A method of installing a pipe coupling to connect a first pipe element to a second pipe element includes sliding the pipe coupling as a preassembled unit over an outermost surface of the first pipe element, the pipe coupling comprising a coupling segment and an annular gasket, the annular gasket comprising an annular body and a pair of sealing ribs extending substantially radially inward from the annular body, each sealing rib comprising a sealing ridge defining a sealing surface, the sealing surface of each sealing ridge being coannular in an undeformed state; introducing an end of the second pipe element to an end of the first pipe element to place the first pipe element and the second pipe element in end-facing relationship; aligning the pipe coupling over the first pipe element and the second pipe element; and securing the coupling to the first pipe element and the second pipe element.
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1. A method of installing a pipe coupling to connect a first pipe element to a second pipe element, the method comprising:
sliding the pipe coupling as a preassembled unit over an outermost surface of the first pipe element, the pipe coupling comprising a coupling segment and an annular gasket, the annular gasket comprising an annular body and a pair of sealing ribs extending substantially radially inward from the annular body, each sealing rib comprising a sealing ridge defining a sealing surface, the sealing surface of each sealing ridge being coannular in an undeformed state, the sealing surfaces defining a pair of radially innermost surfaces of the annular gasket;
introducing an end of the second pipe element to an end of the first pipe element to place the first pipe element and the second pipe element in end-facing relationship;
aligning the pipe coupling over the first pipe element and the second pipe element; and
securing the coupling to the first pipe element and the second pipe element; and
wherein the sealing surface of each sealing ridge defines a diameter greater than a diameter of the outermost surface of the first pipe element and a diameter of an outermost surface of the second pipe element; and
wherein sliding the pipe coupling as a preassembled unit over the outermost surface of the first pipe element comprises sliding the annular gasket over the outermost surface of the first pipe element without contacting the outermost surface of the first pipe element.
8. A method of installing a pipe coupling to connect a first pipe element to a second pipe element, the method comprising:
sliding the pipe coupling as a preassembled unit over an outermost surface of the first pipe element, the pipe coupling comprising a coupling segment and an annular gasket having an innermost diameter greater than a diameter of the outermost surface of the first pipe element and a diameter of an outermost surface of the second pipe element, the annular gasket comprising an annular body and a pair of sealing ribs extending substantially radially inward from the annular body, each sealing rib comprising a sealing ridge defining a sealing surface, the sealing surfaces defining a pair of radially innermost surfaces of the annular gasket, the annular gasket configured to slide over the diameters of the outermost surface of the first pipe element and the outermost surface of the second pipe element without contacting the outermost surfaces of the first pipe element and the second pipe element in an undeformed state;
introducing an end of the second pipe element to an end of the first pipe element to place the first pipe element and the second pipe element in end-facing relationship;
aligning the pipe coupling over the first pipe element and the second pipe element; and
securing the coupling to the first pipe element and the second pipe element; and,
wherein the sealing surface of each sealing ridge are coannular in the undeformed state; and
wherein each of the first pipe element and the second pipe element includes a flare.
2. The method of
3. The method of
4. The method of
the coupling segment is a first coupling segment;
the pipe coupling further comprises a second coupling segment secured end-to-end with the first coupling segment; and
securing the coupling comprises deforming and deflecting each coupling segment into engagement with each pipe element.
5. The method of
6. The method of
7. The method of
9. The method of
10. The method of
11. The method of
13. The method of
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16. The method of
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This application is a continuation of U.S. application Ser. No. 13/354,470, filed Jan. 20, 2012, which is incorporated herein by reference in its entirety.
This disclosure relates to piping. More specifically, this disclosure relates to pipe coupling.
Pipe elements such as pipes, valves, and meters typically are not made of one piece. Rather, such pipe elements are formed in finite lengths and must be joined. One way of joining such pipe elements is through the use of a coupling member. A sealing gasket is typically disposed in a central space of at least one coupling segment which is thereafter tightened around the pipe elements to be joined.
