A holding device (100) for a blank (200), having a first holding element (101-1) for inserting the blank (200); and a second holding element (101-2) for clamping the blank (200), which is lockable to the first holding element (101-1) by a rotational movement.

In the case of a clamping device (1) for holding a workpiece (3) to be machined by a machine tool (2), consisting of a housing (4), at least one clamping jaw (7) mounted in the housing (4) so that it is axially movable and a counter-stop (10) formed by the housing (4), between which the workpiece (3) is clamped or at least two clamping jaws (7, 8, 9) mounted in the housing (4) so they are axially movable, between which the workpiece (3) is clamped, and an electrically operated drive device (11), by means of which the movable clamping jaws (7, 8, 9) are movably controlled, and by means of which a holding force, transmitted by the clamping jaws (7, 8, 9) to the workpiece (3) or by a clamping bolt (3′) coupled with the workpiece (3), is generated during the clamping process, both an automated insertion as well as a clamping device (1) are supposed to be further developed, by means of which an automated position check of the inserted workpiece (3) can be carried out, and by means of which, when the test result is available, either the beginning of the machining process is automatically initiated or a check of the position of the workpiece (3) in the clamping device (1) is conducted. This is achieved in that an electromechanical and/or inductive interface (12, 13) is provided on the housing (4), which interface is connected inductively to the drive device (11) and/or an analysis device (11′) and/or by means of electric lines (16), that the interface (12, 13) for an external robotic arm (14) is accessible and communicates with said robotic arm in such a way, that electric data signals and/or electric energy between the interface (12, 13) of the housing (4) and an electromechanical and/or inductive interface (12′, 13′) of the robotic arm (14) can be transmitted alternately and bidirectionally.

A work centre to process section bars, in particular made of aluminium, light alloys, PVC or the like, is provided with a plurality of gripping units movable along a base and designed to hold at least one section bar, an overhead crane movable along the base and provided with at least one operating head to cut and/or process sections bars, a signalling unit provided with a plurality of light devices distributed along the base, and an electronic control unit configured to selectively turn on the light devices and signal to the operators in charge the position of each section bar to be loaded in the relevant gripping units.

A tool holder (1) includes a clamping member (4) for clamping and holding a tool (5), a holder body (2) having, at a leading end thereof, a receiving portion (25) for receiving the clamping member (4) along an axis (AX) and an operational member (N) for attaching the clamping member (4) to the holder body (2). The clamping member (4) clamps the tool (5) by an operation of the operational member (N). Vibration is applied to a contact portion (T) between the clamping member (4) and the holder body (2) when the clamping member (4) clamps the tool (5).

A tool holder (1) includes a clamping member (4) for clamping and holding a tool (5), a holder body (2) having, at a leading end thereof, a receiving portion (25) for receiving the clamping member (4) along an axis (AX) and an operational member (N) for attaching the clamping member (4) to the holder body (2). The clamping member (4) clamps the tool (5) by an operation of the operational member (N). Vibration is applied to a contact portion (T) between the clamping member (4) and the holder body (2) when the clamping member (4) clamps the tool (5).

A fixing jig includes a support plate for supporting a workpiece. A fixing member is arranged on the support plate and defines a receiving groove penetrating a bottom surface of the fixing member. A stopper is slidably received in the receiving groove. A bottom surface of the stopper is flush with the bottom surface of the fixing member and contacts the support plate. An end of the stopper extends out of the receiving groove and abuts against the workpiece. The adjusting member is coupled to the fixing member. One end of the adjusting member extends into the receiving groove and is coupled to the stopper. The adjusting member is used to adjust a position of the stopper. The locking member is arranged on the adjusting member and used to lock a position of the adjusting member, thereby locking the position of the stopper.

A fixing jig includes a support plate for supporting a workpiece. A fixing member is arranged on the support plate and defines a receiving groove penetrating a bottom surface of the fixing member. A stopper is slidably received in the receiving groove. A bottom surface of the stopper is flush with the bottom surface of the fixing member and contacts the support plate. An end of the stopper extends out of the receiving groove and abuts against the workpiece. The adjusting member is coupled to the fixing member. One end of the adjusting member extends into the receiving groove and is coupled to the stopper. The adjusting member is used to adjust a position of the stopper. The locking member is arranged on the adjusting member and used to lock a position of the adjusting member, thereby locking the position of the stopper.

An interchangeable carrier system, in particular for workstations for producing components for exhaust systems of internal combustion engines, includes a base unit and a carrier unit, which is to be releasably fixed to the base unit in a working position, wherein a coupling/fixing arrangement is provided on the base unit and a counterpart coupling/fixing arrangement, which can be brought into positive coupling engagement with the coupling/fixing arrangement during a sliding movement of the carrier unit in a sliding movement direction into the working position, is provided on the carrier unit, and wherein, when the carrier unit is positioned in the working position, the carrier unit can be fixed with respect to the base unit by the coupling/fixing arrangement.

A handling device for servicing a piston with a small end attached to the piston via a piston pin, having a basic frame, a receiving device that is pivotable or tiltable relative to the basic frame for the piston removed from an internal combustion engine, an actuator for pivoting or tilting the receiving device relative to the basic frame, and a locking device via which the receiving device is lockable on the basic frame in different pivot positions or tilting positions.

A handling device for servicing a piston with a small end attached to the piston via a piston pin, having a basic frame, a receiving device that is pivotable or tiltable relative to the basic frame for the piston removed from an internal combustion engine, an actuator for pivoting or tilting the receiving device relative to the basic frame, and a locking device via which the receiving device is lockable on the basic frame in different pivot positions or tilting positions.