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EP0650782B1 - Press brake - Google Patents

Press brake Download PDF

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Publication number
EP0650782B1
EP0650782B1 EP94115354A EP94115354A EP0650782B1 EP 0650782 B1 EP0650782 B1 EP 0650782B1 EP 94115354 A EP94115354 A EP 94115354A EP 94115354 A EP94115354 A EP 94115354A EP 0650782 B1 EP0650782 B1 EP 0650782B1
Authority
EP
European Patent Office
Prior art keywords
bending
stop
accordance
clamping
rail
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP94115354A
Other languages
German (de)
French (fr)
Other versions
EP0650782A1 (en
Inventor
Werner Dilger
Friedrich Kilian
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Trumpf SE and Co KG
Original Assignee
Trumpf SE and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Trumpf SE and Co KG filed Critical Trumpf SE and Co KG
Publication of EP0650782A1 publication Critical patent/EP0650782A1/en
Application granted granted Critical
Publication of EP0650782B1 publication Critical patent/EP0650782B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D5/00Bending sheet metal along straight lines, e.g. to form simple curves
    • B21D5/002Positioning devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D43/00Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profiles; Associations therewith of cutting devices
    • B21D43/26Stops

Definitions

  • the invention relates to a press brake for folding Workpieces along a bending line with one in front of the Bending line located operating area, with a behind of the bend line, with a Drive for the lifting movement of a bending tool, with one the actuating stroke actuating device and a switch-on device for the Lift actuation device, with one in the stop area arranged stop device, the one by a controllable drive that can be moved perpendicular to the bending line
  • Positionable rail has at least two Can be moved and positioned by hand along the rail and stop fingers which can be fixed by means of a clamping device are arranged.
  • Such a press brake is see for example US-A-4089200.
  • Press brakes are in a wide variety Embodiments known. As a rule, each one Press brake a backgauge on which the workpiece to be chamfered is created before folding to be able to carry out the fold precisely.
  • This Back stops are in the X axis, i.e. in the level of Workpiece and perpendicular to the bending line, as well as in the R axis, i.e. perpendicular to the plane of the workpiece, adjustable. This adjustment must be manual in some embodiments be carried out and is with other press brakes Can be carried out by motor, pneumatically or hydraulically.
  • Some Press brakes have one in addition to the backgauge Front stop and possibly even side stops on the the position of the workpiece in the operating area can be determined and may even be changeable.
  • the backgauge is used either as one-piece stop bar or in the form of several individual Stop finger is formed.
  • both Stop bar as well as the individual stop fingers either manually or using a suitable drive be adjusted.
  • at one several individual back fingers existing backgauge the individual stop fingers in the Z axis, i.e. in the direction the bending line can be adjusted, and in particular can the distance between the individual stop fingers to each other to be changed. This can also be done either via a suitable drive or manually.
  • the invention has for its object a press brake of the type mentioned in such a way that the Position of the individual stop fingers manually safe can be changed.
  • This object is achieved in that a Locking device for releasing the clamping device is provided and that the anchor device in a Position can be moved in which the stop fingers over the Bending line in the operating area of the press brake protrude, and that in this position, the switch-on effective and the Locking device for releasing the clamping device are ineffective.
  • the bending tool in its rest position and the Stroke actuator for the drive is through the Switch-on blocking device, which is switched on or effective is locked.
  • the stop fingers can come out of the stop area across the bending line into the operating area are moved and are therefore more accessible to the Operator.
  • the main advantage is that the operator to move the individual Stop fingers no longer across the bend line in the Stop area must grip, so that the press brake according to the invention the individual stop fingers can be safely moved manually. Since the Switch-on blocking device for the stroke actuating device is effective, there is no risk that the Bending tool performs a lifting movement while doing so Hazards or damage caused.
  • a further development of the press brake according to the invention provides before that the clamping device is formed by a clamping piece when activated, the fingers with the rail jammed.
  • This clamp is permanently activated and is only deactivated when the stop fingers touch the Overlap the bending line and at the same time the Lift actuation device for driving the bending tool is locked by the switch-on blocking device.
  • the Jamming the finger with the splint is also ensures that every single stop finger Carrier feed movement.
  • this Clamping piece at least one when activated against the rail and the stop finger pressing member or one corresponding section. This can be done easily Way the stop fingers are jammed with the rail.
  • the clamping piece is one Air cylinder, a magnet or the like. Formed.
  • This Compressed air cylinder is made by applying compressed air either tensioned or released, with a high level of security is obtained by e.g. by the force of a bias spring is biased and thereby the clamping effect is achieved with the air cylinder assumes its release position by pressurization.
  • This can also be the case with a magnet, which then has the Applies clamping effect when it is de-energized and only when Applying a voltage that releases the clamp.
  • the sprag can Applying a fluid in position and / or shape be changeable.
  • the fluid can be either a gas or a gas Be liquid.
  • Clamping piece made of a hose that can be filled with a fluid, e.g. a compressed air hose whose cross-sectional shape and / or the position of which can be changed by the internal pressure.
  • a fluid e.g. a compressed air hose whose cross-sectional shape and / or the position of which can be changed by the internal pressure.
  • the clamping effect can be achieved by applying e.g. With Compressed air.
  • the Switch-on blocking device has a switch which Energy supply to the stroke actuating device is interrupted. This switch is usually permanently on and must be consciously switched off in order to supply energy to the Manufacture stroke actuating device.
  • the Locking device for releasing the clamping device Has switch that the energy supply to release the Clamping device interrupts, here too the switch takes off permanently in a position in which he is supplying energy interrupts, the switch only then its Switch position changes if, as already mentioned at the beginning, the stop fingers overlap the bending line and the Switch-on blocking device for the stroke actuating device is activated.
  • a release device for releasing the Clamping device provided, the locking device the Release device deactivated.
  • the release of the clamping device is not manual be performed.
  • the stop fingers can immediately after manually moved to deactivate the locking device become.
  • FIG. 2 shows a perspective view of a Press brake, in particular a die press known Design type.
