Casing head connector

US 5,158,326 A
Filed: 07/07/1989
Issued: 10/27/1992
Est. Priority Date: 07/07/1989
Status: Expired due to Fees

First Claim

Patent Images

1. A connector for attaching a body to the end of a pipe, comprising:

a main body having a bore in one end adapted for telescopic insertion over the end of the pipe, forming an annular bore area between the outside wall of the pipe and the wall of the bore;

slip means disposed around the pipe in said annular bore area and carried on said main body, movable from a non-actuated position out of engagement with the pipe to an actuated position in gripping engagement with the pipe;

seal means disposed around the pipe in said annular bore area for sealingly engaging said outside wall of said pipe and said bore wall;

dual-acting hydraulic piston means disposed around the pipe in said annular bore area between said slip means and said seal means and having a first actuating portion movable in one direction into energizing engagement with said seal means and a second actuating portion movable in the opposite direction into actuating engagement with said slip means upon application of pressurized fluid to said piston means; and

radially reciprocable means for releasably engaging said first and second actuating portions of said piston means when said first actuating portion is in energizing engagement with said seal means and said second actuating portion is in actuating engagement with said slip means;

said releasably engaging means comprising a plurality of lock ring segments disposed around said dual-acting hydraulic piston means in said annular bore area, said lock ring segments being adapted for moving radially inwardly and into mechanical backup engagement with said first and second actuating portions of said piston means when said piston means has been actuated, substantially preventing said first actuating portion from moving in said opposite direction out of energizing engagement with said seal means and said second actuating portion from moving in said one direction out of actuating engagement with said slip means, and being adapted for moving radially outwardly and out of mechanical backup engagement with said first and second actuating portions, allowing said first actuating portion to move in said opposite direction out of energizing engagement with said seal means and allowing said second actuating portion to move in said one direction out of actuating engagement with said slip means;

said dual-acting hydraulic piston means including an upper piston comprising said first actuating portion and a lower piston comprising said second actuating portion, said upper piston having a bore in its lower end, said lower piston being slidingly telescopingly received in said bore of said upper piston, and said upper piston including a downwardly and outwardly facing camming surface and said lower piston including an upwardly and outwardly facing camming surface, and each of said lock ring segments including an upwardly and inwardly facing camming surface along its upper inner periphery and a downwardly and inwardly facing camming surface along its lower inner periphery, said upper camming surfaces of said lock ring segments engaging said camming surface of said upper piston and said lower camming surfaces of said lock ring segments engaging said camming surface of said lower piston when said lock ring segments are moved radially inwardly.

View all claims

3 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A pipe connector including a main body having a stepped bore in one end for telescopic insertion over the end of a pipe, creating a stepped annular area around the pipe. A slip retaining nut is threaded into the end of the main body around the pipe, closing off the stepped annular area. Slips are carried in a tapered annular space between the nut and pipe. Prior to actuation, the slips are held up in disengaged position by shear pins. A pair of metal seal rings is disposed in the end of the stepped annular area opposite the nut. A pair of dual-acting, hydraulically actuated pistons is disposed in the stepped annular area between the metal seal rings and slips. Hydraulic pressure actuates the upper piston to move upwardly to energize the metal seals, and the lower piston to move downwardly to actuate the slips into gripping engagement with the pipe. Floating, self-centering lock ring segments are wedged between the pistons by lockdown screws to prevent the pistons from backing out of energizing engagement with the metal seal rings and slips. The connector may be released by backing out the lockdown screws which retracts the lock ring segments, unscrewing the slip retaining nut and removing it and the slips, pulling out the lower and upper pistons, and sliding the main body off the pipe. The metal seals may then be replaced along with the elastomer seals or slips, as needed.

45 Citations

View as Search Results

19 Claims

1. A connector for attaching a body to the end of a pipe, comprising:
- a main body having a bore in one end adapted for telescopic insertion over the end of the pipe, forming an annular bore area between the outside wall of the pipe and the wall of the bore;
  
  slip means disposed around the pipe in said annular bore area and carried on said main body, movable from a non-actuated position out of engagement with the pipe to an actuated position in gripping engagement with the pipe;
  
  seal means disposed around the pipe in said annular bore area for sealingly engaging said outside wall of said pipe and said bore wall;
  
  dual-acting hydraulic piston means disposed around the pipe in said annular bore area between said slip means and said seal means and having a first actuating portion movable in one direction into energizing engagement with said seal means and a second actuating portion movable in the opposite direction into actuating engagement with said slip means upon application of pressurized fluid to said piston means; and
  
  radially reciprocable means for releasably engaging said first and second actuating portions of said piston means when said first actuating portion is in energizing engagement with said seal means and said second actuating portion is in actuating engagement with said slip means;
  