Disclosed is a method of installing a pipe coupling to connect a first pipe element to a second pipe element comprises sliding the pipe coupling as a preassembled unit over an outermost surface of the first pipe element, the pipe coupling comprising a coupling segment and an annular gasket, the annular gasket comprising an annular body and a pair of sealing ribs extending substantially radially inward from the annular body, each sealing rib comprising a sealing ridge defining a sealing surface, the sealing surface of each sealing ridge being coannular in an undeformed state; introducing an end of the second pipe element to an end of the first pipe element to place the first pipe element and the second pipe element in end-facing relationship; aligning the pipe coupling over the first pipe element and the second pipe element; and securing the coupling to the first pipe element and the second pipe element.
Also disclosed is a method of installing a pipe coupling to connect a first pipe element to a second pipe element comprising sliding the pipe coupling as a preassembled unit over an outermost surface of the first pipe element, the pipe coupling comprising a coupling segment and an annular gasket having an innermost diameter greater than a diameter of the outermost surface of the first pipe element and a diameter of the outermost surface of the second pipe element, the annular gasket comprising an annular body and a pair of sealing ribs extending substantially radially inward from the annular body, each sealing rib comprising a sealing ridge defining a sealing surface, the annular gasket configured to slide over the diameters of the outermost surface of the first pipe element and the outermost surface of the second pipe element without contacting the outermost surfaces of the first pipe element and the second pipe element in an undeformed state; introducing an end of the second pipe element to an end of the first pipe element to place the first pipe element and the second pipe element in end-facing relationship; aligning the pipe coupling over the first pipe element and the second pipe element; and securing the coupling to the first pipe element and the second pipe element.
Various implementations described in the present disclosure may include additional systems, methods, features, and advantages, which may not necessarily be expressly disclosed herein but will be apparent to one of ordinary skill in the art upon examination of the following detailed description and accompanying drawings. It is intended that all such systems, methods, features, and advantages be included within the present disclosure and protected by the accompanying claims.
The features and components of the following figures are illustrated to emphasize the general principles of the present disclosure and are not necessarily drawn to scale. Corresponding features and components throughout the figures may be designated by matching reference characters for the sake of consistency and clarity.
Disclosed is a pipe coupling and associated methods, systems, devices, and various apparatus. The pipe coupling includes at least one segment, at least one tightening element, and at least one gasket. The pipe coupling is adapted to seal pipe elements in end-to-end relationship. It would be understood by one of skill in the art that the disclosed pipe coupling is described in but a few exemplary embodiments among many. No particular terminology or description should be considered limiting on the disclosure or the scope of any claims issuing therefrom.
One embodiment of a pipe coupling 100 is disclosed and described in
Each segment body 210 includes a central portion 215 and at least one edge portion 225b (225a not shown in
As can be seen in
As seen more clearly in
As can be seen from the view of
The tongue 280 includes three portions in the current embodiment: a central portion 342, a first side portion 344, and a second side portion 346. The side portions 344,346 are oriented with respect to the central portion 342 such that an angle is formed between each. In the current embodiment, the angle is greater than ninety degrees. The tongue 280 includes an outer surface 352, an inner surface 354, and a mating surface 355. The mating surface 355 is angled at a tip angle 430, which is shown in
Shown along the other end 203 is the other shoulder 213. The shoulder includes a bottom surface 362 and a top surface 364 that are substantially parallel. The shoulder 213 includes a draft portion 366 and a radiused portion 371. A taper portion 376 is included just like with shoulder 203. A parallel portion 377 is also included where the bottom surface 362 is parallel to the top surface 364 in the region. Ledge surfaces 381a,b (not shown) are also included just like ledge surfaces 331a,b, and a taper bottom surface 382 is also included.
