PIPE JOINT

Abstract

A pipe joint for joining pipe sections via a receiving recess at one end of the first pipe section, comprising a first groove formed in an internal wall of the receiving recess and accessible via a transverse insertion passage, a plurality of axially spaced-apart second grooves formed in an external wall of a connection end of the second pipe section, and an elongate flexible anchoring strip comprising a plurality of axially spaced-apart anchoring portions placeable in respective ones of the second grooves, wherein, once the first and plurality of second grooves have been brought into alignment upon insertion of the connection end of the second pipe section into the receiving recess, the anchoring strip is inserted from outside the first pipe section into the first groove and plurality of second grooves so as to be seated therein, thereby uniting and axially locking together the first and second pipe sections.

Claims

1. A pipe joint for joining a first conduit section to a second conduit section, the first conduit section having at least one first connection end comprising a wall defining a receiving recess for receiving a second connection end of the second conduit section, wherein the joint comprises: at least one first groove or channel formed in one of an internal surface of the wall of the receiving recess of the first conduit section or an external surface of the second connection end of the second conduit section; a plurality of second grooves or channels formed in the other of the internal surface of the wall of the receiving recess of the first conduit section or the external surface of the second connection end of the second conduit section, the plurality of second grooves or channels each being axially spaced apart from one another, the or each first groove or channel and the plurality of second grooves or channels being accessible from the outside of at least the first conduit section; and an elongate flexible anchoring element comprising a plurality of anchoring portions axially spaced apart from one another and joined by a bridging portion therebetween, the anchoring and bridging portions being configured such that each anchoring portion is placeable in a respective one of the said second grooves or channels, wherein the elongate flexible anchoring element is inserted into the at least one first groove or channel and the plurality of second grooves or channels so as to be seated in and between both the said at least one first groove or channel and the plurality of second grooves or channels when they have been brought into register or alignment upon insertion of the second connection end of the second conduit section into the receiving recess of the first conduit section, whereby upon said insertion and seating of the anchoring element into and between the in-register or aligned at least one first groove or channel and the plurality of second grooves or channels, with the anchoring portions of the anchoring element seated in the said second grooves or channels, the first and second conduit sections are united so as to be axially substantially immovable relative to each other.

2. A pipe joint according to claim 1, wherein the anchoring element is in the form of a strip comprising the plurality of anchoring portions transversely spaced apart across the strip, with the bridging portion disposed between them.

3. A pipe joint according to claim 2, wherein the anchoring element comprises two anchoring portions, one formed or provided on or towards one lateral side of the strip and the other formed or provided on or towards the opposite lateral side of the strip, with the bridging portion forming a central bridging body portion of the strip formed or provided between the pair of anchoring portions.

4. A pipe joint according to claim 2 or claim 3, wherein each of the anchoring portions of the strip is of an enlarged thickness as compared with the thickness of the bridging portion therebetween.

5. A pipe joint according to claim 4, wherein each anchoring portion is substantially part-circular or part-elliptical or otherwise arcuate or part-arcuate or rounded in cross-section.

6. A pipe joint according to claim 4 or claim 5, wherein either: (i) a fattening or forming of a lobe-shape of each anchoring portion extends or protrudes to both sides of a transverse plane passing through or parallel to a general plane of the bridging portion forming the central body of the strip, or (ii) said fattening or forming of a lobe-shape extends to one side only of the said plane.

7. A pipe joint according to any preceding claim, wherein the bridging portion is substantially flat, optionally with a generally substantially rectangular cross-section.

8. A pipe joint according to any preceding claim, wherein the bridging portion has a sufficient shape, cross-sectional area and structural integrity to enable it to transmit or transfer loading force, especially at least loading force directed transversely across the anchoring element in a direction from one anchoring portion to another anchoring portion, between those said anchoring portions, whereby the bridging portion can act to spread or distribute such loading force between the plurality of anchoring portions of the anchoring element, thereby reducing the amount of such loading force experienced by any one anchoring portion alone.

9. A pipe joint according to any preceding claim, wherein the anchoring element is formed as a unitary element by extrusion or moulding of the material from which the strip is formed.

