece without the need to remove the workpiece from the clamp. The clamp comprises a frame comprising a base, a first arm, and a second arm, the first arm and the second arm each mounted to the base at an inner end such that they are parallel with one another.

The invention relates to a feeding device for feeding a plate-type workpiece to a machining device, said workpiece preferably being made, at least in sections, of wood, wood-based material, plastic or the like, the feeding device comprising a storage means designed to receive workpieces in a first position and a second position, said two different positions being arranged such that they provide access to the respectively provided workpieces independently of each other. The feeding device also comprises a grip device which is designed to grip a workpiece that has been received in one of the positions in the storage means, and to transport it in relation to the feeding device and independently therefrom such that said workpiece can be machined by the machining device, the gripping device then being a position to be able to transport said workpiece to the other position of the storage means and to place the machined workpiece in this position.

A cutting machine is provided, including: a cutting table having a first end and a second end aligned along an X-axis; a cutting tool gantry configured to cut parts from plate supported on the cutting table, the cutting tool gantry spanning the cutting table in a Y-axis perpendicular to the X-axis and being configured to travel along the X-axis between the first end and the second end; and a part transfer apparatus configured to remove cut parts from the cutting table, the part transfer apparatus being configured to travel along the X-axis between the first end and the second end, wherein the part transfer apparatus is able to pass underneath the cutting tool gantry while travelling along the X-axis. Methods of manufacturing and storing parts are also provided, along with a method of identifying when a part is in contact with a finishing apparatus.

A device (1) for the movement of sheet-like pieces (P) in a machine tool (M), including a frame (10) moving towards or away from the machining surface (P1) of the machine, a gripping device (20) including a sheet-like element (21) with a gripping surface (21a) having openings (24) and mounted on the frame (10) rotatingly around at least one axis (x) substantially orthogonal to the direction of movement (D) of the frame (10) and element for the creation of a vacuum (25) communicating with the openings (24) and adapted to generate a vacuum pressure at the openings (24), which, when the gripping surface (21a) is substantially next to the machining surface (P1), makes it possible to detach the pieces (P) from the machining surface and keep them on the gripping surface.