EP0850710B1 - Flexible multiple axle transfer - Google Patents

Flexible multiple axle transfer Download PDF

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Publication number
EP0850710B1
EP0850710B1 EP97122034A EP97122034A EP0850710B1 EP 0850710 B1 EP0850710 B1 EP 0850710B1 EP 97122034 A EP97122034 A EP 97122034A EP 97122034 A EP97122034 A EP 97122034A EP 0850710 B1 EP0850710 B1 EP 0850710B1
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EP
European Patent Office
Prior art keywords
crossbeam
transfer device
transfer
drive
workpieces
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
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EP97122034A
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German (de)
French (fr)
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EP0850710A1 (en
Inventor
Hand Hofele
Peter Dr.-Ing. Klemm
Jürgen Dr.-Ing. Eltze
Kurt Metzger
Stefan Veit
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L Schuler GmbH
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L Schuler GmbH
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    • 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
    • B21D43/02Advancing work in relation to the stroke of the die or tool
    • B21D43/04Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work
    • B21D43/05Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work specially adapted for multi-stage presses

Definitions

  • the invention relates to a transfer device for Transport of workpieces from a work station in a processing station following in the processing sequence.
  • the invention also relates to a processing device with such transfer facilities.
  • a transfer system picks up the workpiece and guides it to the next workstation in the processing sequence and put it there. Gripping or holding means of the The transfer system must then leave the workstation be brought out so as not to hit the workpiece colliding tool.
  • the one in the transfer transfer movement to be carried out by the holding means depends on the specific conditions in relation to the Workpiece and tool dependent. Will the multi-station press or the other processing device retooling a new workpiece is usually the same Adjust transfer curve.
  • the concrete ones Dimensions and parameters of the to be machined Workpieces at the time of conception and / or erection of the multi-station press not to the last Detail set. Therefore the transfer curves in the can be adjusted afterwards.
  • the transfer movement is usually a two-dimensional one Curve consisting of a stroke and a feed component is composed. It may also be required be to swivel the workpieces around transverse axes, if, for example, a different orientation in a drawing step have than in a subsequent press station. In many cases it is useful to choose between several Work stations define different transfer curves.
  • From US-A-4 887 446 is a three-axis transfer trained transfer system known. Belong to this two are along the direction of flow through several press stations extending transfer rails. These are arranged on both sides of the tools. On the transfer rails The retention means provided are for temporary use Picking up the workpieces.
  • the retention means are from held a longitudinal beam which is longitudinally displaceable on the Transfer rail stored and via electric linear drives is driven controlled in the longitudinal direction. Additional linear units are used to move the transfer rail in the vertical stroke direction as well as that Transfer rails towards and away from each other move (open / close).
  • This transfer device which is for all workstations working in unison, only allows lifting, transporting and lowering the workpieces. No other positioning options are provided.
  • the driving forces of each axis are from to apply the drives assigned to the relevant axis, which are on the other drives or Support the guides of the other axis directions.
  • the clipboards claim a noteworthy Installation space, which affects the effort for the press system overall precipitates.
  • a transfer system is known from WO93 / 00185, whose features are the preamble of claim 1 form.
  • the transfer system contains individual, between Transfer stations arranged at work stations. Each Transfer device leads transversely to the direction of the parts pass extending suction bridge along a programmable transfer curve. Two are used for this transfer drives holding the suction bridge at their ends.
  • Each transfer drive demonstrates one vertically below extending extension on which by means of a Drive unit is telescopic in the stroke direction. To the Extension is also by means of a drive unit Lever mounted about a vertical axis, which over a connecting rod is connected to the end of the suction bridge.
  • the acceleration of the suction bridge in Reaction forces occurring in the flow or longitudinal direction are from the vertically telescopic carrier to record.
  • scissor and handlebar guides are from practice known to serve tools in space to lead.
  • the holding means for example suction cups, from a crossbar held up in turn at both ends by Handlebar gearbox is worn and guided.
  • the handlebar gear have handlebar elements that are mainly on train or on pressure and not or only slightly on bending be charged. You're essentially stretched with an offset for space reasons is to be provided.
  • Both handlebar gears position the crossbar fixed in two directions with respect to the longitudinal extent the essentially elongated Crossbar are radial directions. This is one controlled parallel guidance possible.
  • a handlebar gearbox the position of the crossbar in one further direction, for example in the longitudinal direction of the crossbar firmly. This position can be fixed or be adjustable.
  • the drive units attached to the ends of the link elements remote from the carrier means can be articulated, the steering gear operated by the handlebar elements individually or together be moved synchronously or unsynchronously.
  • a control unit coordinates these movements so that a desired one Transfer curve is obtained.
  • the maximum six possible degrees of freedom of the Holding means do not only allow a translation of the Workpiece but also tilting, turning and swiveling the same around all three spatial directions. So that's one Transfer facility created in the design the workpieces and tools have a high degree of freedom of movement allows. So the transfer system is also for possible ones suitable for future complicated tasks.
  • the transfer device can do less than six degrees of freedom, with the Handlebar elements, however, at least in two different Extend directions away from the support means and this at two articulation points located apart from each other wear. Even with such a system, they share loads and forces acting on the crossbar the handlebar elements and drive units.
  • the drive units are preferably each stored stationary. Each drive unit thus manages the Drives and managers directly in a base frame from. This results in a rigid mounting and guidance of the Carrier and thus even at high transfer speeds good positioning accuracy.
  • the Handlebar elements can be made light and stiff.
  • the drive units are preferably linear drives, whose outputs each define an axial direction. Although these differ in principle from each other could result with corresponding axial directions, i.e. parallel directions of movement, the individual Outputs clear geometric relationships that the calculation of the individual control signals of the drive units facilitated by the control device.
  • the drive units are preferably electrical Drives where the rotary motion of a servo motor via appropriate gear means in a linear movement is implemented or in which the linear movement by Linear motors is generated directly.
  • a processing device such as For example, a multi-station press that is used for the transfer reduce the required times and thus the work cycle to increase the multi-station press. It is it is also possible to schedule the individual press stations to work offset against each other, so that by the phase shift between successive ones Press or work stations have sufficient transfer time is made possible. Conversely, with a press circulation less time is reserved for the transfer, which means also the work cycle of the multi-station press can accelerate.
  • Multi-station press 1 has several in a row arranged work or press stations 2, 3, 4, 5, 6 on, on sliding tables 8, 9, 10, 11, 12 dies 14, 15, 16, 17, 18 are held. These form sub-tools, which each have an upper tool 21, 22, 23, 24, 25 is assigned. This is in each case on a plunger 26, 27, 28, 29, 30 held, the one beyond shown eccentric drive or an articulated drive is moved up and down.
  • the drive and the Tappets are supported by a not shown Press frame from which in Fig. 1 only schematically and exemplifies part of a stand 31 is.
  • the plungers 26 to 30 lead out of phase with one another an up and down movement.
  • time and phase offset of the ram movement neighboring plunger is compared to in common mode working plungers achieve a better load distribution.
  • Required flywheel masses can be significantly reduced and the multi-station press becomes a total lighter.
  • a transfer device 41, 42, 43, 44 arranged along the workpieces a direction of travel T through the multi-station press 1 transport.
  • the transfer devices 41 to 44 are identical to each other and below using the example of the transfer device 41.
  • This has a crossbar 46 which is transverse to the Passage direction T extends and along a transfer curve K is to be moved.
  • On the crossbar is one Suction spider 47 held so that the crossbar 46th together with the suction spider 47 a vacuum operated Holding agent forms.
  • the crossbar 46 is at both ends Joint units 48, 49 connected, each to one Handlebar gear 50 (50a, 50b) belong.
  • the joint unit 48 is with the crossbar 46 via a hinge joint 51 connected, the hinge axis 52 with the direction of passage T matches.
  • At the other end is the Crossbar 46 with the hinge unit 49 rigid or articulated.
  • the steering gear 50a puts the Position of the crossbar 46 in the direction of T and in the vertical direction V.
  • the steering gear 50b sets also the position of the crossbar 46 in the direction of passage T and in the vertical direction V and additionally in Transverse direction fixed.
  • the joint unit 48 is made up of a total of three handlebars or rods 53, 54, 55 carried. These are included one end each with a joint on the joint unit 48 stored, the at least one pivoting movement by one Axis 56 oriented transversely to the direction of travel T allowed.
  • the joints of the rods 53, 54 have the Joint axis 56 together.
  • The is spaced from it Rod 55 articulated to the joint unit 48.
  • the hinge axis 57 of the corresponding joint is to the joint axis 56 parallel and spaced from this.
  • Each rod 53, 54, 55 is with its from the joint unit 48 remote ends each with a vertical oriented linear drive unit 61, 62, 63 connected.
  • the linear drive units 61, 62, 63 each have one guided on guide rails 65 in the vertical direction Slide 67, 68, 69 on the one with the one in question Rod 53, 54, 55 with at least one transverse axis defining joint is connected.
  • a servo motor drives the slide 67 71, the rotational movement of which is not further illustrated Gear means, such as a toothed belt, a screw jack, a rack or the like, converted into a linear movement and on the Carriage 61 is transmitted. Accordingly, the Carriage 69 driven by a servo motor 72, the Rotary movement via a reduction gear 73 and one Toothed belt drive 74 or comparable gear means in a linear movement is implemented using a connecting rod 75 is transferred to the carriage 69.
  • Another servo motor 77 is via a reduction gear 78 and a toothed belt 79 and a connecting rod 80 connected to the carriage 68.
  • All drive units 61, 62, 63 are stationary stored machine parts or elements, such as stands, Frame or the like, stored.
  • rods 83, 84, 85 pivotable about several axes articulated, which belong to the steering gear section 50b.
  • pivoting movement about a transverse axis 58 also at least limited swiveling movements by one Vertical axis and / or a longitudinal axis possible.
  • the multi-station press 1 described so far works as follows:
  • the movement of the press rams 26 to 30 is like this coordinated that the in the direction of flow tappets downstream of part flow the preceding (upstream) Tappets lag by a time offset, which in the essentially corresponds to the time that each transfer device 41 to 44 required to the crossbar 46 of one workstation to the next workstation to pan.
  • the top tool begins 21 move upward, the servomotors 71, 72, 77; 96, 98, 101 controlled so that the crossbar 46 swings into the opened tool and the workpiece records.
  • the control device not shown controls the servomotors 71, 72, 77; 96, 98, 101 so that the desired transfer curve K is obtained. Swiveling movements of the workpiece around a transverse axis or other more complicated positioning tasks can be done without more to be done during the transfer. As Fig. 5 shows, the transfer device has six degrees of freedom on. If necessary, the number of degrees of freedom can be reduced, the transfer device in question then simplified accordingly. In the simplest embodiment are only two linear axes available, each via pairs of rods on the Attack crossbar 46. This allows two-dimensional Achieve transfer curves K.
  • handlebar elements are adjustable in length trained and with their respective, from the Transverse crossbar end fixed over a joint stored.
  • the drive units are in the handlebar elements integrated.
  • Simplified embodiments can be reduced Have number of drives. E.g. can they Bars 53 and 55 both on carriage 67 or 69 be stored when there is no pivoting of the cross-beam is required. It is also possible to attach the rod 83 the carriage of rod 84 or 85 if none Adjustment in the transverse direction Q is required.
  • Transfer device 41 has one of several Bars 53, 54, 55; 83, 84, 85 worn restraint (46, 47) on that of the rods 53, 54, 55; 83, 84, 85 is pivotable and positionable in the room.
  • the poles 53, 54, 55; 83, 84, 85 are preferably with linear drive devices 61, 62, 63; 86, 87, 88 connected, the thus act together on the holding means 46, 47.
  • Embodiment grab three of the rods 53, 54, 55; 83, 84, 85 at a first hinge point 49 of the retaining means 46, 47. Define with their other ends these rods 83, 84, 85 a triangle.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Manipulator (AREA)
  • Specific Conveyance Elements (AREA)
  • Press Drives And Press Lines (AREA)

