EP1879707A1

EP1879707A1 - Guiding and shaping system

Info

Publication number: EP1879707A1
Application number: EP06742332A
Authority: EP
Inventors: Manfred Hartmann
Original assignee: Eroform Edelstahl GmbH
Current assignee: Wuppermann Edelstahltechnik GmbH
Priority date: 2005-05-13
Filing date: 2006-05-11
Publication date: 2008-01-23
Anticipated expiration: 2026-05-11
Also published as: DE112006002037A5; EP1879707B1; ES2326191T3; DE502006003541D1; ATE429294T1; US20090277879A1; US8829384B2; WO2006119755A1; PL1879707T3; WO2006119755A8; JP2008540132A; DE102005022244A1; DE102005022244B4

Abstract

A guiding and shaping system for producing welded pipes made from metallic strip material. The guiding and shaping system comprises several pairs of rolls that are disposed one behind another in the direction of travel of the workpiece and are used for increasingly cold-working and bending the edges of the workpiece as the workpiece advances. First pairs of rolls grip the top side and bottom side of the workpiece while pairs of rolls that grip the external faces of the bent edges and form the shape of a pipe are provided in the region where the bent edges form undercuts. The guiding and shaping system further comprises a welding device. The workpiece is supported by floatingly mounted lateral rolls until cooling off following the welding process.

Description

Guidance and deformation system

The invention relates to a guide and deformation system for producing welded pipes of metallic strip material, in which the band edges (seam) is closed, for example by means of a laser or by high-frequency technology, a method for producing welded pipes and the use of the guiding and deformation system for the production of welded pipes.

The production of welded pipes of metallic strip material is known (DE 35 29 160 A1). As a rule, the initially band-shaped workpiece (metallic strip material) is subjected to an increasingly severe deformation of the edges. The first pairs of rollers in the feed device have somewhat interlocking shapes, which bend the strip material far enough that the curved edges are slightly more than at right angles to the previous cross section of the strip. In this degree of deformation, no form roller can intervene more in the thus having an undercut partially preformed already to a tube workpiece.

It is therefore known to provide from such a degree of deformation on the outer sides drive-less rollers that press the bent-up portions of the workpiece in the further run closer to each other and complete the pipe curvature. However, this often leads to an offset of the two edges to each other, which leads to inhomogeneities, which must be compensated later.

To remedy these inhomogeneities is known from DE 198 34 400 C1, the partially preformed tube in a first rotational distance by about one

To twist quarter turn and deform in this twisted position in the further feed in such a way that the located between the edges Slit is reduced in the further feed rate. However, the inhomogeneities are not avoided by this method.

From DE 101 31 461 C1 a system for joining and longitudinal welding of bent from sheets or the like pipes is known. The sheets or tubes are mounted on rollers.

From DE 35 29 160 A1 a Formwalzvorrichtung with movable carriage is known.

EP 0 919 299 A2 relates to a device for removing a welding seam elevation.

WO 03/047783 A1 describes a method and a device for changing the rolls in a tube welding stand.

The deformed and welded by the known methods tubes easily jump because occur in the austenitic crystal structure of the tube stresses. This has a particularly strong effect on thin tubes.

Object of the present invention is therefore an apparatus for welding pipes of metallic strip material, in which a popping of the pipes is avoided. The weld should be carried out so that virtually no inhomogeneities occur. The design of the new device should be so simple that it is easy to use.

It was found a guiding and deformation system for the production of welded tubes of metallic strip material, consisting of • several in the feed direction of the workpiece successively arranged roller pairs for increasing cold working and

Curvature of the edges of the workpiece in the feed path, • wherein the first pairs of rollers engage the top and bottom of the workpiece and in the region in which the curved edges undercuts, roller pairs are provided which engage the outer sides of the curved edges and form the shape of a tube and

• from a welding device,

• the workpiece is supported after welding until it cools down by floating side rollers.

