초록 ▼

A downhole tool, such as a composite bridge plug, has a packing element disposed on a mandrel of the tool adjacent an activating element, such as a cone and slip arrangement. The packing element includes a packer and at least one backup ring. The packer is composed of packing material and is compres

A downhole tool, such as a composite bridge plug, has a packing element disposed on a mandrel of the tool adjacent an activating element, such as a cone and slip arrangement. The packing element includes a packer and at least one backup ring. The packer is composed of packing material and is compressible on the downhole tool at least in part due to the activating element. The at least one backup ring limits extrusion of the packer. The at least one backup ring is molded into the packing material at one end of the packer adjacent the activating element. Preferably, each end of the packer has at least two backup rings molded therein, and slots in the adjacent backup rings are preferably offset at the ends.

대표청구항 ▼

1. A downhole tool, comprising: a packer positioned on the downhole tool, the packer being composed of packing material and being compressible on the downhole tool;at least one first backup petal ring having petals separated by interstices; andat least one first backup slip ring having slip members

1. A downhole tool, comprising: a packer positioned on the downhole tool, the packer being composed of packing material and being compressible on the downhole tool;at least one first backup petal ring having petals separated by interstices; andat least one first backup slip ring having slip members separated by interstices and disposed adjacent the at least one first backup petal ring,the at least one first backup petal and slip rings being co-molded together directly into a first end of the packer with the packing material molded into the interstices, andthe at least one first backup petal and slip rings at least partially limiting extrusion of the packing material axially past the at least one first backup petal and slip rings beyond the first end of the packer. 2. The tool of claim 1, comprising: a mandrel on which the packer positions; andan activating element disposed on the mandrel and compressing the packer. 3. The tool of claim 1, wherein the interstices of the at least one first backup petal and slip rings define a plurality slots defined longitudinally therein and disposed about the at least one first backup petal and slip rings. 4. The tool of claim 3, wherein the slots of the at least first backup petal and slip rings are offset from one another. 5. The tool of claim 1, wherein at least a portion of the first end of the packer at least partially covers an exterior of the at least one first backup petal and slip rings. 6. The tool of claim 5, wherein the at least one first backup slip ring comprises an endwall exposed beyond the packing material. 7. The tool of claim 1, wherein the tool further comprises: a first cone disposed on the downhole tool adjacent the first end of the packer; anda first slip disposed on the downhole tool adjacent the first cone. 8. The tool of claim 7, further comprising at least one second element co-molded directly into the packing material at an opposite second end of the packer; and wherein the system further comprises: a second cone disposed on the downhole tool adjacent the at least one second element; anda second slip disposed on the downhole tool adjacent the cone. 9. The tool of claim 7, further comprising a second backup slip ring co-molded directly into the packing material at an opposite second end of the packer. 10. The tool of claim 1, wherein the at least one first backup slip ring comprises inserts disposed externally thereon. 11. The tool of claim 1, further comprising at least one backup wedge ring disposed adjacent the at least one first backup petal ring and co-molded directly into the packing material at the first end of the packer. 12. The tool of claim 1, further comprising at least one second element co-molded directly into the packing material at an opposite second end of the packer. 13. The tool of claim 12, wherein the at least one second element comprises at least one of: a second backup petal ring having petals separated by interstices; anda second backup slip ring having slip members separated by interstices and disposed adjacent the at least one first backup petal ring,the at least one second backup petal and slip rings being co-molded together directly into the packing material at the opposite second end of the packer. 14. The tool of claim 1, wherein the tool further comprises: at least one backup element disposed adjacent an opposite second end of the packer;a cone disposed on the downhole tool adjacent the at least one backup element; anda slip disposed on the downhole tool adjacent the cone. 15. A method of manufacturing a packing element for a downhole tool, the method comprising: positioning, adjacent one another in a mold, i) at least one first backup petal ring having petals separated by interstices and ii) at least one first backup slip ring having slip members separated by interstices;molding a packer of packing material in the mold together with the at least one first backup petal and slip rings; andadapting the at least one first backup petal and slip rings to at least partially limit extrusion of the packing material axially past the at least one first backup petal and slip rings beyond a first end of the packer by co-molding the at least one first backup petal and slip rings directly into the packing material at the first end of the packer with the packing material molded into the interstices. 16. The method of claim 15, wherein positioning the at least one first backup petal and slip rings in the mold comprises positioning the at least one first backup petal and slip rings in the mold with a plurality slots for the interstices disposed longitudinally around a circumference of the at least one first backup petal and slip rings. 17. The method of claim 16, wherein positioning the at least first backup petal and slip rings in the mold with the slots being offset from one another. 18. The method of claim 15, wherein molding the at least one first backup petal and slip rings directly into the packing material at the first end of the packer comprises molding at least a portion of the first end of the packer at least partially covering an exterior of the at least one first backup petal and slip rings. 19. The method of claim 18, wherein molding the at least one first backup petal and slip rings directly into the packing material at the first end of the packer comprises exposing an endwall of the at least one first backup petal and slip rings beyond the packing material. 20. The method of claim 15, wherein molding the at least one first backup petal and slip rings directly into the packing material at the first end of the packer comprises preparing a surface of the at least one first backup petal and slip rings by performing at least one of applying a bonding agent to the surface, performing surface treatment to the surface, and adding texture, holes, or roughness to the surface. 21. The method of claim 20, wherein preparing the surface of the at least one first backup petal and slip rings comprises only partially preparing the surface for bonding with the packing material. 22. The method of claim 15, further comprising positioning the packer on a mandrel of the downhole tool. 23. The method of claim 22, wherein positioning the packer on the mandrel of the downhole tool further comprises: positioning a cone on the downhole tool adjacent the at least one first backup petal and slip rings; andpositioning a slip disposed on the downhole tool adjacent the cone. 24. A downhole tool having a packer manufactured according to the method of claim 15. 25. The method of claim 15, further comprising positioning inserts externally on the at least one first backup slip ring. 26. The method of claim 15, further comprising positioning at least one backup wedge ring disposed adjacent the at least one first backup petal ring and co-molding directly into the packing material at the first end of the packer. 27. The method of claim 15, further comprising co-molding at least one second element directly into the packing material at an opposite second end of the packer.