  said releasably engaging means comprising a plurality of lock ring segments disposed around said dual-acting hydraulic piston means in said annular bore area, said lock ring segments being adapted for moving radially inwardly and into mechanical backup engagement with said first and second actuating portions of said piston means when said piston means has been actuated, substantially preventing said first actuating portion from moving in said opposite direction out of energizing engagement with said seal means and said second actuating portion from moving in said one direction out of actuating engagement with said slip means, and being adapted for moving radially outwardly and out of mechanical backup engagement with said first and second actuating portions, allowing said first actuating portion to move in said opposite direction out of energizing engagement with said seal means and allowing said second actuating portion to move in said one direction out of actuating engagement with said slip means;
  
  said dual-acting hydraulic piston means including an upper piston comprising said first actuating portion and a lower piston comprising said second actuating portion, said upper piston having a bore in its lower end, said lower piston being slidingly telescopingly received in said bore of said upper piston, and said upper piston including a downwardly and outwardly facing camming surface and said lower piston including an upwardly and outwardly facing camming surface, and each of said lock ring segments including an upwardly and inwardly facing camming surface along its upper inner periphery and a downwardly and inwardly facing camming surface along its lower inner periphery, said upper camming surfaces of said lock ring segments engaging said camming surface of said upper piston and said lower camming surfaces of said lock ring segments engaging said camming surface of said lower piston when said lock ring segments are moved radially inwardly.
- View Dependent Claims (2)
- - 2. A connector according to claim 1, wherein said seal means is disposed in the upper end of said annular bore area and said slip means is disposed in the lower end of said annular bore area, said upper piston having an upper end face in engagement with said seal means and said lower piston having a lower end face in engagement with said slip means, said lower piston having an annular shoulder around its midportion upon which the lower end of said upper piston rests in the non-actuated position, and said annular bore area of said main body having an enlarged counterbore disposed around said lower end of said upper piston and said midportion of said lower piston for receiving said pressurized fluid, said upper piston being sealingly received in said annular bore area above said enlarged counterbore and said lower piston being sealingly received in said annular bore area below said enlarged counterbore, said lower piston being sealed with respect to said bore of said upper piston, whereby upon application of said pressurized hydraulic fluid, said upper piston moves upwardly into energizing engagement with said seal means and said lower piston moves downwardly into actuating engagement with said slip means.

3. A connector for attaching a body to the end of a pipe, comprising:
- a main body having a bore in one end adapted for telescopic insertion over the end of the pipe, forming an annular bore area between the outside wall of the pipe and the wall of the bore;
  
  slip means disposed around the pipe in said annular bore area and carried on said main body, movable from a non-actuated position out of engagement with the pipe to an actuated position in gripping engagement with the pipe;
  
  seal means disposed around the pipe in said annular bore area for sealingly engaging said outside wall of said pipe and said bore wall;
  
  dual-acting hydraulic piston means disposed around the pipe in said annular bore area between said slip means and said seal means and having a first actuating portion movable in one direction into energizing engagement with said seal means and a second actuating portion movable in the opposite direction into actuating engagement with said slip means upon application of pressurized fluid to said piston means, said dual-acting hydraulic piston means including an upper piston comprising said first actuating portion and a lower piston comprising said second actuating portion, said upper piston having a bore in its lower end and said lower piston being slidingly telescopingly received in said bore of said upper piston;
  
  wherein said seal means is disposed in the upper end of said annular bore area and said slip means is disposed in the lower end of said annular bore area, said upper piston having an upper end face in engagement with said seal means and said lower piston having a lower end face in engagement with said slip means, said lower piston having an annular shoulder around its midportion upon which the lower end of said upper piston rests in the non-actuated position, and said annular bore area of said main body having an enlarged counterbore disposed around said lower end of said upper piston and said midportion of said lower piston for receiving said pressurized fluid, said upper piston being sealingly received in said annular bore area above said enlarged counterbore and said lower piston being sealingly received in said annular bore area below said enlarged counterbore, said lower piston being sealed with respect to said bore of said upper piston, whereby upon application of said pressurized hydraulic fluid, said upper piston moves upwardly into energizing engagement with said seal means and said lower piston moves downwardly into actuating engagement with said slip means; and
  
  mechanical backup means disposed in said enlarged counterbore around said lower end of said upper piston and said midportion of said lower piston for moving into mechanical backup engagement with said upper and lower pistons when said upper and lower pistons have been actuated, substantially preventing downward movement of said upper piston and upward movement of said lower piston;
  
