Enhanced Stability Gasket and Coupling

Abstract

A coupling for joining pipe elements has cast segments attached end to end surrounding a central space. The segments define a channel that receives a gasket. Side surfaces within the channel have angularly oriented capture surfaces which are engaged by bulbous rims on the gasket which prevent the gasket from being dislodged from the channel when at least one pipe element is inserted into the central space. Side surfaces may also have support surfaces between the capture surfaces. The gasket supports the segments in a preassembled state wherein the segments are in spaced relation sufficient to permit insertion of one or more pipe elements while the segments are attached end to end.

Claims

1. A coupling for joining pipe elements, said coupling comprising: a plurality of segments attached to one another end to end surrounding a central space for receiving said pipe elements, each said segment comprising a casting having: a back wall; first and second sidewalls attached to said back wall on opposite sides thereof, said back wall and said sidewalls defining a channel, said back wall defining a back surface facing said central space, said sidewalls defining respective first and second side surfaces facing said channel, each said side surface comprising: a capture surface adjacent to said back surface, each said capture surface having an orientation angle of 10° or less measured from a reference line extending radially from a longitudinal axis arranged coaxially with said segments through said central space, and each said segment further comprising first and second adjustable attachment assemblies located at opposite ends of said segments for adjustably attaching said segments to one another in end to end relation.

2. The coupling according to claim 1, wherein each said segment comprises a relief surface contiguous with said capture surface, said relief surface having an orientation angle greater than 5° measured from a reference line extending radially from said longitudinal axis.

3. The coupling according to claim 1, wherein said orientation angle of said capture surfaces ranges from 10° to 1°.

4. The coupling according to claim 1, wherein said orientation angle of said capture surface is 5°.

5. The coupling according to claim 2, wherein said orientation angle of said relief surface ranges from 5° to 10°.

6. The coupling according to claim 1, wherein said capture surface comprises from 50% to 100% of a depth of each of said first and second sidewalls.

7. The coupling according to claim 1, wherein said capture surface comprises 50% of a depth of each of said first and second sidewalls.

8. The coupling according to claim 2, wherein said relief surface comprises from 75% to 0% of a depth of each of said first and second sidewalls.

9. The coupling according to claim 2, wherein said relief surface comprises 50% of a depth of each of said first and second sidewalls.

10. The coupling according to claim 1, comprising at most a first and a second of said segments, wherein said first adjustable attachment assembly on said first segment is in facing relation with said first adjustable attachment assembly on said second segment and said second adjustable attachment assembly on said first segment is in facing relation with said second adjustable attachment assembly on said second segment.

11. The coupling according to claim 10, wherein each said attachment assembly comprises: a respective lug defining an opening; a respective adjustable fastener received within said openings; wherein said fasteners extend between said lugs for adjustably attaching said segments to one another.

12. The coupling according to claim 1, wherein each segment further comprises: a first contact surface positioned adjacent to said first attachment assembly; a second contact surface positioned adjacent to said second attachment assembly, said first contact surface on said first segment being in facing relation with said first contact surface on said second segment, and said second contact surface on said first segment being in facing relation with said second contact surface on said second segment; wherein said first and second contact surfaces are angularly oriented and have opposite slopes such that contact between said first and second contact surfaces causes said segments to rotate in opposite directions to one another about a rotation axis perpendicular to said longitudinal axis.

13. The coupling according to claim 1, further comprising a gasket, said gasket comprising: a web forming a circular loop received within said channel; a first bulbous rim extending circumferentially around a first side of said web, said first bulbous rim projecting toward said back wall and said first sidewall; a second bulbous rim extending circumferentially around a second side of said web opposite to said first side, said second bulbous rim projecting toward said back wall and said second sidewall; a first lobe attached to said first side of said web, said first lobe extending circumferentially around said loop and projecting toward said central space, said first lobe defining a first sealing surface at a free end thereof, said first sealing surface being engageable with one of said pipe elements received within said central space; a second lobe attached to said second side of said web, said second lobe extending circumferentially around said loop and projecting toward said central space, said second lobe defining a second sealing surface at a free end thereof, said second sealing surface being engageable with one of said pipe elements received within said central space; wherein said first bulbous rim engages said capture surface on said first side surface and said second bulbous rim engages said capture surface on said second side surface thereby supporting said segments in a factory preassembled state such that said segments are supported in spaced relation from one another sufficient to permit insertion of said pipe elements into said central space while said segments are attached to one another end to end surrounding said central space.