  • This press brake designated a total of 20 has a frame which, for example.
  • Two stands 1 and 2 includes, on which an upper beam 3 is guided.
  • At least this lifting movement of the Press brake 20 is operated by a stroke actuation device 7 activated and controlled.
  • On the upper cheek 3 is a holder 8 for a bending tool 9, e.g. one Bending die that interacts with a bending die 10.
  • the Bending tool 9 is essentially as shown in FIG. 2 strip-shaped and the bending die 10 accordingly bar-shaped.
  • control panel 25 also has a switch-on blocking device on which, if activated, the Stroke actuator 7 locked so that the drive 21 or the press cylinders 4 and 5 are not actuated can.
  • the upper cheek 3 is then in the position in FIG. 2 shown location locked.
  • the press brake 20 shown in FIG. 2 has one stop device 26 designed as a backgauge, which is not shown in Fig. 2, but in one other known press brake 20 shown in FIG. 3 is reproduced, is shown.
  • This stop device 26 shown in FIG. 3 consists essentially of a rail 27 on the two Stop fingers 28 and 29 are arranged.
  • This Stop fingers 28 and 29 are in the direction of arrows 30 represent the Z direction, movable on the rail 27.
  • the stop fingers 28 and 29 extend in the direction of Bend line 23 and lie on the rear edge, i.e. at the edge of the workpiece located in the stop area 24 22 on. In this way, the position of the workpiece 22 in the direction of the X axis (arrow 31).
  • Switch-on blocking device deactivated whereby the Stroke actuator 7 is unlocked so that at the actuation of the bending tool 9 a lifting movement in Direction of the double arrow 32 executes. It will Workpiece 22 folded on the bending line 23 and takes the position shown with a solid line. Away the bending tool 9 from the bending die 19, it falls Workpiece 22 in the direction of arrow 33 back to one support table, not shown.
  • FIG. 1 shows a preferred embodiment of the Press brake 20 according to the invention with its individual Components shown.
  • the support bracket 34 for the workpiece 22, which is the For clarity is not shown.
  • the controller 25 Located in operating area 17 the support bracket 34 for the workpiece 22, which is the For clarity is not shown.
  • Below the controller 25 is a two-hand / foot switch 35 with which the stroke actuating device 7 are activated can.
  • One is located above the stop area 24 Hydraulic system 36 for the drive 21 of the upper beam 3 of the Bending tool 9.
  • the stop device 26 is complete from the stop area 24 to the rear (left in FIG. 1) pulled out.
  • the stop device 26 is shown in FIGS. 4 and 5 shown enlarged.
  • This has a carriage 37 on a rail 38 which extends in the X direction, i.e. extends perpendicular to the bending line 23, is movable.
  • the stop fingers 28, 29 can not workpiece 22 shown or in the direction of the bending line 23 be brought up.
  • 4 are the stop fingers 28, 29 shown in a starting position in which they have completely retracted, i.e. with maximum distance lie to the bending line 23.
  • Those designated 128, 129 Stop fingers are so far in the stop area 24 drove that they just did not reach the bending line 23 touch.
  • the stop fingers designated 228, 229 are via a further drive 39, which e.g. a spindle 40 moved, in height, i.e. in the R direction.
  • With 328, 329 designated stop fingers the only shown broken off are also in the R axis but shifted down.
  • a stop finger is also shown at 428.
  • This The stop finger 428 assumes position when it is from the operator in the Z axis (see Fig. 5) new to be positioned.
  • the upper cheek is located 3 in their maximum upper position and the Stroke actuator 7 is on the Locking device locked, so that even untimely actuation of the two-hand / foot switch 35 no Bending stroke can take place.
  • the fingers 28, 29 are on one Rail 27 slidably mounted so that when they are Position as indicated by reference number 428, take, can be repositioned. this happens manually.
  • the stop fingers 28, 29 are via a clamping device 42, which is shown in FIG. 6, on the rail 27 fixed. Furthermore, it can be seen in Fig. 6 that the Stop fingers 28, 29 from a on the rail 27 attacking holding part 43 and a swing-out part 44 consists of a hinge 45 on the holding part 43 is attached. In the rest position shown in FIG. 6 is shown, the part 44 takes a horizontal position on. By pressurizing an expandable element 46, the part 44 can be pivoted upwards, as is indicated in Fig. 4.
  • the stop finger 28, 29 takes its correct position on the Rail 27, then this is through the clamping device 42 fixed.
  • a compressed air hose 47 is provided for this, which is formed in a substantially C-shaped Profile part 48 is arranged. Between the compressed air hose 47 and the upper leg of the profile part 48 engages Spring element 49 which e.g. via a screw on the holding part 43 the stop finger 28 is attached and its movement the rail 27 follows.
  • the compressed air hose 47, the Profile part 48 and the spring element 49 form the Clamping device 42, the stop finger 28 on the Lock rail 27.
  • the compressed air hose 47 pressurized with compressed air so that it inflates and that Spring element 49 between itself and the profile part 48 stuck. In this way, the stop finger 28 in fixed in position.
  • This release device is one Locking device upstream that the release device activated or deactivated.
  • the stop finger is located 28 in the position shown in FIG. 6, in which it overlaps the bending line 23, then the locking device ineffective, so that the compressed air from the release device blown off the compressed air hose 47 and thereby the Clamping effect can be canceled so that the Stop finger 28 on the rail 27 in the desired Position can be moved.
  • the stroke actuator 7 for the Upper beam 3 blocked by the switch-on blocking device.
  • the locking device for the release device is activated, so that after clamping the stop finger 28 in the desired position, the air from the compressed air hose 47 can no longer be blown off.
  • the stop finger 28 is So only in the position in which he bends the 23rd overlaps, displaceable on the rail 27, the Clamping device 42 can be released so that the Spring element 49 between the compressed air hose 47 and the Profile part 48 is displaceable.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Bending Of Plates, Rods, And Pipes (AREA)
  • Braking Arrangements (AREA)

Abstract

In a press brake (20) for bending workpieces (22) along a bending line (23), with an operating area (17) in front of the bending line (23), with a stop area (24) behind the bending line (23), with a drive (21) for the stroke of a bending tool (9), with a stroke-actuating device (7) which activates the drive (21) and with an interlock device to prevent the stroke-actuating device (7) from being switched on, with a stop device (26) which is arranged in the stop area (24) and has a rail (27) which can be moved and positioned perpendicular to the bending line (23) by means of a controllable drive and on which at least two stop fingers (28, 29) which can be displaced and positioned along the rail (27) by hand and fixed by means of a clamping device (42) are arranged, the position of the individual stop fingers can be changed manually without danger by virtue of the fact that a locking device is provided for the release of the clamping device (42) and in that the stop device (26) can be moved into a position in which the stop fingers (28, 29) project beyond the bending line (23) into the operating area (17) of the press brake, the switch-on interlock device is operative and the locking device for the release of the clamping device (42) is inoperative. <IMAGE>

