APPARATUS FOR FEEDING WELDING WIRE AND PROCESS GAS TO A WELDING DEVICE

Abstract

The invention relates to an apparatus for feeding welding wire and process gas to a welding device comprising a wire feeding nozzle (1), which has a welding wire channel (4), a nozzle block (2), which is releasably connected to the wire feeding nozzle (1), a profile (3), which is releasably or fixedly connected to the nozzle block (2), has a welding wire channel (6) and can be connected to a welding wire conveying device, wherein the process gas channel (9) of the process gas feeding device is arranged at least partially within the profile (3) and the nozzle block (2) is provided with multiple bores (7), which adjoin the process has channel (9) and are arranged parallel to or at an acute angel of 5 to the welding wire chancel (4) of the wire feeding nozzle (1) and around the wire feeding nozzle (1). In this case, the nozzle block (2) is formed cylindrically in the direction of an end (14) having the wire feeding nozzle (1), wherein the bores (7) arranged within the nozzle block run out into depressions (15) on the surface of the nozzle block (2).

Claims

1. Apparatus for feeding welding wire and process gas to a welding device with a wire feeding nozzle (1) having a welding wire channel (4), a nozzle block (2) attached to the wire feeding nozzle (1) that is detachable, a tube (3) detachable from the nozzle block (2) or attached permanently to it and a welding wire channel (6), which can be connected to a welding wire movement apparatus, and a process gas feeding device that has a process gas channel (9), to which a process gas reservoir can be connected, whereby the process gas channel (9) of the process gas feeding device is arranged at least partially within the tube (3), and the nozzle block (2) is provided with several boreholes (7) connected to the process gas channel (9), which are arranged parallel or at an acute angle of +/5 to the welding wire channel (4) of the wire feeding nozzle (1) and around the wire feeding nozzle (1), so characterized in that the nozzle block (2) is formed cylindrically in the direction of an end (14) having the wire feeding nozzle (1), whereby the boreholes (7) within the nozzle block discharge in recesses (15) on the surface of the nozzle block (2), whereby the recesses (15) on the surface of the cylindrical end (14) of the nozzle block (2) run from the openings of the boreholes (7) in the nozzle block (2) over the entire length of the cylindrical end (14).

2. Apparatus according to claim 1, so characterized in that the recesses (15) are formed in the cross-section perpendicular to the longitudinal axis (11) of the nozzle block in circular form, whereby the radius of the circle segments corresponds to the radius of the boreholes (7).

3. Apparatus according to claim 1, so characterized in that the boreholes (7) are arranged in at least one of a circle or an ellipse concentric with the welding wire channel (4).

4. Apparatus according to claim 1, so characterized in that a pedestal (10) is planned that has a process gas channel (12) and a wire feeding channel (13) into which the tube (3) is received and that has connection elements (5, 8) for a welding wire movement apparatus and a process gas reservoir.

5. Apparatus according to claim 4, so characterized in that the process gas channel (9) of the tube and the attached boreholes (7) of the nozzle block are connected to one another across from the environment with thick process gas.

6. Apparatus according to claim 1, so characterized in that the tube (3) is formed as a tube pipe.

7. Apparatus according to claim 1, so characterized in that the nozzle block (2) has at least three boreholes (7), which all have the same radius.

8. Apparatus according to claim 7, so characterized in that the boreholes (7) are arranged in symmetrical rotation around the longitudinal axis (11) of the nozzle block (2).

9. A laser welding device having an apparatus according to claim 1.

10. Apparatus according to claim 7, so characterized in that the nozzle block (2) has at least six boreholes (7).

11. Apparatus according to claim 10, so characterized in that the nozzle block (2) has at least eight boreholes (7).

12. A soldering device having an apparatus according to claim 1.

Description

[0019] The figures show:

[0020] FIG. 1: an example of an embodiment of a device according to the invention in a top-down view,

[0021] FIG. 2: the example of an embodiment of FIG. 1 in a cross-section view along the A-A slice level of FIG. 1,

[0022] FIG. 3: the example of an embodiment of FIG. 1 in a cross-section view along the B-B slice level of FIG. 1,

[0023] FIG. 4: the nozzle block of the example of the embodiment of FIG. 1 in a partial sectional view, and

[0024] FIG. 5: the nozzle block according to FIG. 4 in a sectional view along the slice level C-C of FIG. 4.

[0025] Various views are shown in FIGS. 1 to 3 of an example of an embodiment of a device according to the invention for feeding welding wire and process gas to a welding device. The essential elements of the device are thereby especially well recognizable in FIG. 1, while in FIGS. 2 and 3 the construction of the individual elements themselves is clarified.

[0026] The device for feeding welding wire and process gas to a welding device has a tube 3 set up as a tube pipe, which on one side is connected to a pedestal 10, whose connection elements 5 and 8 connect the device to a welding wire movement apparatus and a process gas reservoir. On the other side, the tube 3 set up as a tube pipe on its other end has a nozzle block 2 in which a wire feeding nozzle 1 is placed.

