EP3768457A1 - Forming device and method for supplying at least one root protection gas - Google Patents

Abstract

The invention relates to a forming device (200) for supplying at least one root protection gas to the root side of at least one region (11) of at least one pipe (10) to be connected, comprising at least one root protection gas supply device (220) for supplying the root protection gas and comprising at least one root protection gas conducting device (210) for conducting or deflecting the supplied root protection gas in an axial direction along the inner wall of the pipe (10) along the root side of the region (11) to be connected, wherein the root protection gas conducting device (210) has a cylindrical shape and can be inserted into the pipe (10) in a centered manner, and the root protection gas supply device (220) is arranged within the root protection gas conducting device (210). The invention additionally relates to a method for forming or supplying at least one root protection gas to the root side of at least one region (11) of at least one pipe (10) to be connected. The supplied root protection gas is guided, conducted, or deflected in the direction along the inner face of the pipe (10) along the root side of the region to be connected, and the root protection gas is additionally guided in the radial direction such that when the pipe region is connected to a pipe bend (12), the root protection gas is guided along the curvature of the pipe bend (12) in the axial direction.

Description

 description

Forming apparatus and method for supplying at least one Wurzelschutzqases

The invention relates to a forming device and a method for forming or for supplying at least one root shielding gas to the root side of at least one region to be joined.

State of the art

The term "shaping" refers to the gassing or the flushing of the root side and the heat-affected zone of a region to be joined with at least one root protective gas. In this case, the region of the region to be joined is referred to as the root side of the joining device facing away from the joining device.

Furthermore, when joining a seam in several layers, the lowest and / or first formed layer and, in the case of a seam of the seam portion of the seam facing away from the joining device, are referred to as root.

In the following, the term joining comprises in particular both welding, in particular all fusion welding processes, such as very particular

Arc welding or else beam welding (and here in particular laser beam welding) as well as arc brazing and mixed forms of welding and brazing.

Furthermore, the term root shielding gas is used herein for both pure root protection gases and root protection gas mixtures.

As root protective gas, gases such as argon or inert gases, such as nitrogen, and mixtures of nitrogen and hydrogen (forming gases according to DIN EN 439) or argon and hydrogen are usually used during the forming. The choice of root protection gas depends on the materials to be processed, on the components, on the type of root protective gas supply and on the joining conditions. Root protection gases facilitate a good rooting of the seam, improve the Surface quality of the root and prevent scale formation or tarnish in the joining area.

Function of the root protective gas during the forming is the oxygen-containing

Repress atmosphere and achieve a high quality surface. at

Joining work on corrosion-resistant workpieces, for example on

Stainless steel, namely oxidize the seam and the seam zones

unhindered influx of atmospheric oxygen due to the joint heat in conjunction with the atmospheric oxygen and it show tarnish.

Because the corrosion resistance of oxidized surfaces is greatly reduced, it is important when joining stainless steel objects to ensure adequate gas protection, also and especially on the root side. The present invention therefore relates in particular to root protection during the joining of

Stainless steel constructions, mainly for joining stainless steel pipes.

But a root protection in other materials is affected by the present invention.

Forming the formation of tarnish and oxidation in the area to be joined by the use of root protective gas, optionally in

Connection with a technical device, a so-called forming device prevents.

Known forming devices usually bring the root protective gas by suitable arrangement of sealing lips and diffusers within the tube directly to the joint and keep the atmospheric oxygen away. When welding stainless steel tubing, formers are used to shut off a short section of the tube and fill it with the root shield gas, thereby avoiding or at least reducing unwanted root-side seam oxidation and preventing tarnish colors.

Main advantages of the forming device are gas saving and more effective seam protection. In order to achieve corrosion-resistant joint seams, the residual oxygen content is increased the root side is preferably reduced to a maximum of about thirty parts per million (ppm).

Conventional forming devices are based on two different principles: either the space to be flushed is completely flooded with root protective gas, with low flow velocities prevailing, or the seam is blown directly radially. Although this ensures the reduction of the oxygen content to the required level directly at the seam, the compounds often show discoloration.

Characteristic of these discolorations is that they occur predominantly next to the suture and occasionally also on the suture. Even in the technical sense perfect formation, ie at 0 ppm residual oxygen content, these discolorations are possible.

DE 10 2007 058 804 A1 discloses a forming device based on the principle that a root protection gas flow in the direction along the root side of the area to be joined, in particular in the axial direction of the object and / or in a plane substantially parallel to the region to be joined of the object , For example, along the inner wall of the pipe to be joined, is performed.