Description

Die Erfindung betrifft eine Abkantpresse zum Abkanten von Werkstücken längs einer Biegelinie mit einem vor der Biegelinie sich befindenden Bedienbereich, mit einem hinter der Biegelinie sich befindenden Anschlagbereich, mit einem Antrieb für die Hubbewegung eines Biegewerkzeugs, mit einer dem Antrieb aktivierenden Hubbetätigungseinrichtung und einer Einschaltsperreinrichtung für die Hubbetätigungseinrichtung, mit einer im Anschlagbereich angeordneten Anschlageinrichtung, die eine durch einen steuerbaren Antrieb senkrecht zur Biegelinie verfahrbare und positionierbare Schiene aufweist, an der wenigstens zwei längs der Schiene von Hand verschiebbare und positionierbare und über eine Klemmeinrichtung festlegbare Anschlagfinger angeordnet sind. Eine solche Abkantpresse ist beispielsweise der US-A-4089200 zu entnehmen. The invention relates to a press brake for folding Workpieces along a bending line with one in front of the Bending line located operating area, with a behind of the bend line, with a Drive for the lifting movement of a bending tool, with one the actuating stroke actuating device and a switch-on device for the Lift actuation device, with one in the stop area arranged stop device, the one by a controllable drive that can be moved perpendicular to the bending line Positionable rail has at least two Can be moved and positioned by hand along the rail and stop fingers which can be fixed by means of a clamping device are arranged. Such a press brake is see for example US-A-4089200.

Abkantpressen sind in den unterschiedlichsten Ausführungsformen bekannt. In der Regel weist eine jede Abkantpresse einen Hinteranschlag auf, an der das abzukantende Werkstück vor dem Abkanten angelegt wird, um die Abkantung positionsgenau durchführen zu können. Diese Hinteranschläge sind in der X-Achse, d.h. in der Ebene des Werkstücks und senkrecht zur Biegelinie, sowie in der R-Achse, d.h. senkrecht zur Ebene des Werkstücks, verstellbar. Diese Verstellung muß bei manchen Ausführungsformen manuell durchgeführt werden und ist bei anderen Abkantpressen motorisch, pneumatisch oder hydraulisch durchführbar. Einige Abkantpressen weisen zusätzlich zum Hinteranschlag einen Vorderanschlag und evtl. sogar Seitenanschläge auf, über die die Position des Werkstücks im Bedienbereich bestimmbar und ggf. sogar veränderbar ist.Press brakes are in a wide variety Embodiments known. As a rule, each one Press brake a backgauge on which the workpiece to be chamfered is created before folding to be able to carry out the fold precisely. This Back stops are in the X axis, i.e. in the level of Workpiece and perpendicular to the bending line, as well as in the R axis, i.e. perpendicular to the plane of the workpiece, adjustable. This adjustment must be manual in some embodiments be carried out and is with other press brakes Can be carried out by motor, pneumatically or hydraulically. Some Press brakes have one in addition to the backgauge Front stop and possibly even side stops on the the position of the workpiece in the operating area can be determined and may even be changeable.

Es ist bekannt, daß der Hinteranschlag entweder als einstückige Anschlagleiste oder in Form mehrerer einzelner Anschlagfinger ausgebildet ist. Auch hier können sowohl die Anschlagleiste als auch die einzelnen Anschlagfinger entweder manuell oder durch einen geeigneten Antrieb verstellt werden. Ferner ist bekannt, daß bei einem aus mehreren einzelnen Anschlagfinger bestehendem Hinteranschlag die einzelnen Anschlagfinger in Z-Achse, d.h. in Richtung der Biegelinie verstellt werden können, und insbesondere kann der Abstand der einzelnen Anschlagfinger zueinander verändert werden. Auch dies kann entweder über einen geeigneten Antrieb oder manuell erfolgen.It is known that the backgauge is used either as one-piece stop bar or in the form of several individual Stop finger is formed. Here too, both Stop bar as well as the individual stop fingers either manually or using a suitable drive be adjusted. It is also known that at one several individual back fingers existing backgauge the individual stop fingers in the Z axis, i.e. in the direction the bending line can be adjusted, and in particular can the distance between the individual stop fingers to each other to be changed. This can also be done either via a suitable drive or manually.

Bei Abkantpressen ist ferner bekannt, daß der Antrieb für die Hubbewegung des Biegewerkzeugs von einer Hubbetätigungseinrichtung aktiviert wird. Befindet sich das Biegewerkzeug in seiner Ruhelage, dann ist die Hubbetätigungseinrichtung durch eine Einschaltsperreinrichtung solange verriegelt, bis diese Einschaltsperreinrichtung von der Bedienperson bewußt deaktiviert wird, so daß erst dann ein Betätigen der Hubbetätigungseinrichtung den Antrieb aktiviert. Auf diese Weise soll ein unbeabsichtigtes Betätigen der Hubbetätigungseinrichtung verhindert werden.In press brakes it is also known that the drive for the lifting movement of the bending tool from one Stroke actuator is activated. Is that Bending tool in its rest position, then the Lift actuation device by a Switch-on blocking device locked until it Switch-on blocking device conscious of the operator is deactivated, so that an actuation of the Lift actuation device activates the drive. To this Way an unintentional actuation of the Stroke control device can be prevented.

Bei einfachen Abkantpressen werden die einzelnen Anschlagfinger in der Regel manuell positioniert. Hierfür muß die Bedienperson jedoch vom Bedienbereich aus über die Biegelinie hinweg in den Anschlagbereich greifen, was einerseits umständlich, andererseits nicht ungefährlich ist.With simple press brakes, the individual Stop fingers are usually positioned manually. Therefor the operator must, however, from the operating area via the Reach into the stop area, what on the one hand awkward, on the other hand not dangerous.

Der Erfindung liegt die Aufgabe zugrunde, eine Abkantpresse der eingangs genannten Art derart weiterzubilden, daß die Position der einzelnen Anschlagfinger manuell gefahrlos verändert werden kann. The invention has for its object a press brake of the type mentioned in such a way that the Position of the individual stop fingers manually safe can be changed.

Diese Aufgabe wird erfindungsgemäß dadurch gelöst, daß eine Sperreinrichtung für das Lösen der Klemmeinrichtung vorgesehen ist und daß die Anschlageinrichtung in eine Position verfahrbar ist, in der die Anschlagfinger über die Biegelinie in den Bedienbereich der Abkantpresse hineinragen, und daß in dieser Position die Einschaltsperreinrichtung wirksam und die Sperreinrichtung für das Lösen der Klemmeinrichtung unwirksam sind.This object is achieved in that a Locking device for releasing the clamping device is provided and that the anchor device in a Position can be moved in which the stop fingers over the Bending line in the operating area of the press brake protrude, and that in this position, the switch-on effective and the Locking device for releasing the clamping device are ineffective.

