PIPE COUPLING

Abstract

A pipe coupling comprising a housing with a receiving space for a pipe section, with fixing members for releasably fixing the pipe section in the housing, and a sealing element which is arranged in the receiving space and is designed to surround the free end of the pipe section received in the receiving space on the outer circumferential side and thereby seal the interface between the housing and the pipe section in a fluid-tight manner. The pipe coupling is characterized in that the sealing element is designed in the form of a sleeve with a first and a second free end, in that a bulge is provided at the first free end, and in that a tubular section protrudes from the bulge and forms the second free end on the edge side.

Claims

1. A pipe coupling comprising: a housing with a receiving space for a pipe section, with fixing members for releasably fixing the pipe section in the housing, and a sealing element which is arranged in the receiving space and is designed to surround the free end of the pipe section, which is received in the receiving space, on the outer circumference and thereby seal the interface between the housing and the pipe section in a fluid-tight manner, wherein the sealing element is designed in the form of a sleeve with a first and a second free end, in that a bulge is provided at the first free end, wherein a tubular section protrudes from the bulge and forms the second free end on the edge side, and wherein at least in the installed state the tubular section of the sealing element is designed to be conically tapered on the inner side towards the second free end.

2. The pipe coupling according to claim 1, wherein the bulge has the shape of an O-ring.

3. The pipe coupling according to claim 1, wherein the tubular section has a constant outer diameter in the region of the second free end, viewed in the longitudinal direction.

4. The pipe coupling according to claim 1, wherein the sealing element is held in a clamping manner in the housing in such a way that the tubular section, the outer diameter of which, in the uninstalled state of the sealing element, expands conically towards the second free end, as seen in the longitudinal direction, is radially compressed in the installed state of the sealing element, so that a reduced inner diameter of the tubular section results in the installed state of the sealing element.

5. The pipe coupling according to claim 1, wherein the tubular section is conically tapered on the outside towards the second free end.

6. The pipe coupling according to claim 1, wherein the inside conical taper of the sealing element is achieved by a wall thickness of the tubular section increasing towards the second end.

7. The pipe coupling according to claim 1, wherein the tubular section of the sealing element is designed to guide and radially support the free end of the pipe section when the latter is pushed into the receiving space.

8. The pipe coupling according to claim 1, wherein a bead is provided on the inside of the sealing element between the bulge and the tubular section.

9. The pipe coupling according to claim 1, wherein the tubular section has at least one detent lug on the outside.

10. The pipe coupling according to claim 9, wherein the detent lug is formed by a circumferential bead.

11. The pipe coupling according to claim 1, wherein the receiving space has an annular stop for the free end of the pipe section, the annular stop also forming a stop for the second free end of the sealing element.

12. The pipe coupling according to claim 1, wherein the length of the tubular section is greater than the diameter of the cross-section of the bulge.

13. The pipe coupling according to claim 1, wherein the sealing element is formed in one piece or the sealing element is formed in multiple pieces from a first sealing element part in the form of the bulge and a second sealing element part in the form of the tubular section.

14. The pipe coupling according to claim 1, wherein a chamfer or recess is provided on the outside of the tubular section in the region of its free end.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] The invention will be explained in more detail below with reference to multiple drawings by means of exemplary embodiments. In the drawings:

[0029] FIG. 1 shows, by way of example, a longitudinal section through a pipe coupling without inserted pipe end;

[0030] FIG. 2 shows, by way of example, a longitudinal section through a pipe coupling with inserted pipe end;

[0031] FIG. 3 shows, by way of example, a longitudinal sectional view of a sealing element for use in a pipe coupling;

[0032] FIG. 4 shows, by way of example, a longitudinal section through a pipe coupling without inserted pipe end, the sealing element having a detent lug;

[0033] FIG. 5 shows, by way of example, a longitudinal sectional view of a sealing element with a conically expanding outer diameter for use in a pipe coupling; and

[0034] FIG. 6 shows, by way of example, a longitudinal sectional view of a sealing element for use in a pipe coupling, which has an external chamfer in the region of the free end of the tubular section.

DETAILED DESCRIPTION

[0035] FIG. 1 shows a sectional view through a pipe coupling 1 along its longitudinal axis LA. The pipe coupling 1 is designed to establish a connection of a free pipe end to a component, for example a valve, or a pipe end of a further pipe section. For example, the pipe coupling can also be designed as a plug insert or screw insert which is screwed or pressed into a housing of a component, e.g. a valve. For example, the pipe can be a flexible hose.

[0036] The pipe coupling 1 has a housing 2 into which a pipe section 4, in particular the free pipe end of a pipe, can be inserted. The pipe coupling 1 has a substantially rotationally symmetrical structure with respect to the longitudinal axis LA.

[0037] The housing 2 has a receiving space 3 with an inlet opening E, via which a free end of a pipe section 4 can be introduced into the housing 2 of the pipe coupling 1. A clamping device 7 is provided in the receiving space 3. The clamping device 7 allows the free end of a pipe section 4 to be detachably connected to the pipe coupling 1, in particular in such a way that the free end of the pipe section 4 can be pulled out of the pipe coupling 1 again only after a release mechanism of the clamping device 7 has been actuated.