14. The coupling according to claim 13, further comprising a leg positioned between said first and second lobes, said leg projecting from said web toward said central space.

15. The coupling according to claim 14, wherein said leg further comprises a plurality of discrete tabs positioned on an inner perimeter of said leg and projecting toward said central space, said tabs being arranged in spaced relation from one another along said inner perimeter.

16. The coupling according to claim 15, wherein said tabs have a curved profile.

17. The coupling according to claim 13, wherein said web has a perimetral surface facing away from said central space, said perimetral surface being concave.

18. The coupling according to claim 13, further comprising first and second glands extending respectively from said first and second lobes.

19. The coupling according to claim 13, wherein said first and second bulbous rims extend continuously about said first and second sides of said web respectively.

20. The coupling according to claim 1, wherein each said capture surface comprises a first and a second portion, said first capture surface portions being positioned proximate to said first adjustable attachment assembly, said second capture surface portions being positioned proximate to said second adjustable attachment assembly.

21. The coupling according to claim 20, wherein said first capture surface portion subtends an angle ranging from 25° to 45° and said second capture surface portion subtends an angle ranging from 25° to 45° measured about said longitudinal axis.

22. The coupling according to claim 20, wherein each said first and second side surface further comprises respective first and second support surfaces adjacent to said back surface, said first support surface being positioned between said first and second capture surface portions on said first side surface, said second support surface being positioned between said first and second capture surface portions on said second side surface, said first support surface having an orientation angle different from said orientation angles of said first and second capture surface portions on said first side surface, said second support surface having an orientation angle different from said orientation angles of said first and second capture surface portions on said second side surface.

23. The coupling according to claim 22, wherein said first and second support surfaces each have an orientation angle ranging from 15° to 30° measured from respective first and second reference lines extending radially from said longitudinal axis.

24. The coupling according to claim 23, wherein said first support surface subtends an angle ranging from 90° to 110° measured about said longitudinal axis and said second support surface subtends an angle ranging from 90° to 110° measured about said longitudinal axis.

25. The coupling according to claim 1, wherein: each said capture surface comprises a first and a second portion, said first capture surface portion being positioned proximate to said first adjustable attachment assembly, said second capture surface portion being positioned proximate to said second adjustable attachment assembly; and wherein each said first and second side surfaces further comprise respective first and second support surfaces adjacent to said back surface, said first support surface being positioned between said first and second capture surface portions on said first side surface, said second support surface being positioned between said first and second capture surface portions on said second side surface, said first support surface having an orientation angle different from said orientation angles of said first and second capture surface portions on said first side surface, said second support surface having an orientation angle different from said orientation angles of said first and second capture surface potions on said second side surface.

26. The coupling according to claim 25, further comprising a gasket, said gasket comprising: a web forming a circular loop received within said channel; a first bulbous rim extending circumferentially around a first side of said web, said first bulbous rim projecting toward said back wall and said first sidewall; a second bulbous rim extending circumferentially around a second side of said web opposite to said first side, said second bulbous rim projecting toward said back wall and said second sidewall; a first lobe attached to said first side of said web, said first lobe extending circumferentially around said loop and projecting toward said central space, said first lobe defining a first sealing surface at a free end thereof, said first sealing surface being engageable with one of said pipe elements received within said central space; a second lobe attached to said second side of said web, said second lobe extending circumferentially around said loop and projecting toward said central space, said second lobe defining a second sealing surface at a free end thereof, said second sealing surface being engageable with one of said pipe elements received within said central space.

27. The coupling according to claim 26, wherein, when said coupling is in a factory preassembled state: said web and said first and second bulbous rims engage said back surfaces of said segments along said first and second capture surface portions; and said first lobe and said first bulbous rim engages said first support surface and said second lobe and said second bulbous rim engages said second support surface; wherein engagement between said gasket and said segments supports said segments in said factory preassembled state such that said segments are maintained in spaced relation from one another sufficient to permit insertion of said pipe elements into said central space while said segments are attached to one another end to end surrounding said central space.

28. The coupling according to claim 25, wherein said first and second support surfaces each have an orientation angle ranging from 15° to 30° measured from respective first and second reference lines extending radially from said longitudinal axis.

29. The coupling according to claim 25, wherein said first capture surface portion subtends an angle ranging from 25° to 45° and said second capture surface portion subtends an angle ranging from 25° to 45° measured about said longitudinal axis.

30. The coupling according to claim 25, wherein said first support surface subtends an angle ranging from 90° to 110° measured about said longitudinal axis and said second support surface subtends an angle ranging from 90° to 110° measured about said longitudinal axis.