A groove 380 is defined in the shoulder 213. The groove 380 is sized to accept the tongue 280. The groove 380 includes a central wall 392 and two side walls 394,396. The groove 380 is further defined by a mating surface 395. In assembly, the mating surface 395 contacts the mating surface 355′ of another segment 110′. A groove shoulder surface 389 is included on the inside of the groove 380. A draft portion 388 can be seen proximate the end of the segment 110 nearest the groove 380. The draft portion 388 provides a relief from the inner surface 260 to the mating surface 395 to line up with the tongue 280′, which is slightly set back from the inner surface 260′. The draft portion 388 helps prevent the coupling 100 from pinching the gasket 150 during installation, as pinching of the gasket 150 can lead to failure of the gasket 150 including slicing and rupture of the gasket 150. A draft portion shoulder surface 387a,b (387b not shown) provides the part of the step-down from a shoulder surface 296a,b (296b not shown) to the mating surface 395.
Each edge portion 225a,b of the segment 110 includes a contacting portion 292a,b and a support portion 294a,b. The contact surface 262a,b is included at the end of the contacting portion 292a,b. The shoulder surface 296a (296b not shown) can be seen at the inside end of the support portion 294a (inside end of the support portion 294b not shown). Three nodes 297a,298a (299a,b and 297b,298b not shown) protrude from the shoulder surface 296a,b between the support portion 294a,b and the contacting portion 292a,b. Each node 297a,b and 298a,b include a width that decreases from the support portion 294a,b to the contacting portion 292a,b. Although the nodes 297a,b, 298a,b, and 299a,b are pyramidal in the current embodiment, they may be various shapes in various embodiments.
The gasket 150 is designed to interact with the inner surface 260 of each segment 110 in the pipe coupling 100, as will be discussed with reference to
As seen in the cross-sectional view of
Also seen in cross-sectional view, each fastener hole 132a,b is drafted such that each fastener hole 132a,b defines a cone-shaped void that is approximately ovular in cross-section, although various cross-sectional shapes may be found in various embodiments. As such, each fastener hole 132a,b includes a smaller aperture at the top surface 314,364 than where the fastener hole 132a,b emerges into the taper bottom surface 332,382 and the bottom surface 312,362. This configuration may be omitted in various embodiments.
As can be seen in
Each sealing rib 520a,b has a sealing ridge 525a,b extending axially inward from a radially inward end 551a,b of each sealing rib 520a,b. Each sealing ridge 525a,b extends substantially axially inward from the radially inward end 551a,b of each sealing rib 520a,b, such that the two sealing ridges 525a,b extend toward each other. The axially outer drafted edges 522a,b extend from the radially inward end 551a,b to a contact portion 555a,b. Each axially outer drafted edge 522a,b may be rounded, slanted, or various shapes in cross-section in various embodiments. Such cross-sectional shapes translate to conical and paraboloid shapes in various embodiments. Such shapes are truncated, as a full cone or paraboloid would not allow insertion of pipe elements in the gasket 150. In the embodiment shown in
The orientation of the sealing surfaces 526a,b is intended to ease the insertion of pipe elements into contact with the sealing surfaces 526a,b of gasket 150. Extending from each sealing surface 526a,b is the axially inner drafted edge 527a,b. The axially inner drafted edges 527a,b may be rounded, slanted, or various shapes in cross-section in various embodiments. Such cross-sectional shapes translate to paraboloid and conical shapes in various embodiments. Such shapes are truncated, as a full cone or paraboloid would not allow insertion of pipe elements in the gasket 150. The axially inner drafted edges 527a,b define the termination of the sealing ridge 525a,b along the axially inward direction.
