PIPE COUPLING

Abstract

A pipe coupling for connecting a pipe and including a pipe, a pipe union, and a clamping element. The pipe exhibits at least one connecting section and a terminal abutting face. The connecting section is formed in an end region of the pipe, wherein the connecting section exhibits at least one sealing surface inclined relative to a longitudinal axis of the pipe. The pipe union including a receiving section for insertion of at least a part of the connecting section, wherein a sealing connection between the pipe and the pipe union is created, in that the connecting section is clamped between the pipe union and the clamping element. The abutting face has a sealing protrusion and the sealing protrusion is formed as a prominence in the abutting face. Furthermore, a pipe, a swaging tool and a process are also provided

Claims

1. A pipe coupling for connecting a pipe, comprising a pipe, a pipe union, and a clamping element, wherein the pipe exhibits at least one connecting section and a terminal abutting face, wherein the connecting section is formed in an end region of the pipe, wherein the connecting section exhibits at least one sealing surface inclined relative to a longitudinal axis of the pipe, wherein the pipe union exhibits a receiving section for insertion of at least a part of the connecting section, wherein a sealing connection between the pipe and the pipe union is created in that the connecting section is clamped between the pipe union and the clamping element, wherein the abutting face exhibits a sealing protrusion, and that the sealing protrusion is formed as a local prominence in the abutting face.

2. The pipe coupling in accordance with claim 1, wherein the sealing surface comprises at least one first section which has a truncated cone shape and is inclined at an angle, the sealing surface including at least one second section adjoining the first section in a direction of a end zone of the pipe, and the second section exhibiting at least one radius.

3. The pipe coupling in accordance with claim 1, wherein the sealing protrusion exhibits a first flank and a second flank, and that the first flank and the second flank approach one another in the direction of a peak of the sealing protrusion.

4. The pipe coupling in accordance with claim 3, wherein the first flank and the second flank include an angle of less than 120 over an entire height of the sealing protrusion, specifically less than 75, preferably less than 50.

5. The pipe coupling in accordance with claim 3, wherein the first flank and the second flank include an angle at the peak of the sealing protrusion that is between 40 and 50, specifically 45.

6. The pipe coupling in accordance with claim 3, wherein the first flank exhibits at least one radius, and that the second flank exhibits at least one radius.

7. The pipe coupling in accordance with claim 3, wherein the first flank has a convex curve and/or the second flank has a concave curve.

8. The pipe coupling in accordance with claim 1, wherein the sealing protrusion is formed in an edge area of the abutting face, at a radially outlying area thereof.

9. The pipe coupling in accordance with claim 1, wherein the sealing protrusion has a height between 0.3 mm and 0.5 mm and/or a width at the base between 0.5 mm and 0.9 mm.

10. The pipe coupling in accordance with claim 3, wherein the first flank transitions continuously into the sealing surface.

11. The pipe coupling in accordance with claim 1, wherein the abutting face is inclined at an angle between 50 and 90 with respect to the longitudinal axis of the pipe, specifically at an angle between 65 and 75, and most preferably approximately 70.

12. The pipe coupling in accordance with claim 1, wherein the sealing protrusion is formed by plastic deformation of the pipe, particularly by plastic deformation due to a force being exerted upon the abutting face and the sealing surface of the pipe.

13. The pipe coupling in accordance with claim 1, wherein the sealing surface exhibits at least one smooth area having a surface roughness that is less than a surface roughness of at least one area of the sealing surface adjacent to the smooth area.

14. The pipe coupling in accordance with claim 13, wherein the surface roughness is determined by means of an arithmetical mean roughness and a profile depth, and that a force is applied in the smooth area during the deformation process such that the arithmetical mean roughness and the profile depth are reduced by at least 50% in relation to the initial values in the smooth area, specifically that they are reduced by at least 75%.

15. The pipe coupling in accordance with claim 1, wherein the pipe union exhibits an opposing sealing surface in the receiving section, that the opposing sealing surface exhibits at least one truncated cone-shaped first section that is inclined at an angle, that the opposing sealing surface exhibits at least one second section, and that the second section of the opposing sealing surface is formed corresponding to the second section of the sealing surface.

16. The pipe coupling in accordance with claim 1, wherein the pipe union exhibits a stop surface in a longitudinal direction, and the sealing protrusion contacting the stop surface in the assembled state of the pipe coupling.

17. The pipe coupling in accordance with claim 1, wherein the peak of the sealing protrusion exhibits a diameter which corresponds to 88% to 99% of the outer diameter of the pipe, specifically 91% to 98%.

18. A pipe, comprising at least one connecting section and a terminal abutting face, wherein the connecting section is formed in an end region of the pipe, wherein the connecting section exhibits at least one sealing surface declining in the direction of the end zone of the pipe.

