GB2031094A - Pipe couplings - Google Patents

Abstract

An O-ring 14 is retained within a socket of a pipe coupling by a retaining ring 17, the retaining ring being maintained within the socket by one or more projections 18 which engage within apertures 19. The apertures 19 extend right through the walls of the socket, enabling the apertures to be moulded from outside the socket by using removable projections on the outer part of a mould. <IMAGE>

Description

SPECIFICATION Couplings The invention relates to pipe couplings, and particularly to pipe couplings of the kind in which a tubular member is received within a socket, the socket having an internal circumferential groove which in use receives a sealing ring to form a seal between the inner wall of the socket and the outer wall of the tubular member.

Where the socket is formed of plastics material, problems arise in conveniently forming the circumferential groove. British Patent No.

1175503 describes some of these problems and proposes a solution in which the socket has an end portion of larger internal and external diameter than the main length of the socket and an internal rib projecting inwardly of the enlarged portion, a synthetic plastics ring being provided which is retained in the enlarged portion by the rib, the ring extending axially less than the length of the inside of the enlarged portion and forming with the inner end of the enlarged portion an inwardly facing annular recess to house the sealing ring.The object of this construction is to enable the coupling to be moulded without using a collapsible core mould, but since the coupling has an inwardly facing rib, the core of the mould must, after moulding, be forced out of the socket past this rib, and there is a serious risk that the rib will be deformed or weakened, and will subsequently fail to fulfill its function properly.

British Patent No. 1183881 proposes an alternative solution in which the groove for the sealing ring is defined between a shoulder formed on the internal periphery of the socket and the end of a separately formed retaining ring inserted in the socket, the ring being secured therein by a formation thereon which engages in a recess in the socket. The radial depth of the recess is said to be such that it can be moulded. The arrangement described in British Patent No. 1183881 is merely the inverse of that described in British Patent No.

1175503, the retaining rib being provided on the retaining ring instead of on the inner wall of the socket. Since however a corresponding recess in provided on the inner wall of the socket, there must of necessity be a narrower internal diameter part of the socket at the mouth of the socket, defining one wall of the recess, and so once again there is a deformation problem when the mould core is removed.

The invention provides a pipe coupling comprising a socket which in use receives a tubular member, the socket having an internal circumferential groove which in use receives a sealing ring to form a seal between the inner wall of the socket and the outer wall of the tubular member, the groove being defined between a shoulder on the inner wall of the socket and an end of a separately formed retaining ring inserted into the socket, the socket having an aperture extending radially from outside the socket through the wall of the socket to communicate with the interior of the socket, and the retaining ring having a radially extending projection which, when the retaining ring is inserted into the socket, engages in the aperture to retain the ring in position within the socket.

The use of an aperture which extends radially into the socket from outside the socket enables the aperture to be moulded from outside the socket by using a removable projection on the outer part of the mould, which is much simpler and less costly than using a collapsible core mould.

If desired there may be a plurality of apertures extending radially through the wall of the socket, there being a plurality of radially extending projections on the retaining ring which engage respectively in the apertures when the retaining ring is inserted into the socket.

Preferably there are two apertures and two corresponding projections.

The or each aperture may comprise a circumferentially extending slot, the or each projection being shaped to mate with the corresponding aperture.

The pipe coupling may be such that the retaining ring can be retained within the socket in at least two different positions, the positions being spaced apart longitudinally of the socket, so that the size of the said groove can be varied to accommodate different sizes of sealing ring.

There may be an aperture in the wall of the socket for each of the said different positions, engagement of a corresponding projection of the retaining ring in a first aperture enabling the groove to accommodate one size of sealing ring while engagement of the said corresponding projection in a second aperture enables the groove to accommodate another size of sealing ring.

The first and second aperture may be interconnected such that a projection engaging in one of the apertures can be moved to engage in the interconnected aperture by rotation of the retaining ring with respect to the socket.

The said first aperture may comprise a first circumferentially extending slot, the said second aperture comprising a second circumferentially adjacent slot which also extends circumferentially but in addition extends longitudinally to a greater extent than the first slot.

Where there is more than one projection on the retaining ring there may of course be one of said first apertures and one of said second apertures for each projection.

The socket may comprise an end of an elongate pipe, or part of a coupling such as a sleeve coupling in the form of a short pipe length, an elbow coupling or a Y-shape or Tshape coupling.

The invention includes a pipe coupling according to the invention when connected to a tubular member. The tubular member may for example comprise a pipe or part of another coupling.

