EP2092994A1 - Machine tool for cutting and/or forming plate-form workpieces - Google Patents

Abstract

The tool (1) has different punching dies (9) and tool matrices with high die heads, which are different along a hub axis (15). The punching dies and tool matrices are utilized for workpiece processing. A punching die-holder coordinates with die head heights of the punching dies attached to the punching die-holder. A tool matrix holder (10) co-operates with die head heights of the tool matrices fixed to the tool matrix holder. The punching die-holder and tool matrix holder are delivered along the hub-axis with respect to a workpiece support by tool drives (13, 14).

Description

• mit einer Werkstückauflage,
• mit einer Werkzeugstempel-Aufnahme, an welcher ein Werkzeugstempel festlegbar ist,
• mit einer Werkzeugmatrizen-Aufnahme, an welcher eine Werkzeugmatrize festlegbar ist,
• mit einem Werkzeugantrieb, mittels dessen die Werkzeugstempel-Aufnahme und die Werkzeugmatrizen-Aufnahme zur Bearbeitung eines auf der Werkstückauflage lagernden Werkstückes entlang einer Hubachse aufeinander zu bewegbar sind sowie
• mit mehreren Werkzeugstempeln und mit mehreren Werkzeugmatrizen, die zur Werkstückbearbeitung an den Werkzeugaufnahmen wahlweise festlegbar sind,

wobei die Werkzeugstempel und die Werkzeugmatrizen jeweils einen Werkzeugschaft aufweisen, an welchem der betreffende Werkzeugstempel an der Werkzeugstempel-Aufnahme bzw. die betreffende Werkzeugmatrize an der Werkzeugmatrizen-Aufnahme festlegbar sind, und wobei an den Werkzeugstempeln und an den Werkzeugmatrizen jeweils ein Werkzeugkopf vorgesehen ist, welcher entlang der Hubachse auf den Werkzeugschaft folgt und gegenüber dem Werkzeugschaft zumindest teilweise radial zur Hubachse erweitert ist.The invention relates to a machine tool for cutting and / or forming plate-like workpieces, preferably sheets,

• with a workpiece support,
• with a tool punch holder, on which a tool punch can be fixed,
• with a tool die receptacle on which a tool die can be fixed,
• with a tool drive, by means of which the tool punch receptacle and the tool die receptacle for machining a workpiece bearing on the workpiece support can be moved toward one another along a lifting axis and also
• with a plurality of tool dies and with a plurality of tool dies which can be optionally fixed to the tool holders for workpiece machining,

wherein the tool punches and the tool dies each have a tool shank, on which the respective tool punch can be fixed to the tool punch receptacle or the relevant tool die on the tool die receptacle, and wherein a tool head is provided on each of the tool punches and on the tool dies follows the tool shaft along the stroke axis and is at least partially widened radially relative to the tool shaft relative to the stroke axis.

Machine tools of the above type are preferably used in the flexible sheet metal processing in the form of stamping forming machines. These machines make it possible to perform different workpiece machining on one and the same machine tool. For example, sheet metal parts along its outer contour are cut free from the sheet metal composite and also transformations are made to the sheet metal parts.

A generic machine tool forms the offered by Trumpf Werkzeugmaschinen GmbH + Co. KG TruPunch ^® 5000. The TruPunch ^® 5000 has Mono tool holders, that tool holders, in each of which a single tool which comprises a tool punch, and a tool die, is determined. Additional tools can be found in a tool magazine and can be loaded into the mono tool holders for workpiece machining as required.

The Monowerkzeugaufnahmen have a liftable by means of a hydraulic lifting drive and lowerable tool punch recording and a fixed tool die recording. For storage of a sheet to be processed is a workpiece table.

Workpiece machining takes place by lowering the tool punch receptacle together with a tool punch fixed thereon onto the metal sheet supported on the workpiece table, and as a result the sheet is machined under the action of the tool punch on the one hand and the tool die on the other hand.

The tool punches and tool dies of the TruPunch ^® 5000 punching machine have a mushroom-shaped design. For fixing to the tool holder, the tool punches and the tool dies each have a tool shank. The processing facilities of the tools in the form of cutting edges or Umformleisten are provided on opposite the tool shanks radially enlarged tool heads.

Overall, in the construction of tools for the generic machine tool considerable restrictions to be considered by the prevailing at the tool holders space conditions.

