DE102006031503B4 - Method and device for bending hollow sections with minimal bending radius - Google Patents

Abstract

contraption for kink bending a hollow profile of metal with two against each other around a bend axis arranged in a kink axis bendable bend legs for receiving the hollow profile, characterized in that on each Buckling legs (2, 3) for receiving the hollow profile (6) in each case at least one at the outer kink area the hollow profile positionable upper shell (7, 8), at least one lower shell which can be positioned at the inner bend region of the hollow profile (11, 12) and at least one in the interior of the hollow profile (6) positionable Layer mandrel (9, 10) are provided, through which the hollow profile while the bending of the knuckles can be supported, the opposite Upper shells (7, 8), layer mandrels (9, 10) and lower shells (11, 12) in the bending plane (4) of the buckling legs (2, 3) in each case from each other are separated, wherein the layer mandrels (9, 10) axially layered are, and at least one upper shell push unit, a Schichtdorn-push unit and a support unit (15) for axial support of the hollow profile (6) are provided.

Description

The The invention relates to a device for kink bending a hollow profile of metal, in particular of steel or a steel alloy, with two against each other about a kink axis arranged in a kinked plane bendable bend legs for receiving the hollow profile. Furthermore The invention relates to a method for kink bending a hollow profile of metal, in particular of steel or a steel alloy, at which two the legs of the bent bent hollow profile forming Portions of the hollow profile to one in a leg separating Bent level arranged bending axis are angled as well as produced according to the invention Hollow profile of metal and its advantageous uses.

Hollow profiles with minimal bending radii are frequently required in the automotive industry, in particular for producing the body shell, so-called space-frame structures. Increasingly, open, welded profiles are being replaced by thin-walled hollow sections. These hollow sections are often made of longitudinally welded tubes and usually have a very small wall thickness, so that a minimum weight is achieved with maximum utilization of the material. For the realization of the smallest possible bending radii several different methods are known. For example, when drawing bending a tube is pressed from the outside by means of a slide over a clamping arm against a bending roller, so that upon rotation of the bending roller and bending of the clamping arm, the desired pipe bend is achieved. To avoid wrinkles in the bent pipe this is supported by bending mandrels from the inside. Externally, so-called wrinkle smoothers serve to prevent wrinkles on the outer surfaces. However, the draw bending allows only a wrinkle-free bend with a bending radius greater than one third of the outer diameter of the tube. Otherwise, it can lead to wrinkling but also to a demolition of the outer bow of the pipe or hollow profile. The shear bending avoids this disadvantage in that the tube is received in two opposing dies with rounded outlet openings. By introducing a relative movement of the dies perpendicular or obliquely to the hollow profile longitudinal axis and a simultaneous force-assisted Nachschieben the hollow profile, this is pulled apart in a Z-shape. Although in this way inner bending radii of less than one third of the outer diameter can be generated, however, a z-shaped hollow profile is always generated, so that the material consumption in this method is particularly too large, if no z-shaped hollow profile is needed. From the US patent US 3,017,914 In addition, a method for kink bending a pipe is known, in which a tube is inserted into a bendable die with two buckling legs and is supported from the inside via a rotatably interconnected links existing internal mandrel. Although very small inner kink areas can be achieved with the known method. By the chain-like constructed, inner mandrel but only the inner kink area of the tube can be sufficiently supported. This does not succeed for the outer kink region of the tube, so that it can come to strong local strains in the outer kink area. This can lead to a strong wall thinning of the hollow profile at these locations. With the known method, therefore, the shape of the outer bending portion of the hollow profile can not be satisfactorily influenced.

Of these, The present invention is based on the object, an apparatus and method for kink bending a hollow profile Metal available to ask, with which or with which a hollow profile with variable adjustable bending angle produced with very low inner kink area and at the same time too big thinning the wall thickness in the outer kink area can be avoided. About that In addition, the invention has the object an accordingly manufactured hollow profile and advantageous use for the hollow profile propose.