Description

Die Erfindung betrifft eine Transfereinrichtung zum Transport von Werkstücken aus einer Arbeitsstation in eine in der Bearbeitungsfolge nachfolgende Bearbeitungsstation. Außerdem betrifft die Erfindung eine Bearbeitungseinrichtung mit solchen Transfereinrichtungen.The invention relates to a transfer device for Transport of workpieces from a work station in a processing station following in the processing sequence. The invention also relates to a processing device with such transfer facilities.

Ein Transfersystem nimmt das Werkstück auf, führt es zu der in der Bearbeitungsfolge nächsten Arbeitsstation und legt es dort ab. Greifer- oder Festhaltemittel des Transfersystemes müssen danach aus der Arbeitsstation herausgeführt werden, um nicht mit dem auf das Werkstück einwirkenden Werkzeug zu kollidieren. Die bei dem Transfer von dem Festhaltemittel durchzuführende Transferbewegung ist von den konkreten Gegebenheiten in Bezug auf das Werkstück und das Werkzeug abhängig. Wird die Mehrstationenpresse oder die sonstige Bearbeitungseinrichtung auf ein neues Werkstück umgerüstet, ist in der Regel auch die Transferkurve anzupassen. Darüber hinaus sind die konkreten Abmessungen und Parameter der zu bearbeitenden Werkstücke zum Zeitpunkt der Konzeption und/oder Errichtung der Mehrstationenpresse noch nicht bis ins letzte Detail festgelegt. Deshalb müssen die Transferkurven im nachhinein eingestellt werden können.A transfer system picks up the workpiece and guides it to the next workstation in the processing sequence and put it there. Gripping or holding means of the The transfer system must then leave the workstation be brought out so as not to hit the workpiece colliding tool. The one in the transfer transfer movement to be carried out by the holding means depends on the specific conditions in relation to the Workpiece and tool dependent. Will the multi-station press or the other processing device retooling a new workpiece is usually the same Adjust transfer curve. In addition, the concrete ones Dimensions and parameters of the to be machined Workpieces at the time of conception and / or erection of the multi-station press not to the last Detail set. Therefore the transfer curves in the can be adjusted afterwards.

Die Transferbewegung ist in der Regel eine zweidimensionale Kurve, die aus einer Hub- und einer Vorschubkomponente zusammengesetzt ist. Zusätzlich kann es erforderlich sein, die Werkstücke um Querachsen zu schwenken, wenn diese bspw. in einer Ziehstufe eine andere Orientierung aufweisen als in einer nachfolgenden Pressenstation. In vielen Fällen ist es zweckmäßig, zwischen mehreren Arbeitsstationen unterschiedliche Transferkurven festzulegen.The transfer movement is usually a two-dimensional one Curve consisting of a stroke and a feed component is composed. It may also be required be to swivel the workpieces around transverse axes, if, for example, a different orientation in a drawing step have than in a subsequent press station. In many cases it is useful to choose between several Work stations define different transfer curves.

