DE202009006053U1 - folding device - Google Patents

Abstract

Folding device with at least one multi-axis manipulator (3), which moves a folding device (2) relative to a workpiece (8), wherein the folding device (2) at least one Eckfalzwerkzeug (17) and at least one Kantenfalzwerkzeug (18), characterized in that the folding device (2) is temporarily supported and guided at a support point (15) for machining corner areas (12) on a workpiece (8).

Description

The The invention relates to a folding device with the features in the preamble of the main claim.

Out In practice, folding devices are known in which a robot-guided Folding device for edge and corner folds on workpieces is used with a small sheet thickness. The edges of the workpiece be used with folding rollers, the corner areas with folding rollers and if necessary edited with folding fingers. These folding devices are on the Accuracy and the delivery force of the robot limits what often to inaccuracies when Eckenfalzen or even too slipping the Falzfingers leads. This can be a Damaged under the workpiece folding bed damaged what high repair costs and a longer failure causes the folding device.

Further are in practice folding devices with separate Eckenfalzvorrichtungen known. The edge areas of a workpiece will also machined here with a robot-guided folding tool. The However, corner folding devices are designed as separate devices and firmly positioned on the folding bed. They access between the processing steps edge folding at predefined points in the machining process one. The corner processing takes place here in just one step, where a folding finger arranged by a in the Eckenfalzvorrichtung Drive is made to the workpiece and the Eckfalzung performs. Such folding devices are less flexible and require a complex control. The coordination of edge folding and corner folding also requires high accuracy and is done in an iterative on elaborate optimization process.

The DE 299 14 967 U1 shows a Roboterfalzeinrichtung with a roll or Kantenfalzkopf and separate stationary on the folding bed arranged corner slides, which are operated by the robot.

When rolling with robots roll or Kantenfalzwerkzeuge are also known, which have a folding roller and a counter-roll supported on a folding bed or on the workpiece, for. B. according to DE 10 12 277 C1 . DE 103 92 607 T5 and DE 101 11 374 A1 ,

It Object of the present invention, a better folding device show.

The Invention solves this problem with the features in the main claim.

The combined arrangement of Eckfalzwerkzeug and Kantenfalzwerkzeug on only one folding device, which of a multi-axis Manipulator is guided, allows a flexible Machining of simple and complicated workpiece geometries. Control and programming of the folding device can done by teaching the manipulator what a fast and simple production preparation possible. Other advantages are in the small space and the low cost of the folding device.

The Tolerances and elasticities of a manipulator, in particular a multi-axis industrial robot, are directional and differ significantly depending on the spatial position of the manipulator hand. Especially with manipulators with seven or more spatial axes can one and the same machining position and tool orientation a variety of positions of the manipulator axes and joints be achieved. This in turn causes that for a certain machining position no exact tolerances or elasticities can be calculated in advance, but only a tolerance and elasticity range can be estimated. However, the folding of corner areas on workpieces requires a very high accuracy and a controlled application of force.

For a Eckenfalzung the claimed folding device is temporary attached to support points and supported. This allows exact guidance of the folding device on a given path around the support point. It arises doing a leverage between the application of force to the manipulator hand and the tool intervention. Much of the editing staff is taken over the support point and must not be applied by the manipulator hand. This will the manipulator relieves or can higher maximum Machining forces are achieved.

Becomes the folding device with the support receptacle located thereon leaning against a support point, so form the support point and the support receptacle together a temporary one Bearing for the folding device. About this Stock can be an exact spatial relationship between the machining corner region of the workpiece and the Eckfalzwerkzeug made which are only very slightly off the tolerances and the elasticities of the manipulator hand in the respective Machining position is dependent. this makes possible an exact and controlled guidance of the corner folding tool.

At a workpiece corner can have multiple support points be arranged, each with multiple support receptacles and Eckfalzwerkzeugen correspond to the folding device. Consequently can for each Eckfalzwerkzeug a defined leadership be created. This allows processing of the corner area in several steps, resulting in greater flexibility and manufacturing accuracy leads.

Everyone Abstützpunkt can for example by means of spacers be adjusted separately. The adjustment can be in several axes done separately. Thus, can be edited for each Corner of a workpiece a separate adjustment of the Tool intervention done. The exactness of such a mechanical Adjustment is especially in the context of repeatability of a preprogrammed robotic track far superior. a tolerance-induced slippage of the Eckfalzwerkzeuges and damage The folding bed can be safely prevented. The reliability is increased and the maintenance costs are lowered. The Adjusted adjustment can be made for each support point and for each corner area of a workpiece to be machined be documented separately and thus supports quality assurance.