31. A gasket, said gasket comprising: a web forming a circular loop surrounding a central space; a first bulbous rim extending circumferentially around a first side of said web, said first bulbous rim projecting both radially and axially with respect to an axis arranged coaxially with said circular loop; a second bulbous rim extending circumferentially around a second side of said web opposite to said first side, said second bulbous rim projecting both radially and axially with respect to said axis; a first lobe attached to said first side of said web, said first lobe extending circumferentially around said loop and projecting toward said central space, said first lobe defining a first sealing surface at a free end thereof; a second lobe attached to said second side of said web, said second lobe extending circumferentially around said loop and projecting toward said central space, said second lobe defining a second sealing surface at a free end thereof.

32. The gasket according to claim 31, further comprising a leg positioned between said first and second lobes, said leg projecting from said web toward said central space.

33. The gasket according to claim 32, wherein said leg further comprises a plurality of discrete tabs positioned on an inner perimeter of said leg and projecting toward said central space, said tabs being arranged in spaced relation from one another along said inner perimeter.

34. The coupling according to claim 33, wherein said tabs have a curved profile.

35. The gasket according to claim 31, wherein said web has a perimetral surface facing away from said central space, said perimetral surface being concave.

36. The gasket according to claim 31, further comprising first and second glands extending respectively from said first and second lobes.

37. The gasket according to claim 31, wherein said first and second bulbous rims extend continuously about said first and second sides of said web respectively.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] FIG. 1 is a partial cross sectional view of a prior art pipe coupling and gasket;

[0024] FIG. 2 is an axial view of an example pipe coupling according to the invention shown in the preassembled state;

[0025] FIG. 3 is an isometric view of an example pipe coupling segment according to the invention;

[0026] FIG. 4 is a cross sectional view of the example segment shown in FIG. 3;

[0027] FIG. 4A is a partial sectional view on an enlarged scale taken from FIG. 4;

[0028] FIG. 5 is an axial view of an example gasket according to the invention;

[0029] FIG. 5A is an isometric view of another example gasket according to the invention;

[0030] FIG. 6 is a cross sectional view of the example gasket shown in FIG. 5 or 5A;

[0031] FIGS. 7 through 9 are cross sectional views showing an example coupling and gasket according to the invention in use;

[0032] FIG. 10 is an axial view showing another example embodiment of a coupling according to the invention;

[0033] FIG. 11 shows a cross sectional view of an example coupling segment taken at a point proximate to an adjustable attachment assembly;

[0034] FIG. 12 shows a cross sectional view of an example coupling segment taken at a point approximately midway between the ends of the segment;

[0035] FIG. 13 shows a cross sectional view of an example coupling segment and gasket taken at a point proximate to an adjustable attachment assembly; and

[0036] FIG. 14 shows a cross sectional view of an example coupling segment and gasket taken at a point approximately midway between the ends of the segment.

DETAILED DESCRIPTION

[0037] FIG. 2 shows an example coupling 10 for joining pipe elements. Coupling 10 comprises a plurality of segments, in this example, first and second segments 12 and 14 attached to one another end to end surrounding a central space 16 for receiving the pipe elements. As shown in FIG. 3, each segment (12 shown) comprises a back wall 18 and first and second sidewalls 20, 22 attached to the back wall on opposite sides thereof. The back wall 18 and the sidewalls 20, 22 define a channel 24, the back wall defining a back surface 26 facing the central space 16. As shown in FIG. 4, sidewalls 20 and 22 define respective first and second side surfaces 28, 30 facing the channel 24. Each side surface 28, 30, comprises a capture surface 32 adjacent to the back surface 26. As shown in FIG. 4A, each capture surface 32 has an orientation angle 34 of 10° or less measured from a reference line 36 extending radially from a longitudinal axis 38 arranged coaxially with the segments 12, 14 through the central space 16. In a practical example embodiment, the orientation angle 34 of the capture surface 32 may range from approximately 10° to approximately 1°. An orientation angle 34 of approximately 5° is expected to be beneficial. As segments 12 and 14 are advantageously cast for economical mass production, the relatively small orientation angle 34 of the capture surface 32 has been shown to provide adequate mold draft while also improving gasket stability during pipe element insertion as described below.