10. A pipe joint according to any preceding claim, wherein a single elongate flexible anchoring element is provided for insertion into and seating in a void created by and between a single first groove or channel in combination with a pair of second grooves or channels, wherein the anchoring element is constructed, shaped and/or configured with a pair of the said anchoring portions axially spaced apart relative to the longitudinal axes of the conduit sections and/or transversely spaced apart across the width of the anchoring element itself, to permit the said seating and anchoring in and/or between those said first and second grooves or channels.

11. A pipe joint according to any one of claims 1 to 10, wherein the combination of a said first and a said plurality of second grooves or channels lies or is oriented substantially radially relative to the conduit sections, such that the aligned grooves/channels are together oriented so as to lie substantially in a single plane perpendicular or normal to the longitudinal axial direction of the conduit sections.

12. A pipe joint according to any one of claims 1 to 10, wherein the combination of a said first and a said plurality of second grooves or channels lies or is oriented so as to lie substantially in a single plane angled at a non-right angle to the longitudinal axial direction of the conduit sections.

13. A pipe joint according to any one of claims 1 to 10, wherein the combination of a said first and a said plurality of second grooves or channels is spatially arranged so as to lie helically around the axis of the conduit sections, wherein the said helical path extends by at least one revolution around the axis of the conduits sections, optionally a plurality of revolutions therearound.

14. A pipe joint according to any one of claims 1 to 9, wherein a single elongate flexible anchoring element is provided for insertion into and seating in a void created by and between at least two first grooves or channels each in combination with a respective one of a plurality of pairs of second grooves or channels, wherein the anchoring element is constructed, shaped and/or configured with a respective one of a plurality of pairs of said anchoring portions axially spaced apart relative to the longitudinal axes of the conduit sections and/or transversely spaced apart across the width of the anchoring element itself, to permit the said seating and anchoring in and/or between those said first and second grooves or channels.

15. A pipe joint according to claim 14, wherein each respective combination of a first and a pair of second grooves or channels lies in substantially a single respective plane, and the respective planes of different ones of the said combinations of first and second grooves or channels are either substantially parallel to each other or substantially non-parallel relative to each other.

16. A pipe joint according to any preceding claim, wherein the or each first groove or channel and each of the second grooves or channels in the internal surface of the wall of the receiving recess of the first conduit section and the external surface of the second connection end of the second conduit section, respectively as the case may be, are either (i) of the same or substantially the same shape or configuration, or (ii) of a different shape or configuration from one another.

17. A pipe joint according to claim 16, wherein the or each first groove/channel is of a first cross-sectional shape configured to substantially match a radially outer section or portion of the anchoring element, and each of the second grooves/channels is of a second cross-sectional shape configured to substantially match a radially inner section or portion of the anchoring element, especially at least the radially inner sections or portions of the respective anchoring portions of the anchoring element.

18. A pipe joint according to claim 16 or claim 17, wherein the exterior cross-sectional shape or configuration of the elongate flexible anchoring element is shaped so as to substantially match the interior cross-sectional shape or configuration of the or the respective combination of first and the plurality of second grooves or channels when they are brought into register or alignment upon the insertion of the second connection end of the second conduit section into the receiving recess of the first conduit section.

19. A pipe joint according to any of claims 16 to 18, wherein the or each first groove/channel is of a first shape/configuration and/or depth for accommodating a correspondingly shaped/configured first, optionally outer, radial portion of the anchoring element, and each of the second grooves/channels is of a second shape/configuration and/or depth for accommodating a correspondingly shaped/configured second, optionally inner, radial portion of each respective one of the anchoring portions of the anchoring element, wherein the said first and second shapes/configurations are different form each other.

20. A pipe joint according to claim 19, wherein the said first shape/configuration is a substantially rectangular cross-section, in which the radial bed of the first groove/channel is substantially cylindrical and lies substantially parallel to the longitudinal axis of the first conduit section, optionally with the opposite lateral sides of the first groove/channel oriented substantially perpendicular to the said longitudinal axial direction.

21. A pipe joint according to claim 19 or claim 20, wherein the said second shape/configuration is a substantially non-rectangular cross-section comprising one or a plurality of part-circular-, part-elliptical-, arcuate-, rounded, or regularly- or irregularly-cross-sectioned second groove/channel portions.