  wherein said lower end of said upper piston has a downwardly and outwardly facing camming surface around its outer periphery and said annular shoulder of said lower piston has an upwardly and outwardly facing camming surface around its outer periphery, and said mechanical backup means includes a plurality of lock ring segments circumferentially spaced apart in said enlarged counterbore, each of said lock ring segments including an upper, upwardly and inwardly facing camming surface along its upper inner periphery and a lower, downwardly and inwardly facing camming surface along its lower inner periphery, said upper camming surfaces of said lock ring segments engaging said camming surface of said upper piston and said lower camming surfaces of said lock ring segments engaging said camming surface of said lower piston when said lock ring segments have been actuated, whereby said upper piston is cammed upwardly and said lower piston is cammed downwardly by said lock ring segments.
- View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 4. A connector according to claim 3, wherein said enlarged counterbore is greater in height than said lock ring segments, said lock ring segments being free to move upwardly or downwardly to a limited extent in said enlarged counterbore when actuated, thereby effecting self-centering of said lock ring segments with respect to said upper and lower pistons when the respective ones of said camming surfaces are engaged with one another.
  - 5. A connector according to claim 3, wherein there is included, for each of said lock ring segments, lockdown means disposed on said main body and engageable with said lock ring segments for moving said lock ring segments into engagement with said upper and lower pistons and actuating said camming surfaces.
  - 6. A connector according to claim 5, wherein each of said lockdown means includes means engageable with the respective ones of said lock ring segments for retracting said lock ring segments away from camming engagement with said upper and lower pistons.
  - 7. A connector according to claim 6, wherein each of said lockdown means includes a lockdown screw threadedly received in a transverse bore in said main body and having an annular shoulder engageable with the outer side of the respective lock ring segment for moving it radially inwardly and a T-shaped head slidingly received in a correlatively shaped slot in the lock ring segment for moving it radially outwardly when the lockdown screw is screwed into or out of said main body, respectively.
  - 8. A connector according to claim 3, and including a retaining nut threadedly received in said one end of said main body in said annular bore area around the pipe, and having a tapered slip actuating surface around its inner periphery forming a tapered annular area between said tapered slip actuating surface and the pipe, said slip means including a plurality of slip segments disposed in said tapered annular area and circumferentially spaced apart about the pipe.
  - 9. A connector according to claim 8, wherein each of said slip segments includes a pipe gripping serrated surface on its inner side and a tapered surface shaped correlatively to said slip actuating surface of said nut on its outer side, and including shear means disposed between said tapered surfaces of said slip segments and said slip actuating surface for holding said slip segments in said non-actuated position prior to actuation of said slip means by said dual-acting hydraulic piston means.
  - 10. A connector according to claim 9, and further including means for extracting said dual-acting hydraulic piston means from said annular bore area when said retaining nut and said slip segments have been removed from said one end of said main body.
  - 11. A connector according to claim 3, wherein said seal means forms a metal-to-metal seal between the pipe and the wall of the annular bore area when energized by said hydraulic piston means.
  - 12. A connector according to claim 3, and further including means disposed around the inner end of said bore in engagement with the end of the pipe for preventing radially inward collapse of the pipe due to application of high compressive loads thereon.
  - 13. A connector according to claim 12, wherein said means for preventing inward collapse of said pipe end includes a downwardly and outwardly facing, downwardly and inwardly tapering frustoconical shoulder around said bore of said main body, the inner peripheral edge of said frustoconical shoulder engaging the upper, inner periphery of said pipe end under normal operating conditions, said frustoconical shoulder being adapted to partially flatten out and its inner peripheral edge being adapted to deform plastically and flow radially inwardly somewhat upon application of a high compressive load on said main body at said frustoconical shoulder.

14. A connector for attaching a body to the end of a pipe, comprising:
- a main body having a bore in one end adapted for telescopic insertion over the end of the pipe, forming an annular bore area between the outside wall of the pipe and the wall of the bore;
  
  slip means disposed around the pipe in said annular bore area and carried on said main body, movable from a non-actuated position out of engagement with the pipe to an actuated position in gripping engagement with the pipe;
  
  seal means disposed around the pipe in said annular bore area for sealingly engaging said outside wall of said pipe and said bore wall;
  
  dual-acting hydraulic piston means disposed around the pipe in said annular bore area between said slip means and said seal means and having a first actuating portion movable in one direction into energizing engagement with said seal means and a second actuating portion movable in the opposite direction into actuating engagement with said slip means upon application of pressurized fluid to said piston means, said dual-acting hydraulic piston means including an upper piston comprising said first actuating portion and a lower piston comprising said second actuating portion, said upper piston having a bore in its lower end and said lower piston being slidingly telescopingly received in said bore of said upper piston;
  