Bei der erfindungsgemäßen Abkantpresse befindet sich also das Biegewerkzeug in seiner Ruhelage und die Hubbetätigungseinrichtung für den Antrieb ist durch die Einschaltsperreinrichtung, welche eingeschaltet bzw. wirksam ist, verriegelt. In dieser Position des Biegewerkzeugs können die Anschlagfinger aus dem Anschlagbereich heraus über die Biegelinie hinweg in den Bedienbereich hinein bewegt werden und sind dadurch besser zugänglich für die Bedienperson. Der größte Vorteil besteht jedoch darin, daß die Bedienperson zum Verschieben der einzelnen Anschlagfinger nicht mehr über die Biegelinie hinweg in den Anschlagbereich greifen muß, so daß bei der erfindungsgemäßen Abkantpresse die einzelnen Anschlagfinger gefahrlos manuell verschoben werden können. Da die Einschaltsperreinrichtung für die Hubbetätigungseinrichtung wirksam ist, besteht auch keine Gefahr, daß das Biegewerkzeug eine Hubbewegung durchführt und dabei Gefährdungen oder Beschädigungen verursacht. So there is in the press brake according to the invention the bending tool in its rest position and the Stroke actuator for the drive is through the Switch-on blocking device, which is switched on or effective is locked. In this position of the bending tool the stop fingers can come out of the stop area across the bending line into the operating area are moved and are therefore more accessible to the Operator. The main advantage, however, is that the operator to move the individual Stop fingers no longer across the bend line in the Stop area must grip, so that the press brake according to the invention the individual stop fingers can be safely moved manually. Since the Switch-on blocking device for the stroke actuating device is effective, there is no risk that the Bending tool performs a lifting movement while doing so Hazards or damage caused.

Ein weiteres erfindungswesentliches Merkmal wird darin gesehen, daß dann, wenn die Anschlagfinger die Biegelinie überfahren und in den Bedienbereich eingreifen, die Sperreinrichtung für das Lösen der Klemmeinrichtung der Anschlagfinger unwirksam ist. Nur in dieser Position können die einzelnen Anschlagfinger verschoben werden. Sobald die ausgerichteten und festgeklemmten Anschlagfinger diese Position wieder verlassen, ist die Sperreinrichtung aktiviert, so daß die Klemmeinrichtung nicht mehr gelöst werden kann. Eine derartige Abkantpresse kann auch von ungeübtem Bedienpersonal schnell gefahrlos bedient werden und sie bedarf ein geringes Maß an Bedienkenntnissen, da die Position der Anschlagfinger manuell veränderbar ist. Es müssen also keine Programmänderungen an der Maschine durchgeführt werden.Another feature essential to the invention is therein seen that when the stop fingers hit the bend line run over and intervene in the operating area, the Locking device for releasing the clamping device of the Stop finger is ineffective. Can only in this position the individual stop fingers are moved. As soon as the aligned and clamped stop fingers this Leaving position again is the locking device activated so that the clamping device is no longer released can be. Such a press brake can also from Inexperienced operating personnel can be operated quickly and safely and it requires a low level of operating knowledge because the The position of the stop fingers can be changed manually. It So there is no need to change the program on the machine be performed.

Eine Weiterbildung der erfindungsgemäßen Abkantpresse sieht vor, daß die Klemmeinrichtung von einem Klemmstück gebildet wird, das bei Aktivierung die Finger mit der Schiene verklemmt. Dieses Klemmstück ist permanent aktiviert und wird lediglich dann deaktiviert, wenn die Anschlagfinger die Biegelinie übergreifen und dabei gleichzeitig die Hubbetätigungseinrichtung für den Antrieb des Biegewerkzeugs von der Einschaltsperreinrichtung verrieglt ist. Durch die Verklemmung des Fingers mit der Schiene ist auch gewährleistet, daß jeder einzelne Anschlagfinger die Zustellbewegung der Schiene ausführt. A further development of the press brake according to the invention provides before that the clamping device is formed by a clamping piece when activated, the fingers with the rail jammed. This clamp is permanently activated and is only deactivated when the stop fingers touch the Overlap the bending line and at the same time the Lift actuation device for driving the bending tool is locked by the switch-on blocking device. Through the Jamming the finger with the splint is also ensures that every single stop finger Carrier feed movement.

Bei einem bevorzugten Ausführungsbeispiel weist das Klemmstück wenigstens ein bei Aktivierung gegen die Schiene und die Anschlagfinger pressendes Element oder einen entsprechenden Abschnitt auf. Dadurch kann auf einfache Weise der Anschlagfinger mit der Schiene verklemmt werden.In a preferred embodiment, this Clamping piece at least one when activated against the rail and the stop finger pressing member or one corresponding section. This can be done easily Way the stop fingers are jammed with the rail.

Gemäß einer Ausführungsform wird das Klemmstück von einem Druckluftzylinder, einem Magnet oder dgl. gebildet. Dieser Druckluftzylinder wird durch Beaufschlagung mit Druckluft entweder gespannt oder gelöst, wobei eine hohe Sicherheit dadurch erhalten wird, daß der Druckluftzylinder z.B. durch die Kraft einer Vorspannfeder vorgespannt ist und dadurch die Klemmwirkung erzielt wird, wobei der Druckluftzylinder durch Druckbeaufschlagung seine Lösestellung einnimmt. Dies kann auch bei einem Magnet der Fall sein, der dann die Klemmwirkung aufbringt, wenn er stromlos ist und erst bei Anlegung einer Spannung die Klemmung löst.According to one embodiment, the clamping piece is one Air cylinder, a magnet or the like. Formed. This Compressed air cylinder is made by applying compressed air either tensioned or released, with a high level of security is obtained by e.g. by the force of a bias spring is biased and thereby the clamping effect is achieved with the air cylinder assumes its release position by pressurization. This can also be the case with a magnet, which then has the Applies clamping effect when it is de-energized and only when Applying a voltage that releases the clamp.

Dabei kann das Klemmstück durch Beaufschlagung mit einem Fluid in Lage und/oder Form veränderbar sein. Das Fluid kann sowohl ein Gas als auch eine Flüssigkeit sein. Bei der Veränderung der Lage kann z.B. ein Keil bewegt werden.The sprag can Applying a fluid in position and / or shape be changeable. The fluid can be either a gas or a gas Be liquid. When changing the position, e.g. on Wedge can be moved.

