EP0963800A2 - Bending apparatus for bending small or smaller tool independent bending radius - Google Patents

Abstract

The bending arrangement (1) involves a bending device (2) disposed in the feeding direction (35) of the part (10) to be bent, and has an arbor feeding device (40) whose arbor insert (43) is shoved in and out of the bending region of the bending device as determined by bending tools (4a-c, 5). The bending device has a device for balancing the tilt of the part to be bent.

Description

The invention relates to a bending arrangement for bending smaller and smaller or tool-independent bending radii in a tubular bending part, the minimum has a bending device in which the necessary to perform the bending function Bending tools are arranged, and the one feed device for feeding the bent part, the bending device in the feed direction of the bent part is arranged in front of the feed device.

Such a bending arrangement is e.g. from the European patent application EP 97 120 404.5 of the applicant is known. The bending device is here as Ring and segment bending device and a further bending device as mandrel bending device educated. Such an arrangement has the advantage that in a simple way a spiral bending or a bending of three-dimensional Structures is made possible. In addition, the known bending arrangement enables a mandrel bending of the bent part, through the small and smallest bending radii can be produced, which are approximately one to four times the outer diameter of the bent part, a segment bending, through which bending radii into the bent part can be introduced, which are approximately three to six times the outer diameter of the tubular bent part, and a ring bending for large, tool-independent bend radii that are more than five times the outer diameter of the pipe to be bent. A disadvantage of the known Ring bending arrangement is that there is a risk that in the manufacture of small and small, tool-independent bending radii the tubular bent part is pressed in its cross section. So it is with the known Ring bending arrangement in a disadvantageous manner usually not possible bend tubular bent part without impairing its cross-sectional shape.

It is therefore the object of the invention, a bending arrangement of the aforementioned Art in such a way that the introduction of relatively small and / or tool-independent bending radii in a tubular bending part without its cross-sectional shape being significantly affected.

This object is achieved in that the bending arrangement has a mandrel feed device, the mandrel insert in the through the bending tools specified bending range of the bending device can be inserted or is inserted, and that the bending arrangement is a device for compensation a pivoting movement of the bent part in the case of the bending tools performed bending process.

The measure according to the invention advantageously results in a Bending arrangement created that allows small and small bending radii in a bent part not by a classic dome bending process, but by a Bending process, in particular by means of a roll bending process, with the aid one inserted into the tubular bent part, essentially up to to bring in the bending area advanced dome insert. In an advantageous manner and way supports the inserted into the tubular bent part and up to Bending area advanced mandrel insert the wall material of the tubular Bent part and thus prevents undesirable indentation of the cross-sectional area of the bent part.

Advantageous developments of the invention are the subject of Subclaims.

Figur 1

eine Draufsicht auf ein Ausführungsbeispiel einer Biegeanordnung,

Figur 2

eine vergrößerte Darstellung des linken Bereichs der Figur 1, und

Figur 3

eine vergrößerte Darstellung der in den Figuren 1 und 2 linken Biegeeinrichtung.

Further details and advantages of the invention can be found in the exemplary embodiment which is described below with reference to the figures. Show it:

Figure 1

2 shows a plan view of an exemplary embodiment of a bending arrangement,

Figure 2

an enlarged view of the left portion of Figure 1, and

Figure 3

an enlarged view of the left bending device in Figures 1 and 2.

An exemplary embodiment, generally designated 1, is shown in FIGS. 1-3 Bending arrangement shown, which is in principle in a first bending device 2nd and divides a second bending device 3, preferably separated from this. The first bending device 2 is a ring or segment bending device trained and has to carry out a ring or Segment bending process required bending tools, in particular two counter-holding rollers 4a, 4b and a bending roller 4c, by a bending cylinder 5 for the curvature of the tubular bent part 10 in the direction of the counter-holding rollers 4a, 4b is deliverable. The bending tools 4a, 4b, 4c, 5 are one preferably driven hydraulically or pneumatically operating drive unit 6, the control of the counter-holding rollers 4a, 4b and the bending roller 4c and motion bending cylinder 5 by a control device 7 Control signals S is controlled. In addition to the bending function, the rollers 4a-4c also serve to advance the bent part 10. The skilled person can clearly see that the first shown, working according to the three-roll bending process Bending device 2 is intended for ring bending while segment bending the counter-holding rollers 4a, 4b by appropriate, known per se and segment bending tools not described in more detail to be replaced. It is also clearly apparent to the person skilled in the art. that instead of a three-roller operation the bending device 2 can also provide four-roll operation, in addition to the aforementioned rollers 4a, 4b, 4c, one in the figures Provides drive roller, not shown.

