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BUILD-UP WELDING METHOD

20190111510 ยท 2019-04-18

    Inventors

    Cpc classification

    International classification

    Abstract

    A build-up welding method (100) is disclosed in which a welding torch (1) is guided along a metallic workpiece (2) and at least one melting wire (5) serving as a build-up material (6) is fed at an infeed speed (9) into the arc (4) between at least one non-melting electrode (3) of the welding torch (1) and the workpiece (2). In order to achieve a build-up welding method (100) with higher build-up speeds in comparison to the prior art, it is proposed for the non-melting electrode (3) positioned normal to the workpiece (2) to be guided along the workpiece (2) and for the fed wire (5) to also be moved back and forth along its infeed direction (9).

    Claims

    1. A build-up welding method, comprising: guiding a welding torch along a metallic workpiece; feeding at least one melting wire serving as a build-up material at an infeed speed into an arc between at least one non-melting electrode of the welding torch and the workpiece; and guiding the non-melting electrode, positioned normal to the workpiece, along the workpiece and moving the melting wire back and forth along an infeed direction of the melting wire.

    2. The build-up welding method according to claim 1, comprising feeding the melting wire into the arc in advance in guidance direction of the welding torch.

    3. The build-up welding method according to claim 1, comprising feeding the melting wire continuously.

    4. The build-up welding method according to claim 1, wherein the non-melting electrode has a diameter of at least 6.4 mm.

    5. The build-up welding method according to claim 1, comprising guiding the welding torch along an outer cylindrical surface of a pipe.

    6. The build-up welding method according to claim 5, comprising guiding the welding torch along an inner cylindrical surface of the pipe.

    7. The build-up welding method according to claim 1, comprising guiding the welding torch along the workpiece in a circular or serpentine fashion.

    8. The build-up welding method according to claim 1, wherein the non-melting electrode is a tungsten electrode.

    9. The build-up welding method according to claim 1, wherein the welding torch is a WIG torch.

    10. The build-up welding method according to claim 1, wherein the melting wire is a hot wire.

    11. The build-up welding method according to claim 1, carried out in a PC welding position.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0017] In the figures, the subject of the invention is shown by way of example in one embodiment variant. In the drawings:

    [0018] FIG. 1 shows a partially cut-away cross-section through a build-up welding method according to the invention, along the x/y plane.

    [0019] FIG. 2 shows a top view of the method according to the invention.

    [0020] FIG. 3 shows a partially cut-away cross-section through a build-up welding method according to the invention on an outer cylindrical surface of a pipe.

    WAYS TO EMBODY THE INVENTION

    [0021] FIG. 1 shows a build-up welding method 100 the welding position. Such a build-up welding method 100 is often also referred to as a vertical build-up welding method. Other welding positions according to DIN EN ISO 6947 are also conceivable, for example PA or also H-LO45 (ASME: 6Gu). In this case, a welding torch 1, namely a WIG torch, is guided along a metallic workpiece 2. In addition to a WIG torch, it is also conceivable to use a MAC torch, etc. The coordinate system 50 shows the orientation of the workpiece 2 in space. Build-up welding is understood to mean that the workpiece is embodied in the y/z plane, i.e. a surface standing vertically in space, and the welding torch 1 is guided along the y axis, i.e. essentially in a horizontal direction. In this case, it is generally conceivable for this movement of the welding torch 1 in the guidance direction 11 to be superposed with an oscillating movement parallel to the workpiece 2, which has not been shown in detail.

    [0022] Between a non-melting electrode 3, namely a tungsten electrode, of the welding torch 1 and the metallic workpiece 2, an arc 4 is produced, into which is a fed wire 5, namely in the form of a heated hot wire, serving as a build-up material 6 that is to be melted. The wire 5 can also be used in the form of a cold wire. The melted build-up material 8 produces a melt 7 on the workpiece 2 in order to form a welding bead 8. The wire 5 in this case is fed into the arc 4 at a continuous infeed speed. In addition to the continuous infeed speed 9, the wire 5 is moved back and forth along its infeed direction. For example, is conceivable to use a back-and-forth movement of the wire 5 with a superposition amplitude of 4 to 12 mm.

    [0023] Usually, a penetration depth 12 occurs primarily as a function of the diameter 13 of the non-melting electrode 3 and the guidance speed of the welding torch 1 relative to the workpiece. The back-and-forth movement 10 of the wire 5 regulates the penetration depth 12 in the workpiece 2 in such a way that with a simultaneous use of a non-melting electrode 3 with a large diameter 13 and a fast guidance speed, the penetration depth 12 remains low. As a result, it is possible to avoid an undesirable mixing of the build-up material 6 with the base material 14 of the workpiece 2. According to the invention, in the build-up welding method 1, the non-melting electrode 3 is positioned normal to the workpiece 2 and continuously moved across the workpiece 2 in the infeed direction 11 of the welding torch 1 in order to build up a spread-out welding bead 8 on the workplace. In this case, the non-melting electrode 3 positioned normal to the workpiece 2 ensures production of a particularly homogeneous arc and thus a uniform, controlled melting of the wire 5.

    [0024] FIG. 2 shows a top view of the workpiece 2. It should be noted here that in the build-up welding method 1, a plurality of welding beads 80, 81 are built up on the workpiece 2 one above the other in the vertical direction and in overlapping fashion. The welding torch 1 is guided in serpentine fashion from bottom to top. Initially, the first welding bead 80 is produced, in particular from left to right, and the second welding bead 81 is produced over the first welding bead 80 in the reverse direction. A two-dimensional application can thus be achieved in a simple way from a process engineering standpoint.

    [0025] As shown in FIG. 1 and FIG. 2, the wire 5 is additionally fed into the arc 4 in advance in the guidance direction 11 of the welding torch. This ensures a continuous and uniform supply of the build-up material 6 into the melt 7.

    [0026] It has turned out to be particularly advantageous if the diameter 13 of the non-melting electrode 3 is at least 6.4 mm. It is thus specifically possible to achieve a high guidance speed of the welding torch 1 in the guidance direction 11.

    [0027] FIG. 3 shows a build-up welding method 1 in which the welding torch 1 is guided in circular fashion around the inner cylindrical surface 21 of a vertical pipe 20. In this case, it is particularly possible to produce a closed annular welding bead 82 on the inner cylindrical surface 21. In addition, the welding torch 1 is likewise suitable for producing a welding bead on the outer cylindrical surface 22 of the pipe 20.