The root shielding gas thus flows along a directionally (in principle arbitrarily shaped) surface of the article, for example along and / or across the seam. This directed root protection gas flow causes possibly exiting from the base material of the article, for example from the pipe material, vapors are led away from the joint or the area to be joined, so that these vapors can not be deposited in the seam. This example thus ensures a metallically bright seam formation without any discoloration, that is without tarnish (chromium oxides) and without discoloration and deposits.

Fig. 1 shows a suitable for this purpose known from the prior art

Forming device 100. A Wurzelschutzgasleiteinrichtung 1 10 is in the form of a cylindrical displacement body, which can be used centered in a tube 10. The lateral surfaces and the left end face of the

Displacement body 1 10 are formed closed. Between the left

End face and a sealing element 130 is a Wurzelschutzgaszuführeinrichtung 120 arranged in the form of a diffuser. The root protective gas supply device 120 introduces the root protective gas into the intermediate space between the seal 130 and the left end face, so that an overpressure arises through which the root protective gas flows into the intermediate space between the lateral surface of the cylindrical displacement body 110 and the tube 10. As a result, a current is generated in the axial direction of the tube, so that the supplied root protection gas at least in the region of

Root side of the weld or the area to be joined 1 1 is directed in the direction along the root side of the area to be joined. Right of that

Displacer 1 10 a centering element 140 is arranged, which is gas-permeable, whereby the displacer can be centered in the tube and whereby the root gas flow generated can continue to flow. To the left of the seal 130, a gas supply line 160 is connected, through which the root gas in the

Wurzelgaszuführeinrichtung 120 is passed.

The forming device shown is designed in particular for use in straight tubes. Due to their size and stiffness, the former is unable to pass through a pipe bend

The aim of the invention is to enable the forming in a pipe bend. Disclosure of the invention

The invention proposes a forming device and a method for forming or supplying at least one root shielding gas to the root side of at least one region to be joined at least one tube according to the independent ones

Claims. Advantageous embodiments emerge from the respective subclaims and the following description.

Advantages of the invention

According to the invention, the root protection gas supply device is within the

Wurzelschutzgasleiteinrichtung arranged.

This is advantageous, since thereby the forming device can be made substantially more compact than, for example, the forming device of FIG. Thereby The forming device can also introduce from one side to the curvature region of a pipe bend or even pass through a pipe bend.

In an advantageous embodiment, an end face of the cylindrical root protection gas guide is at least partially open, so that the

Root protective gas from the root protective gas supply device in the

Wurzelschutzgasleiteinrichtung by the end face over an edge of

cylindrical Wurzelschutzgasleiteinrichtung in a gap between the lateral surface of the Wurzelschutzgasleiteinrichtung, which acts as a displacement body, and the tube can flow and is thus passed at least in the region of the root side in the direction along the root side of the area to be joined. In this way, a compact structure is made possible, which easily allows a root protection gas flow in the axial direction along the inner wall of the pipe along the root side of the area to be joined with low gas consumption, even if the area to be joined is an edge region of a pipe bend. It is advantageous if the other end face of the cylindrical Wurzelschutzgasleiteinrichtung is at least partially, preferably completely closed, so that a directed

Root gas flow is generated from the open end face.

Conveniently, the lateral surface of the cylindrical

Wurzelschutzgasleiteinrichtung at least one hole, wherein the

Wurzelschutzgaszuführeinrichtung with the Wurzelschutzgasleiteinrichtung further cooperates such that supplied root shielding gas is passed through the hole radially from the inside to the outside.

The root protection gas guide must be placed so that the flow is directed through the at least one hole in a bend of the pipe bend. This ensures a protective gas flow which covers the curvature of the pipe bend which is not or hardly detected by the gap flow, and here too the formation of

Manganese flags prevented. The root protection gas is guided along the curvature of the pipe bend by the root protection gas, which is radially guided from the inside to the outside in addition to the axial direction. As a result, even with curved pipe bends, the principle is met that a root protection gas flow in the direction along the

Root side of the area to be joined, in particular in the axial direction to

Object and / or in a plane substantially parallel to the to be joined Area of the article, for example, along the inner wall of the pipe to be joined, is guided.

Advantageously, the lateral surface has the hole in the axial direction closer to one end of the lateral surface than at a center of the lateral surface, in particular close to the substantially or completely closed end surface of the

Wurzelschutzgasleiteinrichtung, whereby preferably when joining the pipe to a pipe bend a Wurzelschutzgasströmung with radial component and thus along a curvature of a pipe bend is generated. It is conceivable that the lateral surface of the cylindrical root protective gas guide has a plurality of holes, preferably 2 to 30, more preferably 5 to 20. In this way, a root protection gas flow along an entire curvature of a Rohbogens is preferably made possible.