19. A swaging tool for creation of a connecting section on a pipe, particularly for a pipe coupling , comprising at least one forming die and at least one counterholder, wherein the forming die exhibits a recess, and wherein the recess exhibits an inclined outer molding surface and an inclined bottom surface, wherein a recess is formed in the edge region of the bottom surface.

20. The swaging tool in accordance with claim 19, wherein the outer molding surface and the bottom surface in the area of the recess exhibit an angle of less than 120, specifically less than 75, and preferably less than 50.

21. The swaging tool in accordance with claim 19, wherein the outer molding surface exhibits at least one first section, the first section being inclined at an angle, the outer molding surface also exhibiting at least one second section, the second section having at least one radius and/or that the bottom surface exhibits a first section, the first section being inclined at an angle relative to a longitudinal axis of the swaging tool, the bottom surface having a second section exhibiting at least one radius.

22. The swaging tool in accordance with claim 19, wherein the forming die can be separated at least in the trough of the recess between the outer molding surface and the bottom surface.

23. A process for creating a connecting section on a pipe, wherein the pipe is held in a counterholder, wherein one end region of the pipe is pressed into the forming die through axial relative motion between the counterholder and the forming die, wherein a connecting section with a sealing protrusion with the features of a sealing protrusion is created by a force exerted by the forming die upon an abutting face of the pipe and an outer circumferential surface of the pipe.

24. The process in accordance with claim 23, wherein the forming die exhibits an inclined bottom surface, and that a force is exerted upon the abutting face in the direction of the outer circumferential surface of the pipe by an axial relative motion of the bottom surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0054] The illustrations show:

[0055] FIG. 1 is a design example of a pipe coupling in a sectional side view,

[0056] FIG. 2 is an enlarged section of the design example in accordance with FIG. 1,

[0057] FIG. 3 is an design example of a pipe for a pipe coupling,

[0058] FIG. 3a is an enlarged section of the design example in accordance with FIG. 3,

[0059] FIG. 4 is a design example of a pipe union for a pipe coupling,

[0060] FIG. 5 is a design example of a swaging tool in a first state,

[0061] FIG. 5a is a design example of a forming die for a swaging tool,

[0062] FIG. 5b is a partially enlarged view of the forming die in accordance with FIG. 5a,

[0063] FIG. 6 is an illustration of the swaging tool in accordance with FIG. 5 in a second state,

[0064] FIG. 7 is an illustration of the swaging tool in accordance with FIG. 5 in a third state, and

[0065] FIG. 8 is a schematic sequence of an exemplary embodiment of a process.

[0066] Identical parts are always marked with the same reference numerals in the various figures of the illustrations.

DETAILED DESCRIPTION

[0067] In the following description the invention is not limited to the design examples and therefore is not limited to all or multiple design features from the combinations of features described; rather, each individual feature of any/all design examples can be taken individually and thus the individual features described can have significance to the invention on their own and in combination with any other features of another design example, as well as independently from the combinations of features and relationships of the claims, as well as in combination with the features of claims 1, 20, and 24.

[0068] FIG. 1 shows a cut-away, side view of a design example of a pipe coupling 1 for connecting a pipe 2 in its assembled state. FIG. 2 shows an enlarged section of this design example. The pipe coupling 1 comprises a pipe 2, a pipe union 3, and a clamping element 4. The pipe 2 exhibits a connecting section 5 as well as a terminal abutting face 6. The connecting section 5 is formed in an end region of the pipe 2 and exhibits a sealing surface 7 which is inclined in the direction of the end zone of the pipe.

[0069] In order to create a sealing connection between the pipe 2 and the pipe union 3, the pipe union 3 exhibits a receiving section 8, which in the assembled state illustrated accommodates at least a part of the connecting section 5. The open flow cross-section 26 of the pipe 2 is connected to the open flow cross-section 27 of the pipe union in terms of uninhibited flow. The pipe union 3 has a connecting thread 9, onto which the clamping element 4 is screwed with a corresponding clamping thread 10, so that the clamping element 4 via a clamping shoulder 11 exerts a force upon the pipe 2 which is essentially parallel to the longitudinal axis A of the pipe 2. As a result, pipe 2 is clamped between the pipe union 3 and the clamping element 4; specifically, the connecting section 5 is pressed against the receiving section 8 of the pipe union 3. The abutting face 6 exhibits a sealing protrusion 12, which is formed as a local prominence in the abutting face 6.