[0038] The clamping device K comprises a sleeve 7.1 which is inserted into the receiving space 3. A support ring 7.2 is coupled to the sleeve 7.1, for example in such a way that the sleeve 7.1 surrounds the support ring 7.2 on the outside at least in sections.

[0039] The clamping device 7 further comprises fixing members 5, by means of which the pipe section 4 is secured against unwanted detachment. For example, the fixing members 5 are arranged between the sleeve 7.1 and the support ring 7.2, viewed in the direction of the longitudinal axis LA, and are preferably held in a clamping manner between the sleeve 7.1 and the support ring 7.2, so that they are secured in their axial position in the housing 2. The fixing members 5 can be designed, for example, as a claw ring. The support ring 7.2 is supported in the axial direction, for example, on a sealing element 6, which in turn is supported on a stop 3.1. The stop 3.1 is formed e.g. by a shoulder or a step in the housing 3.

[0040] As shown in FIG. 2, the stop 3.1 simultaneously forms a contact surface for the free end of the pipe section 4 inserted into the receiving space 3. Preferably, the stop 3.1 is formed by a ring-like surface running perpendicular to the longitudinal axis LA and forming a stop for the sealing element 6 and the free end of the pipe section 4 at the same height, as seen in the axial direction.

[0041] The clamping device 7 further comprises a release ring 7.3, via which the fixing of the pipe section 4 in the pipe coupling 1 can be deactivated. The release ring 7.3 can, for example, be inserted in the sleeve 7.1. In particular, the release ring 7.3 can be fixed in the sleeve 7.1 by a latching mechanism to prevent detachment, but can be held in the sleeve 7.1 so as to be movable in the axial direction.

[0042] The clamping device 7 is preferably fixed in the housing 2 also by a latching mechanism. In particular, the sleeve 7.1 can have latching members on the outside, via which the sleeve 7.1 is held in a latched manner in the housing 2. The other components of the clamping device 7, i.e. the support ring 7.2, the fixing members 5 and the release ring 7.3, are indirectly fixed in the housing 2 by means of the sleeve 7.1. Here, the support ring 7.2 and the fixing members 5 rest against one another and are each supported on shoulders formed in the sleeve 7.1, so that the support ring 7.2 and the fixing members 5 are thereby fixed in the sleeve 7.1 in a clamping manner.

[0043] In order to assemble the clamping device 7, the sleeve 7.1, the support ring 7.2, the fixing members 5 and the release ring 7.3 can be pre-assembled outside the housing 2 and then be inserted together in the assembled state into the receiving space 3.

[0044] In order to fix the pipe section 4, it is inserted with its free end into the release ring 7.3 and advanced in the axial direction guided by the sealing element 6 described below until the free end of the pipe section 4 rests against the stop 3.1.

[0045] As can be seen in particular in FIG. 1, the fixing members 5 have radially inwardly projecting claws 5.1. These claws 5.1 are arranged so as to be inclined with respect to a plane aligned perpendicular to the longitudinal axis LA. As a result, it is possible to push the pipe section 4 from the inlet opening E into the receiving space 3, but unintentional detachment of the pipe section 4 is effectively prevented by the engagement of the claws 5.1 in the wall of the pipe section 4.

[0046] The release ring 7.3 is designed to release the engagement of the claws 5.1 in the wall of the pipe section 4 so that the pipe section 4 can be pulled out of the receiving space again. The release ring 7.3 is here axially slidable relative to the sleeve 7.1 or to the housing 2 in such a way that it can be positioned from a first sliding position, as shown in FIGS. 1 and 2, into a second sliding position, in which the release ring 7.3 is pushed further into the receiving space 3 in the insertion direction of the pipe section 4. By axially pressing or moving the release ring 7.3, the claws 5.1 of the fixing members 5 are reversibly deformed in the insertion direction, i.e. in the direction of the stop 3.1 of the housing 2, and are thereby disengaged from the wall of the pipe section 4, so that the pipe section 4 can be pulled out.

[0047] It is understood that alternative clamping or fixing mechanisms or methods can also be employed.

[0048] The sealing element 6 of the pipe coupling 1 is designed to minimize the dead space existing in the region of the free end of the pipe section 4. FIG. 3 shows the sealing element 6 in individual depiction, FIG. 1 shows the sealing element 6 which is inserted in the housing 2 without the inserted pipe section 4, and FIG. 2 shows the sealing element 6 inserted in the housing 2 with the inserted pipe section 4.

[0049] The sealing element 6 is designed to be preferably rotationally symmetrical or substantially rotationally symmetrical with respect to the longitudinal axis LA.

[0050] The sealing element 6 is sleeve-shaped, i.e. designed as a sealing sleeve, and extends from the stop 3.1 in the axial direction over a partial length of the pipe section 4. Since this stop 3.1, as previously explained, also forms the contact surface for the free end of the pipe section 4, a dead space extending externally around the free end of the pipe section 4 is effectively prevented.