The EP 0 417 836 B1 discloses a punching machine in which both a punch recording and a punching die recording along a lifting axis relative to a work table are deliverable to compensate for changes in the tool total heights along the lifting axis due to a required from time to time regrinding of the punching tools. Despite these feed movements to compensate for the minor, wear-related reduction of tool heights the punching tools for the out of the EP 0 417 836 B1 known punching machine - just as in the case of the generic punching machine TruPunch ^® 5000 - subject to considerable restrictions due to the space available at the tool holders.

Object of the present invention is to develop a conventional machine tool such that the possibilities for the design of usable on the machine tool tools are extended.

This object is achieved by a machine tool having the features of claim 1 by both different tool punches, which have along the lifting axis differently high tool heads, as well as different tool dies, which also along the stroke axis have different height tool heads, are provided for workpiece machining and both the tool punch receptacle matched to the tool head height of a set on the tool punch receptacle tool stamp and the tool die recording matched to the tool head height of a tool matrices set on the tool die by means of the tool drive along the stroke axis against the workpiece support are deliverable.

Consequently, in the case of the machine tool according to the invention, the restrictions of the tool design to be observed in the case of the conventional machine tool are considerably reduced.

In particular, an advantage of the invention is that on the machine tool according to the invention tools can be used with tool heads, which compared to tool heads of tools for a conventional machine tool are designed to be higher and therefore have a larger space, but that thanks to the compensating feed movements of the tool holders at the same time the tools for a conventional machine tool can be used.

Advantageously, the compensation movements of the tool holders by means of the tool drive are driven by a machine and thus automatically.

Particular embodiments of the invention according to claim 1 emerge from the dependent claims 2 to 8.

Claim 2 relates to an advantageous embodiment of the invention, in which the tool punch receptacle tuned to the tool head height of a set on the tool punch recording tool punch in the relevant for the workpiece machining positions along the stroke axis is deliverable. A trouble-free workpiece machining despite the use of tools with very different high tool heads is ensured.

By a corresponding advantage, the embodiment of the invention according to claim 3 is characterized in which the tool matrices recording in the decisive for workpiece machining positions along the stroke axis is deliverable.

According to a particularly preferred embodiment of the invention (claim 4), the tool die receptacle for exchanging and exchanging tool dies by means of the tool drive along the lifting axis in a tool change position undelivered and is the tool die receptacle starting from the tool change position matched to the Tool head height of a tool die fixed to the tool die receiving means of the tool drive along the stroke axis of the workpiece support deliverable away.

For use on a conventional machine tool, the tool heads of the tool dies must be designed such that the tool heads are arranged in the tool change position of the tool die receptacle below the workpiece support. Because a tool die projecting beyond the workpiece support hinders a positioning of the workpiece along the workpiece support.

In the case of the machine tool according to the invention, said size limitation is omitted. There are tool matrices can be used with tool heads, which protrude in the tool change position of the tool matrices recording on the workpiece support along the Hubachse. After such a tool die has been loaded, the tool die receptacle is tuned to the tool head height of the tool die for subsequent workpiece machining along the stroke axis until the tool head of the tool die no longer protrudes beyond the workpiece support.

According to claim 5, the drive for the tool punch holder and the drive for the tool die holder are decoupled from each other. Consequently, there results a machine tool in which the tool heads of the tool punches and the tool dies can be designed independently of each other within wide limits.

The machine tool according to claim 6 is characterized by simple operability in that the compensation movements according to the invention are determined and controlled on the basis of tool data stored in a numerical control unit.

As shown in claim 7 processing facilities of the tools of the machine tool according to the invention are provided on the different heights tool heads. In this way, the space available for the storage of the processing facilities for each tool can be selected individually. In particular, the space can be increased compared to tools for conventional machine tools and thereby additionally available space to increase the tool stability can be used. Also, the additional Installation space can be used for additional tool elements. The fact that the processing devices are designed in the form of forming strips or cutting edges is particularly advantageous for the use of the machine tool according to the invention in practice.

Accordingly, the design of tools of the machine tool according to the invention as punching tools or as forming tools (claim 8) is of particular practical importance.

Figur 1:

eine Werkzeugmaschine zum Schneiden und /oder Umformen von Blechen,

Figur 2:

ein Umformwerkzeug der Werkzeugmaschine aus Figur 1 und

Figuren 3 bis 6:

die Verhältnisse an den Werkzeugaufnahmen der Werkzeugmaschine aus Figur 1 während einer Werkstückbearbeitung mit einem Werkzeug erster Bauart und zum Vergleich mit einem Werkzeug zweiter Bauart.