Bei einem bevorzugten Ausführungsbeispiel besteht das Klemmstück aus einem mit einem Fluid anfüllbaren Schlauch, z.B. einem Druckluftschlauch, dessen Querschnittsform und/oder dessen Lage durch den Innendruck veränderbar ist. Dabei kann die Klemmwirkung durch Beaufschlagung z.B. mit Druckluft herbeigeführt werden.In a preferred embodiment, there is Clamping piece made of a hose that can be filled with a fluid, e.g. a compressed air hose whose cross-sectional shape and / or the position of which can be changed by the internal pressure. The clamping effect can be achieved by applying e.g. With Compressed air.

Weitere Ausführungsformen sehen vor, daß die Einschaltsperreinrichtung einen Schalter aufweist, der die Energiezufuhr zur Hubbetätigungseinrichtung unterbricht. Dieser Schalter ist in der Regel permanent eingeschaltet und muß bewußt ausgeschaltet werden, um die Energiezufuhr zur Hubbetätigungseinrichtung herzustellen.Further embodiments provide that the Switch-on blocking device has a switch which Energy supply to the stroke actuating device is interrupted. This switch is usually permanently on and must be consciously switched off in order to supply energy to the Manufacture stroke actuating device.

Nach einer Weiterbildung der Erfindung ist vorgesehen, daß die Sperreinrichtung für das Lösen der Klemmeinrichtung einen Schalter aufweist, der die Energiezufuhr zum Lösen der Klemmeinrichtung unterbricht, auch hier nimmt der Schalter permanent eine Stellung ein, in der er die Energiezufuhr unterbricht, wobei der Schalter erst dann seine Schaltstellung ändert, wenn, wie bereits eingangs erwähnt, die Anschlagfinger die Biegelinie übergreifen und die Einschaltsperreinrichtung für die Hubbetätigungseinrichtung aktiviert ist.According to a development of the invention it is provided that the Locking device for releasing the clamping device Has switch that the energy supply to release the Clamping device interrupts, here too the switch takes off permanently in a position in which he is supplying energy interrupts, the switch only then its Switch position changes if, as already mentioned at the beginning, the stop fingers overlap the bending line and the Switch-on blocking device for the stroke actuating device is activated.

Vorzugsweise ist eine Löseeinrichtung zum Lösen der Klemmeinrichtung vorgesehen, wobei die Sperreinrichtung die Löseeinrichtung deaktiviert. Bei dieser Ausführungsform muß also das Lösen der Klemmeinrichtung nicht manuell durchgeführt werden. Die Anschlagfinger können sofort nach dem Deaktivieren der Sperreinrichtung manuell verschoben werden.Preferably, a release device for releasing the Clamping device provided, the locking device the Release device deactivated. In this embodiment, must So the release of the clamping device is not manual be performed. The stop fingers can immediately after manually moved to deactivate the locking device become.

Weitere Einzelheiten ergeben sich aus der nachfolgenden Beschreibung, in der unter Bezugnahme auf die Zeichnung ein besonders bevorzugtes Ausführungsbeispiel im einzelnen dargestellt ist. Dabei zeigen:

Figur 1
eine Ansicht einer Ausführungsform einer erfindungsgemäßen Abkantpresse;
Figur 2
eine perspektivische Ansicht einer bekannten Abkantpresse;
Figur 3
einen Prinzipquerschnitt durch eine andere bekannte Abkantpresse;
Figur 4
einen Querschnitt durch die Abkantpresse gemäß Fig. 1;
Figur 5
eine Ansicht in Richtung des Pfeils V gemäß Fig. 4;
Figur 6
eine vergrößerte Wiedergabe eines Anschlagfingers im Querschnitt; und
Figur 7
eine Draufsicht auf den Anschlagfinger gemäß Fig. 6.
Further details emerge from the following description, in which a particularly preferred exemplary embodiment is shown in detail with reference to the drawing. Show:
Figure 1
a view of an embodiment of a press brake according to the invention;
Figure 2
a perspective view of a known press brake;
Figure 3
a basic cross section through another known press brake;
Figure 4
a cross section through the press brake according to FIG. 1;
Figure 5
a view in the direction of arrow V of FIG. 4;
Figure 6
an enlarged representation of a stop finger in cross section; and
Figure 7
6 shows a plan view of the stop finger according to FIG. 6.

Die Figur 2 zeigt eine perspektivische Darstellung einer Abkantpresse, insbesondere einer Gesenkbiegepresse bekannter Bauart. Diese Abkantpresse, die insgesamt mit 20 bezeichnet ist, weist ein Gestell auf, welches bspw. zwei Ständer 1 und 2 umfaßt, an denen eine Oberwange 3 geführt ist. Preßzylinder 4 und 5, die als Antrieb 21 dienen, bewegen diese Oberwange 3 im Sinne des Pfeils 6 nach unten und in Gegenrichtung nach oben. Zumindest diese Hubbewegung der Abkantpresse 20 wird von einer Hubbetätigungseinrichtung 7 aktiviert und kontrolliert. An der Oberwange 3 befindet sich eine Halterung 8 für ein Biegewerkzeug 9, z.B. einen Biegestempel der mit einem Biegegesenk 10 zusammenwirkt. Das Biegewerkzeug 9 ist gemaß Fig. 2 im wesentlichen leistenförmig und das Biegegesenk 10 dementsprechend balkenförmig. Es wird mittels geeigneter, nur schematisch eingezeichneter Gesenkhalterungen 11 und 12 am Tisch 13 der Abkantpresse 20 festgehalten. Ferner ist in der Fig. 2 eine als Werkstück 22 dienende Blechtafel 14 dargestellt, die in Richtung des Pfeils 18 in die Abkantpresse 20 soweit eingeschoben wird, bis die mit 19 bezeichnete Linie mit der Biegelinie 23 fluchtet. Befindet sich das Werkstück 22 in dieser Position, dann liegt oberhalb der Linie 19 das Biegewerkzeug 9 mit seiner Schneide 15 und unterhalb der Linie 19 des Werkstücks 22 das Biegegesenk 10 mit seiner V-förmigen Ausnahme 16. Der vor der Biegelinie 23 sich befindende Bereich wird als Bedienbereich 17 und der hinter der Biegelinie 23 sich befindende Bereich als Anschlagbereich 24 definiert. Im Bedienbereich 17 hält sich in der Regel die Bedienperson auf, die das Werkstück 22 führt und Befehle an einem Steuerpult 25 eingibt. Dabei weist der Steuerpult 25 auch eine Einschaltsperreinrichtung auf, die, wenn sie aktiviert ist, die Hubbetätigungseinrichtung 7 verriegelt, so daß der Antrieb 21 bzw. die Preßzylinder 4 und 5 nicht betätigt werden können. Die Oberwange 3 ist dann in der in der Fig. 2 dargestellten Lage verriegelt.Figure 2 shows a perspective view of a Press brake, in particular a die press known Design type. This press brake, designated a total of 20 has a frame which, for example. Two stands 1 and 2 includes, on which an upper beam 3 is guided. Press cylinders 4 and 5, which serve as drive 21, move this upper beam 3 in the direction of arrow 6 down and in Opposite direction upwards. At least this lifting movement of the Press brake 20 is operated by a stroke actuation device 7 activated and controlled. On the upper cheek 3 is a holder 8 for a bending tool 9, e.g. one Bending die that interacts with a bending die 10. The Bending tool 9 is essentially as shown in FIG. 2 strip-shaped and the bending die 10 accordingly bar-shaped. It is by means of suitable, only schematic marked die holders 11 and 12 on the table 13 of the Press brake 20 held. 2 is a serving as workpiece 22 sheet 14 shown in Direction of arrow 18 in the press brake 20 so far is inserted until the line labeled 19 with the Bending line 23 is aligned. The workpiece 22 is in this position, then lies above line 19 Bending tool 9 with its cutting edge 15 and below the Line 19 of the workpiece 22, the bending die 10 with its V-shaped Exception 16. The one in front of the bending line 23 located area is called the operating area 17 and the rear the area of the bending line 23 as Stop area 24 defined. Holds in the operating area 17 usually the operator who the workpiece 22nd performs and enters commands on a control panel 25. Here the control panel 25 also has a switch-on blocking device on which, if activated, the Stroke actuator 7 locked so that the drive 21 or the press cylinders 4 and 5 are not actuated can. The upper cheek 3 is then in the position in FIG. 2 shown location locked.