A center rib 530 extends radially inward from the annular body 510. The center rib 530 includes a central groove 531 and two sealing members 557a,b which each include a sealing surface 532a,b. Each sealing member 557a,b in the current embodiment is a rounded protrusion from the central groove 531. In various embodiments, various shapes and configurations of sealing members 557a,b may be used, including flattened shapes, combinations of protrusions, and unconnected surfaces, among others. The sealing surface 532a,b is included on the sealing member 557a,b, respectively. The central groove 531 is positioned between the sealing surfaces 532a,b such that the sealing surfaces 532a,b of the sealing members 557a,b are capable of contacting the pipe elements and providing additional sealing interaction therewith.
Each sealing rib 520a,b has an innermost radial extent as measured from the annular body 510. In addition, each sealing rib 520a,b has an edge radial extent as measured from the annular body 510 to an axially innermost end of each of the axially inner drafted edges 527a,b. The center rib 530 has an innermost radial extent as measured from the annular body 510. The innermost radial extent of the center rib 530 is closer to the annular body 510 than the innermost radial extent of each of the pair of sealing ribs 520a,b. Additionally, in the current embodiment, the innermost radial extent of the center rib 530 is closer to the annular body 510 than the edge radial extent of each of the pair of sealing ribs 520a,b. The innermost radial extent of the center rib 530 may be as far from the annular body as, or farther from the annular body 510 than, the edge radial extent of each of the pair of sealing ribs 520a,b in various embodiments. The innermost radial extent of the center rib 530 may also be equally as far from the annular body 510 as the innermost radial extent of each of the pair of sealing ribs 520a,b in various embodiments.
The gasket 150 may be made of rubber, plastic, cork, wood, metal, ceramic, polymer, elastomer, rosin, foam, any combination of the foregoing materials, or any material suitable for sealing two pipe elements joined in end-to-end relationship. “Pipe elements” may mean pipes, valves, meters, or any other piping joint suitable to be sealed.
The annular body 510, the sealing ribs 520a,b, and the center rib 530 define gasket channels 540a,b as seen in
In addition, when the gasket 150 is in use, the sealing members 557a,b and the groove 531 act to prevent substantial fluid media flow into the gasket channels 540a,b. When placed in sealing contact with exterior surfaces of pipe elements, the sealing surfaces 532a,b of the sealing members 557a,b prevent substantial fluid media flow into gasket channels 540a,b, retaining fluid media flow in the groove 531. The gasket, in alternative embodiments, may include a plurality of center ribs, each with at least one sealing member and at least one sealing surface, which perform the same function as described above to prevent substantial media flow into the gasket channels.
One problem that the center rib 530 can alleviate is the buildup of fluids in the gasket channels 540a,b. For example, in applications where fluid media is water in cold temperature environments, preventing water buildup in the gasket channels 540a,b can lead to damage to the gasket 150 if the water freezes and, thereby, expands.
As can be seen in
As can be seen in
Upon compression of the gasket 150 by the segments 110,110′, the gasket 150 will most naturally deform from about circular in shape to an oblong shape. In most applications, compression by the segments 110,110′ on the gasket 150 will compress the gasket along the vertical axis 425, but the gasket 150 will tend to extend along the horizontal axis 420. This occurs particularly because the segments 110,110′ first contact the pipe elements—and, thus, first compress the gasket 150—at a point central to the segments 110,110′. As shown in
Tightening of the tightening elements (bolts 120a,b and nuts 125a,b) seats the gasket 150 against the pipe elements. When the segments 110,110′ are properly deformed and the gasket 150 is properly seated, the coupling 100 restrains the pipe elements from pullout because the contacting portion 292a,b.a′,b′ (not shown in
When properly seated, media (such as water, gas, or other fluid) may be allowed to flow through the pipe elements. The gasket 150 seals such media in at least one of two ways. If the gasket 150 is compressed so that sealing surfaces 532a,b of the sealing members 557a,b are properly seated against the outside of the pipe elements, such sealing interaction may be sufficient to contain the media inside the pipe elements without breaching the joint. In some applications, such sealing engagement may be impossible to attain, or the pressure of media within the pipe elements may be too great for such a sealing engagement to effectuate a proper seal. In such applications, media may travel past the sealing members 557a,b and into the gasket channels 540a,b.
