METAL CORNER CONNECTOR

Abstract

A metal corner connector contains at least two connection regions which are arranged on a lateral surface of the metal corner connector. At least one connection region is configured to be mechanically stably connected via welding to a metal pipe extending along a main extension plane of the metal corner connector. The connection region contains at least one protrusion with a groove, which is configured for receiving a welding material. The connection region has an outer surface which is adjacent to the protrusion and is configured as a contact surface for an end face of the metal pipe. A method produces a device having such a metal corner connector.

Claims

1-14. (canceled)

15. A metal corner connector, comprising: a body having a lateral surface; and at least two connection regions disposed on said lateral surface of said body, at least one of said connection regions configured to be connected in a mechanically stable manner, by welding, to a metal tube extending along a main plane of extent of the metal corner connector, said at least one connection region having at least one projection with a groove formed therein being configured to receive welding material, and said at least one connection region having an outer surface being adjacent to said at least one projection and configured as a contact surface for an end face of the metal tube.

16. The metal corner connector according to claim 15, wherein said at least one connection region has an inner region which is at least partially delimited by said at least one projection, wherein said at least one projection has a front surface that is in a same plane as a main surface of said body of the metal corner connector.

17. The metal corner connector according to claim 15, wherein said at least one connection region has an inner region which is at least partially delimited by said at least one projection, wherein said at least one projection has a front surface disposed set back from a main surface of said body.

18. The metal corner connector according to claim 15, wherein: said at least one connection region has an inner region; and said at least one projection completely surrounds said inner region of said at least one connection region, and said groove extends all a way around in said at least one projection.

19. The metal corner connector according to claim 15, wherein said body is formed from an extruded metal.

20. The metal corner connector according to claim 19, wherein said extruded metal is an extruded aluminum alloy.

21. The metal corner connector according to claim 15, wherein said body has at least one opening formed therein and passing completely through said body of the metal corner connector perpendicularly to the main plane of extent, wherein said at least one opening is configured for a mechanical connection of the metal corner connector to a further element by means of a connecting means.

22. The metal corner connector according to claim 15, wherein said body has at least one aperture formed therein and passes completely through said body of the metal corner connector perpendicularly to the main plane of extent and serves for weight reduction.

23. A method for producing a device, which comprises the following steps of: providing the metal corner connector according to claim 15; placing the metal tube on the at least one connection region of the metal corner connector, such that the end face of the metal tube abuts against the outer surface of the at least one connection region; and connecting the metal tube to the metal corner connector in a mechanically stable manner by the welding.

24. The method according to claim 23, which further comprises producing a bevel (HV) weld seam, at least partially, during the welding.

25. The method according to claim 23, wherein a wall of the metal tube has, in a part which is adjacent to the outer surface of the at least one connection region, a structure for a weld seam.

26. A device, comprising: said metal corner connector according to claim 15; and said metal tube extending along the main plane of extent of said metal corner connector, said metal tube being connected to said metal corner connector in a mechanically stable manner by a weld seam.

27. The device according to claim 26, wherein the device is configured and provided as a supporting device in a rail vehicle.

28. A rail vehicle, comprising: said metal corner connector according to claim 15.

Description

[0030] The abovementioned properties, features and advantages of the invention and the manner in which these are achieved are explained in greater detail by the following description of the exemplary embodiments of the invention in conjunction with the corresponding figures, wherein

[0031] FIGS. 1 and 2 show schematic illustrations of a metal corner connector according to one exemplary embodiment,

[0032] FIGS. 3 to 5 each show a perspective illustration of a metal corner connector according to one exemplary embodiment,

[0033] FIGS. 6 to 7 each show a schematic sectional illustration of stages of a method for producing a device having a metal corner connector and a metal tube according to one exemplary embodiment,

[0034] FIG. 8 shows a schematic sectional illustration of a device according to one illustrative embodiment,

[0035] FIG. 9 shows a perspective illustration of a metal corner connector according to one exemplary embodiment,

[0036] FIGS. 10 to 13 show schematic illustrations of the connection between the metal tube and the metal corner connectors according to various exemplary embodiments,

[0037] FIG. 14 shows a connection of a metal corner connector to a metal tube at a stage of a method according to a further exemplary embodiment, and

[0038] FIG. 15 shows a schematic illustration of a rail vehicle according to one exemplary embodiment.