22. A pipe joint according to any one of claims 19 to 21, wherein the exterior shape or configuration of the elongate flexible anchoring element is shaped or configured into respective first and second radial anchoring portions which substantially match or fit within the respective radial portions of the respective first and second grooves/channels into which they are to be seated when the joint is formed.

23. A pipe joint according to any preceding claim, wherein the elongate flexible anchoring element is made of a flexible material selected from a metal or metal alloy or a plastics material, wherein optionally the plastics material is selected from nylon or polyethylene.

24. A pipe joint according to any preceding claim, wherein the material of the anchoring element has a degree of flexibility which is at least as great as the degree of flexibility of the material from which the conduit sections themselves are formed.

25. A pipe joint according to any preceding claim, wherein the material of the anchoring element is sufficiently flexible to enable the anchoring element to be insertable into the or the respective first groove or channel and plurality of second grooves or channels from the outside of at least the first conduit section.

26. A pipe joint according to claim 25, wherein the material of the anchoring element has a degree of inherent resilience or resilient softness such that it acts as a seal against a surface of the respective first and/or second grooves or channels against which it abuts when in its seated position therein.

27. A pipe joint according to any preceding claim, wherein the anchoring element is elongate and in the form of a linear, flattened strip with a length at least sufficient for it to be insertable into at least a major proportion of the linear length of the respective first and second grooves or channels.

28. A pipe joint according to claim 27, wherein the said major proportion of the linear length of the first and second grooves or channels is substantially the whole of that linear length of the first and second grooves or channels.

29. A pipe joint according to any preceding claim, wherein the anchoring element has a radial dimension at any given axial location therealong which is at least equal to the combined radial dimensions of the aligned respective first and second grooves or channels, or in the case of the bridging portion of the anchoring element at least the combined radial dimensions of the aligned first groove/channel and a portion of the second (or first, if provided the other way round) conduit section wall between respective ones of the second grooves/channels, into and/or between which the anchoring element is to be seated, at that axial location.

30. A pipe joint according to claim 29, wherein the radial dimension of the anchoring element (corresponding to the thickness of the strip forming the anchoring element) is, at any of two or more selected axial locations therealong, greater than the corresponding radial dimension of the respective first groove or channel, whereby those selected axial locations correspond to and form enlarged or lobe-like said anchoring portions of the anchoring element which fit snugly within the respective second grooves or channels aligned therewith when the anchoring strip is inserted into the respective first and second grooves or channels from the outside of the first conduit section.

31. A pipe joint according to claim 29 or claim 30, wherein the radial dimension of the anchoring element, at any given axial location therealong, is greater than the combined radial dimensions of the aligned first and second grooves or channels or the space between the first groove or channel and the portion of the second (or first, if provided the other way round) conduit outer wall between the respective second grooves or channels, as the case may be.

32. A pipe joint according to any preceding claim, further comprising at least one secondary seal element or member between a portion of the receiving recess of the first conduit section and a portion of the second conduit section.

33. A pipe joint according to claim 32, wherein the said secondary seal element or member is provided or mounted in its own dedicated secondary sealing groove, channel or recess formed in one or other or both of a portion of the inner surface of the receiving recess of the first conduit section and a portion of the outer surface of the second conduit section, wherein optionally the said secondary sealing groove, channel or recess is axially spaced from or adjacent the respective first and second grooves or channels which form the pipe joint itself.

34. A pipe joint according to any preceding claim, wherein the receiving recess of the first conduit section is provided internally with an end-abutment seating and sealing element, device or arrangement, against which a terminal end of the connection end of the second conduit section can abut and seal once it has been inserted into the recess for forming the joint.

35. A pipe joint according to any preceding claim, wherein the insertion of the anchoring element into the respective first and second grooves or channels is via an insertion channel or passage which communicates between at least the first groove or channel, and optionally also the second grooves or channels, and the outside of at least the first conduit section.

36. A pipe joint according to claim 35, wherein the said insertion channel or passage is oriented non-radially relative to the cross-section of the first conduit section.

37. A pipe joint according to claim 35 or claim 36, wherein the said insertion channel or passage merges smoothly into or with the respective first and second grooves or channels so that the anchoring element can pass smoothly from the former into the latter during its insertion operation.