By means of the guiding and deformation system according to the invention, inhomogeneities of the welded tube are largely ruled out. The tubes produced in this way do not crack even under load. A necessary post-processing of the weld known from EP 919299 A2 is eliminated.

In a preferred embodiment of the present invention, the compression roll guide and slot tube deformation system may be used to produce welded metallic strip material

• From several in the feed direction of the workpiece successively arranged rollers for increasing cold deformation and curvature of the edges of the workpiece in the feed path, wherein first pair of rollers to

Engage the top and bottom of the workpiece and in the region in which the curved edges form undercuts roller pairs are provided which engage the outer sides of the curved edges and form a variable shape of a tube and can be individually shaped and from a calibration device for welding rollers, wherein the welded tube is held after welding to cool down by floating side rollers, also the slotted tube and the corresponding seam layer with a central adjustment on the 3 star-shaped compression rollers so influenced that the entire pipe system with only one mechanical adjustment (motorized automatic or manually) is adjustable so that the seam position before and during the welding process basically always in optimal

Welding position can be adjusted automatically or manually and • from a welding torch guide, which is alignable with corresponding radial guides centric to the tube axis and also always remains at exactly the same radius and distance to the material when tracking if a

Readjustment is automatic or manual.

So basically the same material penetration is possible on the slotted tube, no matter what radial position is the system or the slotted tube.

Likewise, the distance between the welding system and the pipe is basically exactly the same, which is especially the case for highly qualified and demanding people

Laser welding by always the same focal distance emphasizes. As a result, the introduction of a controlled welding process on a slotted pipe is possible for the first time.

In the guiding and deformation system according to the invention, welding can be carried out with all conventional methods for closing strip edges (seams) in metallic materials. In particular, tungsten inert gas welding (TIG welding) and laser welding are mentioned.

As with all other tube welding processes, TIG welding in the profiling machine forms the flat strip into the tube. In the welding area, an arc burns in a protective gas jacket of inert gas (argon-helium-hydrogen mixture or pure argon) between a non-consumable tungsten cathode and the strip edges. To increase the welding speed or tubes of larger size, several cathode torches are used. Depending on the application, DC or AC power is used (company brochure of the company Dreistern-Werk Maschinenbau GmbH & Co. KG). The most important advantage of laser welding is the excellent seam quality. The welding speed is usually higher than with TIG welding. However, the heat influence of the tube material is much lower than in TIG welding.

In laser welding, a highly focused light beam of non-divergent light is directed to the weld. The light beam is created in an optical resonator consisting of two mirrors and two parallel HF electrodes. The total energy of the laser is concentrated to a point of about 0.25 mm. This results in an extreme energy density of over 3 million W / cm ² . As a rule, a steam channel with ionized metal gas is formed at the weld. The temperature is about 25,000 ⁰ C. Around the steam channel forms a melting zone. The sheet-metal strip formed into the tube is moved under the laser beam. This forms a continuous weld (company publication of the company Dreistern-Werk Maschinenbau GmbH & Co. KG).

According to the present invention, the pre-formed in a known manner of metallic strip material pipe with open edges (slotted tube) is introduced into the guiding and deformation system according to the invention, in which the still open edges are closed with a known welding device.

As metallic strip materials are metal strips (coils) made of stainless steel, sheet metal, copper and brass, preferably called stainless steel.

After welding, the tube is supported according to the invention between two arranged in the feed direction behind the welding device floating side rollers until cooling.

Under floating side rollers in the context of the present invention are roles to understand that practically only lead the tube without pressure and exclude bending and / or torsional forces. A preferred embodiment of the present invention is characterized in that the floating side rollers are self-centering for the tube. The self-centering can be achieved by a conical shape of the inner surface of the side rollers.

According to the present invention, the workpiece is supported by floating side rollers until cooling. According to the invention, cooling preferably takes place up to a temperature in the range of about room temperature. Thus, a dendritic microstructure of the melt is counteracted in the solidification state or it is suppressed.