The invention will be explained in more detail with reference to schematic representations of exemplary embodiments. Show it:

FIG. 1:

a machine tool for cutting and / or forming sheet metal,

FIG. 2:

a forming tool of the machine tool FIG. 1 and

FIGS. 3 to 6:

the conditions at the tool holders of the machine tool FIG. 1 during a workpiece machining with a tool of the first type and for comparison with a tool of the second type.

FIG. 1 shows a machine tool for cutting and / or forming plate-like workpieces in the form of a stamping / forming machine 1 for processing sheets. The punching / forming machine 1 has a C-shaped machine frame 2, in the throat area of which a workpiece support 3 designed as a workpiece support is arranged, which serves to support a sheet 4 to be processed. On its upper side, the workpiece table 3 forms a horizontal support plane 5 for the sheet 4 to be processed, which is parallel to the x / y plane of the in FIG. 1 shown coordinate system runs. By means of a coordinate guide 6, the clamping device 7 clamped sheet 4 in the support plane 5 of the workpiece table 3 is displaced.

At the front end of the upper leg of the C-shaped machine frame 2, a tool punch receptacle 8 is arranged, on which a tool punch 9 is fixed. Furthermore, at the front end of the lower leg of the C-shaped machine frame 2, a tool die holder 10 is provided, on which a tool die 11 is fixed. The tool punch 9 and the tool die 11 form a tool 12.

A tool drive of the punching / forming machine 1 is formed by a tool punch drive 13 and a tool die drive 14. By means of the tool punch drive 13, the tool punch receptacle 8 together with the tool punch 9 fixed thereto can be raised and lowered along a lifting axis 15 relative to the work table 3. In a comparable manner, the tool die holder 10 together with the tool die 11 fixed thereto can be raised and lowered by means of the tool die drive 14 along the stroke axis 15 relative to the workpiece table 3.

Furthermore, the tool punch receptacle 8 and the tool die receptacle 10 are rotationally adjustable by means of a tool rotary drive, not shown in detail, about a tool rotation axis 16 identical to the lifting axis 15.

At the coordinate guide 6, a linear magazine 17 is provided with further tools 12. The tools 12 located in the linear magazine 17 are each held by a tool cassette 18 and can be fixed to the tool punch holder 8 and the tool die holder 10 as required for workpiece machining.

In order to replace a tool 12 fixed in the tool receptacles 8, 10 by a tool 12 arranged on the linear magazine 17, the tool punch receptacle 8 and the tool die receptacle 10 are first transferred along the lifting axis 15 into tool changing positions. Then, an empty tool cassette 18 of the linear magazine 17 by means of the coordinate guide 6 laterally moved to the tool holders 8, 10. Support arms of the tool cassette 18 thereby encompass the tool punch 9 and the tool die 11. As soon as the holding arms of the tool cassette 18 the Tool die 9 and the tool die 11 firmly embrace the tool 12 is released from the tool punch holder 8 and the tool die holder 10. Now, the tool 12 can be pushed laterally out of the tool holders 8, 10 by means of the coordinate guide 6. Subsequently, the tool 12 to be loaded is also positioned by means of the coordinate guide 6 on the tool holders 8, 10 and clamped there.

During tool change and during workpiece machining, all drives of the stamping / forming machine 1 are controlled by means of a numerical control unit 19. The numerical control unit 19 includes, in particular, storage means 20 for storing tool data and control means 21 for measuring and increasing both the raising and lowering movements of the tool punch receptacle 8 and the raising and lowering movements of the tool die receptacle 10 based on the stored tool data control.

FIG. 2 shows an example of a tool 12 of the punching / forming machine 1 in the form of a so-called "card guide tool". The illustrated mutual arrangement of the tool punch 9 and the tool die 11 along the lifting axis 15 corresponds to the mutual arrangement when the tool punch 9 and the tool die 11 are fixed to the tool holders 8, 10 of the punching / forming machine 1.