The The above object is according to a first teaching of the present Invention by a generic device for kink bending a hollow profile of metal solved by that on a Knickschenkel for receiving the hollow profile in each case at least one at the outer kink area of the Hollow profiles positionable upper shell, at least one on the inner Bending region of the hollow profile positionable lower shell and at least provided in the interior of the hollow profile positionable layer mandrel are, through which the hollow profile during the bending of the bend legs be supported can, the opposite Upper shells, thorns and lower shells in the kinked plane of the Knick legs are each separated, with the layer mandrels are axially layered, and at least one upper shell pushing unit, a laminated mandrel pushing unit and a support unit for axial support of the hollow profile are provided.

The inventive arrangement of upper shells and lower shells at the outer and inner kink areas of the hollow profile of this is sufficiently supported during the bending of the bend legs. Arranged in the interior of the hollow profile, axially stratified layer mandrels allow them to be displaced via the layer mandrel thrust unit in such a way that in the region of the outer buckling region one is always sufficient de support of the hollow profile is done from the inside. As a result, dents and folds can be avoided in the outer bending region of the hollow profile. In addition, a controlled shaping of the outer bending region of the hollow profile is achieved by the concern of the layer mandrels on the outer bending region of the hollow profile. Uncontrolled thinning of the wall thickness of the hollow profile are prevented by the amount of compression can be chosen sufficiently large. This leads to a reduction of the thinning in the outer kink area. The upper shells and layer mandrels are displaced relative to each other during the bending over the upper shell push unit, the laminated mandrel push unit, so that in particular the outer bending region of the hollow profile is constantly supported from the outside and from the inside. This also applies to the inner bending region, which is simultaneously supported by the inner layer mandrels and the lower shells. The support unit for the axial support of the hollow profile additionally ensures that the hollow profile performs no uncontrolled axial deformations.

According to one the first embodiment of the device according to the invention, the inner Bending region of the hollow profile thereby improved to be supported, that axially layered lower shells and a lower shell-pushing unit are provided. The lower shell push unit changed the location of the individual layers of the lower shells so that during the No gaps at the inner bending area of the hollow section arise.

by virtue of the relatively large one personnel for bending the legs against each other is in accordance with a next further developed embodiment the device according to the invention a press for bending the crease legs provided for the hollow profile. For example, you can the press forces by plungers be redirected to the bendable knuckles of the device, so that a relatively simple construction of the device can be ensured can.

Point the individual upper shells, layer mandrels and / or lower shells respectively at least twice the length a cross section of the hollow profile, a buckling of the Hollow profiles are reliably avoided.

According to one next further developed embodiment the device according to the invention for buckling bending a hollow profile is the support of the hollow profile inside of the hollow profile by the layer mandrels improved by that the thickness of the layers of the layer mandrel from the outer buckling area in the direction the inner bending region of the hollow profile is smaller, wherein preferably the Layer thickness of one third of a cross section of the hollow profile up to 2.5 times the wall thickness of the hollow profile, particularly preferred up to 2 times the wall thickness of the hollow profile, decreases.

Increases the wall thickness of the individual layers of the layer mandrel from the inside to the outer kink area each by a factor of 1.5 to 2, the complexity of the internally arranged layer mandrels and thus the number of layers of the layer mandrel be limited, without the functionality of the layer mandrel restrict.

Preferably are, according to one next educated embodiment the device according to the invention, the layers of the mandrels are chamfered with a helix angle, which is the 0.2 to 0.5 times the bending angle corresponds, the end face of the inside the hollow profile at the outer kink area adjacent layers with the largest thickness the shape of the desired outer curvature of the Hollow profile has. By this measure it is achieved that the individual layers of the layer mandrels with their in the bend plane arranged axial ends during the bending of the bend legs remain in the region of the kink plane can without affecting each other in their position. In the opposite the bend plane arranged ends of the individual layers of the layer mandrels can be moved over a Rod to be connected to the Schichtdorn-pushing unit, so that while of bending the position of the layer mandrels in a simple manner constantly corrected can be. Alternatively you can the strata of the strands can be rounded.