The second bending device 3 is designed as a dome bending device, which has a bending table 32 on which a feed slide 35 in the feed direction of the bent part 10 is arranged to be movable. This feed carriage 35 is preferably shown only schematically in FIG Chain drive 36 moves, it being clear to the person skilled in the art that it is on special way of driving the feed carriage 35 does not arrive. Rather, it is also possible to feed the slide 35 by an electric motor or to drive hydraulically or pneumatically. The feed carriage 35 has furthermore a clamping / turning unit 37 through which the bent part 10 in the feed slide 35 can be tensioned and / or rotated about its longitudinal direction. Furthermore the second bending device 3 has a mandrel unit 40 which in in a manner known per se from a mandrel insert 43 and a Mandrel linkage 42 exists. In addition, it can optionally be provided that the second bending device has a mandrel bending head known per se 33 with mandrel bending tools 34. This mandrel bending head 33 becomes described bending process is not used. However, since the second bending device 3 all other necessary to carry out a mandrel bending process Units, the provision of a "classic" bending head 33 a useful addition because the described bending arrangement 1 then for non-cutting shaping of a tubular bent part 10 by means of the classic one Mandrel bending process can be used. The structure described above the bending arrangement 1 and its two bending devices 2, 3 is on and for is known and therefore does not need to be explained in more detail.

It is now important that for the introduction of small and small bending radii in the tubular bent part 10 is not - as in the known bending arrangements - the bending tools 34 of the mandrel bending head 33 as the dome bending device equipped second bending device 3 are used, but that this by means of the bending tools 4a-4c which act as a ring and segment bending device first bending device 2 takes place. This is made possible by it is provided that the mandrel insert 43 of the mandrel unit 40 is not - as in the known Bending arrangement - only up to the bending head 33 of the second bending device 3 is sufficient, but that the mandrel insert 43 in the tubular bent part 10 to to the bending area of the bending rollers 4a, 4b, 4c of the first bending device 2. In the simplest case, it is provided that the mandrel linkage 42 of the Mandrel unit 40 is so long that the mandrel insert 43 in the bending area the bending rollers 4a-4c ends. This for simple bending constellations However, sufficient possibility has the disadvantage that the There is a risk that during the bending phase of the bent part 10 by the bending rollers 4a-4c the mandrel insert 43 located in this area breaks off.

Therefore, it is preferred that the mandrel insert 43 in the feed direction of the tubular The bent part 10 is designed to be displaceable, so that at the beginning of the bending phase of the bent part 10 through the bending rollers 4a-4c of the mandrel insert 43 withdrawn from the bending area of the bending rollers 4a-4c and during the bending phase can be gradually pushed forward to the tubular Fill bent part 10 in the bending area and support it so that a Cross-sectional change of the tubular bent part 10 through the mandrel insert 43 is prevented.

For this purpose it is provided that - as can be seen from Figure 1 - the End 42 "of the mandrel linkage 42 facing away from the mandrel insert 43 with a mandrel feed unit 46 is connected, which the required longitudinal displacement of the Mandrel insert 43 causes. In the case shown here, dome feed unit is 40 formed as a hydraulically or pneumatically actuated cylinder 47, the can be controlled by the control device 7. It is also quite possible to get one to use other mandrel feeder 40 than a cylinder.

Around the dome insert 43 of the mandrel stand 42 as far as possible into the curved Being able to insert a bent part is preferred - as best shown in the figure 3 can be seen - provided that the mandrel insert 43 preferably as a link dome is formed, which in the case shown here has three mandrel members 43a-43c, which are hinged together.