The Approaching a support point with the folding tool can done very quickly, as for the pure attachment of the folding device at a support point a rough path programming may be sufficient. Also, the tilting movement of the folding tool can by the support and guide at the temporary warehouse of a manipulator be executed faster than a freely programmed one Movement, what the tact time of a Eckfalzungsschritt in addition shortened.

With the claimed folding device, the folding of corners and Edge areas performed in a continuous process be, where for the implementation of the folding device between a Kantenfalz- and a Eckenfalzschritt only very short Paths are needed. This combines the advantages of a fast and flexible production preparation with high manufacturing accuracy and thus creates cost and quality advantages.

The The invention is for example and schematically in the drawings shown. In detail show:

1 a folding device with a folding device guided by the manipulator and a workpiece in side view,

2 and 3 FIG. 2: a sectional side view of a folding device, which is mounted on a support point, in each case before and during tool engagement in a corner fold, FIG.

4 FIG. 2: a plan view of a workpiece with support points arranged at the corner regions, FIG.

5 a side view of a preferred embodiment of a folding device,

6 a sectional side view of support points with adjustment elements,

7 : A schematic representation of two support points and the folding or tilting enabled for the folding device

8th : an oblique view of a support point.

The folding device ( 1 ) according to 1 at least one folding device ( 2 ), which on a multi-axis manipulator ( 3 ) via a flange plate ( 19 ) on the manipulator hand ( 5 ) is attached. The folding device ( 2 ) is handled by the manipulator ( 3 ) relative to a workpiece ( 8th ) emotional. The folding device ( 1 ) has a controller ( 4 ), through which the movements of the folding tool ( 2 ) and triggered. The workpiece ( 8th ) consists of two or more workpiece parts ( 9 . 10 ), which by means of one or more tensioning devices ( 11 ) relative to each other and on a folding bed ( 6 ) are fixed. The folding bed ( 6 ) is on a support frame ( 7 ) arranged.

At the corners of the workpiece ( 8th ) are each one or more support points ( 15 ) and, for example, with the support frame ( 7 ) or directly with the folding bed ( 6 ) connected. The support frame can, together with workpiece ( 8th ) via a conveyor ( 14 ) from another processing station to the manipulator ( 3 ) and to the folding device ( 2 ) and for the folding process on a frame ( 13 ) be fixed. Alternatively, the support frame ( 7 ) stationary in the folding device ( 1 ), wherein the workpiece ( 8th ), for example, by a handling device (not shown) and is discharged. In the illustrated embodiment, the workpiece is preferably at rest during a folding operation.

As in 5 shown, the folding device ( 2 ) preferably one or more edge folding tools, for example in the form of folding rollers ( 18 . 18 ' ) and one or more corner folding tools, for example in the form of folding fingers ( 17 . 17 ' . 17 '' ), on. The folding fingers ( 17 . 17 ' . 17 '' ) are preferably on the shaft ( 20 ) of the folding device ( 2 ) attached. The folding device ( 2 ) preferably has one or more support receptacles in the lower region ( 16 . 16 ' . 16 '' ) in shape with the support points ( 15 ) correspond. The folding device ( 2 ) further comprises a flange plate ( 19 ) for attachment to a manipulator hand. For positioning the folding device, for teaching or for manual pre-programming, it is possible to 2 ) a measuring mandrel or a measuring tip ( 21 ). The measuring tip ( 21 ) can also be used for starting or scanning reference marks (not shown) on the workpiece. About these reference marks the exact position of a workpiece area can be detected and, for example for correcting a movement of the folding device ( 2 ).

By means of the folding rollers ( 18 . 18 ' ), the edge areas of a workpiece ( 8th ) are folded in a manner known from the prior art in a single or multi-stage process. For folding the corner areas ( 12 ) of the workpiece ( 8th ), the folding device ( 2 ) first with a support receptacle ( 16 ) at a support point ( 15 ). This is in 2 shown. The support point ( 15 ) forms together with the support receptacle ( 16 ) a temporary pivot bearing for the folding device ( 2 ). The folding device ( 2 ) can move in a controlled movement around the axis of rotation ( 22 ) of this temporary warehouse.

The geometric relationship between the effective surface of the folding finger ( 17 ) and the axis of rotation ( 22 ) is determined in a predetermined manner and corresponds to the geometric reference of the corner region to be folded ( 12 ) of the workpiece ( 8th ) with the support point ( 15 ). For exact adjustment of the tool engagement, each support point ( 15 ) via one or more adjustment elements such as spacers ( 24 ) feature. Each support point ( 15 ) is thus preferably separately adjustable in one or more axes. Thus, for each Eckfalzwerkzeug ( 17 . 17 ' . 17 '' ) at each corner area ( 12 ) of the workpiece ( 8th ) a separate adjustment of the tool engagement done by the spatial position of the respective support point ( 15 ) is adjusted. As a result, a high repeatability of the machining can be achieved at each corner region, regardless of the current position and orientation of the manipulator axes and joints.