Expediently, the forming device has at least one sealing element which can be inserted into the tube for at least partial sealing of the supplied root protection gas in an axial tube direction. Advantageously, the sealing element is arranged on the side of the root protective gas guiding device, on which the at least partially opened end face is located. That way that can

Root protective gas from the root protective gas supply device in the

Wurzelschutzgasleiteinrichtung flow through the at least partially open end face in the space between the seal and left cutting surface, so that here an overpressure arises through which the root protective gas flows into the space between the lateral surface of the cylindrical displacement body or the cylindrical Wurzelschutzgasleiteinrichtung and the tube. As a result, a flow in the axial tube direction is generated, so that the supplied root protection gas is conducted at least in the region of the root side in the direction along the root side of the region to be joined.

In a further advantageous embodiment, the forming device has at least one insertable into the tube, in particular gas-permeable,

Centering for centering the Wurzelschutzgasleiteinrichtung on. As a result, in particular the root protective gas guide device, which acts as a displacement body, can be held in a central tube position, so that a gap between the lateral surface of the cylindrical Wurzelschutzgasleiteinrichtung and the tube is uniform.

Expediently, the at least one centering element is arranged in the axial direction only on one side with respect to the root protective gas guide device. This advantageously allows a compact construction, whereby the

 Wurzelschutzgasleiteinrichtung can be brought up very close to a pipe bend.

Advantageously, the at least one centering element and the at least one sealing element are both arranged on the same side with respect to the Wurzelschutzgasleiteinrichtung in the axial direction. This is expediently the side on which the end face is at least partially open. In this way, the

Wurzelschutzgasleiteinrichtung be brought in the axial direction very close to a pipe bend.

In an advantageous embodiment, the Wurzelschutzgaszuführeinrichtung is a diffuser. This is advantageous because the supplied root protection gas is distributed in this way particularly well in the root protection gas guide and a

Root protective gas flow to the open end face over an edge of the

cylindrical root protective gas guiding device can form in a gap between the lateral surface of the root protective Gasleiteinrichtung and preferably through the hole in the lateral surface in the radial direction.

According to a further aspect of the invention, a method is proposed for forming or supplying at least one root shielding gas to the root side of at least one portion of at least one tube to be mated, the supplied root protective gas being directed along an inside of the tube along the root side of the region to be mated or is guided, wherein the root protective gas is additionally guided in the radial direction, so that at

Joining with a pipe bend the root protective gas is guided along a curvature of the pipe bend in the axial direction. This is advantageous since this ensures a protective gas flow which covers the curvature of the pipe bend that is not or hardly detected by the gap flow and, in this case, also prevents the formation of manganese lugs. In addition to the axial direction from the inside to the outside radially guided root protective gas, the root protective gas is guided along the curvature of the pipe bend, so that even with curved pipe bends the principle is satisfied that a root protective gas flow in the direction along the root side of the area to be joined, in particular in the axial direction of the object and / or in a plane substantially is guided parallel to the area to be joined of the article, for example along the inner wall of the pipe to be joined.

Expediently, argon, nitrogen and / or hydrogen are used as root protection gas. These are beneficial gases to prevent tarnish.

Advantageously, a forming device as described above is used for the method.

Further advantages and embodiments of the invention will become apparent from the

Description and the accompanying drawings.

It will be understood that the features mentioned above and those yet to be explained below can be used not only in the combination given, but also in other combinations or alone, without departing from the scope of the present invention.

The invention is illustrated schematically with reference to some embodiments in the drawings and will be described below with reference to the

Drawings described.

Brief description of the drawings

Fig. 1 shows a forming device of the prior art;

Fig. 2 shows an embodiment of an inventive

 Forming device;

Figures 3A-3H show steps of a pipe bend welding method to two open pipe ends using an embodiment of a forming apparatus according to the invention; Figures 4A-4H show steps of a pipe bend welding process to an open and a closed pipe end using an embodiment of a forming apparatus according to the invention.

Fig. 1 has already been explained in the introduction to the description.

Fig. 2 shows an embodiment of a forming device according to the invention, which is designated 200. Forming device 200 is here in a tube 10

arranged, which is being welded to a pipe bend 12. The weld is designated 1 1.