Further are preferably the end faces of the Layers of the lower shells beveled with a helix angle, which 0.5 times the maximum bending angle. This measure will a mutual disorder or rebounding the opposite At the kink level arranged lower shells prevented during the bending. Alternatively you can the faces of the Layers of the lower shells be rounded.

The lower shells arranged on each knuckle must absorb very high forces and may only allow the spring to detect the Rohrstauchbereiches. For this purpose, the layer thicknesses of the layers of the lower shells are at least 2.5 times the wall thickness of the hollow profile, the layer thickness preferably changing by a factor of 1.5 to 2 from layer to layer. Furthermore, experiments have shown that an alternating layer thickness sequence is advantageous. The lower shell layer in contact with the inner wall of the hollow profile has a relatively large layer thickness, the subsequent lower shell layers having a smaller thickness. The outer lower shell layers in turn have one greater thickness, so that a very good support of the inner kink area with low number of layers and sufficient flexibility in terms of a shift of the individual layers against each other during the angling is guaranteed. By means of the change factor of the layer thicknesses from layer to layer of the lower shells, the number of lower shells is limited to the necessary minimum.

A simplified embodiment the device according to the invention can be realized by a composite joint between the upper shells is provided. Through this composite joint can the position of the upper shells automatically depending on the respective bending angle tracked over the kink leg be so that only the lateral to the axis of the crease occurring forming forces have to be caught by the upper shells.

A Further simplification of the device results from the fact that the support the hollow section one-sided fixed stops are provided and a tracked support of the hollow profile only at the opposite Page done.

The Buckling axis can in the bending plane relative to the hollow profile thereby be moved, that arranged on the bend legs hollow profile relative is displaceable to the bending axis parallel to the bending plane. Through this measure the bending axis can be freely selected in the area of the hollow profile, so that different inner and outer kink areas are made possible.

According to one second teaching of the present invention will be the above Task procedurally by solved, that the hollow profile during the angling through at least two at the outer bend region of the hollow profile adjacent upper shells, at least two at the inner kink area adjacent lower shells and at least two inside the hollow profile supported layer mandrels supported is, with the upper shells, lower shells and thorns in the Kink level separated by two mutually bendable kink legs, the layer mandrel is axially layered, at least the inside Layer mandrels and the upper shells during bending against each other be moved and the hollow section at both axial ends in supported in the axial direction becomes.

As already explained, can with the method according to the invention very small bending radii with high process reliability wrinkle free and while avoiding too big thinning in the area of the outer kink area, i.e. while largely controlling the shape of the outer bending region of the hollow profile, be generated. In contrast to the previously known method both the inner and the outer kink area of the hollow profile during the bending very well supported and an uncontrolled formation of wrinkles or thinning prevented.

The support the lower shells can according to a next further developed embodiment the method according to the invention be improved by axially layered lower shells which are used during the bending of the hollow profile are shifted against each other. Moving the axially layered shells to each other takes place, such as moving the layer mandrels and the upper shells against each other while of bending over Thrust units, which are the positions of the upper shells, lower shells or thorns during of bending and constantly changing adapt to the respective bending angle.

a simplified and cost-effective device construction allows the inventive method in that the legs of the hollow profile are angled by a press become. Presses are devices that are commonly used when high powers needed become. As stated earlier, can be the movement of the legs of the hollow profile through the use from simple pressure pieces from an example vertical press movement in a horizontal Angling the kink legs to be diverted.

Become the upper shells, the thorns and / or the lower shells during the Angling the legs of the hollow profile so that the faces the respective opposite arranged upper shells, thorns and / or lower shells one have a substantially constant distance to the kink plane, will be optimal support the inner and the outer kink area achieved the hollow profile. A particularly easy choice of position the bending axis relative to the hollow profile is characterized in a simple manner achieved that the hollow profile with a leg on a Schichtdorn is pushed, so that the end face of the Schichtdorns with the desired kink level closes, subsequently the lower shells and the upper shells are applied to the hollow profile and the opposite Layer mandrel is positioned in the hollow profile. This makes it possible, in particular after bending the kink bent hollow profile in a simple manner to demould.