[0039] In the figures, elements which are identical, of the same kind or identically acting are provided with the same reference signs. The figures and the size ratios of the elements illustrated in the figures to one another should not be considered to scale. On the contrary, individual elements may be shown on an exaggeratedly large scale for better representability and/or for better understanding.

[0040] The metal corner connector 1 according to the exemplary embodiment of FIGS. 1 and 2 has three connection regions 2, which are arranged on a lateral surface 3 of the metal corner connector 1. The metal corner connector 1 has a first main surface 14 and a second main surface 15, each of which is aligned parallel to a main plane of extent of the metal corner connector 1.

[0041] In the present exemplary embodiment, the connection regions 2 are of identical design. Each connection region 2 is designed to be connected in a mechanically stable manner, by welding, to a metal tube 4 extending along the main plane of extent of the metal corner connector 1.

[0042] Each connection region 2 has a rectangular inner region 5, which is delimited on two opposite sides in each case by a projection 6. In this case, the projections 6 are of web-type design and have a groove 7, which in each case extends along a lateral surface of the web-type projection 6. The groove 7 is designed to receive a welding material. In the present exemplary embodiment, front surfaces 16 of the web-shaped projections 6 are in the same plane as the first main surface 14 and the second main surface 15 of the metal corner connector 1.

[0043] Furthermore, each connection region 2 has an outer surface 8 which is directly adjacent to the projection 6 and is designed as a contact surface for an end face of the metal tube 4. The present connection regions 2 are designed, in particular, to be connected in a mechanically stable manner to a square tube 4 by welding. The width between the outer surfaces 8 of the two opposite web-shaped projections 6 of a connection region 2 is in this case approximately two times less than a thickness of the wall of the metal tube 4 to be connected. In other words, in the present case the outer surface 8 of the connection region 2 has a width which corresponds to the wall thickness of the metal tube 4 to be connected. In this way, the metal tube 4 to be connected can be positioned on the connection region 2 in a particularly simple manner.

[0044] In the present case, the metal corner connector 1 is formed from an extruded aluminum alloy. Here, an extrusion direction of the metal corner connector 1 runs from the first main surface 14 of the metal corner connector 1 to the second main surface 15 of the metal corner connector 1 or vice versa.

[0045] Furthermore, the metal corner connector 1 has three openings 9, which in the present case are designed as drill holes. The drill holes enable further elements to be secured on the metal corner connector 1, with the aid of screws for example.

[0046] Moreover, the metal corner connector 1 has a plurality of apertures 10 with different irregular shapes, which serve for weight reduction. The lateral surface 5 of the metal corner connector 1 is mechanically stabilized by rib-shaped webs between the apertures 10.

[0047] In contrast to the metal corner connector 1 according to the exemplary embodiment in FIGS. 1 and 2, the metal corner connector 1 according to the exemplary embodiments in FIGS. 3, 4 and 5 has only two connection regions 2 in each case. Furthermore, the metal corner connector 1 according to the exemplary embodiment in FIG. 3 is free of drill holes 9 for further connection to further elements. In particular, however, the connection regions 2 of the metal corner connectors 1 according to FIGS. 3, 4 and 5 are designed to be similar to the connection regions 2 of the metal corner connector 1 in FIGS. 1 and 2.

[0048] In the method according to the exemplary embodiment in FIGS. 6 to 7, a metal corner connector 1 of the kind which has already been explained in more detail with reference to FIGS. 1 and 2 is first provided (FIG. 6).

[0049] In a next step, a metal tube is placed on one of the connection regions (FIG. 7). In this case, an end face of the metal tube 4 abuts an outer surface 8 of the connection region 2. That part of the wall of the metal tube 4 which is directly adjacent to the outer surface 8 is provided with a structure 11, in the present case a chamfer, which is used for later welding of the metal tube 4. The chamfer is part of a weld seam preparation process, for example. The weld seam preparation process can comply with Standard DIN EN 15085-3.