The forming device 200 for supplying at least one root shielding gas to the root side of at least one portion of a tube 10 to be mated comprises a root shielding gas supply means 220 for supplying the root shielding gas, which is formed here as a diffuser, and a root protection gas guide 210 for guiding or directing the supplied root shielding gas in the axial direction the inner wall of the tube 10 along the root side of the region to be joined, which functions as a displacer. The Wurzelschutzgasleiteinrichtung 210 is cylindrical in shape and centered in the tube used. The

Root containment gas supply 220 is within the

 Wurzelschutzgasleiteinrichtung 210 is arranged. Via a root gas inlet 260 on the left side of the figure root gas is injected into the

Wurzelschutzgaszuführeinrichtung 220 passed.

An end face of the cylindrical root protection gas guide 220 is at least partially open, so that the root protective gas from the

Wurzelschutzgaszuführeinrichtung 220 in the Wurzelschutzgasleiteinrichtung 210 through the end face over an edge of the cylindrical

Wurzelschutzgasleiteinrichtung 210 in an intermediate space between the lateral surface of the Wurzelschutzgasleiteinrichtung 210, which acts as a displacement body, and the tube can flow and so at least in the root side in the direction along the root side of the area to be joined 1 1 is passed. The other end face of the cylindrical root protection gas guide 210 is completely closed, so that a directed root gas flow is generated from the open end face. The lateral surface of the cylindrical root protection gas guide 210 has at least one hole 21 1, wherein the root protection gas supply 220 with the Wurzelschutzgasleiteinrichtung 210 further cooperates such that supplied root protective gas is passed through the hole 21 1 radially from the inside to the outside. The root protection gas guide 210 is here placed so that the flow through the at least one hole 21 1 is directed into a curvature of the pipe bend 12. This ensures a protective gas flow which covers the curvature of the pipe bend 12, which is not detected by the gap flow, and also prevents the formation of manganese lugs here. The root protective gas is guided along the curvature of the pipe bend 12 by the root protection gas guided inwards in addition to the axial direction, so that even with curved pipe bends 12 the principle is met that a root protection gas flow in the direction along the root side of the area to be joined, in particular in Direction of the object and / or in a plane substantially parallel to the area to be joined of the article, for example along the inner wall of the pipe to be joined, is guided.

The forming device 200 has a sealing element 230 which can be inserted into the tube 10 for the at least partial sealing of the supplied root protection gas in an axial tube direction. The sealing element 230 is here on the side of

Wurzelschutzgasleiteinrichtung 210 arranged at which the at least partially open end face is located. In this way, the root protective gas can flow from the root protective gas supply device 220 in the root protective gas guide 210 through the at least partially open end face into the space between the seal and the left end face, so that an overpressure arises through which the root protective gas in the space between the lateral surface of the cylindrical displacement body 210th or the cylindrical

Wurzelschutzgasleiteinrichtung 210 and the tube 10 flows.

The forming device 200 further comprises an insertable into the tube 10

Centering element 240 for centering the root protective Gasleiteinrichtung. In addition, a gas connection 250 is arranged on the other end face in order to change over the gas supply line 260. FIGS. 3A-3H illustrate steps of a pipe bend welding method to two open pipe ends using an embodiment of a forming apparatus 200 according to the present invention.

In Fig. 3A, it is shown how the former 200 is inserted into an open tube such that the seal member 230 and the centering member 240 remain in the tube while the root protective gas guide 210 partially protrudes from the tube. The forming device 200 has two gas ports 250, one on the side of the centering 240, the other on the side of the

Wurzelschutzgasleiteinrichtung 210. The gas supply line 260 is connected to the gas port 250, which is arranged on the centering element. Now, in Fig. 3B, a pipe bend is placed on the end of the pipe from which the

Root shield gas guide 210 protrudes. In Fig. 3C is a

Forming method according to the invention carried out, wherein the tube with the

Pipe bend is welded. In Fig. 3D, the former 200 is withdrawn through the tube. In Fig. 3E, the former 200 is inserted into another open tube, also such that the seal member 230 and the centering member 240 remain in the tube, while the root protective gas guide 210 protrudes partially out of the tube. In Fig. 3F, the other end of the pipe bend is placed on the end of the pipe from which the root protection gas guide 210 protrudes. In Fig. 3G, a forming method according to the invention is performed again, wherein the tube is welded to the pipe bend. In Fig. 3H, the former 200 is removed from the tube.

FIGS. 4A-4H illustrate steps of a pipe bend welding process to an open and a closed pipe end using an embodiment of a forming apparatus 200 according to the present invention.