Die in der Figur 2 dargestellte Abkantpresse 20 weist eine als Hinteranschlag ausgebildete Anschlageinrichtung 26 auf, die in der Fig. 2 nicht dargestellt ist, sondern bei einer anderen bekannten Abkantpresse 20, die in der Fig. 3 wiedergegeben ist, dargestellt ist.The press brake 20 shown in FIG. 2 has one stop device 26 designed as a backgauge, which is not shown in Fig. 2, but in one other known press brake 20 shown in FIG. 3 is reproduced, is shown.

Diese in der Figur 3 dargestellte Anschlageinrichtung 26 besteht im wesentlichen aus einer Schiene 27 auf der zwei Anschlagfinger 28 und 29 angeordnet sind. Diese Anschlagfinger 28 und 29 sind in Richtung der Pfeile 30, die die Z-Richtung darstellen, auf der Schiene 27 verfahrbar. Die Anschlagfinger 28 und 29 erstrecken sich in Richtung der Biegelinie 23 und liegen an der hinteren Kante, d.h. an der im Anschlagbereich 24 sich befindenden Kante des Werkstücks 22 an. Auf diese Weise kann die Position des Werkstücks 22 in Richtung der X-Achse (Pfeil 31) bestimmt werden. Bei korrekt ausgerichtetem Werkstück 22 wird die Einschaltsperreinrichtung deaktiviert, wodurch die Hubbetätigungseinrichtung 7 entriegelt wird, so daß bei deren Betätigung das Biegewerkzeug 9 eine Hubbewegung in Richtung des Doppelpfeils 32 ausführt. Dabei wird das Werkstück 22 an der Biegelinie 23 abgekantet und nimmt die mit durchgezogener Linie dargestellte Position ein. Entfernt sich das Biegewerkzeug 9 vom Biegegesenk 19, fällt das Werkstück 22 in Richtung des Pfeils 33 zurück auf einen nicht dargestellten Auflagetisch.This stop device 26 shown in FIG. 3 consists essentially of a rail 27 on the two Stop fingers 28 and 29 are arranged. This Stop fingers 28 and 29 are in the direction of arrows 30 represent the Z direction, movable on the rail 27. The stop fingers 28 and 29 extend in the direction of Bend line 23 and lie on the rear edge, i.e. at the edge of the workpiece located in the stop area 24 22 on. In this way, the position of the workpiece 22 in the direction of the X axis (arrow 31). At correctly aligned workpiece 22 Switch-on blocking device deactivated, whereby the Stroke actuator 7 is unlocked so that at the actuation of the bending tool 9 a lifting movement in Direction of the double arrow 32 executes. It will Workpiece 22 folded on the bending line 23 and takes the position shown with a solid line. Away the bending tool 9 from the bending die 19, it falls Workpiece 22 in the direction of arrow 33 back to one support table, not shown.

In der Figur 1 ist ein bevorzugtes Ausführungsbeispiel der erfindungsgemäßen Abkantpresse 20 mit ihren einzelnen Komponenten dargestellt. Im Bedienbereich 17 befindet sich die Auflagekonsole 34 für das Werkstück 22, welches hier der Übersichtlichkeit halber nicht dargestellt ist. Unterhalb der Steuerung 25 befindet sich ein Zweihand-/Fußtaster 35 mit dem die Hubbetätigungseinrichtung 7 aktiviert werden kann. Oberhalb des Anschlagbereichs 24 befindet sich eine Hydraulikanlage 36 für den Antrieb 21 der Oberwange 3 des Biegewerkzeugs 9. Die Anschlageinrichtung 26 ist vollständig aus dem Anschlagbereich 24 nach hinten (in der Fig. 1 links) herausgefahren. 1 shows a preferred embodiment of the Press brake 20 according to the invention with its individual Components shown. Located in operating area 17 the support bracket 34 for the workpiece 22, which is the For clarity is not shown. Below the controller 25 is a two-hand / foot switch 35 with which the stroke actuating device 7 are activated can. One is located above the stop area 24 Hydraulic system 36 for the drive 21 of the upper beam 3 of the Bending tool 9. The stop device 26 is complete from the stop area 24 to the rear (left in FIG. 1) pulled out.