Um mit der Mehrstationenpresse bedarfsweise auch Werkstücke bearbeiten zu können, die in aufeinanderfolgenden Pressenstationen um verschiedene Achsen unterschiedlich auszurichten sind, und um dabei möglichst keinen Beschränkungen durch die Transfereinrichtung zu unterliegen, ist eine Transfereinrichtung mit möglichst vielen Bewegungsmöglichkeiten bei minimaler Anzahl von Antrieben zu wünschen. Jedoch ist gleichzeitig eine ausreichende Positioniergenauigkeit und eine möglichst hohe Transfergeschwindigkeit zu wünschen, um eine hohe Arbeitsgeschwindigkeit der Mehrstationenpresse zu ermöglichen.To use the multi-station press if necessary To be able to machine workpieces in successive Press stations around different axes differently are to be aligned, and to do so as far as possible no restrictions by the transfer facility a transfer facility with is possible many movement options with a minimal number of Drives to be desired. However, at the same time it is one sufficient positioning accuracy and one if possible high transfer speed to a high To enable working speed of the multi-station press.

Aus der US-A-4 887 446 ist ein als Dreiachstransfer ausgebildetes Transfersystem bekannt. Zu diesem gehören zwei sich längs der Durchlaufrichtung über mehrere Pressenstationen erstreckende Transferschienen. Diese sind beidseits der Werkzeuge angeordnet. An den Transferschienen vorgesehene Festhaltemittel dienen der temporären Aufnahme der Werkstücke. Die Festhaltemittel sind von einem Längsträger gehalten, der längsverschiebbar an der Transferschiene gelagert und über elektrische Linearantriebe in Längsrichtung gesteuert angetrieben ist. Weitere Lineareinheiten dienen der Bewegung der Transferschiene in der vertikalen Hubrichtung sowie dazu, die Transferschienen aufeinander zu und voneinander weg zu bewegen (Öffnen/Schließen) .From US-A-4 887 446 is a three-axis transfer trained transfer system known. Belong to this two are along the direction of flow through several press stations extending transfer rails. These are arranged on both sides of the tools. On the transfer rails The retention means provided are for temporary use Picking up the workpieces. The retention means are from held a longitudinal beam which is longitudinally displaceable on the Transfer rail stored and via electric linear drives is driven controlled in the longitudinal direction. Additional linear units are used to move the transfer rail in the vertical stroke direction as well as that Transfer rails towards and away from each other move (open / close).

Diese Transfervorrichtung, die für alle Arbeitsstationen im Gleichtakt arbeitet, ermöglicht lediglich ein Heben, Transportieren und Absenken der Werkstücke. Weitere Positioniermöglichkeiten sind nicht vorgesehen. Außerdem sind die Antriebskräfte jeder Achse allein von den der betreffenden Achse zugeordneten Antrieben aufzubringen, die sich dabei an den anderen Antrieben oder Führungen der anderen Achsrichtungen abstützen.This transfer device, which is for all workstations working in unison, only allows lifting, transporting and lowering the workpieces. No other positioning options are provided. In addition, the driving forces of each axis are from to apply the drives assigned to the relevant axis, which are on the other drives or Support the guides of the other axis directions.

Aus der DE 42 37 312 A1 ist ein Zweiachstransfer bekannt, bei dem zwischen den sich in Durchlaufrichtung erstreckenden Transferschienen Quertraversen mit Saugerspinnen angeordnet sind. Die Quertraversen führen eine Transferbewegung aus, in deren Verlauf sie in Vertikalrichtung und in Durchlaufrichtung bewegt werden. Ein Kippen der Werkstücke um die Querachse erfolgt in sogenannten Zwischenablagen, die zwischen den Pressenstationen angeordnet sind.DE 42 37 312 A1 describes a two-axis transfer known, between which is in the direction of flow extending transfer rails cross beams with suction spiders are arranged. The crossbeams lead one Transfer movement, in the course of which they move in the vertical direction and be moved in the direction of flow. On The workpieces are tilted about the transverse axis in so-called Clipboards between the press stations are arranged.

Die Zwischenablagen beanspruchen einen nennenswerten Bauraum, was sich auf den Aufwand für die Pressenanlage insgesamt niederschlägt.The clipboards claim a noteworthy Installation space, which affects the effort for the press system overall precipitates.

Aus der WO93/00185 ist ein Transfersystem bekannt, dessen Merkmale den Oberbegriff des Patentanspruchs 1 bilden. Das Transfersystem enthält einzelne, zwischen Arbeitsstationen angeordnete Transfereinrichtungen. Jede Transfereinrichtung führt eine sich quer zu der Teiledurchlaufrichtung erstreckende Saugerbrücke entlang einer programmierbaren Transferkurve. Dazu dienen jeweils zwei die Saugerbrücke an ihren Enden haltende Transferantriebe. Jeder Transferantrieb weist einen sich vertikal nach unten erstreckenden Fortsatz auf, der mittels einer Antriebseinheit in Hubrichtung teleskopierbar ist. An dem Fortsatz ist ein ebenfalls mittels einer Antriebseinheit um eine Vertikalachse drehbarer Hebel gelagert, der über ein Pleuel mit dem Ende der Saugerbrücke verbunden ist.A transfer system is known from WO93 / 00185, whose features are the preamble of claim 1 form. The transfer system contains individual, between Transfer stations arranged at work stations. Each Transfer device leads transversely to the direction of the parts pass extending suction bridge along a programmable transfer curve. Two are used for this transfer drives holding the suction bridge at their ends. Each transfer drive demonstrates one vertically below extending extension on which by means of a Drive unit is telescopic in the stroke direction. To the Extension is also by means of a drive unit Lever mounted about a vertical axis, which over a connecting rod is connected to the end of the suction bridge.

Die bei der Beschleunigung der Saugerbrücke in Durchlauf- oder Längsrichtung auftretenden Reaktionskräfte sind von dem vertikal teleskopierbaren Träger aufzunehmen.The acceleration of the suction bridge in Reaction forces occurring in the flow or longitudinal direction are from the vertically telescopic carrier to record.

Außerdem sind aus der Praxis Scheren- und Lenkerführungen bekannt, die dazu dienen, Werkzeuge im Raum zu führen.In addition, scissor and handlebar guides are from practice known to serve tools in space to lead.

Davon ausgehend ist es Aufgabe der Erfindung, eine vielseitig einsetzbare Transfereinrichtung zu schaffen.Based on this, it is an object of the invention to to create versatile transfer device.

Diese Aufgabe wird durch eine Transfereinrichtung nach Anspruch 1 gelöst.This task is done by a transfer facility solved according to claim 1.

Bei der erfindungsgemäßen Transfereinrichtung sind die Festhaltemittel, bspw. Sauger, von einer Quertraverse gehalten, die ihrerseits an ihren beiden Enden durch Lenkergetriebe getragen und geführt ist. Die Lenkergetriebe weisen Lenkerelemente auf, die vorwiegend auf Zug oder auf Druck und nicht oder nur gering auf Biegung belastet werden. Sie sind im wesentlichen gestreckt, wobei aus Platzgründen gegebenenfalls eine Kröpfung vorzusehen ist.In the transfer device according to the invention the holding means, for example suction cups, from a crossbar held up in turn at both ends by Handlebar gearbox is worn and guided. The handlebar gear have handlebar elements that are mainly on train or on pressure and not or only slightly on bending be charged. You're essentially stretched with an offset for space reasons is to be provided.