38. A pipe joint according to any preceding claim, wherein, for enhancing the ease of insertion of the anchoring element in the respective first and second grooves or channels, the anchoring element is provided with a terminal end portion comprising a handle, hook or other engagement or manipulation device, so that it can be grasped and manipulated manually or alternatively by use of a tool.

39. A pipe joint according to claim 38, wherein the terminal end portion of the anchoring element is seatable and/or engageable and/or sealable in a or a respective parking recess, channel or engagement device formed or provided in or on the exterior of the first conduit section.

40. A pipe joint according to any preceding claim, wherein a lubricant material is applied to the anchoring element to facilitate the sliding insertion or extraction thereof into and/or from the respective first and second grooves or channels.

41. An elongate flexible anchoring element for use in forming a pipe joint, the anchoring element comprising a plurality of anchoring portions transversely spaced apart from one another across the element and joined by a bridging portion.

42. An anchoring element according to claim 41, which is an anchoring element as defined in any one of claims 1 to 40 for use in forming the pipe joint of said respective claim.

43. A kit of parts for forming a joint between a first conduit section and a second conduit section, wherein the said kit comprises: the said first conduit section and the said second conduit section, wherein the first conduit section has at least one first connection end comprising a wall defining a receiving recess for receiving a second connection end of the second conduit section, and wherein one of an internal surface of the wall of the receiving recess of the first conduit section or an external surface of the second connection end of the second conduit section has formed therein at least one first groove or channel, and the other of the internal surface of the wall of the receiving recess of the first conduit section or the external surface of the second connection end of the second conduit section having formed therein a plurality of second grooves or channels, the plurality of second grooves or channels each being axially spaced apart from one another, and the or each first groove or channel and the plurality of second grooves or channels being accessible from the outside of at least the first conduit section; and an elongate flexible anchoring element insertable into the at least one first groove or channel and the plurality of second grooves or channels so as to be seatable in and between both the said at least one first groove or channel and the plurality of second grooves or channels when they have been brought into register or alignment upon insertion of the second connection end of the second conduit section into the receiving recess of the first conduit section, whereby upon said insertion and seating of the anchoring element into and between the in-register or aligned at least one first groove or channel and the plurality of second grooves or channels, with the anchoring portions of the anchoring element seated in the said second grooves or channels, the first and second conduit sections are unitable so as to be axially substantially immovable relative to each other.

44. A method of joining together at least two conduit sections of a pipe, pipeline or other conduit, wherein the conduit sections comprise a first conduit section having at least one first connection end comprising a wall defining a receiving recess for receiving a second connection end of a second conduit section, there being formed in one of an internal surface of the wall of the receiving recess of the first conduit section or an external surface of the second connection end of the second conduit section at least one first groove or channel, and there being formed in the other of the internal surface of the wall of the receiving recess of the first conduit section or the external surface of the second connection end of the second conduit section a plurality of second grooves or channels, the plurality of second grooves or channels being axially spaced apart from one another, and the or each first groove or channel and the plurality of second grooves or channels being accessible from the outside of at least the first conduit section; wherein the method comprises: providing at least one elongate flexible anchoring element comprising a plurality of anchoring portions axially spaced apart from one another and joined by a bridging portion therebetween, the anchoring and bridging portions being configured such that each anchoring portion is placeable in a respective one of the said second grooves or channels; inserting the second connection end of the second conduit section into the receiving recess of the first conduit section such as to bring into register or alignment the at least one first groove or channel and the plurality of second grooves or channels; and inserting the said elongate flexible anchoring element into the at least one first groove or channel and the plurality of second grooves or channels so as to be seated in and between both the said at least one first groove or channel and the plurality of second grooves or channels; whereby following said insertion and seating of the anchoring element into and between the in-register or aligned at least one first groove or channel and the plurality of second grooves or channels, with the anchoring portions of the anchoring element seated in the said second grooves or channels, the first and second conduit sections are united so as to be axially substantially immovable relative to each other.

45. A method according to claim 44, wherein the method comprises the additional step of: forming in the internal surface of the wall of the receiving recess of the first conduit section and the external surface of the second connection end of the second conduit section the said at least one first groove or channel accessible from the outside of the first conduit section and/or the said plurality of second grooves or channels, respectively as the case may be.