In a particular embodiment of the present invention, all guide and upsetting rollers of the workpiece during the cold deformation prior to welding can be adjusted depending on the diameter of the molded tube by a central height adjustment and a central side adjustment.

The height and lateral adjustment according to the invention can be carried out by mechanical or electronic devices in a conventional manner.

When forming the tube from the metal strip by means of the upsetting rollers, different thicknesses of the material easily occur, depending on the metal used. These can be compensated according to the invention by an eccentric adjustment of the compression rollers.

In a particular embodiment of the present invention, the compression rollers for adjustment via levers are connected to an eccentric disc.

Another particular embodiment of the present invention relates to the adjustment of the tube formed into a slot tube for insertion into the welding device. The adjustment of the welding device to the edges of the still open tube can be done mechanically.

In the particular preferred embodiment in the context of the present invention, however, the adjustment of the welding device takes place to the edges of the still open tube by an optical tape edge detection system. The position of the welding torch to the open edges is controlled according to the invention via the optical tape recognition system.

Optical tape edge detection systems are known per se.

A method has also been found for the production of welded tubes from metallic strip material, characterized in that the initially flat strip material is cold-formed into a tube in a plurality of forming stations one behind the other in the conveying direction by the edges of the strip material by upsetting and guide rollers more and more bent and curved toward each other, wherein the slot located between the edges in the further course of the advance and the deformation is reduced and finally closed and welded, the workpiece is variably adjustable in star shape by the angle of attack and the upsetting rollers also each individually adjustable in height and against each other eccentrically adjustable are.

As a result, the strip edges can be precisely held against each other and calibrated, even if uneven material thicknesses or material geometries are welded together. The contact pressures can be controlled separately per compression roll and controlled electronically, so that also irregularities in the bandwidths with resulting deviating basic cross section of the tubes to be formed are automatically eliminated. Furthermore, this gives the possibility to optimize the forces on each edge of the workpiece or wall thickness until an optimal melting process, regardless of which welding technology, takes place. The subject matter of the present invention is also the use of a guiding or deformation system for producing welded pipes of metallic strip material.

The present invention can be illustrated by FIGS. 1 to 3.

FIG. 1 shows the guide or deformation system according to the invention from the side.

FIG. 1 shows the guide or deformation system according to the invention from the inlet (1) of the slot tube (12) from which the opening is closed by the welding device (3). The not yet cooled pipe is supported by the floating side rollers (4) until it cools down. After cooling, the tube is transported in the feed direction through the outlet (2) out.

Before the welding device (3), the slit pipe is compressed by the lower compression roller (9) and the right and left compression roller (10). Due to the central height adjustment, the upsetting rollers (9 and 10) and the welding device (3) are adjusted as a function of the diameter of the tube.

The height adjustment (8) of the welding device (3) is controlled via the optical strip edge detection system (7) as a function of the respective position of the strip edges.

The lateral guidance of the pipe can be adjusted via a central side adjustment (6).

FIG. 2 shows the guide or deformation system according to the invention from the inlet (1) of the slot tube (12) (front view). The slotted tube (12) is compressed by the compression rollers (9 and 10) and the open edges by means of the welding device (3) closed. The right and left compression rollers (10) can be adjusted together with the welding device (3) via the central height adjustment (5). Fine adjustment of the compression rollers (10) is possible via the eccentric adjustment (14) via the levers (15). The lower compression roller (9) remains constant. If necessary, the height and height of the left and right upset rolls (10) can be adjusted separately via the adjustment (13).

FIG. 3 shows the guiding or deformation system according to the invention from above.

FIG. 3 shows the guiding or deformation system according to the invention with the inlet (1) of the slot tube whose edges are closed by the welding device (3). The not yet cooled pipe is supported by the floating side rollers (4) until it cools down. After cooling, the tube is transported in the feed direction through the outlet (2) out.