Beide Lenkergetriebe legen die Position der Quertraverse in zwei Richtungen fest, die bezüglich der Längserstreckung der im wesentlichen länglich ausgebildeten Quertraverse Radialrichtungen sind. Dadurch ist eine kontrollierte Parallelführung möglich. Zusätzlich legt ein Lenkergetriebe die Position der Quertraverse in einer weiteren Richtung, bspw. in Längsrichtung der Quertraverse fest. Diese Position kann fest eingestellt oder verstellbar sein.Both handlebar gears position the crossbar fixed in two directions with respect to the longitudinal extent the essentially elongated Crossbar are radial directions. This is one controlled parallel guidance possible. In addition sets a handlebar gearbox the position of the crossbar in one further direction, for example in the longitudinal direction of the crossbar firmly. This position can be fixed or be adjustable.

Die Lenkerelemente greifen an der Quertraverse so an, daß deren Position bezüglich aller Freiheitsgrade definiert ist. Handelt es sich bspw. um eine Transfereinrichtung mit sechs Freiheitsgraden, sind insgesamt wenigstens sechs Lenkerelemente vorgesehen, die aus drei unterschiedlichen Richtungen und an drei voneinander beabstandeten Anlenkpunkten oder -stellen an dem Trägermittel angreifen. Mittels der Antriebseinheiten, die an den von dem Trägermittel abliegenden Enden der Lenkerelemente angelenkt sein können, wird das Lenkergetriebe betätigt, indem die Lenkerelemente einzeln oder gemeinsam synchron oder unsynchron bewegt werden. Eine Steuereinheit koordiniert diese Bewegungen so, daß eine gewünschte Transferkurve erhalten wird.The handlebar elements grip the crossbar like this indicates that their position with respect to all degrees of freedom is defined. Is it a transfer device, for example with six degrees of freedom, are total at least six link elements are provided, consisting of three different directions and in three from each other spaced articulation points or points on the carrier means attack. By means of the drive units attached to the ends of the link elements remote from the carrier means can be articulated, the steering gear operated by the handlebar elements individually or together be moved synchronously or unsynchronously. A control unit coordinates these movements so that a desired one Transfer curve is obtained.

Die maximal sechs möglichen Freiheitsgrade des Festhaltemittels gestatten nicht nur eine Translation des Werkstückes sondern auch ein Kippen, Drehen und Schwenken desselben um alle drei Raumrichtungen. Damit ist eine Transfereinrichtung geschaffen, die bei der Gestaltung der Werkstücke und Werkzeuge ein hohes Maß an Freizügigkeit zuläßt. Damit ist das Transfersystem auch für mögliche zukünftige komplizierte Aufgaben geeignet.The maximum six possible degrees of freedom of the Holding means do not only allow a translation of the Workpiece but also tilting, turning and swiveling the same around all three spatial directions. So that's one Transfer facility created in the design the workpieces and tools have a high degree of freedom of movement allows. So the transfer system is also for possible ones suitable for future complicated tasks.

Die auf die Quertraverse einwirkenden Kräfte sowie deren Trägheitskräfte teilen sich auf die Lenkerelemente und die Antriebseinheiten auf, so daß jede Antriebseinheit lediglich noch einen Teil der zum Durchlaufen der Transferkurve erforderlichen Kraft bzw. Leistung aufbringen muß. Es lassen sich dadurch insgesamt relativ große Beschleunigungen erzielen, was die Transferzeiten verkürzt.The forces acting on the crossbar as well their inertial forces are shared between the handlebar elements and the drive units so that each drive unit only a part of the to go through the Apply the required force or power to the transfer curve got to. It can be relative overall achieve great accelerations what the transfer times shortened.

Die Transfereinrichtung kann bedarfsweise mit weniger als sechs Freiheitsgraden auskommen, wobei sich die Lenkerelemente jedoch wenigstens in zwei unterschiedlichen Richtungen von dem Trägermittel weg erstrecken und dieses an zwei voneinander entfernt liegenden Anlenkpunkten tragen. Auch bei einem solchen System teilen sich die an der Quertraverse angreifenden Lasten und Kräfte auf die Lenkerelemente und Antriebseinheiten auf.If necessary, the transfer device can do less than six degrees of freedom, with the Handlebar elements, however, at least in two different Extend directions away from the support means and this at two articulation points located apart from each other wear. Even with such a system, they share loads and forces acting on the crossbar the handlebar elements and drive units.

Die Antriebseinheiten sind vorzugsweise jeweils ortsfest gelagert. Damit leitet jede Antriebseinheit die Antriebs- und Führungskräfte direkt in ein Grundgestell ab. Dies ergibt eine steife Lagerung und Führung des Trägermittels und somit selbst bei hohen Transfergeschwindigkeiten eine gute Positionierungsgenauigkeit. Die Lenkerelemente können leicht und steif ausgebildet werden.The drive units are preferably each stored stationary. Each drive unit thus manages the Drives and managers directly in a base frame from. This results in a rigid mounting and guidance of the Carrier and thus even at high transfer speeds good positioning accuracy. The Handlebar elements can be made light and stiff.

Die Antriebseinheiten sind vorzugsweise Linearantriebe, deren Abtriebe jeweils eine Achsrichtung definieren. Obwohl diese prinzipiell voneinander abweichen könnten, ergeben sich mit übereinstimmenden Achsrichtungen, d.h. parallelen Bewegungsrichtungen, der einzelnen Abtriebe übersichtliche geometrische Verhältnisse, die die Berechnung der einzelnen Ansteuersignale der Antriebseinheiten durch die Steuereinrichtung erleichtern.The drive units are preferably linear drives, whose outputs each define an axial direction. Although these differ in principle from each other could result with corresponding axial directions, i.e. parallel directions of movement, the individual Outputs clear geometric relationships that the calculation of the individual control signals of the drive units facilitated by the control device.

Die Antriebseinheiten sind vorzugsweise elektrische Antriebe, bei denen die Drehbewegung eines Servomotors über entsprechende Getriebemittel in eine Linearbewegung umgesetzt wird oder bei denen die Linearbewegung durch Linearmotoren direkt erzeugt wird.The drive units are preferably electrical Drives where the rotary motion of a servo motor via appropriate gear means in a linear movement is implemented or in which the linear movement by Linear motors is generated directly.

Ein einfacher Zweiachstransfer ergibt sich, wenn die Lenkergetriebe derart ausgelegt sind, daß die Position der Quertraverse bezüglich ihrer Längsrichtung festgelegt, nicht aber verstellbar ist.A simple two-axis transfer results if the Handlebar gearboxes are designed so that the position the crossbeam is fixed with respect to its longitudinal direction, is not adjustable.