In order to achieve short process times and at the same time high production accuracy, it is advantageous to carry out the machining process in a continuous movement sequence and with the minimization of movements without tool intervention. With the folding device according to the invention ( 1 ), this can be achieved, for example, by a multi-level orbit of a workpiece ( 8th ) under successive processing of the edge and corner areas.

According to 4 For example, by the folding device ( 2 ) first a pre-folding of the edge portion A with a folding roller ( 18 ) respectively. Subsequently, the folding device ( 2 ) on the corner point B associated Abstützpunkt ( 15 ). In a guided tilting movement about the axis of rotation ( 22 ) of the support point ( 15 ) is by means of a Eckfalzwerkzeuges ( 17 ) a Vorfalzung the corner B performed. The folding device ( 2 ) is then returned from the support point ( 15 ) and with a Kantenfalzwerkzeug ( 18 ) is applied to the edge region C, whereupon the edge region C is prefolded. In this way, this is surrounded by the manipulator ( 3 ) guided folding device ( 2 ) once the outside of the workpiece ( 8th ). Subsequently, in the same sequence of processing and movement, but with other Eckfalzwerkzeugen ( 17 ' . 17 '' ) and edge folding tools ( 18 ' ), the Fertigfalzen the respective edge and corner areas. It is possible that in the corner region of the workpiece ( 8th ) additional support points ( 15 ) are arranged, each with different Eckfalzwerkzeugen ( 17 ' . 17 '' ) correspond. These additional support points ( 15 ) are in 4 not shown for reasons of clarity.

According to 8th has a support point ( 15 ) preferably a cylindrical guide region ( 25 ) and adjacent contact surfaces ( 26 ) on. The folding tool ( 2 ) can with a support receptacle ( 16 . 16 ' . 16 '' ) over the cylindrical area ( 25 ) of a support point ( 15 ) and thus about the common axis of rotation ( 22 ) tilt in a guided circular motion. A lateral sliding or twisting of the folding tool ( 2 ) are supported by the support on the cylindrical guide area ( 25 ) and at the contact surfaces ( 26 ) prevented.

When programming the start-up of a support point ( 15 ) by the folding device ( 2 ) by teaching the folding device ( 2 ) from an operator manually to a support point ( 15 ) and positioned exactly. The folding device ( 2 ) has in this situation preferably low clearance to the contact surfaces ( 26 ). The determined spatial position can be directly into the controller ( 4 ) of the folding device ( 1 ). In the same way a teaching of the folding movements can take place. The movements of the folding device ( 2 ) can also be programmed manually or otherwise. They can also be transmitted, for example, from an external interface from a CAD program or a robot simulation.

As in 7 shown schematically, a support point ( 15 ) preferably as a pivot bearing with a single axis of rotation ( 22 ) or as a ball bearing with a pivot point ( 23 ) be formed. The support mounts ( 16 . 16 ' . 16 '' ) of the folding device ( 2 ) are correspondingly shaped.

Depending on the spacing of the corner folding devices ( 17 . 17 ' . 17 '' ) of a respective support receptacle ( 16 . 16 ' . 16 '' ) in combination with the spacing of the flange plate ( 19 ) of a support receptacle ( 16 . 16 ' . 16 '' ) different leverage ratios can be achieved. As a result, the ratio between the applied machining force on the tool engagement and the manipulator on the flange ( 19 ) to be supported reaction forces. The forces to be applied by the manipulator are preferably substantially small ner than the machining forces occurring in the tool engagement. Much of the machining power is transmitted via the temporary bearing at the support point ( 15 ). This force transmission allows on the one hand a discharge of the manipulator or on the other hand, the processing of corner areas on workpieces with high sheet thicknesses, as was previously not possible with manipulator Eckenfalzvorrichtungen. Since the folding tool ( 2 ) always in a controlled movement around the support point ( 15 ), the positioning and movement tolerances as well as the inaccuracies of the manipulator are not transferred to the tool engagement. A sliding caused by the dependent of the processing direction and position of the manipulator elastics sliding the Eckenfalzwerkzeuges ( 17 . 17 ' . 17 '' ) and thereby causing damage to the folding bed ( 6 ) are prevented.

With the claimed folding device ( 1 ), it is also possible, so-called design edges or character lines with only one folding device ( 2 ) to edit. Characteristic of such design edges or character lines is that two successive folded edges on a workpiece ( 8th ) are not in a common plane or line, so that the intervening corner region ( 12 ) is particularly heavily or unfavorably pre-loaded by the prefolding of the edge portions. The processing of such corner areas requires a particularly high precision in the tool guide. By suitable attachment of one or more support points ( 15 ) containing one or more corner folding tools ( 17 . 17 ' . 17 '' ), such corner areas ( 12 ) are folded at design edges, for example, in a multi-stage machining process with a particularly high manufacturing accuracy.