By way of example, specific embodiments of the invention will now be described, with reference to the accompanying drawings, in which:~ Figure 1 is a cross section through a first embodiment of pipe coupling according to the invention; Figure 2 is a side elevation of the pipe coupling shown in Fig. 1; Figure 3 is a sectional view showing part of the socket of the coupling; Figure 4 is a plan view showing part of the socket of the coupling; Figure 5 is a sectional view through the retaining ring of the coupling; Figure 6 is a side elevation showing the retaining ring; Figure 7 is a cross section through a second embodiment of pipe coupling according to the invention; Figure 8 is a side elevation of the socket of the pipe coupling shown in Fig. 7; Figure 9 is a cross section through the socket; Figure 10 is a side view of the retaining ring of the coupling shown in Fig. 7;; Figure 11 is a cross section through the retaining ring; Figure 12 is a side elevation of the socket of a third embodiment of pipe coupling according to the invention; Figure 13 is a cross section through the socket of Fig. 12; Figure 14 is a side elevation of the retaining ring of the third embodiment of pipe coupling; Figure 15 is a cross section through the retaining ring; and Figures 16 and 1 7 are cross sections through the third embodiment of pipe coupling showing how the coupling can accommodate two different sizes of sealing ring.

The coupling shown in Figs. 1 and 2 comprises one end of an elongate plastics pipe 10. The end of the pipe has enlarged internal and external diameters 11 and 12 to form a socket 13. In use this socket will receive the end of another pipe (not shown) and an O-ring 14 is provided to form a seal between the two pipes and prevent leakage of any fluid flowing through the pipes.

The O-ring 14 is housed in a internal circumferential groove defined between a shoulder 15 formed on the inner wall of the socket and an end 16 of a separately formed retaining ring 17 which is secured within the socket. The ring 17 has a pair of diametrically opposite arcuate ribs 18 each of which engage in a slot 19 which extends radially through the wall of the socket.

As best shown in Fig. 3, the mouth of the socket 13 is flared outwardly at 20, the angle of flare being reduced slightly in the region 21 to provide a slight lead-in to the slot 19.

The slot 19 extends completely through the wall of the socket putting the outside of the socket and the inside of the socket into communication with one another.

As best shown in Fig. 5, the outer faces 22 of the projection 18 are tapered to assist in centring the retaining ring when it is inserted into the flared portion 20 of the socket and also to assist in snapping the projections 18 into the slots 19. The remainder 23 of the outer face of the retaining ring is also tapered to mate with the flared portion 20 of the socket as illustrated in Fig. 1.

The retaining ring shown in Figs. 1 to 6 is a very straightforward component to mould in plastics material, and as far as the socket is concerned, it offers definite advantages over the sockets shown in Patents 1175503 and 10083881. The internal surface of the sockets illustrated in those Patents have undercut portions, which necessitate the use of a collapsible core, or alternatively means that the part of the core which forms the undercut portions must be forced out of the socket past narrower diameter portions, after moulding is complete. This can distort the socket or at least leave undesirable residual stresses.

With the socket shown in Figs. 1 to 6, it can be seen from Fig. 3 that the internal profile of the socket has no undercut portions and the core of the mould can readily be withdrawn after moulding without any disturbance of the moulded plastics material. Thus there are no problems of distortion or stressing and furthermore the socket can be moulded in any desired plastics material, even a rigid plastics material, whereas the sockets shown in the two Patents mentioned above cannot be moulded in a rigid plastics material, since some deformation of the plastics material is essential if the mould core is to be removed. In the socket shown in the accompanying drawings, the slots 18 can readily be formed using projections on the external parts of the mould, which are removed radially after moulding and without any need to deform the moulded plastics material.

With the sockets shown in the above mentioned Patents, the dimensions of the undercut portions, and particularly their radial depth, must be kept to a minimum to reduce the undesirable distortion effects which occur when the mould core is withdrawn. With the socket shown in Figs. 1 to 6, there is no such problem. The slots 18 extend right through the wall of the socket and the ribs 18 are of subtantial circumferential and radial extent so that the retaining ring 17 is locked in position strongly and securely. Furthermore the faces of the slots and the ribs which interengage extend at right angles to the axis of the socket, increasing the effectiveness with which the retaining ring is locked in the socket.When the constructions shown in the two above mentioned Patents were manufactured, it was found that in practice, in order to facilitate assembly, it was necessary to use a construction in which the abutting faces which resist withdrawal of the retaining ring are tapered, with the result that the retaining ring is gripped less securely.

The ribs 18 have the advantage that they prevent axial movement of the retaining ring in both directions, therefore maintaining a consistent shape for the groove that houses the O-ring and therefore maintaining a predictable and consistent pipe sealing force.

Since retention of the retaining ring relies on the ribs 18 and the slots 19, rather than on engagement of the entire periphery of the retaining ring with the inner wall of the socket, the retaining ring can be manufactured with a slight clearance between it and the walls of the socket, thereby facilitating assembly and avoiding the creation of undue stresses in the assembled coupling.

With the arrangements shown in Patents 1175503 and 10083881 the maximum radial depth of the undercut portion is limited to a finite amount which is independent of the overall dimensions of the article. In other words on larger diameter pipes the radial depth of the undercut portion cannot be correspondingly increased, so the larger circumference retaining ring is much less secure and is prone to flex and slip out of the pipe. With the arrangement shown in Figs. 1 to 6 the slots provide more than adequate grip for all diameters of pipes.

