GB2349929A

GB2349929A - Pipe fitting

Info

Publication number: GB2349929A
Application number: GB9911350A
Authority: GB
Inventors: Andrew Robert Beever
Original assignee: Hepworth Building Products Ltd
Current assignee: Hepworth Building Products Ltd
Priority date: 1999-05-14
Filing date: 1999-05-14
Publication date: 2000-11-15
Also published as: EP1179155A1; KR100638707B1; NZ515451A; PT1179155E; CZ20014037A3; HK1045364A1; HUP0200970A2; HU223931B1; WO2000070258A8; CN1359457A; CN1190614C; GB9911350D0; WO2000070258A1; AU776349B2; AU4596900A; JP2002544461A; KR20020019019A; DE60017892D1; PL194426B1; EP1179155B1

Abstract

A pipe-fitting 2 comprises a socket for receiving a pipe portion 1. The socket comprises a mouth and a bores. The bore contains a retaining element 6 for retaining the pipe portion 1 within the socket and an annular seal 5 for sealing between the socket and the pipe portion 1. A sleeve 18 is, in use, situated within the socket, and comprises a radially inwardly directed flange 20 located in a region adjacent the seal 5, for protecting the seal 5 from the pipe portion 1 when it is inserted into the socket. The flange may be provided with a plain flat surface. Sleeve 18 may be formed from plastics (e.g. polypropylene, polybutylene) or metal (e.g. stainless steel). Sleeve 18 may be cylindrical and include hinged leaves 36 for accommodating different diameter pipes and defining camming surfaces for element 6. Sleeves may be colour coded or have other indicia to indicate respective diameters. Sleeve 18 may be injection moulded with the leaves in an open position. The sleeve 18 may be divided into halves (figures 5, 6 - not shown) instead of including leaves.

Description

2349929 M&C Folio: 230P80612 Document 4: 375165 P11PE FITTING The present

invention relates to a push-fit pipe fitting. Such fittings are commonly used in various plumbing applications and have the advantage that few or no tools are required to form a joint between the fitting and any pipe spigot which is received in a socket provided on the fitting. Such fittings are generally well known.

Figure I of the accompanying drawings shows a partial sectional view through a known fitting and pipe, together forming a joint.

The pipe I end is inserted into the socket of the fitting 2 until an end stop 4 is reached. A grab wedge 6 acts as a gripping part, and takes the form of a contracting ring through which the pipe I is inserted as it is pushed into the fitting 2. The grab wedge 6 comprises radially inwardly directed teeth 8. An elastomeric O-ring sea] 5 is also situated inside the socket of the fitting 2 at a position that is axially inside, relative to the grab wedge 6. The O-ring seal 5 is of such a configuration that it is compressed, in the radial direction, between a radially inner surface of the socket wall and a radially outer surface of the pipe wall, so as to form a seal between the two.

If a destructive axial force Fr is applied to the pipe I and tends to urge it out of the fitting 2, a radially outer camming surface 10 provided on the grab wedge 6 cooperates with a complementary camming surface 12 situated in the mouth of the socket. As the force Fr is applied to the pipe 1, the grab wedge 6 moves with the pipe, due to the action of the teeth 8. As a result of this movement and the consequent interaction of the camming surfaces 10, 12, a radial closing force is applied to the grab wedge 6, This closing force serves to embed the teeth 8 more firmly into the pipe I and thus grip the pipe ever more securely. Eventually, the two camming surfaces wedge together and, in -combination with the teeth 8, prevent any further axial displacement.

2 The fitting 2 is designed for use with pipes manufactured from a range of materials. Typically these will be plastics, such as polybutylene, or metals such as copper. This piping will typically be supplied in long lengths (sometimes rolled onto a drum) which are cut to a suitable length at the point of installation. Special tools are provided for cutting the pipe. These have several purposes, one of which being the purpose of ensuring that the end of the cut pipe has no rough edges or burrs. However, these tools occasionally get lost or ignored and it is not, therefore, uncommon for a fitter to use a hack-saw or the like to cut piping to an appropriate length. In such a case, it is not unusual for the end of the piping to have a rough edge or burrs. If such a pipe end is inserted into the fitting, it is quite possible that the O-ring seal 5 may be damaged, since it is made from rubber or some other similarly soft material. If such damage occurs, the integrity of the seal will be reduced and, in extreme cases, catastrophic failure may result.

The present invention sets out to provide a pipe fitting which resists such damage to a seal.