[0038] As shown in FIG. 4, each side surface 28, 30 may also comprise a relief surface 40 contiguous with the capture surface 32. As shown in FIG. 4A, the relief surface 40, when present, advantageously has an orientation angle 42 greater than 5° measured from the reference line 36 extending radially from the longitudinal axis 38. The orientation angle 42 of the relief surface 40 advantageously ranges from approximately 15° to approximately 30° and is coordinated with the orientation angle 34 of the capture surface 32 to provide a “lead in” for ease of coupling assembly as described below.

[0039] As suggested in FIG. 4, the capture and relief surfaces 32 and 40 may occupy a range of portions of the side surfaces 28 and 30, measured as a percentage of the depth 33 of the first and second side walls 20 and 22. In an example embodiment, the capture surface 32 may comprise about 50% of the depth 33 of the side surfaces (shown), to 100% of the depth 33 (no relief surface). It is expected that a capture surface comprising 50% of the side wall depth 33 will be advantageous. The relief surface 40 competes with the capture surface 32 for percentage depth of the side surfaces 28 and 30, and thus the relief surface may comprise from 0% to approximately 75% of the side wall depth 33. In coordination with the capture surface 32, it is expected that a relief surface 40 comprising 50% of the side wall depth 33 will be advantageous.

[0040] As shown in FIGS. 3 and 4, segments 12 and 14 (12 shown) may also comprise first and second arcuate keys 46 and 48 arranged on opposite sides of the segments. Keys 46 and 48 engage circumferential grooves in the pipe elements and provide positive mechanical engagement when forming a joint. As shown in FIGS. 2 and 3, each segment 12, 14 further comprises first and second adjustable attachment assemblies 50 and 52 located at opposite ends of the segments for adjustably attaching the segments to one another in end to end relation about the central space 16. As shown in FIG. 2, the first adjustable attachment assembly 50 on the first segment 12 is in facing relation with the first adjustable attachment assembly 50 on the second segment 14, and, the second adjustable attachment assembly 52 on the first segment 12 is in facing relation with the second adjustable attachment assembly 52 on the second segment 14. In this example embodiment each attachment assembly 50, 52 comprises a respective lug 54 defining an opening 56. As shown in FIG. 2, opening 56 receives a respective adjustable fastener 58, in this example comprising a nut 60 and bolt 62. The fasteners 58 extend between the lugs 54 for adjustably attaching the segments 12, 14 to one another.

[0041] As further shown in FIG. 3, it is advantageous if each segment (12 shown) further comprises a first contact surface 64 positioned adjacent to the first attachment assembly 50, and a second contact surface 66 positioned adjacent to the second attachment assembly 52. As shown in FIG. 2, the first contact surface 64 on the first segment 12 is in facing relation with the first contact surface 64 on the second segment 14, and, the second contact surface 66 on the first segment 12 is in facing relation with the second contact surface 66 on the second segment 14. The first and second contact surfaces 64 and 66 are angularly oriented and have opposite slopes such that contact between the first and second contact surfaces 64, 66, which results when the segments are drawn toward one another, causes the segments 12 and 14 to rotate in opposite directions relative to one another about a rotation axis 68 perpendicular to the longitudinal axis 38 (see FIG. 3). Contact surfaces 64 and 66 are used when it is desired to effect a more ridged joint, as described in U.S. Pat. No. 4,611,839, hereby incorporated by reference herein.

[0042] As shown in FIGS. 2 and 5, the coupling according to the invention may further comprise a gasket 70. In an example embodiment shown in FIG. 5, gasket 70 comprises a web 72 forming a circular loop 74 received within the channel 24 (see FIGS. 3 and 4). As shown in FIG. 6, gasket 70 comprises a first bulbous rim 76 extending circumferentially around a first side of the web 72 and a second bulbous rim 78 extending circumferentially around a second side of the web opposite to the first side. Bulbous rims 76 and 78 advantageously extend continuously about the first and second sides of the web 72. Furthermore, as shown in FIG. 6, each bulbous rim 76 and 78 projects in a radial direction, as defined by arrows 77, and in opposite axial directions, as defined by arrows 79. The directions 77 and 79 are defined with respect to the longitudinal axis 38 arranged coaxially with the segments 12, 14 through the central space 16 as shown in FIGS. 3, 4 and 6. As shown in FIG. 5, axis 38 is also coaxial with the circular loop 74 when the gasket 70 is positioned within the channel 24 (see also FIGS. 2 and 3). As may be determined from FIG. 4, the projection of bulbous rims 76 and 78 in the radial direction 77 may also be described as projecting toward the back wall 18 when the gasket 70 is within the channel 24. Similarly, the projection of bulbous rims 76 and 78 in the axial direction 79 may also be described as projecting toward the first and second sidewalls 20 and 22 when gasket 70 is within the channel 24.