46. A method according to claim 44 or claim 45, as dependent through any one of claim 35, 36 or 37, wherein the method comprises the additional step of: forming the said insertion channel or passage which communicates between the first and second grooves or channels and the outside of, especially an exterior surface of, the first conduit section.

47. A pipe or pipeline formed from a plurality of conduit sections, wherein adjacent conduit sections are joined together using a pipe joint according to any one of claims 1 to 40 or by a jointing method according to any one of claims 44 to 46.

48. A pipe joint, or a kit of parts for forming a joint between a first conduit section and a second conduit section, or an elongate flexible anchoring element for forming a pipe joint, or a method of joining together at least two conduit sections of a pipe, pipeline or other conduit, or a pipe or pipeline, substantially as described herein with reference to the accompanying drawings.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0068] One or more embodiments of the invention in its various aspects will now be described, by way of example only, with reference to the accompanying drawings, in which:

[0069] FIG. 1 is a longitudinal cross-sectional view of a pipe joint according to one example embodiment of the invention, shown forming a joint between a first (outer) conduit or pipe section and a second (inner) conduit or pipe section;

[0070] FIG. 2 is a longitudinal cross-sectional view of the first, i.e. outer, conduit or pipe section alone, showing more clearly the arrangement and configuration of the various internal grooves or channels therein;

[0071] FIG. 3 is an enlarged sectional view of the elongate anchoring element itself which is used to anchor the joint of FIG. 1; and

[0072] FIG. 4 is an end-on, part-sectional view of the joint of FIG. 1 along arrows IV-IV therein.

DETAILED DESCRIPTION OF EMBODIMENTS

[0073] Referring firstly to FIG. 1, the pipe (or conduit) joint shown generally as 1 is formed between a first, or female, conduit or pipe section 10 and a second, or male, conduit or pipe section 20 of smaller diameter than the first section 10. The walls 14 of a connection end of the first conduit section 10 form and define a receiving recess 12 for receiving therein a connection end of the second conduit section 20. The joint 1 is formed once the connection end of the second conduit section has been inserted into the receiving recess 12 of the connection end of the first conduit section 10. The pipe (or conduit) sections 10, 20 are formed e.g. of a plastics material, or alternatively of a metal or metal alloy, depending for example on the practical application of the pipe (or conduit) and, in particular, the material to be conveyed by it.

[0074] In a typical example the pipe or conduit sections form part of a pipe or pipeline for conveying liquid or gaseous fluids, such as oil or gas, or even water, sewage or other flowable material. The pipe or pipeline diameter may be of any suitable or desired size, e.g. depending on the industrial application and the material to be conveyed by it. By way of example, a general pipe or pipeline diameter of the order of approximately 1 to 1.5 metres may be typical for e.g. long-distance oil or gas pipelines. The sizing of the components forming the joint 1 may be scaled up or down as appropriate to the size and scale of the pipe or pipeline whose pipe or conduit sections 10, 20 are to be joined.

[0075] In FIGS. 1 and 2 the arrangement is illustrated with the first (female) conduit section 10 having two opposite connection ends, with each end being formed with the same arrangement of internal grooves or channels for forming at each such end a respective joint to an adjacent or sequential second conduit section along the pipeline. The first (female) conduit section 10 may of course be of any suitable longitudinal length, although it is shown here in compacted or truncated form for ease of explanation of the construction and configuration of the joint of the embodiment. However, for clarity, the arrangement of internal grooves or channels in the left-hand connection end of the first (female) conduit section 10 into which is shown fitting the connection end of the second (male) conduit section 20 is described by use of reference numerals applied to the corresponding features at the opposite, right-hand connection end of the first (female) conduit section 10 where the same form of joint 1 may be formed with a like second (male) conduit section 20.

[0076] The joint 1 is formed by the interaction or cooperation between respective first 60 and a pair of second 62 grooves or channels formed, respectively, in the first and the second conduit sections 10, 20, and an elongate flexible anchoring element 50 inserted therein from the outside of the conduit sections 10, 20. The flexible anchoring element 50 takes the form of an extruded somewhat flattened strip of plastics material, e.g. a polymeric material such as a nylon, polyethylene, polypropylene or other tough yet flexible, or resiliently flexible, material. Optionally the anchoring strip 50 may be coated with a low-friction material or lubricant, e.g. Teflon O. An inherent degree of resilience or resilient softness of the plastics material of the anchoring strip 50 may serve to introduce a sealing function to the strip in addition to its primary anchoring and joint-forming functionality.