In Figs. 7 to 11, there is shown an alternative embodiment of pipe coupling according to the invention. The embodiment is very similar to that shown in Figs. 1 to 6, and like parts have like reference numerals. However it will be seen that there is no lead-in 21 to the slots 19 and while the socket still has a flared mouth, the outer face 24 of the mouth is cylindrical.

As far as the retaining ring is concerned, the tapered portion 23 is provided with a relief portion 25. The outer faces 22 of the projections 18 are not tapered.

These modifications have been found to assist in the moulding process.

The coupling operates to accommodate an O-ring 14 in exactly the same way as the coupling shown in Figs. 1 to 6, as can be seen from Fig. 7.

The embodiment of pipe coupling shown in Figs. 12 to 17 is very similar to the embodiment shown in Figs. 7 to 11, like parts having like reference numerals, except for the fact that the coupling is adjustable to accommodate two different sizes of sealing ring.

The socket differs in that each slot is made up of two interconnected circumferentially adjacent slots 19 a and 19 b.

The retaining ring 17 differs in that its height, and the size of the relief portion 25, is greater than the retaining ring shown in Figs.

10 and 11. The projections 18 extend over a slightly smaller circumferential distance than the projections of the retaining ring shown in Figs. 10 and 11.

The projections 18 can be snapped into the slots 1 9a to retain an O-ring 14 as shown in Fig. 17, in a similar manner to the pipe coupling of Fig. 7. If however it is desired to accommodate a larger O-ring, or to compress the O-ring 14 to a smaller extent, as shown in Fig. 16, so that the socket can accommodate a slightly larger pipe, then it is merely necessary to rotate the retaining ring 16 so that the projections 18 move into the slots 19 b. These slots extend in a longitudinal direction further than the slot 19a so that while the retaining ring 17 is still securely retained within the socket, it is free to move slightly further outwardly of the socket, as best illustrated in Fig. 16.

Rotation of the retaining ring is facilitated by the fact that the outer face 23 of the retaining ring remains clear of the socket.

The invention is not restricted to the details of the foregoing embodiments. For instance instead of having two ribs 18 and two slots 19, there might be more. For example there might be three ribs 18 and three corresponding slots 19.

Claims (12)

1. A pipe coupling comprising a socket which in use receives a tubular member, the socket having an internal circumferential groove which in use receives a sealing ring to form a seal between the inner wall of the socket and the outer wall of the tubular member, the groove being defined between a shoulder on the inner wall of the socket and an end of a separately formed retaining ring inserted into the socket, the socket having an aperture extending radially from outside the socket through the wall of the socket, and the retaining ring having a radially extending projection which, when the retaining ring is inserted into the socket, engages in the aperture to retain the ring in position within the socket.

2. A pipe coupling as claimed in Claim 1, in which there are a plurality of apertures extending radially through the wall of the socket, there being a plurality of radially extending projections on the retaining ring which engage respectively in the apertures when the retaining ring is inserted into the socket.

3. A pipe coupling as claimed in Claim 2, in which there are two apertures and two corresponding projections.

4. A pipe coupling as claimed in any one of the preceding claims, in which the or each aperture comprises a circumferentially extending slot, the or each projection being shaped to mate with the corresponding aperture.

5. A pipe coupling as claimed in any one of the preceding claims, in which the retaining ring can be retained within the socket in at least two different positions, the positions being spaced apart longitudinally of the socket, so that the size of the said groove can be varied to accommodate different sizes of sealing ring.

6. A pipe coupling as claimed in Claim 5 in which there is an aperture in the wall of the socket for each of the said different positions, engagement of a corresponding projection of the retaining ring in a first aperture enabling the groove to accommodate one size of sealing ring, while engagement of the said corresponding projection in a second aperture enables the groove to accommodate another size of sealing ring.

7. A pipe coupling as claimed in Claim 6, in which the said first aperture and the said second aperture are interconnected such that a projection engaging in one of the apertures can be moved to engage in the interconnected aperture by rotation of the retaining ring with respect to the socket.

8. A pipe coupling as claimed in Claim 7, in which the said first aperture comprises a first circumferentially extending slot, and the said second aperture comprises a second circumferentially adjacent slot which also extends circumferentially but in addition extends longitudinally to a greater extent than the first slot.

9. A pipe coupling as claimed in any one of the preceding claims, in which the socket comprises the end of an elongate pipe.

10. A pipe coupling as claimed in any one of claims 1 to 8, in which the socket comprises part of a sleeve coupling, an elbow coupling, or a Y-shape or T-shape coupling.

11. A pipe coupling as claimed in any one of the preceding claims when connected to a tubular member.

12. A pipe coupling constructed and arranged substantially as herein described with reference to Figs. 1 to 6, or Figs. 7 to 11, or Figs. 12 to 17, of the accompanying drawings.