Line-stopping sheath spigot assemblies and line-stopping sheath assemblies using the same
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0586977
(2009-09-30)
|
등록번호 |
US-8176929
(2012-05-15)
|
발명자
/ 주소 |
- Collins, Aaron Caldwell Najera
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
4 |
초록
▼
A spigot for a line-stopping sheath assembly includes a flange including a flange plate and a flange barrel. The flange barrel includes a wall extending from the flange plate, with an end of the wall of the flange barrel opposing the flange plate having a projection defining a periphery of a socket
A spigot for a line-stopping sheath assembly includes a flange including a flange plate and a flange barrel. The flange barrel includes a wall extending from the flange plate, with an end of the wall of the flange barrel opposing the flange plate having a projection defining a periphery of a socket area for receiving an end of a pipe. The spigot also includes a pipe having an end disposed within the periphery of the socket area defined by the projection of the flange barrel.
대표청구항
▼
1. A line-stopping spigot comprising: a flange including: a flange plate; anda flange barrel comprising a wall extending from the flange plate, an end of the wall of the flange barrel opposing the flange plate having a projection defining a periphery of a socket area, the socket area including a sho
1. A line-stopping spigot comprising: a flange including: a flange plate; anda flange barrel comprising a wall extending from the flange plate, an end of the wall of the flange barrel opposing the flange plate having a projection defining a periphery of a socket area, the socket area including a shoulder within the periphery of the projection, for receiving an end of a pipe; anda pipe comprising a continuous wall of a selected thickness, an end of the wall of the pipe inserted within the periphery of the socket area defined by the projection of the flange barrel. 2. The spigot of claim 1, further comprising socket welding including a weld disposed between an end surface of the projection of the flange barrel and a corresponding area of an outer surface of the wall of the pipe and a weld disposed between an inner surface of the wall of the pipe and the shoulder of the flange barrel. 3. The spigot of claim 1, wherein the pipe has a diameter and the width of the wall of the pipe corresponds to the diameter of the pipe in accordance with ASME/ANSI Schedule 10. 4. The spigot of claim 1, wherein the flange plate is fabricated integrally with the flange barrel. 5. The spigot of claim 1, wherein the flange plate and flange barrel are fabricated from steel. 6. The spigot of claim 5, wherein the flange plate and the flange barrel are fabricated from stainless steel. 7. The spigot of claim 1, further comprising threads disposed along a selected inner surface of the wall of the flange barrel for receiving a threaded plug. 8. The spigot of claim 1, wherein the flange plate includes a plurality of recesses disposed along a selected surface of the flange plate for reducing weight. 9. The spigot of claim 1, further comprising a finishing weld welded between an inner surface of the pipe and an inner surface of the flange barrel. 10. A spigot for use during line-stopping comprising: a flange including a tubular portion having a continuous sidewall of a selected inner diameter and a projection of a greater inner diameter extending along a periphery of an end of the tubular portion to define a socket area including a shoulder within the periphery of the projection; anda pipe having a diameter and an end inserted within the socket area defined by the projection of the flange, wherein a thickness of the pipe in the socket area is equal to or thinner than the thickness provided for by ASME/ANSI Schedule 20 for that diameter. 11. The spigot of claim 10, wherein a thickness of the pipe in the socket area is equal to or thinner than the thickness provided for by ASME/ANSI Schedule 10 for that diameter. 12. The spigot of claim 10, wherein a gap of a selected width is disposed between an inner surfaces of the projection adjacent the socket area and an outer surface of the pipe proximate the end of the pipe. 13. The spigot of claim 10, wherein a gap of a selected width is disposed between an end surface of the pipe and a corresponding end surface of the tubular portion of the flange adjacent the socket area. 14. The spigot of claim 10, wherein the pipe is fabricated from a metal selected from the group consisting of steel and stainless steel. 15. The spigot of claim 10, wherein the flange is fabricated from a metal selected from the group consisting of steel and stainless steel. 16. The spigot of claim 10, wherein the flange includes a flange plate having a plurality of recesses in a selected surface of the flange plate for reducing weight. 17. The spigot of claim 16, wherein the flange plate further comprises a thick area disposed between first and second ones of the recesses and having an aperture therethrough for receiving a plug retaining pin. 18. The spigot of claim 10, further comprising a plurality of threads disposed in an inner surface of the sidewall of the flange and spaced from the socket area. 19. The spigot of claim 12, wherein the pipe is fastened to the tubular portion of the flange with a socket weld disposed between an area of an outer surface of the pipe and an adjacent portion of an outer surface of the projection of the flange. 20. A line-stopping sleeve assembly comprising: a half-sleeve adapted to receive a corresponding surface of a section of pipe; anda spigot assembly extending from the half-sleeve and including a flange and a spigot pipe attached to the flange, wherein the spigot pipe has a diameter and a sidewall thickness equal to or thinner than the thickness provided for by ASME/ANSI Schedule 20 for that diameter, wherein the flange includes a tubular portion having a projection defining a shoulder extending inwardly along an inner periphery of an end of the tubular portion to provide a socket and wherein an end of the pipe is inserted within the socket and has outer surface fastened to an end of the projection with a socket weld. 21. A pipeline system comprising: a section of pipe; anda line-stopping spigot fastened to the section of pipe comprising:a flange including a tubular portion having a continuous sidewall of a selected inner diameter and a projection of a greater inner diameter extending along a periphery of an end of the tubular portion to define a socket area including a shoulder within the periphery of the projection; anda spigot pipe having a diameter and an end inserted within the socket area defined by the projection of the flange, wherein a thickness of the spigot pipe in the socket area is equal to or thinner than the thickness provided for by ASME/ANSI Schedule 20 for that diameter. 22. The pipeline system of claim 21, wherein the line-stopping spigot is attached to the section of pipe through a half-sheath. 23. The pipeline system of claim 22, wherein the half-sheath is attached to the section of pipe with another half-sheath. 24. The pipeline system of claim 22, wherein the half-sheath is welded to the section of pipe. 25. The pipeline system of claim 21, wherein the line-stopping spigot is welded to the section of pipe. 26. A method of performing work on a pipe comprising: fastening a spigot to a section of pipe, the spigot comprising:a flange including a tubular portion having a continuous sidewall of a selected inner diameter and a projection of a greater inner diameter extending along a periphery of an end of the tubular portion to define a socket area including a shoulder within the periphery of the projection; anda spigot pipe having a diameter and an end inserted within the socket area defined by the projection of the flange, wherein a maximum thickness of the spigot pipe in the socket area is proportional to the diameter of the spigot pipe in accordance with ASME/ANSI Schedule 20; andaccessing the section of pipe through an aperture through the spigot. 27. The method of claim 26, wherein accessing the section of pipe comprises tapping the section of pipe through the aperture through the spigot. 28. The method of claim 26, wherein accessing the section of pipe comprises extending line-stopping equipment through the aperture through the spigot.
이 특허에 인용된 특허 (4)
-
Andersson Bo Goran, Fitting assembly and method for tapping into a conduit.
-
Hayashi,Kaneyoshi; Hayashi,Shigeyoshi, Flange.
-
Morris Bruce E. (Houston TX) Avery Fred L. (Spring TX), Pipeline connector for connecting a branch pipe to a carrier pipe.
-
Powers Edward J. (Aurora IL), Tapping sleeve.
이 특허를 인용한 특허 (3)
-
Lehman, Kevin, Mini-keg growler.
-
Lehman, Kevin, Mini-keg growler neck without cap.
-
Minich, Raymond C.; Piontek, Daryl M., Tapping sleeve tightening assembly.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.