[0043] As shown in FIG. 6, a first lobe 80 is attached to the first side of the web 72. The first lobe 80 extends circumferentially around the loop 74 (see also FIG. 5) and projects toward the central space 16. The first lobe 80 defines a first sealing surface 82 at a free end 84 thereof. The first sealing surface 82 is engageable with one of the pipe elements received within the central space 16 as described below.

[0044] A second lobe 86 is attached to the second side of the web 72. The second lobe 86 extends circumferentially around the loop 74 shown in FIG. 5 and projects toward the central space 16. As shown again with reference to FIG. 6, the second lobe 86 defines a second sealing surface 88 at a free end 90 thereof. Like the first sealing surface 82, the second sealing surface 88 is also engageable with one of the pipe elements received within the central space 16. Sealing of the gasket 70 may be enhanced by the use of first and second glands 92 and 94 extending respectively from the first and second lobes 80 and 86. Glands 92 and 94 permit internal pressure within the central space 16 to act on and pressurize the sealing surfaces 82 and 88 against the pipe elements to effect a higher pressure seal.

[0045] As shown in FIGS. 5 and 6, gasket 70 may further comprise a leg 96 positioned between the first and second lobes 80 and 86. Leg 96 projects from the web 72 toward the central space 16 and acts as a stop surface to ensure that pipe elements inserted into the central space are inserted to the desired depth. As shown in FIG. 5A, leg 96 may further comprise a plurality of discrete tabs 97 positioned on an inner perimeter 99 of the leg. Tabs 97 project toward the central space 16 and are arranged in spaced relation from one another along the inner perimeter 99. Tabs 97 provide positive and reliable registration within the coupling 10 for pipe elements having beveled ends. It is considered advantageous for tabs 97 to have a curved profile. The curved profile tabs 97 minimize the area of engagement between the leg 96 and the pipe element while still providing sufficient engagement for proper pipe element registration with in the coupling 10. Less engagement between the leg 96 and the pipe element results in smaller pressure head loss within the pipe elements at the joint created by the coupling 10 because the entire inner perimeter 99 does not extend into the fluid flow path and create turbulence and resistance to flow. Any intrusion is limited to portions of the tabs 97. As shown in FIG. 6, the web 72 may also have a perimetral surface 98 facing away from the central space 16. In this example embodiment the perimetral surface 98 is concave.

[0046] FIGS. 7, 8 and 9 show a portion of the coupling 10 in the “preassembled state”. In this configuration the segments 12 and 14 (14 shown) are joined together end to end using the attachment assemblies 50 and 52 on each segment (see FIG. 2) but are held in spaced apart relation sufficient to permit pipe elements 100, 102 to be inserted into the central space 16 (see FIGS. 8 and 9). In this example embodiment, gasket 70 is used to support the segments 12 and 14 in the preassembled state (see also FIG. 2). As shown in FIG. 7, the first bulbous rim 76 engages the first capture surface 32 of first side surface 28 and the second bulbous rim 78 engages the capture surface 32 of the second side surface 30 thereby supporting the segments (14 shown) in a preassembled state such that the segments are supported in spaced relation from one another sufficient to permit insertion of the pipe elements into the central space 16 while the segments are attached to one another end to end surrounding the central space (see FIG. 2).

[0047] As shown in FIG. 8, unlike prior art configurations depicted in FIG. 1, dislodgement of the gasket 70 upon insertion of the first pipe element 100 is substantially prevented in the coupling 10 according to the invention because the first and second bulbous rims 76 and 78 engage respective capture surfaces 32 on the first and second sidewalls 20 and 22 of the segments. Contact between the bulbous rims 76 and 78 and the capture surfaces 32, with their angular orientation 34 has been found to act as an anti-rotation feature and thereby inhibit gasket dislodgement upon pipe insertion. The combination gasket 70 and coupling 10 achieve significantly more stability upon pipe element insertion, allowing both pipe elements to be readily inserted into the coupling 10 when in the preassembled state. The respective relief surfaces 40 when present on the sidewall surfaces 20 and 22, with their larger orientation angles act to guide the gasket 70 into the desired engagement to achieve the preassembled state. FIG. 9 shows both pipe elements 100 and 102 inserted into the central space 16, and the segments 12 and 14 (14 shown) drawn together with their keys 46 and 48 engaging circumferential grooves 104 and 106 to provide mechanical engagement. The gasket 70 is compressed between the segments 12, 14 (14 shown) and the pipe elements 100, 102, the sealing surfaces 86 and 88 engaging the pipe elements as a result to effect a fluid tight seal. Deformation of gasket 70 may be accommodated by a cavity 108 which extends along the back wall 18, the concave shape of the web 72 deforming into a convex shape and thereby permitting the leg 96 to retract from between the pipe elements 100, 102 and not intrude into the fluid flow path.