[0027] As seen in particular in FIG. 2, the pedestal 10 is provided with a process gas channel 12, which stretches on one side to the connection element 8 for the process gas reservoir 8, and on the other side to process gas channels 9 of the tube 3 set up as a tube pipe.

[0028] Furthermore, the pedestal 10 has a wire feeding channel 13, which is arranged on one end with the connection element 5 for the wire feeding device and on the other end with a wire feeding channel 6 of the tube 3 set up as a tube pipe on a longitudinal axis 11 of the entire device. The tube 3 set up as a tube pipe has on the end opposite the pedestal 10 an opening, on which the nozzle block 2 is arranged with a connection element 17.

[0029] The nozzle block 2 is provided with an opening 16, in which the wire feeding nozzle 1 of the device is arranged. The wire feeding nozzle 1 has a welding wire channel 4, and as a result the welding wire can be fed from the wire feeding device via the connection element 5 for the wire feeding device and the wire feeding channel 13 of the pedestal 10, and the wire feeding channel 6 of the tube pipe 3 can be fed into the welding wire channel 4 of the wire feeding nozzle 1. The welding wire comes out of the welding wire channel 4 of the wire feeding nozzle 1, and with an appropriate input of energy to the welding device can form a welding seam to connect the elements to be welded to each other.

[0030] During the welding process, process gas is applied to the welding spot or the welding area from a process gas reservoir via the connection element 8 for the process gas reservoir, the process gas channel 12 of the pedestal 10, the process gas channels 9 of the tube 3 set up as a tube pipe, and boreholes 7 of the process block 2.

[0031] Thereby one may clearly see from the sectional view of FIG. 3 that the process gas channels 9 of the tube pipe 3 stand in effective contact with the boreholes 7 of the nozzle block 2. In FIG. 3, to be sure, only four boreholes 7 of the nozzle block 2 are recognizable through the four process gas channels 9 of the tube 3.

[0032] However, as may be seen in particular in FIG. 5, the nozzle block 2 in this example of embodiment also has eight boreholes 7 arranged concentrically around the longitudinal axis 11. The process gas channels 9 of the tube 3 are thereby set up in such a way that they can provide process gas to all eight boreholes 7 in nozzle block 2 in the connection area of the connection element 17 of the nozzle block 2.

[0033] FIG. 4 shows the nozzle block 2 of the device in a partial section view. In particular one may recognize here clearly that the nozzle block 2 is formed cylindrically in the direction of the end of 14 having a wire feeding nozzle 1, whereby the boreholes 7 in the nozzle block 2 discharge in recesses 15 on the surface of the nozzle block 2. The recesses 15 on the surface of the cylindrical end 14 of the nozzle block 2 thereby run from the openings of the boreholes 7 within the nozzle block 2 over the entire length of the cylindrical end 14. Thereby the cross-section of the recesses 15 in this example of an embodiment runs consistently over their entire length. To be sure, in other examples of embodiments not illustrated here it is possible that the openings from the boreholes 7 in this cross-section run reduced or enlarged, but in any case it is thereby assured that the process gas within these recesses 15 is fed further after leaving the boreholes, while at the same time an equal and homogeneous distribution of the process gas around the nozzle block 2 takes place above these recesses 15.Hereby the process gas is fed distributed especially homogeneously around the welding wire onto the welding spot or the welding area.

[0034] It is further to be recognized that the boreholes 7 run parallel to the welding wire channel 4 of the wire feeding nozzle 1. As is to be seen in particular in FIGS. 1 and 2, the welding wire channel 4 of the wire feeding nozzle 1 lies exactly on the longitudinal axis 11 of the device or of the nozzle block 2. To be sure it is also possible that in another example of an embodiment not shown here the boreholes 7 are arranged around the welding wire channel 4 of the wire feeding nozzle 1 at an acute angle.

[0035] The process gas is fed in particular homogeneously around the welding wire during the welding at the welding spot or the welding area through the process gas feeding channels 9 and 12 due to the symmetrically rotated and concentric arrangement of the boreholes 7 of the nozzle block 2, and thereby also of the recesses 15. It hereby results that during the welding process especially homogeneous process gas relations result at the welding spot or the welding area, so that as a result especially good welding properties of the welding seam can be created.

LIST OF REFERENCES

[0036] 1 wire feeding nozzle [0037] 2 nozzle block [0038] 3 tube [0039] 4 welding wire channel [0040] 5 connection element [0041] 6 welding wire channel [0042] 7 borehole [0043] 8 connection element [0044] 9 process gas channel [0045] 10 pedestal [0046] 11 longitudinal axis [0047] 12 process gas channel [0048] 13 wire feeding channel [0049] 14 end [0050] 15 recess [0051] 16 opening [0052] 17 connection element [0053] A-A slice [0054] B-B slice [0055] C-C slice