PIPE ARRANGEMENT WITH SUPPORT SECTIONS ON THE OUTER PIPE

Abstract

The invention relates to a pipe arrangement (10) with a fluid-carrying inner pipe (12) and an outer pipe (14) that surrounds the inner pipe (12), wherein spacers (20, 24) are arranged between the inner pipe (12) and the outer pipe (14) in such a way that a gap (16) is formed between the inner pipe (12) and the outer pipe (14), wherein the outer pipe (14) is joined at its first axial end section (18) in a material-bonded or cohesive manner to a first spacer (20), which is joined to the inner pipe (12) in a material-bonded manner, and wherein the outer pipe (14) is arranged at its second axial end section (22) at least partially with a radial spacing (26) to a second spacer (24), which is joined to the inner pipe (12) in a material-bonded manner.

Claims

1. A pipe arrangement (10) with a fluid-carrying inner pipe (12) and an outer pipe (14) that surrounds the inner pipe (12), wherein spacers (20, 24) are arranged between the inner pipe (12) and the outer pipe (14) with a gap (16) formed between the inner pipe (12) and the outer pipe (14), wherein the outer pipe (14) is joined at its first axial end section (18) in a material-bonded or cohesive manner to a first spacer (20), which is joined to the inner pipe (12) in a material-bonded manner, and wherein the outer pipe (14) is arranged at its second axial end section (22) at least partially with a radial distance (26) to a second spacer (24), which is joined to the inner pipe (12) in a material-bonded manner, wherein the outer pipe (14) has a plurality of support sections (28) at its second end section (22), which are arranged in a distributed manner in the peripheral direction and project radially inward and which are in contact with the second spacer (24).

2. The pipe arrangement according to claim 1, wherein the support sections (28) are configured in one piece with the second end section (22) of the outer pipe (14).

3. The pipe arrangement according to claim 2, wherein the support sections (28) are radially inward deformed regions of the outer pipe (14).

4. The pipe arrangement according to claim 1, wherein the support sections (26) have a radially inward convex design.

5. The pipe arrangement according to claim 1, wherein at least three support sections (28), which are arranged in uniform distribution in the peripheral direction, are provided at the second end section (22) of the outer pipe (14).

6. The pipe arrangement according to claim 1, wherein at least one pipe arrangement (10) are employed in a gas turbine.

7. A method for producing a pipe arrangement, comprising the steps of: providing an inner pipe (12); providing an outer pipe (14); providing at least two spacers (20, 24), which are arranged along the inner pipe (12) in an axial spacing with respect to each other; material-bonded joining of the spacers (20, 24) to the inner pipe (12); material-bonded joining of the outer pipe (14) at its first axial end section (18) to one of the spacers (20); deforming of the second axial end section (22) of the outer pipe (14) at a plurality of points along the circumference in order to produce support sections (28) that project radially inward and are in contact with the other spacer (24).

Description

BRIEF DESCRIPTION OF THE DRAWING FIGURES

[0021] The invention will be described below with reference to the appended figures by way of example and without any limitation.

[0022] FIG. 1 shows a pipe arrangement in a longitudinal section;

[0023] FIG. 2 shows a cross-sectional illustration of the pipe arrangement corresponding to the line of cut A-A of FIG. 1.

DESCRIPTION OF THE INVENTION

[0024] A pipe arrangement 10 is illustrated in FIG. 1 in a schematic and simplified manner. The pipe arrangement 10 comprises a fluid-carrying inner pipe 12 and an outer pipe 14. The outer pipe 14 is arranged at a distance to the inner pipe 12 over the entire length, which is not illustrated here in full, so that a gap 16 is formed between the inner pipe 12 and the outer pipe 14. The outer pipe 14 has a first axial end section 18. The first axial end section 18 is joined to a first spacer 20 in a material-bonded manner and, in particular, is welded or soldered to it. The first spacer 20 is joined to the inner pipe 12 in a material-bonded manner and, in particular, is welded or soldered to it. As a result, the outer pipe 14 is fastened to and fixed in place at its first axial end section 18 at the inner pipe 12. AR indicates the axis of the pipe arrangement 10, which corresponds to the axial direction.

[0025] The outer pipe 14 has a second axial end section 22. The second axial end section 22 surrounds a second spacer 24, which is joined to the inner pipe 12 in a material-bonded manner. A gap 26 is partially formed between the second spacer 24 and the second end section 22 of the outer pipe 14 in the peripheral direction.

[0026] Furthermore, the second axial end section 22 has a plurality of support sections 28, one of which can be seen in FIG. 1 and three of which can be seen in FIG. 2. The support sections 28 project radially inward and contact the second spacer 24. In other words, the second axial end section 22 is supported at the spacer 24 or at the inner pipe 12 in the radial direction by support sections 28. In this way, any relative movement in the radial direction between the outer pipe 14 and the inner pipe 12 is counteracted or this relative movement is even prevented. Three support sections 28 are illustrated in FIG. 2. In the case of a larger circumference of the inner pipe and a correspondingly larger circumference of the outer pipe 14, however, it is also possible to provide more than three support sections 28. In order to make possible a bearing of the second axial end section 22 with as little play in the radial direction, three support sections 28 are arranged in regular distribution along the circumference. In the present example, three support sections are each arranged at an angle of 120° with respect to one another. This angle becomes correspondingly smaller when more than three support sections are provided.

[0027] Further indicated in FIG. 1 and FIG. 2 in a purely schematic manner by a dashed circle 30 is a pressing tool, with which the support sections 28 can be produced by deformation of the second axial end section 22 of the outer pipe 14. Correspondingly, radially inward, the support sections 28 have the form of a spherical segment or a spherical calotte. When the support sections 28 have a spherical design, they rest against the spacer 24 in a rather point-like manner. This point-like contact suffices for a securing in the radial direction RR, but limits only insignificantly the relative movement in the axial direction, so that the inner pipe 12 and the outer pipe 14 can move in the axial direction in relation to each other, in particular on account of thermal influences.

[0028] The following operating steps can be carried out for producing a pipe arrangement 10, wherein, according to the present invention, the sequence of the operating steps need not be absolutely as described below. First of all, an inner pipe 12 and an outer pipe 14 are supplied. At least two spacers 20, 24 are made available and are arranged along the inner pipe 12 in an axial spacing to one another. The spacers 20, 24 are joined to the inner pipe 12 in a material-bonded or cohesive manner and, in particular, welded or soldered to it. The outer pipe 14 is slid over the inner pipe 12 in the axial direction and subsequently, the first axial end section 18 of the outer pipe is joined to the first spacer 20 in a material-bonded manner and, in particular, is welded or soldered to it. Finally, the second axial end section 22 of the outer pipe 14 is deformed at a plurality of points along the circumference in order to produce the radially inward projecting support sections 26, which are in contact with the second spacer 24. In this case, the second end section 22 is deformed by a pressing tool, which is equipped so as to create the desired form of the support section 28. In particular, however, it is also possible in the scope of the present invention for the second end section 22 of the outer pipe 14 to be already deformed prior to sliding the outer pipe 14 over the inner pipe 12. The support sections 28 created by the deformation can have spring-elastic properties in the radial direction to a certain extent on account of their form and thus can exert a pre-tensioning force acting in the radial direction on the second spacer 24 or on the inner pipe 12 when the outer pipe 14 is slid over the inner pipe 12.