Referring again to Figure 1, it will be seen that the O-ring 5 is located adjacent an axially-facing annular seating shoulder 14. This shoulder acts as a seat for the 0ring 5, particularly when the pipe I is inserted into the socket of the fitting 2. In order to effect the necessary seal between the O-ring and the outer surface of the pipe 1, the radially inner diameter of the O-ring 5 is slightly smaller than the radially outer surface of the pipe 1. This means that the O-ring 5 will provide certain resistance to the insertion of the pipe 1.

In certain circumstances, it has been found that the O-ring 5 can become unsuitably deformed and axially displaced, as the pipe I is inserted into the socket of the fitting 2. This sometimes occurs where the pipe is inserted along a path which is at an angle to the longitudinal axis of the fitting, or where a burr or other irregularity catches the O-ring 5, during insertion. In some cases, the O-ring 5 can be deformed to 3 the extent that a portion of it is forced past the shoulder 14 and into the neck 16 of the fitting that is situated axially beyond it. Such deformation is highly undesirable because it degrades the quality of the seal and can even prevent the pipe from being fully inserted. Deformation can be caused either by the pipe I acting directly on the O-ring 5 or as a consequence of forces transmitted from the pipe I to the O-ring 5, via the grab wedge 6.

The present invention also sets out to provide a fitting which prevents such deformation of a seal occurring.

According to the invention there is provided a pipe-fitting comprising a socket for receiving a pipe portion, the said socket comprising a mouth and a bore, the said bore containing a retaining element for retaining the pipe portion within the socket and an annular seal for sealing between the socket and the pipe portion; and further comprising a sleeve which is, in use, situated within the socket, the said sleeve comprising a radially inwardly directed flange located in a region adjacent the seal, for protecting the seal from the pipe portion when it is inserted into the socket.

Preferably, wherein the sleeve and the retaining element are situated, in axial terms, between the seal and the mouth and the retaining element can move axially within the sleeve.

The radially inwardly directed flange may comprise an axial projection on a surface facing the said seal. The projection may be in the form of an annular lip.

The annular lip may be provided with an inclined radially inner surface. The inclined surface may have a concave, arcuate profile in cross-section.

The sleeve may be axially fixed within the socket.

4 The sleeve may be provided with a radial projection for location within a radial recess in a wall of the socket for securing the axial position of the sleeve within the socket. The radial projection may be a flange.

The sleeve may be provided with a substantially cylindrical portion for location in a region adjacent the socket mouth in order to define an aperture for receiving the pipe portion into the socket.

The said sleeve may comprise a camming surface on a radially inner surface thereof, for co-operation with a camming surface provided on a radially outer surface of the retaining element, for causing the retaining element to contract, upon axial movement thereof, so as to grip a radially outer surface of the pipe portion. In such a fitting the camming surface may be annular, and may also be connected to the substantially cylindrical portion of the sleeve.

The camming surface and substantially cylindrical portion of the sleeve may be defined by a plurality of leaves hinged to the remainder of the sleeve. Four leaves may be provided.

One or more additional sleeves may be provided, the substantially cylindrical portion of the or each sleeve having a respectively different diameter, and the sleeves all being interchangeable. In such a case, each sleeve may be of a different colour.

Embodiments of the invention will now be described, by way of example and with reference to the accompanying drawings in which:- Figure I shows a partial sectional view of a known pipe fitting; Figure 2 shows a partial sectional view of a first embodiment of the invention; Figure 3 shows a partial sectional view through a fitting defining a second embodiment of an invention-, Figure 4 is a cross-section through the inner sleeve of the fitting of Figure 3; Figure 5 is a view of an alternative inner sleeve in accordance with the invention; and Figure 6 is a perspective view of a still further inner sleeve in accordance with the invention.

Referring now to Figure 2, it will be seen that the fitting is generally similar to that of Figure 1, with the exception that it further comprises an inner sleeve 18. Although the fitting comprises a differently configured cap 3, that is demountably f itted to the fitting body by means of a thread, this aspect of the fitting does not form part of the invention and merely illustrates an alternative configuration that is one of many that could be used in conjunction with the invention. Indeed, the construction used in Figure I could equally beused. Furthermore, although the fitting-mouth camming surface 12 has an arcuate profile in Figure 2, a frusto-conical surface, such as shown in Figure 1, or any other suitable configuration could be used.

The sleeve 18 has a generally cylindrical shape and is formed from a suitable plastics material, such as polypropylene or polybutylene. Other materials may be used, including other plastics materials and metal, such as stainless steel. The sleeve 18 comprises a cylindrical sidewall 24 with a radially outwardly directed annular flange 22 at one end and a radially inwardly directed base flange 20, at its other axial end. The base flange 20 defines a radially central base aperture 21. It is of sufficient diameter to accommodate a pipe I when it is inserted into the fitting. The base flange 20 is further provided with an axial lyrearwardly projecting annular lip 28 that has an arcuate surface 26. The lip extends only part way towards the radially outer perimeter of the base flange, thereby defining a peripheral annular rebate 23.