Finally, an improvement in the support of the hollow profile during the angling can be achieved in that the upper shells, the layer mandrels and the lower shells are subjected to a pressure axially to the hollow profile. As a result, the upper shells, the thorns and the Lower shells forced to remain in their position, so that these, but in particular the layer mandrel, lead to a deformation of the hollow profile, in particular in the outer bend region.

According to one Third teaching of the present invention can be described with the Method, preferably using the device according to the invention, a process-reliably manufactured bent-bent hollow profile can be made available. The produced by the method according to the invention Kink-bent hollow profile differs from the previously available bend-bent hollow profiles, in particular by a controlled Wall thickness in the outer kink area as well as no wrinkling with a particularly low inner kink area.

Finally will the above-mentioned object according to a fourth teaching of the present invention Invention by the use of the buckling-bent hollow profile according to the invention dissolved in automotive or pipeline construction. Especially in the automotive industry be as structural parts of a body shell, as a component of a Exhaust system or as a chassis part often kink bent hollow sections with particularly tight bending radii demanded, so that economically and process-proven hollow profile in this application is of great benefit. The same applies to the pipeline construction, at which often Pipe fittings be used for the deflection of pipelines, which closest Have bending radii. About that In addition, however, other advantageous uses of the bend-bent according to the invention Hollow profiles conceivable.

It There are a lot of possibilities now inventive device for kink bending a hollow profile made of metal and the method according to the invention to develop bending bending of a hollow profile made of metal and embody. Reference is made on the one hand to the claims 1 and 13 subordinate claims, on the other hand, to the description of an embodiment of a device according to the invention for kink bending a hollow profile and an embodiment a buckling bent invention Hollow profiles in conjunction with the drawing. In the drawing shows

1 in a schematic axial sectional view of an embodiment of a device according to the invention for kink bending of hollow sections immediately before carrying out the method according to the invention,

2 in a schematic sectional view of the region of the buckling plane of the embodiment 1 .

3 the embodiment 1 after kink bending of the hollow profile in a schematic axial sectional view and

4a , b is a hollow profile before and after carrying out a method according to the invention with the exemplary embodiment 1 ,

The schematic, axial sectional view of an embodiment of a device according to the invention 1 for kink bending a hollow metal profile shows on the one hand, the two crease legs 2 and 3 , which is one in a bend plane 4 lying bending axis 5 are angled against each other. The hollow profile 6 , which in the present case is designed as a tube, is on each kink leg 2 . 3 through upper shells 7 . 8th , Thorns 9 . 10 as well as lower shells 11 and 12 supported. In addition, in 1 rods 13 and 14 to recognize which the thorns 9 . 10 connect with a laminated mandrel thrust unit, not shown. In addition, a hollow profile support unit 15 shown, which supports the hollow profile at both axial ends in the axial direction. The arrows 16 . 17 . 18 indicate the direction of movement, in which the upper shells 7 . 8th , Thorns 9 . 10 and lower shells 11 . 12 while bending the kink legs 2 . 3 to be moved. The bending axis 5 is present slightly outside the central longitudinal axis of the hollow profile 6 arranged. Not shown means for displacement of the knuckle 2 . 3 relative to the fixed bending axis, the bending axis 5 be freely selected in their position along the kink plane to achieve the desired shape of the buckled hollow profile. The one with 19 designated section in 1 is enlarged in 2 shown.