In den Figuren 4 und 5 ist die Anschlageinrichtung 26 vergrößert dargestellt. Diese weist einen Schlitten 37 auf, der auf einer Schiene 38, die sich in X-Richtung, d.h. senkrecht zur Biegelinie 23, erstreckt, verfahrbar ist. Auf diese Weise können die Anschlagfinger 28, 29 an das nicht dargestellte Werkstück 22 bzw. in Richtung der Biegelinie 23 herangefahren werden. In der Fig. 4 sind die Anschlagfinger 28, 29 in einer Ausgangsposition dargestellt, in der sie vollständig zurückgefahren sind, d.h. mit maximalem Abstand zur Biegelinie 23 liegen. Die mit 128, 129 bezeichneten Anschlagfinger sind so weit in den Anschlagbereich 24 vorgefahren, daß sie gerade noch nicht die Biegelinie 23 berühren. Die mit 228, 229 bezeichneten Anschlagfinger sind über einen weiteren Antrieb 39, der z.B. eine Spindel 40 bewegt, in der Höhe, d.h. in R-Richtung, verstellt. Die mit 328, 329 bezeichneten Anschlagfinger, die lediglich abgebrochen dargestellt sind, sind ebenfalls in der R-Achse aber nach unten versetzt.The stop device 26 is shown in FIGS. 4 and 5 shown enlarged. This has a carriage 37 on a rail 38 which extends in the X direction, i.e. extends perpendicular to the bending line 23, is movable. On in this way the stop fingers 28, 29 can not workpiece 22 shown or in the direction of the bending line 23 be brought up. 4 are the stop fingers 28, 29 shown in a starting position in which they have completely retracted, i.e. with maximum distance lie to the bending line 23. Those designated 128, 129 Stop fingers are so far in the stop area 24 drove that they just did not reach the bending line 23 touch. The stop fingers designated 228, 229 are via a further drive 39, which e.g. a spindle 40 moved, in height, i.e. in the R direction. With 328, 329 designated stop fingers, the only shown broken off are also in the R axis but shifted down.

Außerhalb des Anschlagbereichs 24, d.h. im Bedienbereich 17 ist mit 428 ebenfalls ein Anschlagfinger dargestellt. Diese Position nimmt der Anschlagfinger 428 dann ein, wenn er von der Bedienperson in der Z-Achse (siehe Fig. 5) neu positioniert werden soll. Dabei befindet sich die Oberwange 3 in ihrer maximal oberen Position und die Hubbetätigungseinrichtung 7 ist über die Einschaltsperreinrichtung verriegelt, so daß auch bei unzeitigem Betätigen des Zweihand-/Fußtasters 35 kein Biegehub erfolgen kann. Die Finger 28, 29 sind auf einer Schiene 27 verschieblich gelagert, so daß sie, wenn sie die Position wie mit den Bezugszeichen 428 angedeutet, einnehmen, neu positioniert werden können. Dies erfolgt manuell.Outside the stop area 24, i.e. in operating area 17 a stop finger is also shown at 428. This The stop finger 428 assumes position when it is from the operator in the Z axis (see Fig. 5) new to be positioned. The upper cheek is located 3 in their maximum upper position and the Stroke actuator 7 is on the Locking device locked, so that even untimely actuation of the two-hand / foot switch 35 no Bending stroke can take place. The fingers 28, 29 are on one Rail 27 slidably mounted so that when they are Position as indicated by reference number 428, take, can be repositioned. this happens manually.

Die Anschlagfinger 28, 29 sind über eine Klemmeinrichtung 42, die in der Figur 6 dargestellt ist, an der Schiene 27 fixiert. Weiterhin ist in Fig. 6 erkennbar, daß der Anschlagfinger 28, 29 aus einem an der Schiene 27 angreifenden Halteteil 43 und einem ausschwenkbaren Teil 44 besteht, welches über ein Gelenk 45 am Halteteil 43 befestigt ist. In der Ruhelage, die in der Fig. 6 dargestellt ist, nimmt das Teil 44 eine waagerechte Position ein. Durch Druckbeaufschlagung eines expandierbaren Elements 46 kann das Teil 44 nach oben verschwenkt werden, wie es andeutungsweise in Fig. 4 dargestellt ist.The stop fingers 28, 29 are via a clamping device 42, which is shown in FIG. 6, on the rail 27 fixed. Furthermore, it can be seen in Fig. 6 that the Stop fingers 28, 29 from a on the rail 27 attacking holding part 43 and a swing-out part 44 consists of a hinge 45 on the holding part 43 is attached. In the rest position shown in FIG. 6 is shown, the part 44 takes a horizontal position on. By pressurizing an expandable element 46, the part 44 can be pivoted upwards, as is is indicated in Fig. 4.

Nimmt der Anschlagfinger 28, 29 seine korrekte Lage auf der Schiene 27 ein, dann wird diese durch die Klemmeinrichtung 42 fixiert. Hierfür ist ein Druckluftschlauch 47 vorgesehen, der in einem im wesentlichen C-förmig ausgebildeten Profilteil 48 angeordnet ist. Zwischen den Druckluftschlauch 47 und den oberen Schenkel des Profilteils 48 greift ein Federelement 49, das z.B. über eine Schraube am Halteteil 43 des Anschlagfingers 28 befestigt ist und dessen Bewegung auf der Schiene 27 folgt. Der Druckluftschlauch 47, das Profilteil 48 und das Federelement 49 bilden die Klemmeinrichtung 42, die den Anschlagfinger 28 an der Schiene 27 arretieren. Dabei wird der Druckluftschlauch 47 mit Druckluft beaufschlagt, so daß er sich aufbläht und das Federelement 49 zwischen sich und dem Profilteil 48 festklemmt. Auf diese Weise wird der Anschlagfinger 28 in seiner Position fixiert. Das Abblasen der Druckluft aus dem Druckluftschlauch 47 wird durch eine nicht dargestellte Löseinrichtung gesteuert. Dieser Löseeinrichtung ist eine Sperreinrichtung vorgeschaltet, die die Löseeinrichtung aktiviert bzw. deaktiviert. Befindet sich der Anschlagfinger 28 in der in der Fig. 6 dargestellten Position, in der er die Biegelinie 23 übergreift, dann ist die Sperreinrichtung unwirksam, so daß über die Löseinrichtung die Druckluft aus dem Druckluftschlauch 47 abgeblasen und dadurch die Klemmwirkung aufgehoben werden kann, so daß der Anschlagfinger 28 auf der Schiene 27 in die gewünschte Position verschoben werden kann. Dabei ist aber, wie bereits oben erwähnt, die Hubbetätigungseinrichtung 7 für die Oberwange 3 durch die Einschaltsperreinrichtung blockiert.The stop finger 28, 29 takes its correct position on the Rail 27, then this is through the clamping device 42 fixed. A compressed air hose 47 is provided for this, which is formed in a substantially C-shaped Profile part 48 is arranged. Between the compressed air hose 47 and the upper leg of the profile part 48 engages Spring element 49 which e.g. via a screw on the holding part 43 the stop finger 28 is attached and its movement the rail 27 follows. The compressed air hose 47, the Profile part 48 and the spring element 49 form the Clamping device 42, the stop finger 28 on the Lock rail 27. The compressed air hose 47 pressurized with compressed air so that it inflates and that Spring element 49 between itself and the profile part 48 stuck. In this way, the stop finger 28 in fixed in position. Blowing off the compressed air from the Compressed air hose 47 is through a not shown Release device controlled. This release device is one Locking device upstream that the release device activated or deactivated. The stop finger is located 28 in the position shown in FIG. 6, in which it overlaps the bending line 23, then the locking device ineffective, so that the compressed air from the release device blown off the compressed air hose 47 and thereby the Clamping effect can be canceled so that the Stop finger 28 on the rail 27 in the desired Position can be moved. However, as is already the case mentioned above, the stroke actuator 7 for the Upper beam 3 blocked by the switch-on blocking device.