6 The radially inner surface of the body 7 of the fitting 2 is provided with a further, annular axially facing shoulder 15. When the sleeve 18 is installed within the body of the fitting 2, the peripheral rebate 23 abuts the shoulder 15, which acts as a sleeve seat, so as to provide relative axial security between the two and provide a certain degree of axial support for the base flange 20. In addition, the radially outer flange 22 locates over an axial end portion I I of the fitting body 7. As the cap 3 is mounted onto the body 7, the radially outer flange 22 becomes clamped between the body 7 and the cap 3, so as to retain its axial position within the fitting socket securely. It will be noted that the sleeve, which must be inserted into the fitting body 7 after the O- ring seal 5, serves to trap the O-ring 5.

In use, the sleeve effectively protects the O-ring from damage by a rough end of a pipe. This preserves the integrity of the seal. In addition, the base flange 20 blocks the O-ring 5 from the grab wedge 6 and, therefore, protects the O-ring 5 from being displaced by the grab wedge 6 when the pipe is inserted. In this regard, the generally cylindrical configuration of the sleeve 18 ensures that the base flange is not significantly displaced from its alignment with a radial plane. If the sleeve 18 was replaced by a simple washer having the configuration of the base flange 20, the washer could still be angularly displaced and, therefore, allow the 0-fing 5 to be subjected to an uneven insert force, hence urging it into the fitting neck 16.

The seal seat 26 provided on the rear surface of the base flange serves to locate the O-ring 5. However, if desired it may be omitted and the base flange 20 may, instead, be provided with a plain, flat surface for addressing the O-ring 5.

Figure 3 shows a further embodiment of the invention comprising a variation of the sleeve shown in Figure 2. Figure 4 shows a cross-section of the sleeve itself, for better understanding.

7 As will be seen from the figures, the sleeve 18 of the second embodiment is generally similar to that of the first embodiment, but includes four additional leaves 36, which are each hinged to the remainder of the sleeve 18 via a series of respective hinges 34 connected to the radially outer flange 22. Each leaf 36 occupies slightly less than one quarter of the circumference of the sleeve 18. The individual leaves 36 are separated by intermediate slots 38, which enable the leaves 36 to be moved about their respective hinges.

The leaves 36 together define a dome-like structure which corresponds with the shape and configuration of the radiussed socket mouth camming surface 12. Indeed, the radially inner surfaces of the arcuate portions of the leaves 36 define camming surfaces which work in exactly the same way with the grab wedge 6 as does the mouth camming surface 12.

The sleeve 18 further comprises a series of cylindrical wall portions 32, each being distally provided on a respective one of the leaves 36, so that, together, they define a cylindrical sleeve mouth 33.

By providing the leaves 36 in this fashion, the diameter of the sleeve mouth 33 can be set to co-operate with a pipe 1 of a specific diameter, largely irrespective of the diameter of the socket mouth. This means that, by providing a range of sleeves having sleeve mouths of different diameters, a single fitting body may be used for a range of pipe diameters, merely by selecting an appropriately dimensioned sleeve 18. In such a case, the sleeves could be colour-coded or include some other indicia, in order to indicate the respective diameters.

It should be noted that the sleeve has the camming surface and mouth formed from a series of leaves in order to facilitate manufacture by injection moulding. In the manufacturing process, the sleeve is moulded with the leaves in the "open" position and a collapsing core is, therefore, not needed. The leaves are closed into the position shown in Figure 4 prior to use and prior to installation within the remainder of the 8 fitting. Although, in this embodiment, four leaves have been chosen, a different number could be used, if desired. However, it has been found that four provides a good degree of strength and manufacturing benefits.

Figure 5 shows an alternative configuration for the inner sleeve 18. In use, the overall general configuration of the inner sleeve is identical to that of Figure 4. However, rather than being formed from a cylindrical portion 24 provided with a series of leaves 36, the sleeve is divided into two halves 37 along a plane facing perpendicular toitsaxis. These two halves 37 are joined by an axial hinge 35 in the region situated on the radially outwardly projecting flange 22.

As will be seen from Figure 5, the axial hinge 35 enables the two sleeve halves 37 to be moulded in an "opened out" condition and the two can be subsequently brought together to form the inner sleeve, after moulding and prior to installation within the remainder of the fitting. This construction obviates the need to form the sleeve camming section 30 and the mouth 33 from a series of leaves 36.