Since - as will be explained below - at least one of the swings out both ends 10a, 10b of the tubular bent part 10, it is necessary that this swing-out movement by a compensating mechanism the bending arrangement 1 is compensated. It is envisaged that the first Bending device 2 is movable about a vertical axis, so that the on a Bending table 2a arranged bending tools 4a-4c, 5 as a result of the Mobility of the first bending device 2 given rotational mobility itself can align with the bending part 10 during the bending process. This will be preferred in that the bending table 2a of the first bending device 2nd rotatable on a roller 20 having lower part 2b of the first Bending device 2 is arranged, the rollers 20 being transverse to the feed direction of the bending part 10 extending rails S1, S2 are displaceable.

Alternatively or in addition to the freedom of movement of the first bending device 2 can compensate for a pivoting movement of the end 10b of the bent part 2 be provided that the mandrel feed unit 40 in this area transverse to Feed direction of the bent part 10 is movable. This is preferred achieved that the dome feed unit 40 is movably arranged in this direction is.

There - as can also be seen from the description of the bending process below will - the tubular bent part 10 also a compensating movement performs in its longitudinal direction, it is provided that during the bending process either the tension of the bent part 10 in the feed slide 35 is released or the feed carriage 35 as a whole is decoupled from its drive unit 36 is so that the feed slide 35 of the compensating movement of the bent part 10 can follow in its longitudinal direction, or it is provided that the Feed carriage 35 actively participates in the compensating movement of the bent part 10, in that the feed carriage 35 controlled by the control device 7 is updated accordingly.

The bending arrangement 1 now works as follows: After the mandrel insert 43 of the dome device 40 is inserted into the tubular bent part 10 and the bent part 10 clamped in the clamping / rotating unit 36 of the feed slide 35 the bent part 10 is pushed forward by the feed slide 35 until until the front end 10a of the bent part 10 between the counter-holding rollers 4a, 4b and the bending roller 4c. At this point the bending table is 2a of the first bending device 2 oriented such that the rollers 4a, 4b and 4c are arranged essentially parallel to the tubular bent part 10. Then the bending roller 4c is fed by the bending cylinder 5. At the beginning of this Bending process of the bent part 10, the mandrel insert 43 is outside the bending area defined by the rollers 4a-4c. It is therefore from the initial Curvature of the bent part 10 is not detected and therefore cannot break off. Moved by the action of the bending roller 4c on the bending part 10 the bending table 2a about its vertical axis, so that the first bending device 2 reaches the position shown in the figures. Then the mandrel insert 43 and the mandrel linkage 42 advanced from the mandrel feed device 40, until its front end, as can best be seen from FIG. 3, in reaches the bending area of the bending rollers 4a-4c. This ensures that the mandrel insert supports the wall area of the tubular bent part 10, so that it is also possible to bend small bending radii without the Wall of the tubular bent part 10 is deformed.

Reliable around the position of the mandrel element 43 in the tubular bent part 10 To be able to determine, it is preferably provided that the advancing movement the mandrel feed unit 40 can be detected by a position measuring system (not shown) is.

Since the use of one arranged inside the tubular bent part 10 Bending mandrel in large frictional forces between the mandrel insert 43 and the Inner wall of the tubular bent part 10 results, there is a risk that the Feed movement of the tubular bent part 10 during the bending process is not more can only be carried out by the rollers 4a-4c. It is therefore preferred provided that a pushing movement of the Bending part 10 takes place. But it is also possible that such a force application of the tubular bent part 10 in its feed direction the feed carriage 35 takes place so that in addition to the feed force of the Feed carriage 35, or alternatively it is provided that by a separate, a pressing unit, not shown in the figures, one in the axial direction acting feed force is applied to the bent part 10.