  wherein said seal means is disposed in the upper end of said annular bore area and said slip means is disposed in the lower end of said annular bore area, said upper piston having an upper end face in engagement with said seal means and said lower piston having a lower end face in engagement with said slip means, said lower piston having an annular shoulder around its midportion upon which the lower end of said upper piston rests in the non-actuated position, and said annular bore area of said main body having an enlarged counterbore disposed around said lower end of said upper piston and said midportion of said lower piston for receiving said pressurized fluid, said upper piston being sealingly received in said annular bore area above said enlarged counterbore and said lower piston being sealingly received in said annular bore area below said enlarged counterbore, said lower piston being sealed with respect to said bore of said upper piston, whereby upon application of said pressurized hydraulic fluid, said upper piston moves upwardly into energizing engagement with said seal means and said lower piston moves downwardly into actuating engagement with said slip means; and
  
  wherein said slip means is carried on a nut threadedly received in said one end of said main body, wherein said bore of said upper piston has an annular shoulder therein, and wherein said shoulder of said bore of said upper piston and a lower end face of said lower piston each include a threaded blind bore adapted to receive an extracting tool for removing said lower and upper pistons from said annular bore area when said nut is unthreaded from said main body.
- View Dependent Claims (15)
- - 15. A connector according to claim 14, and further including mechanical backup means disposed in said enlarged counterbore around said lower end of said upper piston and said midportion of said lower piston for moving into mechanical backup engagement with said upper and lower pistons when said upper and lower pistons have been actuated, substantially preventing downward movement of said upper piston and upward movement of said lower piston.

16. A connector for attaching a body to the end of a pipe, comprising:
- a main body having a bore in one end adapted for telescopic insertion over the end of the pipe, forming an annular bore area between the outside wall of the pipe and the wall of the bore;
  
  a nut threadedly received in said one end of said main body in said annular bore area, said nut having a tapered slip retaining and actuating surface around its inner periphery;
  
  a plurality of slip segments disposed on said slip retaining and actuating surface and circumferentially spaced apart about the pipe, said slip segments being movable from a first position supported away from said pipe by shear pins disposed between said slip segments and said nut to a second position in gripping engagement with the pipe;
  
  a pair of metal seal rings disposed around the pipe in the end of said annular bore area opposite from said slips for forming a metal-to-metal seal between said main body and the pipe when energized;
  
  an upper piston slidingly and sealingly disposed in said annular bore area between said metal seal rings and said slips and movable by application of pressurized fluid to said upper piston into energizing engagement with said metal seal rings, said upper piston including a lower end having a downwardly and outwardly facing camming surface around its outer periphery;
  
  a lower piston slidingly and sealingly disposed in said annular bore area between said upper piston and said slip segments and movable by application of said pressurized fluid to said lower piston into actuating engagement with said slip segments, shearing said shear pins and moving said slip segments into said second position, said lower piston including an annular shoulder having an upwardly and outwardly facing camming surface around its outer periphery;
  
  a plurality of lock ring segments disposed in said annular bore area and circumferentially spaced apart around said upper and lower pistons, each of said lock ring segments including an upper, upwardly and inwardly facing camming surface along its upper inner periphery and a lower, downwardly and inwardly facing camming surface along its lower inner periphery, said lock ring segments being movable radially inwardly and outwardly to move into or out of, respectively, wedging engagement with said pistons, said lock ring segments when in wedging engagement with said pistons preventing said upper piston from moving out of energizing engagement with said metal seal rings and preventing said lower piston from moving away from actuating engagement with said slip segments; and
  
  lockdown means disposed in and circumferentially spaced about said main body and extending into said annular bore area for engaging said lock ring segments and for actuating said lock ring segments radially inwardly and outwardly into and out of wedging engagement with said pistons.
- View Dependent Claims (17, 18, 19)
- - 17. A connector according to claim 16, and further including a threaded blind bore formed in said lower piston and a threaded blind bore formed in said upper piston, said bores adapted to receive an extracting tool for removing said lower and upper pistons from said annular bore area when said nut is unthreaded from said main body.
  - 18. A connector according to claim 17, and including a port communicating said annular bore area between said upper piston and said metal seal rings to the outside of said main body.
  - 19. A connector according to claim 16, wherein said metal seal rings comprise a pair of Canh seal rings.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Cooper Cameron Corporation (Schlumberger NV)
Original Assignee
Cooper Industries, Inc. (Eaton Corporation PLC.)
Inventors
Anderson, Alfred L., Sanchez, Christopher G.
Primary Examiner(s)
Arola, Dave W.

Application Number

US07/377,632
Time in Patent Office

1,208 Days
Field of Search

285/145, 285/920, 285/3, 285/4, 285/917, 285/18, 285/93, 285/3, 285/331, 285/144-148
US Class Current

285/3
CPC Class Codes

E21B 33/0422   a suspended tubing or casin...

F16L 17/10   the packing being sealed by...

Y10S 285/917   Metallic seals

Casing head connector

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

45 Citations

19 Claims

Specification

Solutions

Use Cases

Quick Links

Casing head connector

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

45 Citations

19 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links