Bei allen vorgenannten Ausführungsformen wirken die Antriebseinheiten beim Beschleunigen des Festhaltemittels zusammen und summieren sich so in ihrer Wirkung. Dies ermöglicht es bei einer Bearbeitungseinrichtung, wie bspw. einer Mehrstationenpresse, die für den Transfer erforderlichen Zeiten zu verringern und somit den Arbeitstakt der Mehrstationenpresse zu erhöhen. Dabei ist es auch möglich, die einzelnen Pressenstationen zeitlich gegeneinander versetzt arbeiten zu lassen, so daß durch den Phasenversatz zwischen einzelnen aufeinanderfolgenden Pressen- oder Arbeitsstationen genügend Transferzeit ermöglicht wird. Umgekehrt muß bei einem Pressenumlauf weniger Zeit für den Transfer reserviert werden, wodurch sich ebenfalls der Arbeitstakt der Mehrstationenpresse beschleunigen läßt.In all of the aforementioned embodiments, the Drive units when accelerating the holding means together and thus add up in their effect. This enables it with a processing device such as For example, a multi-station press that is used for the transfer reduce the required times and thus the work cycle to increase the multi-station press. It is it is also possible to schedule the individual press stations to work offset against each other, so that by the phase shift between successive ones Press or work stations have sufficient transfer time is made possible. Conversely, with a press circulation less time is reserved for the transfer, which means also the work cycle of the multi-station press can accelerate.

In der Zeichnung ist ein Ausführungsbeispiel der Erfindung dargestellt. Es zeigen:

Fig. 1
eine Mehrstationenpresse mit zwischen einzelnen Arbeitsstationen angeordneten Transfereinrichtungen, in schematisierter und ausschnittsweiser Darstellung,
Fig. 2
die Mehrstationenpresse nach Fig. 1 in einer aufs äußerste schematisierten Seitenansicht,
Fig. 3
die Transfereinrichtung der Mehrstationenpresse nach den Fig. 1 und 2, in einer perspektivischen, schematisierten Ansicht,
Fig. 4
die Transfereinrichtung nach Fig. 3 in einer schematisierten Draufsicht, und
Fig. 5
die Kinematik der Transfereinrichtung nach den Fig. 3 und 4.
In the drawing, an embodiment of the invention is shown. Show it:
Fig. 1
a multi-station press with transfer devices arranged between individual work stations, in a schematic and partial representation,
Fig. 2
1 in an extremely schematic side view,
Fig. 3
the transfer device of the multi-station press according to FIGS. 1 and 2, in a perspective, schematic view,
Fig. 4
3 in a schematic plan view, and
Fig. 5
the kinematics of the transfer device according to FIGS. 3 and 4.

Eine in den Fig. 1 und 2 schematisiert veranschaulichte Mehrstationenpresse 1 weist mehrere hintereinander angeordnete Arbeits- oder Pressenstationen 2, 3, 4, 5, 6 auf, in denen an Schiebetischen 8, 9, 10, 11, 12 Gesenke 14, 15, 16, 17, 18 gehalten sind. Diese bilden Unterwerkzeuge, denen jeweils ein Oberwerkzeug 21, 22, 23, 24, 25 zugeordnet ist. Dieses ist jeweils an einem Stößel 26, 27, 28, 29, 30 gehalten, der über einen nicht weiter dargestellten Exzenter-Antrieb oder auch einen Gelenkantrieb auf und ab bewegt wird. Der Antrieb und die Stößel stützen sich über einen nicht weiter dargestellten Pressenrahmen ab, von dem in Fig. 1 lediglich schematisch und beispielhaft ein Teil eines Ständers 31 veranschaulicht ist.One illustrated schematically in FIGS. 1 and 2 Multi-station press 1 has several in a row arranged work or press stations 2, 3, 4, 5, 6 on, on sliding tables 8, 9, 10, 11, 12 dies 14, 15, 16, 17, 18 are held. These form sub-tools, which each have an upper tool 21, 22, 23, 24, 25 is assigned. This is in each case on a plunger 26, 27, 28, 29, 30 held, the one beyond shown eccentric drive or an articulated drive is moved up and down. The drive and the Tappets are supported by a not shown Press frame from which in Fig. 1 only schematically and exemplifies part of a stand 31 is.

Die Stößel 26 bis 30 führen zueinander phasenversetzt eine auf und ab gehende Bewegung aus. Durch den zeitlichen und phasenmäßigen Versatz der Stößelbewegung benachbarter Stößel wird im Vergleich zu im Gleichtakt arbeitenden Stößeln eine bessere Lastverteilung erreicht. Erforderliche Schwungmassen können deutlich reduziert werden und die Mehrstationenpresse wird dadurch insgesamt leichter. Außerdem ist ein wenigstens teilweiser Gewichtsausgleich der Stößelgewichte möglich.The plungers 26 to 30 lead out of phase with one another an up and down movement. By the time and phase offset of the ram movement neighboring plunger is compared to in common mode working plungers achieve a better load distribution. Required flywheel masses can be significantly reduced and the multi-station press becomes a total lighter. There is also an at least partial weight balance the ram weights possible.

Zwischen jeweils zwei benachbarten Arbeitsstationen 2, 3; 3, 4; 4, 5; 5, 6 ist jeweils eine Transfereinrichtung 41, 42, 43, 44 angeordnet, die die Werkstücke entlang einer Durchlaufrichtung T durch die Mehrstationenpresse 1 transportieren. Die Transfereinrichtungen 41 bis 44 sind untereinander gleich ausgebildet und nachfolgend am Beispiel der Transfereinrichtung 41 beschrieben. Diese weist eine Quertraverse 46 auf, die sich quer zu der Durchlaufrichtung T erstreckt und entlang einer Transferkurve K zu bewegen ist. Auf der Quertraverse ist eine Saugerspinne 47 gehalten, so daß die Quertraverse 46 gemeinsam mit der Saugerspinne 47 ein vakuumbetätigtes Festhaltemittel bildet.Between two neighboring workstations 2, 3; 3, 4; 4, 5; 5, 6 is a transfer device 41, 42, 43, 44 arranged along the workpieces a direction of travel T through the multi-station press 1 transport. The transfer devices 41 to 44 are identical to each other and below using the example of the transfer device 41. This has a crossbar 46 which is transverse to the Passage direction T extends and along a transfer curve K is to be moved. On the crossbar is one Suction spider 47 held so that the crossbar 46th together with the suction spider 47 a vacuum operated Holding agent forms.

An ihren beiden Enden ist die Quertraverse 46 mit Gelenkeinheiten 48, 49 verbunden, die jeweils zu einem Lenkergetriebe 50 (50a, 50b) gehören. Die Gelenkeinheit 48 ist mit der Quertraverse 46 über ein Scharniergelenk 51 verbunden, dessen Scharnierachse 52 mit der Durchlaufrichtung T übereinstimmt. An ihrem anderen Ende ist die Quertraverse 46 mit der Scharniereinheit 49 starr oder gelenkig verbunden. Das Lenkergetriebe 50a legt die Position der Quertraverse 46 in Durchlaufrichtung T und in Vertikalrichtung V fest. Das Lenkergetriebe 50b legt ebenfalls die Position der Quertraverse 46 in Durchlaufrichtung T und in Vertikalrichtung V sowie zusätzlich in Querrichtung fest.The crossbar 46 is at both ends Joint units 48, 49 connected, each to one Handlebar gear 50 (50a, 50b) belong. The joint unit 48 is with the crossbar 46 via a hinge joint 51 connected, the hinge axis 52 with the direction of passage T matches. At the other end is the Crossbar 46 with the hinge unit 49 rigid or articulated. The steering gear 50a puts the Position of the crossbar 46 in the direction of T and in the vertical direction V. The steering gear 50b sets also the position of the crossbar 46 in the direction of passage T and in the vertical direction V and additionally in Transverse direction fixed.