[0050] In a next step, the metal tube 4 is welded to the connection region 2, during which process an HV weld seam 12 is produced, and the groove is filled at least partially with the material of the weld seam and/or of the metal tube. In the present case, the HV weld seam 12 is formed along the two web-shaped projections 6 of the connection region 2. On the two sides of the connection region 2, which are free of the web-shaped projections 6, the metal tube 4 is connected to the metal corner connector 1 materially and in a mechanically stable manner with the aid of a fillet weld seam 13 (see FIG. 11).

[0051] In the present case, the device according to the exemplary embodiment in FIG. 8 is produced with the method according to the exemplary embodiment in FIGS. 6 and 7. The device according to the exemplary embodiment in FIG. 8 has a metal corner connector which is connected in a mechanically stable manner to a metal tube by means of an HV weld seam.

[0052] The metal corner connector 1 according to the exemplary embodiment in FIG. 9 differs from the metal corner connector 1 according to the exemplary embodiment in FIGS. 1 and 2 in the design of the connection regions 2. While, in the case of the metal corner connector 1 according to the exemplary embodiment in FIGS. 1 and 2, front surfaces 16 of the web-shaped projections 6 are in the same plane as the first main surface 14 and the second main surface 15 of the metal corner connector 1, the front surfaces 16 of the web-shaped projections 6 are, according to the exemplary embodiment in FIG. 6, arranged so as to be set back with respect to the first main surface 14 and the second main surface 15 of the metal corner connector 1. In this way, the outer surface 8 is formed all the way round the inner region 5 of the connection region 2. In this way, the outer surface 8 serves all the way round the entire circumference of the metal tube 4 to be connected as a contact surface and as a stop for the metal tube 4 during the positioning thereof.

[0053] In this embodiment, it is possible, in particular, for an HV weld seam 12 to be formed all the way round the entire circumference of the metal tube 4 to be connected. Therefore, this embodiment of the metal corner connector 1 advantageously leads to a higher strength of the connection than the metal corner connector 1 according to the exemplary embodiment in FIGS. 1 and 2. However, the metal corner connector 1 according to FIG. 9 generally requires more finish-machining, by means of milling for example.

[0054] The connection between the metal corner connector 1 and the metal tube 4 which arises in the method according to the exemplary embodiment in FIGS. 6 to 7 is illustrated schematically in FIGS. 10 and 11. FIG. 10 shows a schematic illustration of the connection in the extrusion direction, i.e. from a first main surface 14 to a second main surface 15 of the metal corner connector 1, while FIG. 11 shows a schematic illustration of the connection orthogonally to the extrusion direction. In the extrusion direction, an HV weld seam 12 is applied to connect the metal tube 4 to the metal corner connector 1, while a fillet weld seam 13 is applied orthogonally to the extrusion direction.

[0055] A detail of the connection between a metal tube 4 and the metal corner connector 1 according to the exemplary embodiment in FIG. 9 is illustrated in FIGS. 12 and 13. FIG. 12 shows the connection in the extrusion direction and FIG. 13 shows the connection orthogonally to the extrusion direction. Both in the extrusion direction and orthogonally to the extrusion direction, a fully encircling HV weld seam 12 can advantageously be produced.

[0056] In the method according to the exemplary embodiment in FIG. 14, a metal corner connector 1 is provided which, in contrast to the metal corner connector 1 according to FIG. 9, has a connection region 2 with a rectangular inner region 5 which is completely surrounded by web-shaped projections 6 with a groove 7.

[0057] In the method according to the exemplary embodiment in FIG. 14, a square metal tube 4 is placed on the connection region 2, the wall of which tube is placed on an outer surface 8 of the connection region 2 in such a way as to completely surround said surface. Then an HV weld seam 12 is produced all the way round the circumference of the metal tube 4 to be connected, wherein the groove 7 completely surrounding the inner region 5 in the web-shaped projections 6 is filled with the material of the HV weld seam 12 and/or of the metal tube 4. In this way, a particularly mechanically stable HV weld seam connection can be produced.

[0058] The rail vehicle according to the exemplary embodiment in FIG. 15 has a metal corner connector of the kind which has already been described with reference to FIGS. 1 to 5, for example.

[0059] Although the invention has been illustrated and described in detail with reference to exemplary embodiments, the invention is not restricted to the exemplary embodiments disclosed and the specific combinations of features explained therein. Further variations of the invention can be obtained by a person skilled in the art without exceeding the scope of protection of the claimed invention.