An apparatus for producing metal sheets from extruded profiles of small thickness or of hollow chamber plates of light metal, preferably of magnesium or magnesium alloys, comprises an extruder for producing an extruded profile which is open along a surface line. A separating device is provided for cutting the extruded profile to length corresponding to the length of the metal sheet to be produced, or the hollow chamber plate to be produced. A bending unit is used for deforming the extruded profile into a U-shaped profile. An expansion unit is provided for expanding the U-shaped profile into a flat metal sheet or a hollow chamber plate. A stacking unit is also provided. At least one expansion unit is arranged parallel to the extrusion line and thus the extrusion and expanding processes are decoupled from one another.

An apparatus for producing metal sheets from extruded profiles of small thickness or of hollow chamber plates of light metal, preferably of magnesium or magnesium alloys, comprises an extruder for producing an extruded profile which is open along a surface line. A separating device is provided for cutting the extruded profile to length corresponding to the length of the metal sheet to be produced, or the hollow chamber plate to be produced. A bending unit is used for deforming the extruded profile into a U-shaped profile. An expansion unit is provided for expanding the U-shaped profile into a flat metal sheet or a hollow chamber plate. A stacking unit is also provided. At least one expansion unit is arranged parallel to the extrusion line and thus the extrusion and expanding processes are decoupled from one another.

Articulating modular robotic trim tool system incorporating end of arm tooling with a trim die operably mounted to the ends of a plurality of robots using a specifically designed die holder. A bank of robots with trim dies operably attached to them are in operation in a production cell. A walking beam carries each extrusion that is going to be trimmed. Once the extrusion moves into position, the robots then move the trim dies onto the extrusion to complete the trim operation.

Articulating modular robotic trim tool system incorporating end of arm tooling with a trim die operably mounted to the ends of a plurality of robots using a specifically designed die holder. A bank of robots with trim dies operably attached to them are in operation in a production cell. A walking beam carries each extrusion that is going to be trimmed. Once the extrusion moves into position, the robots then move the trim dies onto the extrusion to complete the trim operation.

The present invention relates to an extrusion press (10, 20, 30) with a press cylinder (111), the press cylinder (111) being driven with an electro-hydrostatic control system (104) for a power transmission and being connected to a separate drive (120, 400) for rapid traverse, with a container (115), wherein the container (115) is connected to a hydraulic cylinder (117) for a power transmission and to a further separate drive (119, 300) for rapid traverse, with a hydraulic cylinder (101) with a locking device (103) for driving a shearing tool (102), wherein the hydraulic cylinder (101) is connected to the electro-hydrostatic control system (104), and wherein the press cylinder (111) in the power transmission and the hydraulic cylinder (101) for driving a shearing tool (102) are controlled alternately via the common electro-hydrostatic control system (104).

The present invention relates to an extrusion press (10, 20, 30) with a press cylinder (111), the press cylinder (111) being driven with an electro-hydrostatic control system (104) for a power transmission and being connected to a separate drive (120, 400) for rapid traverse, with a container (115), wherein the container (115) is connected to a hydraulic cylinder (117) for a power transmission and to a further separate drive (119, 300) for rapid traverse, with a hydraulic cylinder (101) with a locking device (103) for driving a shearing tool (102), wherein the hydraulic cylinder (101) is connected to the electro-hydrostatic control system (104), and wherein the press cylinder (111) in the power transmission and the hydraulic cylinder (101) for driving a shearing tool (102) are controlled alternately via the common electro-hydrostatic control system (104).

Metal is extruded through a feeder plate and an extrusion die to form a heat pipe component that includes a length of pipe and a flange extending outward from the pipe along the length of the pipe. A section of the flange is removed from the extruded heat pipe component, the pipe is sealed and compressed to reduce its thickness and form a heat pipe element for a computing system.

An extrusion press shearing device (10) is provided with: a conversion means which converts rotational motion of a ball screw (31) into linear motion of a shearing slide drive frame (29); a shearing slide (41) attached to the leading end of the shearing slide drive frame (29); and hydraulic cylinders (32) attached to the shearing slide drive frame (29), wherein the ball screw (31) of the conversion means and the hydraulic cylinders (32) are arranged in parallel, and the ball screw (31) is rotated to move the shearing slide (41) vertically, so that a discard (13) is cut off by the hydraulic cylinders (32).

An extrusion press shearing device (10) is provided with: a conversion means which converts rotational motion of a ball screw (31) into linear motion of a shearing slide drive frame (29); a shearing slide (41) attached to the leading end of the shearing slide drive frame (29); and hydraulic cylinders (32) attached to the shearing slide drive frame (29), wherein the ball screw (31) of the conversion means and the hydraulic cylinders (32) are arranged in parallel, and the ball screw (31) is rotated to move the shearing slide (41) vertically, so that a discard (13) is cut off by the hydraulic cylinders (32).

A method of cleaning an extrusion die from residual metal remaining after an extrusion process at a temperature below 600 C. and of recovering the residual metal includes providing a thrust member with at least one portion made of a polymeric material at the extrusion die; reciprocally moving the thrust member and the die; removing polymeric material not flowed out of the die during the preceding step; mechanically and/or chemically removing the residual metal not flowed out from the die during the moving step; and opening the extrusion die. The polymeric material in the moving step has a water content lower than 7% by weight with respect to the total weight of the polymeric material. During the moving step, the polymeric material is at least partially in a plastic deformation condition or melted so as to occupy the volume of the residual metal flowed out of the extrusion die.