[0051] The sealing element 6 has a first end 6.1 and a second end 6.2. An annular, circumferential bulge 6.5 is provided at the first free end 6.1. This bulge 6.5 has the shape of an O-ring or substantially the shape of an O-ring, i.e. the bulge 6.5 is circular and has a circular cross-section. Alternatively, the bulge 6.5 can also have other cross-sectional shapes, such as an oval, polygonal, or a cross-sectional shape composed of curves and corners. Adjacent to this bulge 6.5 is a tubular section 6.3. The free end of the tubular section 6.3 facing away from the bulge 6.5 forms the second free end 6.2 of the sealing element 6. The sealing element 6 is formed in one piece, for example as a one-piece injection-molded elastomeric seal. Alternatively, the bulge 6.5 and the tubular section 6.3 can be formed by separate sealing parts, i.e. the sealing element 6 is formed in multiple parts, the bulge 6.5 and the tubular section 6.3 being parts independent of each other, which are inserted individually into the housing 2, for example.

[0052] As can be seen in particular in FIGS. 1 and 3, the tubular section 6.3 of the sealing element 6 is of conical design. In particular, the tubular section 6.3 is formed in such a way that it tapers inwardly towards the second end 6.2, i.e. the inner diameter of the tubular section 6.3 decreases from the bulge 6.5 towards the second free end 6.2. As can be seen in particular in FIG. 3, the inside taper of the tubular section 6.3 is achieved in that the wall thickness of the tubular section 6.3 increases towards the second end. Preferably, the outer contour of the tubular section 6.3 is designed in a rotationally symmetrical fashion to the longitudinal axis of the sealing element 6 and, viewed in the axial direction, has a constant radius relative to this longitudinal axis. This shape of the tubular section 6.3 ensures that the pipe section 4 inserted into the sealing element 6 is firmly enclosed, on its free end side, by the sealing element 6 due to its conical shape, so that even if the pipe protruding from the pipe coupling is bent, flowing behind the free end of the pipe section 4 or the sealing element 6 can be effectively prevented.

[0053] As can be seen in particular in FIG. 1 and FIG. 3, the bulge 6.5 protrudes both on the outer circumference side and on the inner circumference side relative to the outer and inner contour of the tubular section 6.3, respectively, in a region in the immediate vicinity of the bulge 6.5. This results in a ribbing 6.4 on the sealing element 6 on the inside in the transition area between the bulge 6.5 and the tubular section 6.3, into which bead the material displaced during the insertion of the pipe section can escape. The deformed sealing element 6 can be seen in FIG. 2.

[0054] Furthermore, the cross-section of the bulge 6.5 preferably has a diameter d that is smaller than the length L of the tubular section 6.3. This ensures that the sealing element 6 also has sufficient tightness when the pipe is bent.

[0055] As can be seen in FIG. 4, a detent lug 8 can additionally be formed on the outer circumference of the tubular section 6.3 of the sealing element 6 in order to fix the sealing element in position relative to the housing 2. The detent lug 8 can be formed, for example, by a bead which runs around the outer circumference and which interlockingly engages in a corresponding recess in the housing 2.

[0056] FIG. 5 shows an alternative embodiment of the sealing element 6. In contrast to the embodiment of the sealing element 6 according to FIG. 3, the tubular section 6.3 expands conically on the outside in the direction of the second free end 6.2 when not installed, i.e. the outer diameter increases in the direction of the free end 6.2. In the non-installed state, the tubular section 6.3 can have a constant or nearly constant diameter on the inside. Preferably, however, the sealing element is radially upset (i.e. compressed) when it is installed in the housing 2 of the pipe coupling 1, so that in the installed state of the sealing element 6 there is a conical taper on the inside towards the second free end.

[0057] FIG. 6 shows an embodiment of the sealing element 6 similar to the embodiment according to FIG. 3. The essential difference to the embodiment according to FIG. 3 is that a chamfer 9 is provided circumferentially on the outside in the region of the second free end 6.2. The chamfer 9 offers the advantage that the tubular section 6.3 of the sealing element 6 can tilt outward on the free end side when the pipe section is inserted into the tubular section 6.3. The outward tilting has the advantage that thereby the contact pressure of the free end of the tubular section 6.3 against the stop 3.1 is increased, so that the tightness at the interface between the stop 3.1 of the housing 2 and the sealing element 6 is increased.

[0058] The invention has been described above with reference to exemplary embodiments. It is understood that numerous variations as well as modifications are possible without leaving the scope of protection defined by the claims.

LIST OF REFERENCE SIGNS

[0059] 1 pipe coupling [0060] 2 housing [0061] 3 receiving space [0062] 3.1 stop [0063] 4 pipe section [0064] 5 fixing members [0065] 5.1 claws [0066] 6 sealing element [0067] 6.1 first free end [0068] 6.2 second free end [0069] 6.3 tubular section [0070] 6.4 bead [0071] 6.5 bulge [0072] 7 clamping device [0073] 7.1 sleeve [0074] 7.2 support ring [0075] 7.3 release ring [0076] 8 detent lug [0077] 9 chamfer [0078] D diameter [0079] E inlet opening [0080] L length of tubular section [0081] LA longitudinal axis