In 2 it can be seen that both the upper shells 7 . 8th as well as the thorns 9 . 10 and the lower shells 11 . 12 each beveled in the present embodiment with a helix angle, which is about 0.5 times the maximum bending radius of the illustrated embodiment of the device according to the invention 1 corresponds to the bend bending. As in 3 is shown, have the layer mandrels 9 . 10 upper layer of thorns 9a . 10a on, which on its end face facing the outer buckling area, the shape of the outer bending region of the hollow profile 6 exhibit. In the buckling bending according to the invention, therefore, the outer buckling area, which takes place between the upper layer of laminated mandrels, increases 9a . 10a and the upper shells 7 . 8th in the area of the kink level 4 arranged is the shape of the end faces of the upper Schichtdornschichten 9a and 10a at.

At the inner kink area, which is between the layer of laminated mandrels 9d . 10d and the lower shells 11 . 12 is arranged, have the Schichtdornschichten 9d . 10d ever smaller layer thickness on, so that the inner kink area of the hollow section 6 is supported particularly effective in spite of the shifting of the Schichtdornschichten when bending. The lower shells 11 . 12 are preferably axially layered and have immediately adjacent to the hollow profile 6 at least one layer thickness, which corresponds to at least 2.5 times the wall thickness of the hollow profile. This ensures that the lower shell layers 11a . 12a , despite the enormous forces acting on it during buckling, no springing except the necessary thickening of the wall thickness of the hollow section 6 allow.

Be the kink legs 2 . 3 as in the axial sectional view in FIG 3 represented, angled against each other and at the same time the upper shells 7 . 8th , the thorns 9 . 10 and the lower shells 11 . 12 shifted against each other, the hollow profile 6 kinked with an extremely small inner kink area and formed at the same time a round outer kink area. The 3 shows the embodiment of a device according to the invention 1 out 1 at the end of the bend bending with minimal bending angle, so that the beveled faces of the upper shells 7 . 8th , the thorns 9 . 10 and the lower shells 11 . 12 parallel to the kink plane 4 are arranged. The hollow profile support unit 15 ensures during bending bending, that the hollow profile 6 no uncontrolled movements.

A hollow profile 6 , which is designed as a tube, before and after the buckling bending with the device of the embodiment 1 show the 4a ) and 4b ). In 4b ) it can be seen that the inner kink area is extremely small and yet the outer kink area corresponds to a desired shape.

Claims (22)

