Gas Riser Apparatus, And Method And Apparatus For Making Same

Abstract

A gas riser apparatus, and methods for making and using a gas riser apparatus, are provided, through use of a transition fitting having a first end thereof configured for operative attachment to above-ground gas piping, a second end thereof adapted for operative attachment to an underground plastic pipe, and a shouldered peripheral portion thereof adapted for swaged connection thereto of an above-ground end of a protective casing of the riser in a manner which precludes having the protective casing function as a gas-carrying member of the riser.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings incorporated in and forming a part of the specification illustrate several aspects of the present invention and, together with the description, serve to explain the principles of the invention. In the drawings:

FIG. 1 shows a first exemplary embodiment of a gas riser, according to the invention, in which the gas riser includes a rigid protective casing which is not used as a gas-carrying member;

FIG. 2 is a partial cross-sectional view of the exemplary embodiment of the gas riser of FIG. 1, illustrating details of construction and connection of various components of the exemplary embodiment; and

Claims

1. A gas riser apparatus, for transporting gas from an underground plastic pipe to above-ground metal piping, the riser apparatus comprising: a tubular-shaped protective casing having first and second ends thereof, a riser tube disposed within the protective casing and defining first and second ends thereof, a transition fitting having a fluid passage therethrough, and a swaging collar disposed about the first end of the riser tube within the protective casing;the transition fitting having a first end thereof configured for threaded engagement with the above-ground metal piping, a second end thereof configured as a spigot for insertion into the first end of the riser tube, and a shouldered peripheral portion thereof for insertion into the first end of the casing to a depth at which a shoulder of the shouldered peripheral portion substantially abuts the first end of the protective casing, the fluid passage in the transition fitting extending through the spigot and providing fluid communication between the first and second ends of the transition fitting;the first end of the riser tube being sealed and fixedly joined to the spigot by a first swaged joint formed by swaging the swaging collar inward to partially compress the first end of the riser tube between the spigot and the swaging collar;the transition fitting being fixedly attached to the first end of the protective casing by a second swaged joint, formed by swaging a portion of the protective casing against the shouldered peripheral portion of the transition fitting.

2. The gas riser apparatus of claim 1, further comprising a seal-element disposed between the spigot and the first end of the riser tube.

3. The gas riser apparatus of claim 2, wherein, the spigot includes an outwardly opening annular groove therein, and the seal-element comprises a compliant O-ring substantially disposed in the annular groove.

4. The gas riser apparatus of claim 3, wherein, substantially faying surfaces of one or both of the shouldered peripheral portion and/or the portion of the protective casing forming the second swaged joint further comprises one or more anti-rotation feature(s) for precluding rotation of the transition fitting within the protective casing.

5. The gas riser apparatus of claim 4, wherein, the faying surface of the shouldered peripheral portion of the transition fitting is at least partially knurled, to thereby form at least one of the one or more anti-rotation feature(s).

6. The gas riser apparatus of claim 5, wherein, the second end of the riser tube extends beyond the second end of the protective casing, with the second end of the protective casing being operatively connected to an outer surface of the riser tube by a third swaged joint in which a portion of the protective casing adjacent the second end of the protective casing is swaged inward about the riser tube.

7. The gas riser apparatus of claim 6, further comprising, an environmental seal operatively disposed between the outer surface of the riser tube and the protective casing and fixedly held in place by the third swage joint.

8. The gas riser apparatus of claim 1, wherein the protective casing includes a protective coating applied thereto, prior to forming the second swaged joint.

9. The gas riser apparatus of claim 8, wherein, the second swaged joint is formed without damaging the integrity of the protective coating.

10. The gas riser of claim 1, further comprising, provisions for holding the riser against rotation, during attachment of the riser to a mating pipe connection using a non-gripping-jaw-type tool.

11. The gas riser of claim 10, wherein, the provisions for holding the riser against rotation comprise, wrenching flats on a portion of the transition fitting which remains exposed beyond the shoulder of the fitting following formation of the second swaged joint to affix the protective casing to the transition fitting.

12. The gas riser of claim 10, wherein, the riser includes a protective coating on exterior surfaces of the riser and the provisions for holding the riser are configured in such a manner that the integrity of protective coating is not damaged during connection of the riser.

13. The gas riser apparatus of claim 12, wherein, the provisions for holding the riser against rotation include one or more features of the transition fitting.

14. The gas riser apparatus of claim 13, wherein, the transition fitting includes wrenching flats for mating with non-gripping-jaw-type tools, such as open-end wrenches, adjustable crescent wrenches, spanner wrenches, and the like.