Die Gelenkeinheit 48 ist von insgesamt drei Lenkern oder Stangen 53, 54, 55 getragen. Dazu sind diese mit jeweils einem Ende mit einem Gelenk an der Gelenkeinheit 48 gelagert, das wenigstens eine Schwenkbewegung um eine quer zu der Durchlaufrichtung T orientierte Achse 56 gestattet. Die Gelenke der Stangen 53, 54 haben dabei die Gelenkachse 56 gemeinsam. Davon beabstandet ist die Stange 55 an der Gelenkeinheit 48 angelenkt. Die Gelenkachse 57 des entsprechenden Gelenkes ist zu der Gelenkachse 56 parallel und von dieser beabstandet.The joint unit 48 is made up of a total of three handlebars or rods 53, 54, 55 carried. These are included one end each with a joint on the joint unit 48 stored, the at least one pivoting movement by one Axis 56 oriented transversely to the direction of travel T allowed. The joints of the rods 53, 54 have the Joint axis 56 together. The is spaced from it Rod 55 articulated to the joint unit 48. The hinge axis 57 of the corresponding joint is to the joint axis 56 parallel and spaced from this.

Jede Stange 53, 54, 55 ist mit ihrem von der Gelenkeinheit 48 abliegenden Ende jeweils mit einer vertikal orientierten Linearantriebseinheit 61, 62, 63 verbunden. Die Linearantriebseinheiten 61, 62, 63 weisen jeweils einen an Führungsschienen 65 in Vertikalrichtung geführten Schlitten 67, 68, 69 auf, der mit der betreffenden Stange 53, 54, 55 mit einem wenigstens eine Querachse definierenden Gelenk verbunden ist. Each rod 53, 54, 55 is with its from the joint unit 48 remote ends each with a vertical oriented linear drive unit 61, 62, 63 connected. The linear drive units 61, 62, 63 each have one guided on guide rails 65 in the vertical direction Slide 67, 68, 69 on the one with the one in question Rod 53, 54, 55 with at least one transverse axis defining joint is connected.

Zum Antrieb des Schlittens 67 dient ein Servomotor 71, dessen Drehbewegung von einem nicht weiter veranschaulichten Getriebemittel, wie bspw. einem Zahnriemen, einem Spindelhubgetriebe, einer Zahnstange oder dergleichen, in eine Linearbewegung umgewandelt und auf den Schlitten 61 übertragen wird. Entsprechend wird der Schlitten 69 von einem Servomotor 72 angetrieben, dessen Drehbewegung über ein Untersetzungsgetriebe 73 und einen Zahnriementrieb 74 oder vergleichbare Getriebemittel in eine Linearbewegung umgesetzt wird, die über eine Verbindungsstange 75 auf den Schlitten 69 übertragen wird. Ein weiterer Servomotor 77 ist über ein Untersetzungsgetriebe 78 und einen Zahnriemen 79 sowie eine Verbindungsstange 80 mit dem Schlitten 68 verbunden. Zusätzlich zu den Schwenkbewegungen um die Querachsen können die insgesamt sechs an den Enden der Stangen 53, 54, 55 vorhandenen Gelenke noch Schwenkbewegungen in dazu rechtwinkligen Richtungen, wenigstens in einem beschränkten Schwenkbereich zulassen.A servo motor drives the slide 67 71, the rotational movement of which is not further illustrated Gear means, such as a toothed belt, a screw jack, a rack or the like, converted into a linear movement and on the Carriage 61 is transmitted. Accordingly, the Carriage 69 driven by a servo motor 72, the Rotary movement via a reduction gear 73 and one Toothed belt drive 74 or comparable gear means in a linear movement is implemented using a connecting rod 75 is transferred to the carriage 69. Another servo motor 77 is via a reduction gear 78 and a toothed belt 79 and a connecting rod 80 connected to the carriage 68. In addition to the swiveling movements around the transverse axes a total of six at the ends of the rods 53, 54, 55 existing joints still swiveling movements at right angles to it Directions, at least in a limited Allow swivel range.

Alle Antriebseinheiten 61, 62, 63 sind an ortsfest gelagerten Maschinenteilen oder Elementen, wie Ständern, Rahmen oder dergleichen, gelagert.All drive units 61, 62, 63 are stationary stored machine parts or elements, such as stands, Frame or the like, stored.

An der gegenüberliegenden Gelenkeinheit 49 sind ebenfalls Stangen 83, 84, 85 um mehrere Achsen schwenkbar angelenkt, die zu dem Lenkergetriebeabschnitt 50b gehören. Neben der Schwenkbewegung um eine Querachse 58 sind auch wenigstens begrenzte Schwenkbewegungen um eine Hochachse und/oder eine Längsachse möglich.Are on the opposite joint unit 49 also rods 83, 84, 85 pivotable about several axes articulated, which belong to the steering gear section 50b. In addition to the pivoting movement about a transverse axis 58 also at least limited swiveling movements by one Vertical axis and / or a longitudinal axis possible.

Anderenends sind die Stangen 83, 84, 85 mit Antriebseinheiten 86, 87, 88 verbunden. Diese weisen jeweils einen an Führungsschienen 91 vertikal verschiebbar gelagerten Schlitten 92, 93, 94 auf. Der Schlitten 92 ist durch einen Servomotor 96 angetrieben, der über ein die Drehbewegung in eine Linearbewegung wandelndes Getriebe 97 mit dem Schlitten 92 verbunden ist. Entsprechend ist ein Servomotor 98 über ein solches Getriebemittel 99 mit dem Schlitten 93 verbunden. Zum Antrieb des Schlittens 94 dient ein Servomotor 101, der über ein seine Drehbewegung in eine Linearbewegung wandelndes Getriebemittel 102 mit diesem verbunden ist.At the other ends are the rods 83, 84, 85 with drive units 86, 87, 88 connected. These each point one vertically displaceable on guide rails 91 mounted carriage 92, 93, 94 on. The carriage 92 is driven by a servo motor 96, which via a Rotary movement into a linear movement gear 97 is connected to the carriage 92. Is accordingly a servo motor 98 with such a gear means 99 connected to the carriage 93. To drive the slide 94 Serves a servo motor 101, which rotates about its gear means 102 converting into a linear movement this is connected.

Aus Fig. 5 ergibt sich die Kinematik der Transfereinrichtung 41. Bspw. wird eine Bewegung der Quertraverse 46 in Durchlaufrichtung T erreicht, indem die Schlitten 69 und 92 etwas nach unten und die übrigen Schlitten vertikal nach oben verfahren werden. Verfahren des Schlittens 67 nach oben oder nach-unten resultiert in einer Drehung der Quertraverse 46 um ihre Querachse. Zur Verstellung der Quertraverse in Vertikalrichtung werden alle Schlitten 67, 68, 69; 92, 93, 94 nach oben oder nach unten verstellt. Ein Schwenken oder Kippen der Quertraverse 46 um die durch die Durchlaufrichtung T definierte Achse wird durch unterschiedliche Verstellung der Schlitten 67, 68, 69 und der Schlitten 92, 93, 94 erreicht. Insgesamt ist ersichtlich, daß die drei sich in unterschiedlichen Raumrichtungen von der Gelenkeinheit 49 weg erstreckenden Stangen 83, 84, 85 die Position der Gelenkeinheit 49 bezüglich der translatorischen Achsen T, V, Q eindeutig festlegen. Dagegen legen die Streben 53, 54, 55 die entsprechenden Schwenkpositionen fest.5 shows the kinematics of the transfer device 41. For example becomes a movement of the crossbar 46 reached in the direction of travel T by the carriage 69 and 92 slightly down and the rest of the sledges be moved vertically upwards. Procedure of Slide 67 up or down results in a rotation of the crossbar 46 about its transverse axis. For Adjustment of the crossbar in the vertical direction all slides 67, 68, 69; 92, 93, 94 up or down adjusted below. A swiveling or tilting of the crossbar 46 by the one defined by the direction of passage T. Axis is adjusted by different adjustment of the slide 67, 68, 69 and the carriage 92, 93, 94 reached. Overall, it can be seen that the three differ Spatial directions away from the joint unit 49 extending rods 83, 84, 85 the position of the joint unit 49 with respect to the translational axes T, V, Q clearly define. In contrast, the struts 53, 54, 55 the corresponding swivel positions.