In this case, the gas supply line 260 is initially arranged on the gas connection 250. In FIG. 4A, the former 200 is inserted into a tube closed on one side such that the sealing element 230 and the centering element 240 remain in the tube, while the root protective gas guide 210 protrudes partially out of the open end of the tube. The gas supply line 260 also looks out with one of the gas connections 250 from the open end of the tube. Now, in Fig. 4B, a pipe bend is placed on the end of the pipe from which the Root shield gas guide 210 protrudes. In Fig. 4C, a forming method according to the invention is carried out, wherein the tube is welded to the pipe bend. In Fig. 4D, the former 200 is withdrawn through the pipe bend.

Then, the gas supply line 260 is connected to the other gas connection 250. The steps in Figs. 4E-4H then correspond to the steps in Figs. 3E-3H.

reference numeral

10 tube

 1 1 area to be joined, weld

 12 pipe bend

 100 Forming device (prior art)

 1 10 Root protection gas guide, displacement body

 120 root protective gas supply

 130 sealing element

 140 centering element

 160 gas supply

 200 forming device

 210 Wurzelschutzgasleiteinrichtung, displacement body

 21 1 hole

 212 flow deflection

 220 root protective gas supply

 230 sealing element

 240 centering element

 250 gas connection

 260 gas supply

Claims

claims

1 . Forming device (200) for supplying at least one Wurzelschutzgases to the root side of at least one region to be joined (1 1) at least one tube (10) and for supplying the Wurzelschutzgases along a curvature of the pipe bend in the axial direction, comprising at least one

 Root protective gas supply means (220) for supplying the root shielding gas and at least one Wurzelschutzgasleiteinrichtung (210) for guiding or directing the supplied root shielding gas in the axial direction along the inner wall of the tube (10) along the root side of the area to be joined

(1 1), wherein the Wurzelschutzgasleiteinrichtung (210) is cylindrically shaped and centered in the tube (10) can be inserted, characterized in that the Wurzelschutzgaszuführeinrichtung (220) within the

 Wurzelschutzgasleiteinrichtung (210) is arranged.

2. Forming device (200) according to claim 1, characterized in that an end face of the cylindrical root protective gas guide (210) is at least partially open, so that the root protective gas from the

 Wurzelschutzgaszuführeinrichtung (220) in the Wurzelschutzgasleiteinrichtung (210) through the end face over an edge of the cylindrical

 Root protection gas guide (210) in a gap between

 The lateral surface of the root protective gas guide (210) and the tube (10) can flow and is thus directed at least in the region of the root side in the direction along the root side of the region to be joined (1 1).

3. Forming device (200) according to claim 1 or 2, characterized in that the lateral surface of the cylindrical Wurzelschutzgasleiteinrichtung (210) has at least one hole (21 1), wherein the Wurzelschutzgaszuführeinrichtung (220) with the Wurzelschutzgasleiteinrichtung (210) continue such

 cooperates, that supplied root protective gas is passed through the hole (21 1) radially from the inside out.

4. Forming device (200) according to claim 3, characterized in that the lateral surface has the hole (21 1) in the axial direction closer to one end of the lateral surface than at a center of the lateral surface.

5. Forming device (200) according to any one of claims 1 to 4, characterized by at least one in the tube (10) insertable sealing element (230) for at least partially sealing the supplied root shielding gas in an axial tube direction.

6. Forming device (200) according to any one of claims 1 to 5, characterized by at least one in the tube (10) insertable, in particular

 gas permeable, centering element (240) for centering the

 Root protection gas guide (210).

7. Forming device (200) according to claim 6, wherein the at least one

 Centering element (240) in the axial direction only on one side with respect to the root protection gas guide (210) is arranged.

8. Formiervorichtung (200) according to claim 6, as far as dependent on claim 5, wherein the at least one centering element (240) and the at least one sealing element (230) in the axial direction only on one side with respect to

 Wurzelschutzgasleiteinrichtung (210) are arranged.

9. Forming device (200) according to any one of the preceding claims, wherein the Wurzelschutzgaszuführeinrichtung (220) is a diffuser.

10. A method of forming or supplying at least one

 Root shielding gas to the root side of at least one region (1 1) to be joined at least one tube (10), wherein the supplied root protective gas in the direction along an inner side of the tube (10) along the root side of the area to be joined, guided or directed, characterized that the root protective gas is additionally guided in the radial direction, so that at

 Joining with a pipe bend (12) the root protective gas along a curvature of the pipe bend (12) is guided in the axial direction.

1 1. A method according to claim 10, wherein as a protective gas argon, nitrogen

and / or hydrogen.

12. The method of claim 10 or 1 1, wherein a forming device (200) is used according to one of claims 1 to 9.