A machine tool is provided with a workpiece support (1000) for supporting at least one workpiece (2001, 2002) for allowing machining of the workpiece, and a plurality of tools (11A, 12A, 21A, 22A) adapted for machining of the at least one workpiece. The machine tool being adapted for positioning the tools in relation to the workpiece support. At least one of the tools is a laser tool (21A, 22A) adapted for removal of material from the at least one workpiece. Another one of the tools may be a rotary tool (11A, 12A) adapted for removal of material from the at least one workpiece.

A machine tool is provided with a workpiece support (1000) for supporting at least one workpiece (2001, 2002) for allowing machining of the workpiece, and a plurality of tools (11A, 12A, 21A, 22A) adapted for machining of the at least one workpiece. The machine tool being adapted for positioning the tools in relation to the workpiece support. At least one of the tools is a laser tool (21A, 22A) adapted for removal of material from the at least one workpiece. Another one of the tools may be a rotary tool (11A, 12A) adapted for removal of material from the at least one workpiece.

A machine tool includes a tool assembly having a tool carrier support and a tool magazine. The tool assembly is displaceable in parallel with an X axis. The tool carrier support supports a tool carrier for driving a tool.

The tool magazine of the tool assembly is configured for supporting a number of tools. The tool magazine is attached to the tool carrier support for movement with the tool carrier support in parallel with the X axis.

The tool assembly includes a drive component configured for displacing the tool magazine in relation to the tool carrier support, between a first position in which the tool magazine is not facing the tool carrier, and a second position in which the tool magazine is facing the tool carrier, for allowing tool replacement.

A machine tool includes a tool assembly having a tool carrier support and a tool magazine. The tool assembly is displaceable in parallel with an X axis. The tool carrier support supports a tool carrier for driving a tool.

The tool magazine of the tool assembly is configured for supporting a number of tools. The tool magazine is attached to the tool carrier support for movement with the tool carrier support in parallel with the X axis.

The tool assembly includes a drive component configured for displacing the tool magazine in relation to the tool carrier support, between a first position in which the tool magazine is not facing the tool carrier, and a second position in which the tool magazine is facing the tool carrier, for allowing tool replacement.

A manufacturing cell comprises at least one workpiece path having a workpiece supply region of a workpiece supply and a workpiece table of a machine tool. The machine tool has at least two machining robots. The workpiece table comprises at least one suction block assembly. The manufacturing cell has a second workpiece path running in a longitudinal direction of the manufacturing cell and parallel to the first workpiece path, with a second workpiece table comprising at least one suction block assembly. In addition, each suction block assembly can be displaced in the longitudinal direction of the manufacturing cell. This increases the output rate of a manufacturing cell and expands its machining capabilities.

A manufacturing cell comprises at least one workpiece path having a workpiece supply region of a workpiece supply and a workpiece table of a machine tool. The machine tool has at least two machining robots. The workpiece table comprises at least one suction block assembly. The manufacturing cell has a second workpiece path running in a longitudinal direction of the manufacturing cell and parallel to the first workpiece path, with a second workpiece table comprising at least one suction block assembly. In addition, each suction block assembly can be displaced in the longitudinal direction of the manufacturing cell. This increases the output rate of a manufacturing cell and expands its machining capabilities.

A machine tool includes a base frame, a work spindle for receiving a tool, and a swivelling bridge for receiving a workpiece, wherein the swivelling bridge is configured such that it can swivel about a swivel axis, and wherein the swivelling bridge is received such that it can swivel on a first swivel bearing and a second swivel bearing. A workpiece holder for directly or indirectly receiving the workpiece is provided on the swivelling bridge, wherein the workpiece holder is arranged between the first swivel bearing and the second swiven bearing. The movements of the machine tool are controlled by a digital computer. A deflection compensation device for compensating for tilting of the workpiece due to deflection of the swivelling bridge is provided on the swivelling bridge.

A machine tool includes a base frame, a work spindle for receiving a tool, and a swivelling bridge for receiving a workpiece, wherein the swivelling bridge is configured such that it can swivel about a swivel axis, and wherein the swivelling bridge is received such that it can swivel on a first swivel bearing and a second swivel bearing. A workpiece holder for directly or indirectly receiving the workpiece is provided on the swivelling bridge, wherein the workpiece holder is arranged between the first swivel bearing and the second swiven bearing. The movements of the machine tool are controlled by a digital computer. A deflection compensation device for compensating for tilting of the workpiece due to deflection of the swivelling bridge is provided on the swivelling bridge.

In order to be suitable for space-saving of a multi-functional processing machine in which a tool main spindle device is disposed at a center of an opposed biaxial lathe, there is provided an automatic tool exchanger provided in the multi-functional processing machine, the automatic tool exchanger including: a tool magazine that is disposed in a machine body front surface upper portion of the multi-functional processing machine and is configured to house multiple tools for exchange with respect to the tool main spindle device; a shift device configured to move the tool between the tool magazine and a tool exchanging position with respect to the tool main spindle device; and a tool changer configured to exchange the tool between the shift device and the tool main spindle device.

A transfer machine for cold plastic deformation and/or chip removal of at least one tubular profile is provided. The transfer machine has a base, a mounting table, a rotary table, and a plurality of electromechanical work units installed on the mounting table. Each electromechanical work unit has a first advance group having a first advance motor, a first advance recirculating ball screw, a first advance nut and a first tubular stem. The first advance recirculating ball screw is moved by the first advance motor. The first advance nut is engaged by the first advance recirculating ball screw. The first tubular stem, defining advancement and/or positioning of a first tool holder element, is engaged to and made integral with the first advance nut.