Die insoweit beschriebene Mehrstationenpresse 1 arbeitet wie folgt:The multi-station press 1 described so far works as follows:

Die Bewegung der Pressenstößel 26 bis 30 ist so aufeinander abgestimmt, daß der in Durchlaufrichtung bezüglich des Teileflusses stromabwärts liegende Stößel den jeweils vorausgehenden (stromaufwärts angeordneten) Stößeln jeweils um einen Zeitversatz nacheilt, der im wesentlichen der Zeit entspricht, die jede Transfervorrichtung 41 bis 44 benötigt, um die Quertraverse 46 von einer Arbeitsstation zu der jeweils nächsten Arbeitsstation zu schwenken. Beginnt sich bspw. das Oberwerkzeug 21 nach oben zu bewegen, werden die Servomotoren 71, 72, 77; 96, 98, 101 so angesteuert, daß die Quertraverse 46 in das geöffnete Werkzeug schwenkt und das Werkstück aufnimmt. Während die Quertraverse 46 durch entsprechende Ansteuerungen der Servomotoren 71, 72, 77; 96, 98, 101 nun auf der Transferkurve K in Richtung auf die nächste Pressenstation 3 zu geschwenkt wird, hat deren Pressenstößel 27 seinen unteren Totpunkt durchlaufen und öffnet das Werkzeug, so daß nach Entnahme des Werkstückes durch die Transfereinrichtung 42 das Werkstück von der Transfereinrichtung 41 eingelegt werden kann.The movement of the press rams 26 to 30 is like this coordinated that the in the direction of flow tappets downstream of part flow the preceding (upstream) Tappets lag by a time offset, which in the essentially corresponds to the time that each transfer device 41 to 44 required to the crossbar 46 of one workstation to the next workstation to pan. For example, the top tool begins 21 move upward, the servomotors 71, 72, 77; 96, 98, 101 controlled so that the crossbar 46 swings into the opened tool and the workpiece records. While the crossbar 46 by appropriate Controls of the servomotors 71, 72, 77; 96, 98, 101 now on the transfer curve K towards the next one Press station 3 is pivoted too, has its press ram 27 go through its bottom dead center and opens the tool so that after removing the workpiece the transfer device 42 removes the workpiece from the transfer device 41 can be inserted.

Die nicht weiter dargestellte Ansteuereinrichtung steuert die Servomotoren 71, 72, 77; 96, 98, 101 so an, daß die gewünschte Transferkurve K erhalten wird. Schwenkbewegungen des Werkstückes um eine Querachse oder andere kompliziertere Positionierungsaufgaben können ohne weiteres während des Transfers erledigt werden. Wie Fig. 5 zeigt, weist die Transfereinrichtung sechs Freiheitsgrade auf. Bedarfsweise kann die Anzahl der Freiheitsgrade reduziert werden, wobei sich die betreffende Transfereinrichtung dann entsprechend vereinfacht. In der einfachsten Ausführungsform sind lediglich zwei Linearachsen vorhanden, die jeweils über Stabpaare an der Quertraverse 46 angreifen. Damit lassen sich zweidimensionale Transferkurven K erzielen.The control device not shown controls the servomotors 71, 72, 77; 96, 98, 101 so that the desired transfer curve K is obtained. Swiveling movements of the workpiece around a transverse axis or other more complicated positioning tasks can be done without more to be done during the transfer. As Fig. 5 shows, the transfer device has six degrees of freedom on. If necessary, the number of degrees of freedom can be reduced, the transfer device in question then simplified accordingly. In the simplest embodiment are only two linear axes available, each via pairs of rods on the Attack crossbar 46. This allows two-dimensional Achieve transfer curves K.

Bei einer nicht weiter veranschaulichten Ausführungsform sind die Lenkerelemente in ihrer Länge verstellbar ausgebildet und mit ihrem jeweiligen, von der Quertraverse abliegenden Ende über ein Gelenk ortsfest gelagert. Die Antriebseinheiten sind in die Lenkerelemente integriert.In an embodiment not further illustrated the handlebar elements are adjustable in length trained and with their respective, from the Transverse crossbar end fixed over a joint stored. The drive units are in the handlebar elements integrated.

Es ist jedoch auch möglich, die Antriebseinheiten so auszubilden, daß ihre Abtriebe auf einer bogenförmigen Bahn geführt sind. Die Antriebe sind dann bspw. Kurbel- oder Exzenterantriebe, die von Servomotoren betätigt werden.However, it is also possible to drive units like this train that their drives on an arcuate Are guided. The drives are then, for example, crank or eccentric drives operated by servomotors become.

Vereinfachte Ausführungsformen können eine verminderte Anzahl von Antrieben aufweisen. Bspw. können die Stangen 53 und 55 beide an dem Schlitten 67 oder 69 gelagert sein, wenn keine Verschwenkung der Quertraverse erforderlich ist. Es ist auch möglich, die Stange 83 an dem Schlitten der Stange 84 oder 85 zu lagern, wenn keine Verstellung in Querrichtung Q erforderlich ist.Simplified embodiments can be reduced Have number of drives. E.g. can they Bars 53 and 55 both on carriage 67 or 69 be stored when there is no pivoting of the cross-beam is required. It is also possible to attach the rod 83 the carriage of rod 84 or 85 if none Adjustment in the transverse direction Q is required.

Eine insbesondere für Mehrstationenpressen 1 vorgesehene Transfereinrichtung 41 weist ein von mehreren Stangen 53, 54, 55; 83, 84, 85 getragenes Festhaltemittel (46, 47) auf, das von den Stangen 53, 54, 55; 83, 84, 85 im Raum verschwenkbar und positionierbar ist. Die Stangen 53, 54, 55; 83, 84, 85 sind vorzugsweise mit Linearantriebseinrichtungen 61, 62, 63; 86, 87, 88 verbunden, die somit gemeinsam auf das Festhaltemittel 46, 47 einwirken. Bei einer sechs Positionierungsfreiheitsgrade aufweisenden Ausführungsform greifen drei der Stangen 53, 54, 55; 83, 84, 85 an einem ersten Gelenkpunkt 49 des Festhaltemittels 46, 47 an. Mit ihren anderen Enden definieren diese Stangen 83, 84, 85 ein Dreieck. Von den verbleibenden drei Stangen 53, 54, 55 greifen zwei 53, 54 an einem weiteren Gelenkpunkt 56 und eine dritte 55 an einem davon abliegenden Gelenkpunkt 57 an, der mit den anderen beiden Gelenkpunkten 49, 56 wiederum ein Dreieck definiert. Eine solche Transfereinrichtung 41 ermöglicht neben dem einfachen Werkstücktransfer komplizierte Positionierungsaufgaben.One provided in particular for multi-station presses 1 Transfer device 41 has one of several Bars 53, 54, 55; 83, 84, 85 worn restraint (46, 47) on that of the rods 53, 54, 55; 83, 84, 85 is pivotable and positionable in the room. The poles 53, 54, 55; 83, 84, 85 are preferably with linear drive devices 61, 62, 63; 86, 87, 88 connected, the thus act together on the holding means 46, 47. With a six degrees of positioning freedom Embodiment grab three of the rods 53, 54, 55; 83, 84, 85 at a first hinge point 49 of the retaining means 46, 47. Define with their other ends these rods 83, 84, 85 a triangle. Of the remaining three rods 53, 54, 55 grip two 53, 54 on one another hinge point 56 and a third 55 on one of them remote hinge point 57, with the other two A triangle again defines articulation points 49, 56. A such a transfer device 41 enables in addition to the simple one Workpiece transfer complicated positioning tasks.