If media passes into the gasket channels 540a,b, there are two safeholds against leakage. First, in many applications, sealing surfaces 526a,b are in sealing engagement with the pipe elements prior to compression of the gasket 150 by the segments 110,110′, and further compression of the gasket 150 enhances such sealing engagement. In other applications, sealing engagement of the gasket 150 with the pipe elements is achieved by compression of the gasket 150 by the segments 110,110′. Second, if media passes into the gasket channels 540a,b, it is assumed that such media is of a higher pressure than atmospheric. As such, the higher pressure in the gasket channels 540a,b further forces the sealing ridges 525a,b against the pipe elements. The higher pressure results in an even more effective seal by using the pressure of the media inside the pipe elements to effectuate a more complete seal. If liquid media is found in the pipe, such liquid may provide additional air-tight seal to further aid the engagement of the gasket 150 with the pipe elements. In some embodiments, gas-proofing grease may be applied to the contact surfaces 526a,b and 532a,b to aid in sealing. In many embodiments, grease is unnecessary.
In the current embodiment, the coupling 100 is assembled in the untightened position of
The coupling 100 in
When the segments 110,110′ travel toward each other and deform under the tightening of the tightening elements (nuts 120a,b and bolts 125a,b), the gasket 150 is deformed in accord therewith. In some embodiments, a rigid or semi-rigid gasket 150 may be included. The process for accommodating such a material may be altered from that described herein. The gasket 150 includes the deformation groove 517 to allow a place for material to go upon deformation of the gasket 150.
Installation of the coupling 100 on the pair of pipe elements 710a,b is illustrated in
When the second pipe element 710b is about aligned with the first pipe element 710a, the coupling 100 is moved so that the gasket 150 is aligned on outer surfaces 715a,b over the ends 725a,b of the pipe elements 710a,b and with the contact surfaces 262a,b,a′,b′ aligned with the grooves 720a,b, as shown in
Several features of the gasket 150 ease installation as described. Friction can cause installation of rubber gaskets to bind against outer surfaces 715a,b of pipe elements 710a,b. With reference to
When the coupling 100 is aligned on the joint of the pipe elements 710a,b, the tightening elements are used to draw the segments 110,110′ together. In the current embodiment, this takes the form of nuts 125a,b tightening down on bolts 120a,b to compress the fastener pads 130a,b,a′,b′ toward each other. In some embodiments, the coupling 100 is rigid and includes no deflection of the segments 110,110′. In the current embodiment, the engagement of the tightening elements (bolts 120a,b and nuts 125a,b) first cause the segments 110,110′ to travel toward each other. When the segments 110,110′ contact the pipe elements 710a,b, the segments 110,110′ deform (deflection) until each segment 110,110′ is in the desired engagement with the pipe elements 710a,b. The deformation of the segments 110,110′ can be seen by comparing
As can be seen in
Seen in the cross-sectional view of
As previously described, when the coupling 100 is installed onto pipe elements, the assembled and untightened coupling 100 is installed over the edge of the first pipe element 710a until it passes completely over any groove 720a in the first pipe element 710a after which the second pipe element 710b is placed end-facing to the first pipe element 710a. The coupling 100 is then slid into position straddling the first and second pipe elements 710a,b. Although (as previously described) it is common for gaskets to bind during such installation, it is also possible for friction to cause rocking of the segments 110,110′ not only against any gasket but also against the exterior of the pipe elements 710a,b. If a leading edge of one segment 110,110′ catches against the exterior of the pipe element 710a,b, the segments 110,110′ have a tendency to rock with respect to each other. Rocking of segments 110,110′ can cause additional binding of the gasket 150, making installation of the coupling 100 difficult and potentially damaging to components of the coupling 100, including the gasket 150.