The tool punch 9 has a tool shaft 22 extending along the lifting axis 15, on which the tool punch 9 can be fixed or clamped on the tool punch receptacle 8. A tool head 23 follows the tool shank 22 along the stroke axis 15 and is radially widened with respect to the tool shank 22. On the workpiece associated side of the tool head 22 (bottom) a processing device in the form of a Umformleiste 24 is provided. At the side facing away from the workpiece side of the workpiece head 23, a contact surface 25 is provided, on which the tool punch 9 is supported along the lifting axis 15 on the tool punch receptacle 8. The height of the tool head 23 corresponds to the distance between the contact surface 25 and the lowermost edge or surface of the forming strip 24th

The tool die 11 also has a tool shank 26 for fixing the tool die 11 to the tool die receptacle 10. To support the tool die 11 along the lifting axis 15 is a contact surface 27 on the underside of the tool shank 26th

On the workpiece side and along the lifting axis 15 following the tool shank 26, a plate-shaped tool head 28 is provided on the tool die 11, which is widened partially radially to the lifting axis 15 with respect to the tool shank 26 and on which two forming strips 29 are provided as processing devices. The height of the tool head 28 is measured as the distance between the bottom 30 of the tool head 28 and the top edge or surface of the Umformleisten 29th

The others in the linear magazine 17 of the punching / forming machine 1 off FIG. 1 arranged tools 12 differ from that in FIG. 2 In particular, various tool dies 9 with different height tool heads 23 and different tool dies 11 are provided with different heights tool heads 28. The tool shanks 22, 26 of the tool punches 9 and the tool dies 11 are each designed structurally uniform.

To hold the various tools 12 in the linear magazine 17, tool cassettes 18 are provided in two different sizes, which essentially differ only by the distance which the tool dies 9 and tool dies 11 held in the tool cassettes 11 take along the stroke axis 15.

The relationships on the tool holders 8, 10 of the punching / forming machine 1 during a workpiece machining on the basis of FIGS. 3 to 6 explained. On the left side of the FIGS. 3 to 6 the conditions are shown in a workpiece machining with a tool 12 of the first type. For comparison, on the right side of the FIGS. 3 to 6 the conditions in a workpiece machining with a tool 12 'second Type shown. The tool 12 on the left side has along the lifting axis 15 significantly lower tool heads 23, 28 than the tool 12 'on the right side. Both tools 12, 12 'are used to create transformations.

In FIG. 3 the conditions are shown immediately after the replacement of the tools 12, 12 '. The tool punch holder 8 and the tool die holder 10 take along the lifting axis 15 their tool change positions.

The tool change positions of the tool die holder 10 are identical for both tools 12, 12 '- as well as for all other tools - since in the linear magazine 17 the underside of all tool dies 11 (contact surface 27) is arranged at the same height along the stroke axis 15 , This matching horizontal position, the tool matrices 11 also in the case of lateral replacement in the tool die holder 10 at.

However, the tool change positions of the tool punch holder 8 are different from each other. On the left side of FIG. 3 the tool punch receptacle 8 is lowered further along the lifting axis 15 than on the right side. The reason for the different tool change positions of the tool punch receptacle 8 is that the left tool 12 is held in the linear magazine 17 by a lower tool cassette 18 than the right tool 12 '. The one on the left side of FIG. 3 As a result, tool dies 9 shown are arranged lower along the stroke axis 15 than those on the right side of FIG FIG. 1 , These different positions of the tool punch 9 along the lifting axis 15 must be taken into account when changing the tool punch 9 in the tool punch holder 8 by different tool change positions of the tool punch holder 8.

By the way is off FIG. 3 it can be seen that the tool die 11 on the left side of FIG. 3 is arranged immediately after the replacement completely below the support plane 5 of the workpiece table 3, while in the case of Tool 12 'on the right side of FIG. 3 the tool head 28 of the tool die 11 projects beyond the support plane 5 of the workpiece table 3 along the lifting axis 15.

Starting from the in FIG. 3 As shown, the tool die holder 10 is lowered to the height of the tool heads 28 of the clamped tool dies 11 in different stroke starting positions ( FIG. 4 ). Furthermore, the tool punch receptacle 8 is lowered in accordance with the height of the tool heads 23 of the clamped tool dies 9 into different working basic positions, in which the undersides of the tool heads 23 are arranged on the upper side of the sheet 4 to be processed ( FIG. 5 ).

FIG. 6 shows in each case the conditions after completion of a running of the tool die holder 10 starting from the Hubausgangslagen working stroke. The tool die holder 10 assume Hubendlagen, which are different depending on the height of the tool head 28.

Alternatively or in addition to the tools 12, 12 'shown, which are used for forming a workpiece, punching tools can also be used on the punching / forming machine 1. Likewise, tools may be provided which are designed such that the working stroke is performed by the tool punch receptacle 8 and the tool die receptacle 10 occupies a basic work position during workpiece machining.