[0048] FIG. 10 shows another example embodiment of a coupling 110 according to the invention and comprising segments 132 and 134. As shown in FIGS. 10 and 11, the capture surfaces 32 of coupling 110 comprise first and second portions 112, 114. The first capture surface portions 112 are positioned proximate to the first adjustable attachment assembly 50, and the second capture surface portions 114 are positioned proximate to the second adjustable attachment assembly 52 (only capture surface portions 112 shown in FIG. 11). In this example embodiment the first capture surface portions 112 subtend an angle 116 extending from the end of coupling segment 132 and ranging from about 25° to about 45° along the arc length of the segment. Similarly, the second capture surface portions 114 subtend an angle 118 extending from the opposite end of segment 132 and ranging from about 25° to about 45° along the arc length of the segment. Subtended angles 116 and 118 are measured about the longitudinal axis 38.

[0049] As shown in FIGS. 10 and 12, the first and second side surfaces 28 and 30 further comprise respective first and second support surfaces 120 and 122. Support surfaces 120 and 122 are positioned adjacent to the segment's back surface 26. As shown in FIG. 10, the first support surface 120 is positioned between the first and second capture surface portions 112 and 114 on the first side surface 28. Similarly, the second support surface 122 is positioned between the first and second capture surface portions on the second side surface 30 (not visible). In this example embodiment, the first support surface 120 subtends an angle 128 ranging from about 90° to about 110° measured about the longitudinal axis 38. Similarly, the second support surface 122 may also subtend an angle ranging from about 90° to about 110° measured about the longitudinal axis 38. As shown in a comparison of FIGS. 11 and 12, the first support surfaces 120, 122 have respective orientation angles 124 and 126 which are different from the orientation angles of the first and second capture surface portions 112, 114 (see, for comparison, FIG. 4A). In this example embodiment the first and second support surfaces 120, 122 each have a respective orientation angle 124, 126 ranging from about 15° to about 30° measured from respective first and second reference lines extending radially from the longitudinal axis 38. Although not expressly described above, segment 134 may also be the same as segment 132.

[0050] FIGS. 13 and 14 are cross sectional views of a segment 132 which illustrate the engagement of the gasket 70 with the capture surface portions (112 shown) and the support surfaces 120 and 122 when the coupling is in the factory preassembled state such that the segments 132, 134 are maintained in spaced relation from one another sufficient to permit insertion of a pipe element or elements into the central space 16 while the segments are attached to one another end to end surrounding the central space 16 as shown in FIG. 10. As shown in FIG. 13, the web 72 and the first and second bulbous rims 76, 78 of gasket 70 engage the back surface 26 of back walls 18 of the segments 132, 134 (132 shown) along the first and second capture surface portions 112 and 114 (112 shown). The section cut of FIG. 13 is taken near the attachment assembly 50 within the arc length of the angle 116 subtended by the capture surface portions 112. Gasket 70 is substantially seated within the segments 132, 134 over these regions of the coupling 110 to prevent dislodgement of the gasket upon pipe element insertion as explained above. FIG. 14 is a section cut taken between the ends of the segments 132 or 134 within the arc length of the angle 128 subtended by the support surfaces 120, 122. In this region the first lobe 80 and the first bulbous rim 76 of the gasket 70 engage the first support surface 120 and the second lobe 86 and the second bulbous rim 78 engage the second support surface 122. It is expected that this engagement of gasket 70 with support surfaces 120 and 122 will maintain the segments 132 and 134 of coupling 110 in spaced apart relation during shipping and handling even when a coupling is compressed by the weight of other couplings also in the shipping container.

[0051] All of the embodiments of the claimed invention described herein are provided expressly by way of example only. Innumerable variations and modifications may be made to the example embodiments described herein without departing from the concept of this disclosure. Additionally, the scope of this disclosure is intended to encompass any and all modifications and combinations of all elements, features, and aspects described in the specification and claims, and shown in the drawings. Any and all such modifications and combinations are intended to be within the scope of this disclosure.