[0077] The first groove or channel 60 is formed in the interior surface of the wall of the receiving recess 12 of the first pipe section 10, such as by a post-production cutting or machining operation using any suitable conventional machine or equipment. The first groove or channel 60 is shown here as being of rectangular cross-section, so as to form a rectangular recessed internal groove extending circumferentially all the way round the internal wall of the first pipe section 10.

[0078] To provide access to the first groove or channel 60 from the outside of the first pipe section 10 an access insertion passage or channel 70 is formed generally transversely, e.g. chordally or even tangentially, through the material of the wall 14 of the first pipe section 10 so as to link and provide communication between the first groove or channel 60 and the outside. Where the insertion passage or channel 70 meets the first groove or channel 60 the junction is preferably of the nature of a smooth merging between the two, so as to facilitate the passage of the forward terminal end of the anchoring strip 50 into the latter from the former with a continuous motion or pushing force.

[0079] The insertion passage or channel 70 has a cross-sectional shape which substantially matches that of the anchoring strip 50, so it may be readily inserted therein and passed therethrough by simple pushing. The configuration of the insertion passage or channel 70 is shown more clearly in FIG. 4.

[0080] The pair of second grooves or channels 62 is formed in the exterior surface of the connection end of the second pipe section 20, again by a conventional cutting or machining process.

[0081] The pair of second grooves or channels 62 is configured as the combination of a pair of discrete, axially spaced apart, part-circular-sectioned groove or channel portions extending circumferentially around the second pipe section connection end. The pair of discrete, axially spaced apart, part-circular-sectioned groove or channel portions 62 may or may not themselves be joined by a flat central bridging groove or channel portion, depending for example on the radial thickness of the central bridging portion 56 (see FIG. 3) of the anchoring strip 50 to be accommodated in the void created by and between the combined first and second grooves or channels 60, 62 once they have been brought into register or alignment upon the insertion of the connection end of the second pipe section 20 into the receiving recess 12 of the first pipe section 10.

[0082] As shown in FIG. 3, the anchoring strip 50 is formed with an overall shape which substantially matches the shape of the combined first and second grooves or channels 60, 62 once they have been brought into register or alignment upon the insertion of the connection end of the second pipe section 20 into the receiving recess 12 of the first pipe section 10. For this purpose the anchoring strip 50 comprises a generally rectangular central bridging portion 56, configured at its radially outer side for seating within the correspondingly shaped recessed first groove or channel 60, and a pair of axially spaced apart radially inner lobe-like anchoring portions 52, 54, configured for seating within the respective correspondingly shaped part-circular-sectioned groove or channel portions 62 forming the pair of second grooves or channels.

[0083] The material of the anchoring strip 50 is sufficiently rigid or stiff to enable it to transmit loading forces through itself, and in particular across its transverse width between the two lobe-like anchoring portions 52, 54. This serves to enable such axial loading forceswhich typically occur during use of the pipe joint, especially when pumping fluids at high pressures and/or in a pulsating mannerto be spread more evenly between the lobe-like anchoring portions 52, 54, and indeed to be transmitted or transferred between the lobe-like anchoring portions 52, 54 as such loading forces are applied or experienced. This is important in the case of typically relatively large manufacturing tolerances encountered in the axial positioning of the respective second grooves or channels 62, and possibly also the first groove or channel 60. In practice this is often manifested by inaccuracies in the transverse (left-to-right across the width of the strip 50 as shown in FIG. 3) spacing of the centres of the lobes 52, 54, and often variations in that spacing around the circumference of a given pipe section and/or variations in such spacing as between different connection ends of different pipe sections, making it difficult to deploy like components of a single given design in multiple scenarios in forming joints between different pipe sections. In such circumstances it is difficult to spread such axial loading forces evenly between the two lobe-like anchoring portions 52, 54 without one or other thereof still bearing substantially maximum load over at least part of any loading period or cycle. However, by employment of the interconnected lobe-like anchoring portions 52, 54 joined by the load/force-transmitting or load/force-transferring bridging portion 56, this problem can be ameliorated or may even be substantially circumvented and such loading forces spread more evenly between the individual functional components of the joint-forming arrangement. This therefore may lead to reduced wear on the first and second grooves or channels 60, 62, as well as on the anchoring strip 50 itself, leading to improved life, efficiency and economy of deployment and maintenance of the joint.

