A bending machine for metal sheets includes a punch assembly having an upper tool-holding crosspiece that supports a set of upper bending tools with respective supporting pins and is provided with a guiding groove that is open for receiving the set of upper bending tools. The guiding groove has a lateral supporting groove that receives and supports the supporting pins and maintains the set of upper bending tools slidably coupled to the upper tool-holding crosspiece. The supporting groove has a single second lower opening to allow disengaging/engaging of the supporting pins from/with the supporting groove to remove/insert from/into the upper tool-holding crosspiece at the same time all the upper bending tools. The punch assembly has a single closing element connected to the upper tool-holding crosspiece that is linearly movable between closed and open positions to close and open the second lower opening.

An automated bending machine for bending metal sheet material, provided with driving means which are integrated in a table and/or ram depending on whether the driving means are designed for moving and arranging bottom tools and/or top tools respectively on the respective tool holder of the automated bending machine, whereby the driving means are such that several tool segments can be simultaneously controlled with the latter in order to make these multiple tool segments simultaneously undergo a movement, independently from one another, along the tool holder concerned.

A clamping system for a press brake or folding press includes a beam for holding one or more tools. The clamping system includes a first and a second transducer, each capable of transducing electrical energy to light and vice versa. The first and second transducers each are configured to transmit light towards, and to receive light from, the one or more tools held by the beam. An assembly of such a clamping system and a tool including a marking being configured to reflect light received from the first and second transducers, and to such a tool.

The invention relates to a tool for shaping a material, in particular for bending plate material, comprising a mounting part configured to be in any case partially received in a receiving space of an apparatus, and a shaping part extending from the mounting part. The tool is provided with means for displacing the mounting part in longitudinal direction through the receiving space. The tool can thus be handled and positioned easily even when it is relatively heavy. The displacing means can comprise one or more displacing members protruding from the tool, for instance rollers or wheels. The invention also relates to a combination of an apparatus and such a tool, wherein the apparatus has a receiving space in which the mounting part of the tool is received. The receiving space here comprises a wall part on which the displacing means engage. Finally, the invention further relates to a method for positioning a tool as described above in an apparatus.

The invention relates to a bending press (3), in particular a press brake, comprising a machine frame (7) and pressing bars (13, 16), and tool holders (19, 20) and bending tools (4) arranged or formed on the pressing bars (13, 16) in the form of a bending punch (5) or a bending die (6), wherein a receiving portion (35) of the bending tools (4) is accommodated in a receiving groove (34) of the tool holder (19, 20). The tool holder (19, 20) and a driver device (41) assigned to the bending tool (4) are designed as a linear motor, as a result of which the bending tool (4) can be positioned in a direction (32) that is parallel to a bending edge (31).

In a tool storing device handling a tool mounting stocker in which a punch and a die of a press brake are mounted in one stocker with rear surfaces facing each other, each of the stockers is supported on both sides by endless belts having one driving shaft, and the endless belts are circulated so that each of the supported stockers does not protrude to a worker side, whereby a position of a path line of the appropriate one of the stockers can be freely positioned at a position of the path line PL of a tool holder on the press brake side. This enables rapid and easy tool replacement by a bending robot by storing not only the tool made of the punch and the die but also the hand for the robot together.

In a tool storing device handling a tool mounting stocker in which a punch and a die of a press brake are mounted in one stocker with rear surfaces facing each other, each of the stockers is supported on both sides by endless belts having one driving shaft, and the endless belts are circulated so that each of the supported stockers does not protrude to a worker side, whereby a position of a path line of the appropriate one of the stockers can be freely positioned at a position of the path line PL of a tool holder on the press brake side. This enables rapid and easy tool replacement by a bending robot by storing not only the tool made of the punch and the die but also the hand for the robot together.

A sheet metal bending machine comprises main bending tool assembly (2; 6) that extends along a longitudinal direction (A) and is movable so as to bend a workpiece (50), a guide (3) associated and parallel to the main bending tool assembly (2; 6), extending through a working zone (W) of the bending machine (1) and sideways protruding from the latter at least with a first end portion (4), and shuttles (21, 22, 23) slidably mounted on said guide (3) and supporting at least one auxiliary tool (41, 42) to be associated with the main bending tool assembly (2; 6) in order to execute partial bends on the workpiece (50); the shuttles (21, 22, 23) are movable along the longitudinal direction (A) between a first active position (P1), in which the shuttle (21, 22, 23) are inside the working zone (W) and the auxiliary tool (41, 42) is mounted on the main bending tool assembly (2; 6), and a first inactive position (R1), in which the shuttle (21, 22, 23) are outside the working zone (W) and positioned at the first end portion (4) of the guide (3); the shuttle comprise a first set (11) of shuttles (21, 22, 23), each shuttle (21, 22, 23) carrying a respective auxiliary tool (41, 42), said shuttles (21, 22, 23) being mutually connectable to form a first shuttle convoy (13) having a selectable number of shuttles (21, 22, 23); the first shuttle convoy (13) is movable between said first inactive position (R1) and said first active position (P1) in order to mount a defined composition of auxiliary tools (41, 42) on the main bending tool assembly (2; 6).

A method for determining the wear properties of coated flat products such as galvannealed flat steel products is provided herein. In order to be able to achieve better comparability of the determined wear properties of different flat products at least one bending parameter for the bending of the particular flat product by a bending device is selected in accordance with defined criteria on the basis of information regarding the thickness and/or the strength of the particular flat products to be bent. The flat products are bent in the bending device in accordance with the selected bending parameters, wear thus being produced. The wear properties are analysed in a predetermined manner on the basis of the wear of the particular flat products.