15. The gas riser of claim 14, wherein, the transition fitting is formed of a corrosion resistant material.

16. A method for constructing a gas riser apparatus for transporting gas from an underground plastic pipe to above-ground metal piping, the method comprising: providing a tubular-shaped protective casing having first and second ends thereof, a riser tube disposed within the protective casing and defining first and second ends thereof, a transition fitting having a fluid passage therethrough, and a swaging collar disposed about the first end of the riser tube within the protective casing;configuring the transition fitting to have a first end thereof adapted for threaded engagement with the above-ground metal piping, a second end thereof configured as a spigot for insertion into the first end of the riser tube, with the fluid passage in the transition fitting extending through the spigot and providing fluid communication between the first and second ends of the transition fitting;further configuring the transition fitting to form a shouldered peripheral portion thereof for insertion into the first end of the casing to a depth at which a shoulder of the shouldered peripheral portion substantially abuts the first end of the protective casing, the fluid passage in the transition fitting extending through the spigot and providing fluid communication between the first and second ends of the transition fitting;inserting the spigot into the first end of the riser tube, disposing the swaging collar around the riser tube opposite the spigot, and swaging the swaging collar inward to partially compress the first end of the riser tube between the spigot and the swaging collar, to thereby seal and fixedly join the first end of the riser tube to the spigot;inserting the second end of the riser tube through the first end of the protective casing;following formation of the first swaged joint, inserting the shouldered peripheral portion of the transition fitting into the first end of the casing to a depth at which a shoulder of the shouldered peripheral portion substantially abuts the first end of the protective casing; andfixedly attaching the transition fitting to the first end of the protective casing by swaging a portion of the protective casing adjacent the first end of the casing against the shouldered peripheral portion of the transition fitting, to thereby form a second swaged joint.

17. The method of claim 16, further comprising, sealingly disposing a seal-element between the spigot and the first end of the riser tube.

18. The method of claim 17, wherein, the spigot includes an outwardly opening annular groove therein, the seal-element comprises a compliant O-ring substantially disposed in the annular groove, and the method further comprises, installing the O-ring in the annular groove prior to inserting the spigot into the first end of the riser tube.

19. The method of claim 16, further comprising, at least partially knurling a faying surface of the shouldered peripheral portion of the transition fitting, to thereby form at least one of the one or more anti-rotation feature(s).

20. The method of claim 16, further comprising configuring the riser tube such that the second end thereof extends beyond the second end of the protective casing, and operatively connecting an outer surface of the riser tube to the protective casing by a swaging a portion of the protective casing adjacent the second end of the protective casing inward about the riser tube, to form a third swaged joint.

21. The method of claim 20, further comprising, forming an environmental seal operatively disposed between the outer surface of the riser tube and the protective casing and fixedly held in place by the third swaged joint.

22. A gas riser apparatus, for transporting gas from an underground plastic pipe to above-ground metal piping, the riser apparatus comprising: a tubular-shaped protective casing having first and second ends thereof, a riser tube disposed within the protective casing and defining first and second ends thereof, a transition fitting having a fluid passage therethrough, and a swaging collar disposed about the first end of the riser tube within the protective casing;the transition fitting having a first end thereof configured for threaded engagement with the above-ground metal piping, a second end thereof configured as a spigot for insertion into the first end of the riser tube, and a shouldered peripheral portion thereof for insertion into the first end of the casing to a depth at which a shoulder of the shouldered peripheral portion substantially abuts the first end of the protective casing, the fluid passage in the transition fitting extending through the spigot and providing fluid communication between the first and second ends of the transition fitting;the first end of the riser tube being sealed and fixedly joined to the spigot by a first swaged joint formed by swaging the swaging collar inward to partially compress the first end of the riser tube between the spigot and the swaging collar;the transition fitting being fixedly attached to the first end of the protective casing by a second swaged joint, formed by swaging a portion of the protective casing against the shouldered peripheral portion of the transition fitting, with substantially faying surfaces of one or both of the shouldered peripheral portion and/or the portion of the protective casing forming the second swaged joint further comprises one or more anti-rotation feature(s) for precluding rotation of the transition fitting within the protective casing.

23. The gas riser apparatus of claim 22, wherein, the faying surface of the shouldered peripheral portion of the transition fitting is at least partially knurled, to thereby form at least one of the one or more anti-rotation feature(s).

24. The gas riser apparatus of claim 22, wherein, the second end of the riser tube extends beyond the second end of the protective casing, with the second end of the protective casing being operatively connected to an outer surface of the riser tube by a third swaged joint in which a portion of the protective casing adjacent the second end of the protective casing is swaged inward about the riser tube.

25. The gas riser apparatus of claim 24, further comprising, an environmental seal operatively disposed between the outer surface of the riser tube and the protective casing and fixedly held in place by the third swage joint.

26. The gas riser of claim 25, further comprising, provisions for holding the riser against rotation, during attachment of the riser to a mating pipe connection using a non-gripping-jaw-type tool.

27. The gas riser of claim 26, wherein, the provisions for holding the riser against rotation comprise, wrenching flats on a portion of the transition fitting which remains exposed beyond the shoulder of the fitting following formation of the second swaged joint to affix the protective casing to the transition fitting.