The shape of the fastener hole 132a (see
The arrangement of each collar portion 820a,b engages the fastener hole 132a,b in assembly and retains the bolt 120 in a fixed arrangement with respect to the segment 110 in each fastener hole 132a,b. This allows a user to tighten the nuts 125a,b without need to restrain the bolts 120a,b, as the collar portions 820a,b retain the bolts 120a,b through interaction with the fastener holes 132a,b. This result occurs because the axial length 233,237 of each fastener hole 132a,b is smaller than the transverse length 830a,b of each collar portion 820a,b. Such an arrangement would result even if the orientation of the fastener holes 132a,b were at a different angle.
However, the arrangement as displayed also prevents the rocking of the segments 110,110′ by keeping the shank portions 815a,b, the collar portions 820a,b, and the threaded portions 810a,b in close proximity to the inner surfaces 335a,b,a′,b′ of the fastener holes 132a,b,a′,b′. Should one of the segments 110,110′ begin a rocking motion, at least one of the inner surfaces 335a,b,a′,b′ will contact at least one of the bolts 120a,b along at least one of the collar portions 820a,b, the shank portions 815a,b, and the threaded portions 810a,b thereby providing a mechanical stop to prevent further rotation of the segments 110,110′ with respect to the bolts 120a,b and, thereby, with respect to the other segment 110′,110.
Although all sides of the fastener holes 132a,b,a′,b′ are shown as drafted in the current embodiment, some sides may be drafted or may be parallel in various embodiments. For example, in the current embodiment, fastener holes 132a,b,a′,b′ are drafted because the segments 110,110′ are cast. However, if fastener holes 132a,b,a′,b′ were machined, it would not be necessary to draft the fastener holes 132a,b,a′,b′.
As seen in
As seen in
This assembly configuration represents one of many possible assembly configurations. One skilled in the art will understand obvious variations of this assembly configuration are included within this disclosure, including variations of steps, combinations of steps, and dissections of steps, among others. Where materials are chosen for the elements of this assembly—particularly, rubber, metal, and cast iron—similar material choices may also be used and would be obvious to one in the art. As previously disclosed, the gasket 150 may be made of rubber, plastic, cork, wood, metal, ceramic, polymer, elastomer, rosin, foam, any combination of the foregoing materials, or any material suitable for sealing two pipe elements joined in end-to-end relationship. The segments 110,110′ may be made of cast iron, steel, aluminum, titanium, copper, brass, various plastics, polymers, resins, or any material of sufficient strength to withstand the tightening load of the fasteners.
It should be emphasized that the embodiments described herein are merely possible examples of implementations, merely set forth for a clear understanding of the principles of the present disclosure. Many variations and modifications may be made to the described embodiment(s) without departing substantially from the spirit and principles of the present disclosure. Further, the scope of the present disclosure is intended to cover any and all combinations and sub-combinations of all elements, features, and aspects discussed above. All such modifications and variations are intended to be included herein within the scope of the present disclosure, and all possible claims to individual aspects or combinations of elements or steps are intended to be supported by the present disclosure.
One should note that conditional language, such as, among others, “can,” “could,” “might,” or “may,” unless specifically stated otherwise, or otherwise understood within the context as used, is generally intended to convey that certain embodiments include, while other embodiments do not include, certain features, elements and/or steps. Thus, such conditional language is not generally intended to imply that features, elements and/or steps are in any way required for one or more particular embodiments or that one or more particular embodiments necessarily include logic for deciding, with or without user input or prompting, whether these features, elements and/or steps are included or are to be performed in any particular embodiment.
Various implementations described in the present disclosure may include additional systems, methods, features, and advantages, which may not necessarily be expressly disclosed herein but will be apparent to one of ordinary skill in the art upon examination of the following detailed description and accompanying drawings. It is intended that all such systems, methods, features, and advantages be included within the present disclosure and protected by the accompanying claims.
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