초록 ▼

A configurable composite bridge plug apparatus and method for converting bridge plugs into frac plugs in the field of operation is disclosed. The bridge plug apparatus includes a body with a cylindrical hollow inner mandrel, an upper threaded end and a lower threaded end. A release ring with threads

A configurable composite bridge plug apparatus and method for converting bridge plugs into frac plugs in the field of operation is disclosed. The bridge plug apparatus includes a body with a cylindrical hollow inner mandrel, an upper threaded end and a lower threaded end. A release ring with threads disposed on an outer surface is attached to the upper threaded end. An upper restriction element and a lower restriction element plug both ends of the hollow inner mandrel so that flow is restricted in either directions. A stand-off pin holds the lower restriction element in place. A ball seat inserted proximally to the upper restriction element towards the upper threaded end. A cage retainer is attached to the ball seat with a ball. The configurable bridge plug transformed to a frac plug by removing the upper restriction element and the lower restriction element from the bridge plug.

대표청구항 ▼

1. A configurable composite bridge plug for use as a downhole tool in a wellbore casing, said plug comprising: (a) a body configured with a cylindrical hollow inner mandrel, an upper threaded end and a lower threaded end; said upper threaded end configured with inner threads disposed on an inner sur

1. A configurable composite bridge plug for use as a downhole tool in a wellbore casing, said plug comprising: (a) a body configured with a cylindrical hollow inner mandrel, an upper threaded end and a lower threaded end; said upper threaded end configured with inner threads disposed on an inner surface of said body;(b) a release ring configured with outer threads disposed on an outer surface of said release ring; said outer threads configured to be threaded into said inner threads;(c) an upper restriction element configured to plug an upper end of said hollow inner mandrel;(d) a lower restriction element configured to plug a lower end of said hollow inner mandrel;(e) a stand-off pin configured to restrain said lower restriction element in place;(f) a ball seat configured to be inserted in a cavity in said upper threaded end proximal to said upper restriction element, the release ring retaining the ball seat within the cavity;(g) a cage retainer configured to be mechanically coupled to said ball seat; and(h) a ball configured to seat in said ball seat;whereinsaid configurable bridge plug is configured to be transformed to a frac plug by removing said upper restriction element and said lower restriction element. 2. The configurable composite bridge plug of claim 1 wherein said configurable bridge plug is configured to be transformed to a ball-in-place frac plug by removing said lower restriction element, said upper restriction element, and said cage retainer. 3. The configurable composite bridge plug of claim 1 wherein said configurable bridge plug is configured to be transformed to a ball-drop frac plug by removing said lower restriction element, said upper restriction element, said cage retainer, and said ball. 4. The configurable composite bridge plug of claim 1 wherein said release ring is further configured with a reduced thickness section; said reduced thickness section is configured to be substantially adjacent to said outer threads; and said reduced thickness section is configured with a groove; wherein when said configurable composite bridge plug is set by a setting tool in said wellbore casing, said release ring shears at said groove in said reduced thickness section during removal of said setting tool. 5. The configurable composite bridge plug of claim 4 wherein outer threads enable the retention of said cage retainer and said ball seat. 6. The configurable composite bridge plug of claim 1 wherein said bridge plug is configured to isolate fluid communication upstream and downstream of said bridge plug. 7. The configurable composite bridge plug of claim 1 wherein said upper restriction element and said lower restriction element on either sides of said hollow inner mandrel keeps said bridge plug intact when exposed to downhole pressures expected in said wellbore casing. 8. The configurable composite bridge plug of claim 1 wherein said body is made from laminated material. 9. The configurable composite bridge plug of claim 1 wherein said frac plug is configured to enable fluid communication in at least one direction. 10. The configurable composite bridge plug of claim 1 wherein said body is made from a composite material; said material selected from a group comprising: cast iron, composite glass, Aluminum, Magnesium, G10, Carbon Fiber, or Fiber Glass. 11. The configurable composite bridge plug of claim 1 wherein said upper restriction element and said lower restriction element are made from a composite material; said composite material selected from a group comprising: cast iron, composite glass, Aluminum, Magnesium, G10, Carbon Fiber, or Fiber Glass. 12. A plug conversion method for converting a composite bridge plug into a caged ball frac plug, said bridge plug comprising: (a) a body configured with a cylindrical hollow inner mandrel, an upper threaded end and a lower threaded end; said upper threaded end configured with inner threads disposed on an inner surface of said body;(b) a release ring configured with outer threads disposed on an outer surface of said release ring; said outer threads configured to be threaded into said inner threads;(c) an upper restriction element configured to plug an upper end of said hollow inner mandrel;(d) a lower restriction element configured to plug a lower end of said hollow inner mandrel;(e) a stand-off pin configured to restrain said lower restriction element in place;(f) a ball seat configured to be inserted in a cavity in said upper threaded end proximal to said upper restriction element, the release ring retaining the ball seat within the cavity;(g) a cage retainer configured to be mechanically coupled to said ball seat; and(h) a ball configured to seat in said ball seat;wherein said method comprises the steps of:(1) shipping said bridge plug to a job location as one piece;(2) removing said lower restriction element;(3) removing said release ring;(4) removing said cage retainer, said ball and said ball seat;(5) removing said upper restriction element; and(6) re-installing said ball seat, said ball, said cage retainer and said release ring. 13. A plug conversion method for converting a composite bridge plug into a ball-in-place frac plug, said bridge plug comprising: (a) a body configured with a cylindrical hollow inner mandrel, an upper threaded end and a lower threaded end; said upper threaded end configured with inner threads disposed on an inner surface of said body;(b) a release ring configured with outer threads disposed on an outer surface of said release ring; said outer threads configured to be threaded into said inner threads;(c) an upper restriction element configured to plug an upper end of said hollow inner mandrel;(d) a lower restriction element configured to plug a lower end of said hollow inner mandrel;(e) a stand-off pin configured to restrain said lower restriction element in place;(f) a ball seat configured to be inserted in a cavity in said upper threaded end proximal to said upper restriction element, the release ring retaining the ball seat within the cavity;(g) a cage retainer configured to be mechanically coupled to said ball seat; and(h) a ball configured to seat in said ball seat;wherein said method comprises the steps of:(1) shipping said bridge plug to a job location as one piece;(2) removing said lower restriction element;(3) removing said release ring;(4) removing said cage retainer, said ball and said ball seat;(5) removing said upper restriction element; and(6) re-installing said ball seat, said ball, and said release ring. 14. A plug conversion method for converting a composite bridge plug into a ball-drop frac plug, said bridge plug comprising: (a) a body configured with a cylindrical hollow inner mandrel, an upper threaded end and a lower threaded end; said upper threaded end configured with inner threads disposed on an inner surface of said body;(b) a release ring configured with outer threads disposed on an outer surface of said release ring; said outer threads configured to be threaded into said inner threads;(c) an upper restriction element configured to plug an upper end of said hollow inner mandrel;(d) a lower restriction element configured to plug a lower end of said hollow inner mandrel;(e) a stand-off pin configured to restrain said lower restriction element in place;(f) a ball seat configured to be inserted in a cavity in said upper threaded end proximal to said upper restriction element, the release ring retaining the ball seat within the cavity;(g) a cage retainer configured to be mechanically coupled to said ball seat; and(h) a ball configured to seat in said ball seat; wherein said method comprises the steps of:(1) shipping said bridge plug to a job location as one piece;(2) removing said lower restriction element;(3) removing said release ring;(4) removing said cage retainer, said ball and said ball seat;(5) removing said upper restriction element; and(6) re-installing said ball seat and said release ring.