[0084] In order to further enhance the sealing between the first and second pipe sections 10, 20 as or once the joint is formed, a secondary seal 80 may be provided, which in this illustrated example is in the form of an elastomeric or resilient lip sealing member or piston-ring-type seal 80 located in its own dedicated secondary sealing groove or channel 82 formed, e.g. again by cutting, in the interior wall of the receiving recess 12 of the first pipe section 10.

[0085] In order to form the pipe joint 1, the following sequence of steps are performed: [0086] (1) insert the (male) connection end of the second pipe section 20 into the (female) receiving recess 12 of the first pipe section 10; [0087] (2) slide the (male) connection end of the second pipe section 20 along and within the (female) receiving recess 12 of the first pipe section 10 far enough to bring into register or alignment the radially outer first groove or channel 60 and the pair of arcuate part-circular-sectioned second groove or channel portions 62 of the radially inner second grooves or channels 62, thereby forming or defining a void by and between the combined aligned radially outer 60 and radially inner 62 grooves or channels; [0088] (3) insert the elongate, flexible anchoring strip 50 into the transverse insertion passage or channel 70 and from there onward and into the first groove or channel 60 and second grooves or channels 60, 62 so that it becomes seated and accommodated within the void formed by and between the combined aligned outer and inner first and second grooves or channels 60, 62; [0089] (4) in which final configurationfollowing the insertion and seating of the anchoring strip 50 into the combined aligned outer and inner first and second grooves or channels 60, 62the first and second pipe sections 10, 20 are united so as to be axially substantially immovable relative to each other and thus securely joined together.

[0090] As or when it may be necessary, e.g. for maintenance or repair of either pipe section 10, 20, or even replacement of any component(s) of the joint 1, or possibly even for dismantling of the joint 1 for re-assembly elsewhere or entire moving of the pipeline, disassembly or disconnection of the joint 1 may be carried out simply and without damage to either pipe section 10, 20 or components of the joint by reversing the above sequence of steps, that is to say: [0091] (5) starting from the condition in which the first and second pipe sections 10, 20 are united so as to be axially substantially immovable relative to each other and thus securely joined together following insertion and seating of the anchoring strip 50 into the void formed by and between the combined aligned outer and inner first and second grooves or channels 60, 62: slidably remove or extracte.g. by simple pulling of its free outer end, either manually or by use of a toolthe flexible anchoring strip 50 from the first and second grooves or channels 60, 62 via the transverse insertion passage or channel 70, and from there completely remove it to the outside of the pipe sections 10, 20; [0092] (6) with the pipe sections 10, 20 now no longer fixedly united together in the axial direction and therefore free to slide axially relative to one another: slide the (male) connection end of the second pipe section 20 in the reverse axial direction along and within the (female) receiving recess 12 of the first pipe section 10 far enough to remove the (male) connection end of the second pipe section 20 from the (female) receiving recess 12 of the first pipe section 10, in which final condition the two pipe sections 10, 20 are now detached from one another and can be removed separately for whatever onward treatment, attention or use is required.

[0093] Throughout the description and claims of this specification, the words comprise and contain and linguistic variations of those words, for example comprising and comprises, mean including but not limited to, and are not intended to (and do not) exclude other moieties, additives, components, integers or steps.

[0094] Throughout the description and claims of this specification, the singular encompasses the plural unless the context otherwise requires. In particular, where the indefinite article is used, the specification is to be understood as contemplating plurality as well as singularity, unless the context requires otherwise.

[0095] Features, integers, characteristics, compounds, chemical moieties or groups described in conjunction with a particular aspect, embodiment or example of the invention are to be understood to be applicable to any other aspect, embodiment or example described herein unless incompatible therewith.