Figure 6 shows a still further embodiment of the inner sleeve 18. In this embodiment, it will be seen that the mouth 33 and the sleeve camming section 30 are formed integrally with the cylindrical sidewall 24. However, the cylindrical sidewall 24 is divided in a plane facing parallel to the axis, so as to defte a sleeve base portion 40, which is joined to the remainder of the sleeve 18 by a circumferential hinge 3 9. Once again, the sleeve 18 can be moulded in an "open" condition in order to facilitate manufacture and the base portion 40 can subsequently be rotated about the hinge 39 in order to close it up prior to installation of the remainder of the fitting.

Many other constructions providing similar benefits to the above can be employed. For example the parts of the sleeve could be snap-filled together, rather than hinged. Furthermore, collapsing core technology would enable the sleeve to be moulded as a single element. Blow moulding would provide similar benefits, but might require subsequent machining.

9 Many further modifications and variations will suggest themselves to those versed in the art upon making reference to the foregoing illustrative description of preferred embodiments, which are given by way of example only and which are not intended to limit the scope of the invention.

Claims

CLAIMS:

I. A pipe-fitting comprising a socket for receiving a pipe portion, the said socket comprising a mouth and a bore, the said bore containing a retaining element for retaining the pipe portion within the socket and an annular seal for sealing between the socket and the pipe portion; and further comprising a sleeve which is, in use, situated within the socket, the said sleeve comprising a radially inwardly directed flange located in a region adjacent the seal, for protecting the seal from the pipe portion when it is inserted into the socket.
2. A pipe-fitting according to Claim 1, wherein the sleeve and the retaining element are situated, in axial terms, between the seal and the mouth and the retaining element can move axially within the sleeve.
3. A pipe-fitting according to Claim I or 2, wherein the said radially inwardly directed flange comprises an axial projection on a surface facing the said seal.
4. A pipe-fitting according to Claim 3, wherein the projection is in the form of an annular lip.
5. A pipe-fitting according to Claim 4, wherein the said annular lip is provided with an inclined radially inner surface.
6. A pipe-fitting according to Claim 5, wherein the said inclined surface has a concave, arcuate profile in cross-section.
7. A pipe-fitting according to any preceding claim, wherein the sleeve is axially fixed within the socket.
8. A pipe-fitting according to Claim 7, wherein the sleeve is provided with a radial projection for location within a radial recess in a wall of the socket for securing the axial position of the sleeve within the socket.
9. A pipe-fitting according to Claim 8, wherein the radial projection is a flange.
10. A pipe-fitting according to any preceding claim, wherein the said sleeve is provided with a substantially cylindrical portion for location in a region adjacent the said socket mouth in order to define an aperture for receiving the said pipe portion into the said socket.
11. A pipe-fitting according to Claim 10, wherein the said sleeve comprises a camming surface on a radially inner surface thereof, for cooperation with a camming surface provided on a radially outer surface of the said retaining element, for causing the retaining element to contract, upon axial movement thereof, so as to grip a radially outer surface of the said pipe portion.
12. A pipe-fitting according to Claim 11, wherein the camming surface is annular.
13. A pipe-fitting according to Claim 12, wherein the camming surface is connected to the substantially cylindrical portion of the sleeve.
14. A pipe-fitting according to Claim 13, wherein the camming surface and substantially cylindrical portion of the sleeve are defined by a plurality of leaves hinged to the remainder of the sleeve.
15. A pipe-fitting according to Claim 14, comprising four leaves.
16. A pipe fitting according to any of Claims I I to 13, wherein the said sleeve is divided into two portions, the said two portions being assembled together to define the said sleeve during use.

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17. A pipe fitting according to Claim 16, wherein the said two portions are hinged together.
18. A pipe fitting according to Claim 16 or 17, wherein the said sleeve is divided in a plane facing a direction parallel to the axial direction, so as to define the two said portions.
19. A pipe fitting according to Claim 16 or 17, wherein the said sleeve is divided in a plane facing a direction perpendicular to the said axial direction so as to define said two portions.
20. A pipe-fitting according to any of Claims 10 to 19, further comprising one or more additional said sleeves, the substantially cylindrical portion of the or each sleeve having a respectively different diameter, and the sleeves all being interchangeable.
21. A pipe-fitting according to Claim 20, wherein each sleeve is a different colour.
22. A pipe-fitting substantially as hereinbefore described with reference to Figure 2, or Figures 3 and 4 of the accompanying drawings.
23. A sleeve for a pipe-fitting according to any of Claims 1 to 22.
24. A sleeve for a pipe-f itting substantially as hereinbefore described with reference to Figure 2; or Figures 3 and 4 of the accompanying drawings.