Fährt der Anschlagfinger 28 aus der in der Fig. 6 dargestellten Lage zurtick in den Anschlagbereich 24, dann wird die Sperreinrichtung für die Löseeinrichtung aktiviert, so daß nach dem Klemmen des Anschlagfingers 28 in der gewünschten Position die Luft aus dem Druckluftschlauch 47 nicht mehr abgeblasen werden kann. Der Anschlagfinger 28 ist also lediglich in der Position, in der er die Biegelinie 23 übergreift, auf der Schiene 27 verschiebbar, wobei die Klemmeinrichtung 42 gelöst werden kann, so daß das Federelement 49 zwischen dem Druckluftschlauch 47 und dem Profilteil 48 verschiebbar ist.If the stop finger 28 moves out of the position shown in FIG. 6 position shown back in the stop area 24, then the locking device for the release device is activated, so that after clamping the stop finger 28 in the desired position, the air from the compressed air hose 47 can no longer be blown off. The stop finger 28 is So only in the position in which he bends the 23rd overlaps, displaceable on the rail 27, the Clamping device 42 can be released so that the Spring element 49 between the compressed air hose 47 and the Profile part 48 is displaceable.

Claims (9)

  1. A bending press (20) for edging workpieces (22) along a bending line (23), having a work area (17) located in front of the bending line (23), a detent area (24) located behind the bending line (23), having a drive mechanism (21) for the lifting movement of a bending tool (9), having a lift actuating device (7) activating the drive mechanism (21) and a switch locking mechanism for the lift actuating device (7) , having a detent device (26) arranged in the detent area (24), which has a rail (27) which can be displaced perpendicularly in respect to the bending line (23) and positioned by means of a controllable drive mechanism, and on which at least two detent fingers (28, 29), which can be manually displaced along the rail (27), can be positioned and fixed in place by means of a clamping mechanism (42), are arranged, characterized in that a blocking device is provided for releasing the clamping mechanism (42), and that the detent device (26) can be displaced into a position, in which the detent fingers (28, 29) project across the bending line (23) into the work area (17) of the bending press, and that in this position the switch locking mechanism becomes operative, and the blocking device for releasing the clamping mechanism (42) becomes inoperative.
  2. The bending press in accordance with claim 1, characterized in that the clamping mechanism (42) is constituted by a clamping element which, when actuated, clamps the detent fingers (28, 29) to the rail (27).
  3. The bending press in accordance with claim 2, characterized in that the clamping element has at least one element or a corresponding section which, when actuated, presses against the rail (27) and the detent fingers (28, 29).
  4. The bending press in accordance with claim 2 or 3, characterized in that the clamping element is constituted by a compressed air cylinder or a magnet.
  5. The bending press in accordance with one of claims 2 to 4, characterized in that the position and/or shape of the clamping element can be changed by its being charged with a fluid.
  6. The bending press in accordance with one of claims 2, 3 or 5, characterized in that the clamping element consists of a hose which can be filled with a fluid, for example a compressed air hose (47), whose cross-sectional shape and/or position can be changed by means of interior pressure.
  7. The bending press in accordance with one of the preceding claims, characterized in that the switch locking device has a switch which interrupts the energy supply to the lift actuating device (7).
  8. The bending press in accordance with one of the preceding claims, characterized in that the blocking device for releasing the clamping mechanism (42) has a switch which interrupts the energy supply for releasing the clamping mechanism (42).
  9. The bending press in accordance with one of the preceding claims, characterized in that a release device for releasing the clamping mechanism (42) is provided, and that the blocking mechanism deactivates the release device.
EP94115354A 1993-10-08 1994-09-29 Press brake Expired - Lifetime EP0650782B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE9315209U 1993-10-08
DE9315209U DE9315209U1 (en) 1993-10-08 1993-10-08 Press brake

Publications (2)

Publication Number Publication Date
EP0650782A1 EP0650782A1 (en) 1995-05-03
EP0650782B1 true EP0650782B1 (en) 2000-12-13

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Country Status (5)

Country Link
US (1) US5501095A (en)
EP (1) EP0650782B1 (en)
JP (1) JP3012184U (en)
AT (1) ATE198058T1 (en)
DE (2) DE9315209U1 (en)

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DE10163498C1 (en) * 2001-12-21 2003-02-20 Eht Werkzeugmaschinen Gmbh Bending machine with adjustable lower tool has lower tool able to be coupled too adjustable stop, spacing of which from lower tool can be adjusted with coupling released
US7260974B2 (en) 2001-12-21 2007-08-28 Trumpf Maschinen Austria Gmbh & Co Kg Bending machine, especially bending or folding press, comprising an adjustable lower tool
CN102699653A (en) * 2012-05-22 2012-10-03 大明重工有限公司 Tailor-welding and bending method for multi-thick metal plate material
CN102699653B (en) * 2012-05-22 2016-04-20 大明重工有限公司 A kind of many thicknesses of metal sheet material welding bending method
US11267030B2 (en) 2016-10-14 2022-03-08 Trumpf Maschinen Austria Gmbh & Co. Kg Backgauge for a bending machine and method for positioning a backgauge of this kind

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US5501095A (en) 1996-03-26
JP3012184U (en) 1995-06-13
DE9315209U1 (en) 1995-02-16
ATE198058T1 (en) 2000-12-15
EP0650782A1 (en) 1995-05-03
DE59409607D1 (en) 2001-01-18

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