[0070] FIG. 3 shows a cross-sectional side view of a design example of a pipe 2 for a pipe coupling 1, for example corresponding to FIG. 1 and FIG. 2. The sealing surface 7 comprisesspecifically in accordance with FIG. 2, FIG. 3, and FIG. 3aa first section 7a, which has a truncated conical shape inclined at an angle with respect to the longitudinal axis A of the pipe. In the direction of the end zone of the pipe 2, a second section 7b connects to the first section 7a, which is curved with a radius R1 of 2 mm. A first flank 13 of the sealing protrusion 12 is part of the second section 7b of the sealing surface 7. The first flank 13 of the sealing protrusion 12 and a second flank 14 of the sealing protrusion 12 approach one another in the direction of a peak 15 of the sealing protrusion 12. The curvature of the second flank 14 is concave, while the curvature of the first flank 13 is convex. The sealing protrusion 12 transitions continuously through the second flank 14 into the remaining portion of the abutting face 6.

[0071] The first flank 13 is curved with a radius R2 of 2 mm, which in this design example coincides with radius R1, with the result that the second section 7b has a uniform curvature. Furthermore, the second flank 14 is curved with a radius R3 of 0.6 mm. The tangent to the first flank 13 and the tangent to the second flank 14 include at the peak 15 an angle , which in this design example is approximately 45.

[0072] The connecting section 5 comprises a clamping shoulder 11, which is in contact with the clamping element 4 in its assembled state. The clamping shoulder 11 is formed orthogonally to the longitudinal axis A of the pipe 2 in the design example corresponding to FIG. 3. The peak 15 of the sealing protrusion 12 forms the transition from the first flank 13 to the second flank 14. The sealing protrusion 12 is formed circumferentially on the pipe 2. In this design example, a smooth area is formed in the second section 7b, in which the arithmetical mean roughness Ra is less than the arithmetical mean roughness Ra in the first section 7a. The arithmetical mean roughness Ra is less in the second section 7b because the smooth area is created by the forces generated during the plastic deformation process.

[0073] FIG. 3a shows an enlarged section of the design example in accordance with FIG. 3. The cross-sectional height of the sealing protrusion 12 can be determined as the length of the extension along the normal N2 with respect to plane E and along the peak 15 of the sealing protrusion 12. The normal N2 intersects the peak 15 of the sealing protrusion 12. In cross-section, plane E is oriented such that the normal N1 of plane E runs parallel to the sealing surface 7, specifically to the first section 7a of the sealing surface 7. Furthermore, the edge 34 between the abutting face 6 and the inner circumference of the pipe 2 lies in this plane. The width of the sealing protrusion 12 can be determined as the length of the extension of the sealing protrusion 12 within plane E. Plane E is reoriented for every section of the pipe 2.

[0074] The first section 7a extends from the clamping shoulder 11 to the point at which a curvature of the sealing surface 7, and thereby the second section 7b of the sealing surface 7, begins. Plane E marks the beginning of the first flank 13 in the second section 7b of the sealing surface 7. The radii R1 and R2 coincide in this design example. The tangent to the first flank 13 and the tangent to the second flank 14 include an angle c of approximately 45 at their peak 15. The second flank 14 of the sealing protrusion 12 transitions into the remaining part of the abutting face 6 with the radius R3, which in this example lies completely within plane E.

[0075] FIG. 4 shows a cross-sectional side view of a design example of a pipe union 3 for a pipe coupling 1 corresponding to FIG. 1 and FIG. 2. Specifically in accordance with FIG. 2 and FIG. 4, the pipe union 3 exhibits an opposing sealing surface 16, which comprises a first section 16a, which is inclined by angle . In this design example in accordance with FIG. 1 and FIG. 2, angle and angle are identical.

[0076] A second section 16b of the opposing sealing surface 16 connects to the first section 16a of the sealing surface, specifically in accordance with FIG. 2 and FIG. 4. The second section 16a is formed in correspondence to the second section 7b of the sealing surface 7, specifically it is curved with a radius R6, which in this design example corresponds to the radius R2 of the pipe in accordance with FIG. 2. The pipe union 3 exhibits a stop surface 17, which serves as a longitudinal stop point along the longitudinal axis A of the pipe 2, wherein the sealing protrusion 12 is in contact with the stop surface 17 in the assembled state of the pipe coupling 1, as depicted in FIG. 1 and FIG. 2. Additionally in this design example the entire second section 7b of the sealing surface 7 is formed as a smooth area, wherein the sealing effect is achieved predominantly by the position of the second section 7b of the sealing surface 7 against the second section 16b of the opposing sealing surface 16.