Device for kink bending a hollow profile made of metal with two against each other about an articulated kink axis arranged in a kink axis bend legs for receiving the hollow profile, characterized in that on each crease leg ( 2 . 3 ) for receiving the hollow profile ( 6 ) each at least one positionable on the outer bending region of the hollow profile upper shell ( 7 . 8th ), at least one positionable at the inner bending region of the hollow profile lower shell ( 11 . 12 ) and at least one inside the hollow profile ( 6 ) positionable layer mandrel ( 9 . 10 ) are provided, by which the hollow profile can be supported during the bending of the bend legs, the opposite upper shells ( 7 . 8th ), Thorns ( 9 . 10 ) and lower shells ( 11 . 12 ) in the kink plane ( 4 ) of the kink leg ( 2 . 3 ) are separated from each other, wherein the layer mandrels ( 9 . 10 ) are axially layered, and at least one upper shell push unit, a laminated mandrel push unit and a support unit ( 15 ) for the axial support of the hollow profile ( 6 ) are provided. Apparatus according to claim 1, characterized in that axially layered lower shells ( 11 . 12 ) and a lower shell pushing unit are provided. Apparatus according to claim 1 or 2, characterized in that a press for bending the buckling legs ( 2 . 3 ) for the hollow profile ( 6 ) is provided. Device according to one of claims 1 to 3, characterized in that the individual upper shells ( 7 . 8th ), Mandrels ( 9 . 10 ) and / or shells ( 11 . 12 ) at least twice the length of a cross section of the hollow profile ( 6 ) exhibit. Device according to one of claims 1 to 4, characterized in that the thickness of the layers ( 9a . 9b . 9c . 9d . 10a . 10b . 10c . 10d ) of the layer mandrel from the outer bend region in the direction of the inner bend region of the hollow profile ( 6 ), wherein preferably the layer thickness of one third of a cross section of the hollow profile ( 6 ) up to 2.5 times the wall thickness of the hollow profile ( 6 ), more preferably up to 2 times the wall thickness of the hollow profile ( 6 ) decreases. Device according to one of claims 1 to 5, characterized in that the wall thickness of the individual layers ( 9a . 9b . 9c . 9d . 10a . 10b . 10c . 10d ) of the layer mandrel increases from the inner to the outer kink area by a factor of 1.5 to 2, respectively. Device according to one of claims 1 to 6, characterized in that the layers ( 9a . 9b . 9c . 9d . 10a . 10b . 10c . 10d ) of the layer mandrels are chamfered with a helix angle which corresponds to 0.2 to 0.5 times the maximum bending angle, wherein the end face of the in the interior of the hollow profile at the outer buckling region adjacent layers ( 9a . 10a ) with the greatest thickness, the shape of the desired outer curvature of the hollow profile ( 6 ) having. Device according to one of claims 1 to 6, characterized that the layers of the layer mandrels are rounded. Device according to one of claims 2 to 8, characterized in that the end faces of the layers ( 11a . 11b . 12a . 12b ) of the lower shells are chamfered at a helix angle corresponding to 0.5 times the maximum bending angle. Device according to one of claims 2 to 8, characterized that the end faces the layers of the lower shells are rounded. Device according to one of claims 2 to 10, characterized in that the layer thickness of the layers ( 11a . 11b . 12a . 12b ) of the lower shells at least 2.5 times the wall thickness of the hollow profile ( 6 ), wherein the layer thickness preferably changes by a factor of 1.5 to 2 from layer to layer. Device according to one of claims 1 to 11, characterized in that a composite joint between the upper shells ( 7 . 8th ) is provided. Device according to one of claims 1 to 12, characterized that to support the Hollow profiles on one side Fixed stops are provided. Device according to one of claims 1 to 13, characterized in that on the buckling legs ( 2 . 3 ) arranged hollow profile ( 6 ) relative to the bending axis ( 5 ) parallel to the kink plane ( 4 ) is displaceable. Method for kink bending a hollow profile Metal, in which two the legs of the bend-bent hollow profile forming portions of the hollow profile around one in a leg separating buckling plane arranged bending axis are bent, in particular for implementation with a device according to claim 1 to 14, characterized in that the hollow profile during the Angling through at least two at the outer bending region of the hollow profile adjacent upper shells, at least two at the inner kink area adjacent lower shells and at least two inside the hollow profile arranged layer mandrels is supported, the upper shells, lower shells and thorns in the kinked plane are separated by two mutually bendable kink legs, the Layer mandrel is axially layered, at least the inside Layer mandrels and the upper shells during bending against each other be moved and the hollow section at both axial ends in supported in the axial direction becomes. Method according to claim 15, characterized in that that axially layered lower shells are used, which during the Angling the hollow section are shifted against each other. Method according to claim 15 or 16, characterized that the legs of the hollow profile angled by a press become. Method according to one of claims 15 to 17, characterized that the upper shells, the thorns and / or the lower shells during the Angling off the legs of the hollow profile so that the faces the respective opposite arranged upper shells, thorns and / or lower shells one have the same distance to the kink level. Method according to one of claims 15 to 18, characterized that pushed the hollow profile with a leg on a layer mandrel will, so the frontal area of the Schichtdorns with the desired Kink level closes, subsequently the lower shells and the upper shells are applied to the hollow profile be and the opposite Layer mandrel is positioned in the hollow profile. Method according to one of claims 15 to 19, characterized that while of angling the upper shells, the thorns and the lower shells be acted upon with a pressure axially to the hollow profile. Bent bent hollow profile made of steel or a steel alloy prepared by a process according to claims 15 to 20. Use of the buckled hollow profile according to claim 21 in the automotive industry or in pipeline construction.