In order to prevent the counter-holding rollers 4a, 4b, especially those in the feed direction of the bending part 10 behind the bending roller 4c counter-holding roller 4b, in the bending process and in particular in the bending process after the following removal of the tubular bent part 10 from the first bending device 2, in which the bending roller 4c is removed from the bending part 10 again, presses the wall area of the tubular bent part 10 that is acted upon preferably provided that the coupling between the bending table 2a and the lower part 2b of the first bending device 2 takes place via a connection which a rotation of the bending table 2a relative to the lower part 2b in the Introduction of the bending radius in the bending part 10 required direction allowed however, turning back the bending table 2a and thus pushing back the rollers 4a, 4b on the wall region of the bent part 10 which they act on. In an advantageous manner, a ratchet-like connection can be made here be provided between the bent part 2a and the lower part 2b.

Such a constellation also makes it easier to pull out the thorn insert 43 from the bent part 10 after completion of the bending process.

It is preferably provided that the mandrel bending device 2 and the mandrel linkage 42 supporting device 3 are supported against each other, because preferably it is provided that the bending device 2 is mounted on rollers 48 in order to to enable a lateral movement of the bending device 2.

Claims (15)

Bending arrangement for bending smaller and smaller or tool-independent Bending radii in a tubular bending part (10), the at least one bending device (2, 3), in which the necessary to perform the bending function Bending tools (4a, 4b, 4c; 5) are arranged, and the one Has feed device (35; 4a-4c) for feeding the bent part (10), the bending device (2) in the feed direction of the bent part (10) the feed device (35) is arranged, characterized in that the bending arrangement (1) has a mandrel feed device (40), the Mandrel insert (43) in the set by the bending tools (4a-4c; 5) Bending area of the bending device (2) can be pushed in or pushed in, and that the bending device (2) a device for compensating for a pivoting movement of the bent part (10) in which by the bending tools (4a-4c; 5) carried out bending process of the bent part (10). Bending arrangement according to claim 1, characterized in that the mandrel insert (43) via a dome linkage (42) with that of the bending device (2) opposite end region of a dome feed device (40) Device (3) is connected. Bending arrangement according to one of claims 1 or 2, characterized in that that the mandrel insert (43) in the feed direction of the bent part (10) a mandrel feed unit (40) is displaceable. Bending arrangement according to claim 3, characterized in that the dome feed unit (40) a hydraulically or pneumatically operated cylinder (47) which is connected to one end (42 ") of the mandrel linkage (42) is. Bending arrangement according to one of the preceding claims, characterized in that that the compensation device of the bending device (2) thereby it is formed that a bending table carrying the bending tools (4a-4c; 5) (2a) around a perpendicular to the feed direction of the bent part (10) Axis movable relative to a lower part (2b) of the bending device (2) is. Bending arrangement according to one of the preceding claims, characterized in that that the bending device (2) in the feed direction of the bent part (10) in an essentially unchangeable one by the bending process Distance to the device (3) is arranged. Bending arrangement according to one of the preceding claims, characterized in that that the device (3) has a feed carriage (35) for the Bent part (10) through which the bent part (10) is displaceable in the feed direction is. Bending arrangement according to claim 7, characterized in that the feed slide (35) can be driven by a drive unit (36). Bending arrangement according to one of claims 7 or 8, characterized in that that the feed carriage (35) to compensate for a compensating movement of the bent part (10) can be decoupled from the drive unit (36). Bending arrangement according to one of the preceding claims, characterized in that that the connection between the bending table (2a) and the Lower part (2b) of the bending device is designed such that the Mobility of the bending table (2a) in relation to the lower part (2b) in the Introduction of the bending radius in the bent part (10) required direction is that a turning back of the bending table (2a) is difficult or prevented is. Bending arrangement according to one of the preceding claims, characterized in that that the mandrel insert (43) as a link mandrel with several Arbor members (43a-43c) is formed. Bending arrangement according to one of the preceding claims, characterized in that that the bending device (2) and the mandrel linkage (42) supporting device (3) are supported against each other. Bending arrangement according to one of the preceding claims, characterized in that that the bending device (2) has rollers (48). Bending arrangement according to one of the preceding claims, characterized in that that the device (3) is designed as a second bending device is. Bending arrangement according to one of the preceding claims, characterized in that that the feed device for the bent part (10) by the Rollers (4a-4c) of the bending device (2) is formed.

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