Claims (10)

  1. Transfer device (41) for workpieces to be transported on a predefined path, in particular for the transport of workpieces along a number of successive workstations (2, 3, 4, 5, 6),
    having a holdfast means (47) which is used to pick up and to release workpieces in a controlled manner,
    having a crossbeam (46) which bears the holdfast means (47), and
    having a supporting means (50), which bears the crossbeam (46) and guides it on a predefined transfer curve (K),
    having a drive means by means of which the crossbeam (46) can be driven in at least two mutually independent directions (V, T) and which has at least a first and a second drive unit (61, 62), which can be driven independently of each other,
    the supporting means (50) being formed by a first and a second link mechanism (50a, 50b), each of which is arranged between the drive means and the crossbeam (46),
    characterized in that the crossbeam (46) is held at its one end by a first group of links or rods (53, 54, 55), which define the position of the one end of the crossbeam (46) in two given directions (T, V), and
    in that the crossbeam (46) is held at its other end by a second group of links or rods (83, 84, 85), which likewise define the position of the other end of the crossbeam (46) in the two given directions and in a further direction (Q).
  2. Transfer device according to Claim 1, characterized in that each link mechanism (50a, 50b) has at least two link elements (53, 54; 183, 84, 85) which are predominantly loaded in tension and compression, which each extend away from the crossbeam (46) in two directions which differ from each other, and which in each case are connected by a first end to the crossbeam (46) via an articulation device (48), each link element (53, 54) being assigned a drive unit (61, 62) by means of which the position of the second end of the link element (53, 54), remote from the first end, is specifically adjustable.
  3. Transfer device according to Claim 1, characterized in that each link element (53, 54) is connected by its second end to the drive unit (61, 63) assigned to it, in each case via a joint.
  4. Transfer device according to Claim 1, characterized in that the link elements (83, 84, 85) of the link mechanism (50b) at one end of the crossbeam (46) are connected to the crossbeam (46) at an articulation point (A), and at the other end of the crossbeam (46) are connected to the crossbeam (46) at two mutually spaced articulation points (B, C), so that the articulation points (A, B, C) define a triangle, three link elements (83, 84, 85) being connected to the crossbeam (46) at one of the articulation points (A), two link elements (53, 54) being connected to the crossbeam (46) at another of the articulation points (B), and one link element (55) being connected to the crossbeam (46) at the remaining one of the articulation points (C).
  5. Transfer device according to Claim 1, characterized in that the drive units (61, 62) are each mounted in a fixed position.
  6. Transfer device according to Claim 5, characterized in that the drive units (61, 62) are each linear units, whose drive outputs (67, 68) execute a defined linear movement which depends on an input signal, and
    in that the linear units have mutually parallel working directions (V) and are arranged spaced apart from one another transversely with respect to their working direction.
  7. Transfer device according to Claim 6, characterized in that the drive units (61, 62) are direct electric drives.
  8. Machining arrangement (1) for the successive machining of workpieces in a number of steps, in particular a suction press for machining sheet-metal parts,
    having a plurality of workstations (2, 3, 4, 5, 6) arranged one after another, through which the workpieces are to pass successively, and
    having at least one transfer device (41) according to one or more of Patent Claims 1 to 7.
  9. Machining arrangement according to Claim 8, characterized in that a transfer device (41) is in each case arranged between two successive workstations (2, 3), and can be driven independently of other transfer devices (42, 43) in the machining arrangement (1).
  10. Machining arrangement according to Claim 8, characterized in that the workstations (2, 3, 4, 5, 6) of the machining arrangement operate with a mutual time offset.
EP97122034A 1996-12-19 1997-12-15 Flexible multiple axle transfer Expired - Lifetime EP0850710B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US08/770,709 US5899108A (en) 1996-12-19 1996-12-19 Flexible multi-axis transfer device
DE19654474A DE19654474A1 (en) 1996-12-19 1996-12-27 Flexible multi-axis transfer
DE19654474 1996-12-27

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EP0850710A1 EP0850710A1 (en) 1998-07-01
EP0850710B1 true EP0850710B1 (en) 2001-10-04

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EP97122034A Expired - Lifetime EP0850710B1 (en) 1996-12-19 1997-12-15 Flexible multiple axle transfer

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US (1) US5899108A (en)
EP (1) EP0850710B1 (en)
DE (2) DE19654474A1 (en)
ES (1) ES2164981T3 (en)

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US6672448B2 (en) * 2000-03-10 2004-01-06 Aida Engineering Co., Ltd. Transfer device
DE10064155A1 (en) * 2000-12-22 2002-07-11 Schuler Pressen Gmbh & Co processing device
DE10064154B4 (en) * 2000-12-22 2004-06-03 Schuler Pressen Gmbh & Co. Kg Multistage press "
DE10112393B4 (en) * 2001-03-13 2004-07-15 Müller Weingarten AG Device for transporting molded parts
DE10128189B4 (en) * 2001-06-11 2004-08-05 Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. Transport and / or storage device for workpieces
DE10128184B4 (en) * 2001-06-11 2004-05-27 Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. Device for multi-axis transport of workpieces
DE10157328A1 (en) * 2001-11-23 2003-06-12 Schuler Pressen Gmbh & Co Device for transporting workpieces within a multi-stage press
TW200505606A (en) * 2003-05-20 2005-02-16 Ishikawajima Harima Heavy Ind Panel transporting device
DE10348643B3 (en) * 2003-10-15 2005-05-19 Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. Workpiece transport device for press using carrier beams extending in transport direction each supported at either end via lever mechanism coupled to linear drive unit
CN1938207A (en) * 2004-05-10 2007-03-28 石川岛播磨重工业株式会社 Panel carrying device
KR100868173B1 (en) 2006-09-29 2008-11-12 가부시키가이샤 아이에이치아이 Panel carrying device
JP5793109B2 (en) * 2012-05-15 2015-10-14 アイダエンジニアリング株式会社 Work transfer device
CN103934714A (en) * 2014-05-12 2014-07-23 昆山勇翔精密机械有限公司 Tool clamp for machining long-axle workpieces

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Also Published As

Publication number Publication date
EP0850710A1 (en) 1998-07-01
DE59704780D1 (en) 2001-11-08
US5899108A (en) 1999-05-04
ES2164981T3 (en) 2002-03-01
DE19654474A1 (en) 1998-07-02

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