Depending on the embodiment of the folding device ( 2 ) are by the folding device ( 1 ) Corner folds in a single or in several consecutive processing steps possible. A one - step folding machine, as used in the 2 and 3 is shown, is particularly suitable for a permissible residual opening angle in the corner of more than 30 °. At a smaller residual opening angle is preferably a multi-stage processing by pre-folding and Fertigfalzen.

Modifications of the embodiments shown are possible in various ways. In particular, the individual features of the device parts shown can be arbitrarily combined with one another and exchanged. Furthermore, any constructive variants of the folding device ( 2 ) and the corner and edge folding tools ( 17 . 17 ' . 17 '' . 18 . 18 ' ) possible. The corner folding tools ( 17 . 17 ' . 17 '' ) can, for example, with a quick release on the folding device ( 2 ) or directly on the flange plate ( 19 ) to be appropriate. The edge folding tools ( 18 . 18 ' ) can be designed in another form and have a drive. Likewise, the corner folding tools ( 17 . 17 ' . 17 '' ) be executed in a different form.

1

folding device

2

folding equipment

3

Manipulator / robot

4

control

5

hand

6

folding bed

7

support frame

8th

workpiece

9

Workpiece part A

10

Workpiece part B

11

jig

12

corner area

13

frame

14

Conveyor

15

support point

16

support recording

17

Falzfinger / Eckenfalzwerkzeug

18

Seaming roll / Kantenfalzwerkzeug

19

flange

20

shaft

21

Feeler / Probe

22

axis of rotation

23

pivot point

24

Spacer / adjustment element

25

cylindrical Area

26

contact surface

A

edge region

B

corner

C

edge region

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 29914967 U1 [0004]
• - DE 1012277 C1 [0005]
• - DE 10392607 T5 [0005]
• - DE 10111374 A1 [0005]

Claims (11)

Folding device with at least one multi-axis manipulator ( 3 ), which is a folding device ( 2 ) relative to a workpiece ( 8th ), wherein the folding device ( 2 ) at least one Eckfalzwerkzeug ( 17 ) and at least one edge folding tool ( 18 ), characterized in that the folding device ( 2 ) for processing corner areas ( 12 ) on a workpiece ( 8th ) temporarily at a support point ( 15 ) is supported and guided. Folding device according to claim 1, characterized in that the folding device ( 2 ) one or more to support points ( 15 ) corresponding support receptacles ( 16 ) having. Folding device according to claim 1 or 2, characterized in that a support point ( 15 ) with a support receptacle ( 16 ) of the folding device ( 2 ) a temporary bearing in the form of a rotation axis ( 22 ) or a fulcrum ( 23 ) form. Folding device according to one of claims 1, 2 or 3, characterized in that one or more corner areas ( 12 ) of a workpiece ( 8th ) one or more support points ( 15 ) assigned. Folding device according to one of the preceding claims, characterized in that the support points ( 15 ) in at least two axes exactly adjustable and with a support frame ( 7 ) or a folding bed ( 6 ) are firmly connected. Folding device according to one of the preceding claims, characterized in that around the support point ( 15 ) a lever effect arises, whereby the multi-axis manipulator ( 3 ) are significantly lower during a Eckenfalzung to be supported on the manipulator hand forces than the Eckfalzwerkzeug ( 17 ) on a workpiece ( 8th ) applied processing forces. Folding device according to one of the preceding claims, characterized in that corner regions ( 12 ) on workpieces ( 8th ) are workable with a sheet thickness of 1.5 mm or more. Folding device according to one of the preceding claims, characterized in that on the folding device ( 2 ) several corner folding tools ( 17 ) are arranged for different corner geometries or processing steps. Folding device according to one of the preceding claims, characterized in that the folding device ( 2 ) and / or the folding bed ( 6 ) and / or the support frame ( 7 ) by means of a measuring mandrel ( 21 ) are scannable or positionable and the position in the controller ( 4 ) of the manipulator ( 3 ) is programmable. Folding device according to one of the preceding claims, characterized in that the folding device ( 2 ) a measuring tip ( 21 ) for approaching or scanning reference marks on the workpiece ( 8th ) having. Folding device ( 2 ) with one or more edge folding tools ( 18 . 18 ' ) and one or more corner folding tools ( 17 . 17 ' . 17 '' ), by a multi-axis manipulator ( 3 ), characterized in that the folding device ( 2 ) one or more support receptacles ( 16 . 16 ' . 16 '' ), wherein the folding device ( 2 ) around a through a support receptacle ( 16 . 16 ' . 16 '' ) predetermined path is feasible.