[0077] FIG. 5 shows a cross-sectional side view of a design example of a swaging tool 18 for creating a connecting section 5 on a pipe 2 in a first state. FIG. 5 specifically shows a pipe 2 that has not yet been deformed. FIG. 5a shows a design example of a forming die 19 for a swaging tool 18, and FIG. 5b shows an enlarged section of the forming die 19 in accordance with FIG. 5a, also in a cross-sectional side view. In accordance with FIG. 5, the swaging tool 18 comprises a forming die 19 as well as a counterholder 20 which is composed of multiple parts. In accordance with FIGS. 5, 5a, and 5b, the forming die 19 exhibits a recess 21, wherein the recess 21 exhibits an inclined outer molding surface 22. Additionally the recess 21 exhibits an inclined bottom surface 23. In the outer area of the bottom surface 23 there is a recess 24 which serves to form the sealing protrusion 12 on the pipe 2 (see FIG. 3 and FIG. 3a for example).

[0078] The outer molding surface 22 exhibits a first section 22a, which is inclined at angle and is formed with the circumferential surface of a truncated cone. Connecting to the first section 22a is a second section 22b, which is curved with a radius R4. In the example presented, radius R4 is 2 mm and coincides with radius R2 of the first flank 13 of the sealing protrusion 12, or with radius R1 of the second section 7b of the sealing surface 7 on the pipe 2, respectively (see FIG. 2, FIG. 3, and FIG. 3a).

[0079] Furthermore, specifically in accordance with FIG. 5a and FIG. 5b, the bottom surface 23 exhibits a first section 23a which is inclined at angle . The first section 23a is conical in shape. The angle is approximately 110 in this design example. The first section forms the abutting face 6 on the connecting section 5 of a pipe, so that angle is supplemented in accordance with the angle of inclination of the abutting face. Furthermore, the bottom surface 23 exhibits a second section 23b, which is curved with radius R5, wherein the radius R5 is approximately 0.6 mm in this design example and corresponds to radius R3. The second section 23b forms the second flank 14 of the sealing protrusion 12 on a pipe 2.

[0080] The parting surfaces 33, at which the forming die can be separated, are depicted in FIG. 5a, namely in the area of the trough 25 of the recess 24. For clarity, the parting surfaces 33 are not depicted in FIG. 5b.

[0081] From FIG. 5b it is evident that the outer molding surface 22 is formed in the shape of a truncated cone with a first section 22a and converges in the direction of the bottom surface 23. In a second area 22b the outer molding surface 22 exhibits the radius R4, which is 2 mm in size in this design example. The outer molding surface 22 and the bottom surface 23 merge in the recess 24, in particular with the curved second section 22b of the outer molding surface 22 and the second section 23b of the bottom surface 23. The tangent to the outer molding surface 22 and the tangent to the bottom surface 23 include an angle in the trough 25 of the recess 24, which in this design example is approximately 45. The bottom surface 23 exhibits the first section 23a, which is inclined by angle with respect to axis M of the forming die. In a second area 23b the bottom surface exhibits the radius R5, which is 0.6 mm in size in this design example. In the second section 23b of the bottom surface 23, a forming collar 28 is formed which presses in particular on the abutting face 6 of the pipe 2 and forces the material of the pipe 2 in the direction of the sealing surface 7 (see also FIG. 7).

[0082] FIG. 6 depicts the swaging tool 18 in a second state, namely with a closed counterholder 20, so that a relative motion between the counterholder 20 and the forming die 19 can take place for the purpose of deforming the pipe 2, by which the end section of the pipe 2 is pressed into the forming die 19.

[0083] FIG. 7 depicts the design example of the swaging tool 18 in a third state, namely in its completely closed state. In this state, the connecting section 5 on the pipe 2 has already been formed by the forces employed. It is to be clearly noted how the connecting section 5, particularly the sealing protrusion 12, is formed by the forming die 19, specifically by the recess 24 in the edge region of the bottom surface 23 of the recess 21.

[0084] FIG. 8 depicts an example of a schematic progression of the process 29, the first step of which is holding 30 the pipe 2 in a counterholder 20. Following this is the relative movement 31 between the counterholder 20 and the forming die 19, wherein the end section of the pipe 2 is pressed into the forming die 19. The forces exerted by the forming die 19 upon the abutting face 6 of the pipe 2 result in the formation 32 of the connecting section 5 with its sealing protrusion 12.

[0085] The invention is not limited to the depicted and described design examples, but rather encompasses all designs of equivalent function in the sense of the invention. It is explicitly noted that the design examples are not limited to all individual features in combination, but rather each individual feature can be meaningful to the invention independently of all other individual features. Furthermore, the invention has hitherto not been restricted to the combination of features as described in claim 1, but rather can also be defined by any other desired combination of features of all of the features described in total. This means that in essence practically every individual feature in claims 1, 19, and 23 can be omitted or replaced by at least one other feature described elsewhere in this application.