Due to the central height adjustment (5), the right and left upper compression rollers can be adjusted. By the central side adjustment (6), the guide of the slot tube (12) can be adjusted.

LIST OF REFERENCE NUMBERS:

1. Entrance of the pipe material formed into a pipe (slit pipe) (1)

2. Output of welded pipe 3. Welding device

4. floating side rollers

5. central height adjustment of the compression rollers (9) and (10) and the welding device (3)

6. Central lateral adjustment of the guide of the tube 7. Tape edge detection of the shaped strip material (12)

8. Guiding the welding device (3)

9. lower compression roll

10. Left, right and lower compression rollers

11. Calibration of left us right compression roll (10) 12. Pipe

13. Height adjustment of the left and right compression roller (10)

14. Centering unit for the eccentric adjustment

15. Lever for eccentric adjustment of the left and right compression rollers (10)

Claims

1. Guiding and deformation system for the production of welded tubes made of metallic strip material, consisting

Comprising a plurality of roller pairs successively arranged in the feed direction of the workpiece for the purpose of increasing cold deformation and curvature of the edges of the workpiece in the feed path,

• where first pairs of rollers engage the top and bottom of the workpiece and in the area where the curved edges

Form undercuts, roller pairs are provided which engage the outer sides of the curved edges and form the shape of a tube and

• from a welding device, • whereby the workpiece is supported by floating side rollers after welding until it cools down.

2. guiding and deformation system according to claim 1, characterized in that the floating side rollers are self-centering and no additional and unwanted mechanical forces are transmitted to the welded and correspondingly heated pipe.

3. guiding and deformation system according to one of claims 1 or 2, characterized in that the workpiece is supported by floating side rollers until cooling to room temperature.

4. guiding and deformation system according to one of claims 1 to 3, characterized in that all guiding and compression rollers of

Upset roller guide unit during cold working prior to welding, regardless of the diameter of the molded tube can be adjusted and positioned by a central control and thereby the suture layer can be influenced individually.

5. guiding and deformation system according to one of claims 1 to 4, characterized in that with the aid of a Justiermöglichkeit the

Fine adjustment of the compression rollers not only centric, but also eccentric via levers with predefinable contact pressures individual

Rolling can be done.

6. guiding and deformation system according to one of claims 1 to 5, characterized in that the control of the welding device to the edges of the open tube by a mechanical or optical tape edge detection system is centered to the tube axis with always the same distances to the material.

7. A method for producing welded pipes of metallic strip material, characterized in that the initially flat strip material is cold formed in a plurality of downstream in the conveying direction forming stations to form a tube by the edges of the strip material bent by upsetting and guide rollers more and more and curved towards each other are made, wherein the slot located between the edges in the further course of the advance and the deformation is reduced and finally closed and welded, and the workpiece is supported after welding to cool down by floating side rollers.

8. The method according to claim 7, characterized in that the floating-mounted side rollers are self-centering.

9. The method according to any one of claims 7 or 8, characterized in that the workpiece is supported by floating side rollers until cooling to room temperature.

10. The method according to any one of claims 7 to 9, characterized in that all guide and upsetting rollers of the workpiece during the cold deformation before welding are adjusted independently of the diameter of the molded tube by a central actuator.

11. The method according to any one of claims 7 to 10, characterized in that the adjustment of the holding and compression rollers are connected via levers with the Exzenterverstellung.

12. The method according to any one of claims 7 to 11, characterized in that the formed into a slit pipe workpiece is guided by an optical tape edge detection system prior to introduction into the welding device and thereby the welding head and / or the entire guide unit for Schlitzrohrzentrierung adjusted and continuously during the Welding process can be fully electronic or manually adjusted.

13. The method according to any one of claims 7 to 12, characterized in that the position of the welding torch is controlled by the mechanical or optical tape recognition system.

14. Use of a guiding or deformation system according to claims 1 to 6 for the production of welded pipes of metallic strip material.