In the memory means 20 of the numerical control unit 19 of the punching / forming machine 1, tool data are stored for the tools 12 equipped in the linear magazine, which make it possible to determine the required positions of the tool punch receptacle 8 and the tool die receptacle 10. For example, the tool head heights of the various tool dies 9 and the various tool dies 11 or at least tool data dependent on the tool head heights are stored.

Claims (8)

Machine tool for cutting and / or forming plate-like workpieces, preferably sheets, - with a workpiece support (3), - With a tool punch receptacle (8) on which a tool punch (9) can be fixed, - With a tool die receptacle (10) on which a tool die (11) can be fixed, - With a tool drive (13, 14), by means of which the tool punch receptacle (8) and the tool die receptacle (10) for machining a on the workpiece support (3) overlapping workpiece (4) along a lifting axis (15) towards each other to move are as well with a plurality of tool punches (9) and with a plurality of tool dies (11) which can be optionally fixed for workpiece machining on the tool receivers (8, 10), wherein the tool punches (9) and the tool dies (11) each have a tool shank (22, 26) on which the respective tool punch (9) on the tool punch holder (8) or the relevant tool die (11) on the tool die A tool head (23, 28) is provided on the tool punches (9) and on the tool dies (11), which follows the tool shank (22, 26) along the stroke axis (15) and opposite the tool shank (22, 26) is widened at least partially radially to the lifting axis (15),
characterized in that
both different tool punches (9), which along the lifting axis (15) have different height tool heads (23), as well as various tool dies (11), which also along the Lifting axis (15) have different tool heads (28), are provided for workpiece machining and that both the tool punch receptacle (8) matched to the tool head height of the tool punch holder (8) fixed tool punch (9) and the tool die recording (10) adjusted to the tool head height of a tool die (11) fixed to the tool die receptacle (10) by means of the tool drive (13, 14) along the lifting axis (15) relative to the workpiece support (3) are deliverable. Machine tool according to claim 1, characterized in that the tool punch receptacle (8) by means of the tool drive (13, 14) matched to the height of the tool head (23) of the tool punch receptacle (8) fixed tool punch (9) along the stroke axis (15) relative to the workpiece support (3) in a Hubausgangslage from which the tool punch holder (8) performs a working stroke for workpiece machining, and / or in a stroke end position, in which a working stroke of the tool punch holder (8) ends, and / or in a basic work position, in which the tool punch holder (8) remains during workpiece machining, can be delivered. Machine tool according to one of the preceding claims, characterized in that the tool die receptacle (10) by means of the tool drive (13, 14) matched to the height of the tool head (28) of a tool die (10) fixed to the tool die (11) along the lifting axis (15) relative to the workpiece support (3) in a Hubausgangslage from which the tool die receptacle (10) performs a working stroke for workpiece machining, and / or in a stroke end position, in which a working stroke of the tool die receptacle (10) ends , and / or in a basic work position, in which the tool punch receptacle (10) remains during workpiece machining, can be delivered. Machine tool according to one of the preceding claims, characterized in that the tool die receptacle (10) for exchanging and exchanging tool dies (11) by means of the tool drive (13, 14) along the lifting axis (15) in a tool change position undeliverable and in that the tool die receptacle (10), based on the tool change position, is matched to the tool head height of a tool die (11) fixed to the tool die receptacle (10) by means of the tool drive (13, 14) along the stroke axis (15) of the workpiece support (10). 3) is deliverable. Machine tool according to one of the preceding claims, characterized in that the tool drive (13, 14) comprises a tool die drive associated with the tool punch receptacle (8) and a tool die drive associated with the tool die receptacle (10), by means of which the tool punch Receiving (8) and the tool die holder (10) decoupled from each other along the lifting axis (15) relative to the workpiece support (3) are deliverable. Machine tool according to one of the preceding claims, characterized in that a numerical control unit (19) is provided which has control means (21) for the feed movements of the tool punch receptacle (8) based on tool data stored in the numerical control unit of the tool punch receptacle (8), and control means (21) for controlling the feed motions of the tool die receptacle (10) based on tool data stored in the numerical control unit of a tool die (11) fixed to the tool die receptacle (10). to control. Machine tool according to one of the preceding claims, characterized in that on the workpiece side at the different height tool heads (23, 28) of the tool punch (9) and the tool dies (11) processing means, preferably forming strips (24, 29) or cutting edges, are provided. Machine tool according to one of the preceding claims, characterized in that the tool punches (9) and the tool dies (11) are associated with each other in pairs to tools (12), and that at least one tool (12) is designed as a punching tool and / or as a forming tool.

Images