Coring tools including core sample flap catcher and related methods

What is claimed is: 1. A coring tool for obtaining a core sample from a subterranean formation, the coring tool comprising a core sample catcher and an inner barrel configured to receive a core sample, the core sample catcher comprising: at least one flap catcher member movably coupled to the inner barrel of the coring tool, the at least one flap catcher member configured to move between a first position and a second position, a passageway extending through the inner barrel being at least substantially un-occluded by the at least one flap catcher member in the first position and at least partially occluded by the at least one flap catcher member in the second position; and a piston member comprising a central bore disposed in the passageway of the coring tool, the piston member located and configured to retain the at least one flap catcher member in the first position, the piston member sized and configured to be forced upward within the inner barrel by the core sample and release the retention of the at least one flap catcher member in the first position by the piston member as the core sample is received within the inner barrel. 2. The core sample catcher of claim 1 , wherein the piston member comprises one or more apertures in a wall of the piston member to allow at least a portion of a drilling fluid flowing through the central bore to flush an exterior surface of the piston member. 3. The core sample catcher of claim 1 , further comprising a spring member configured to bias the at least one flap catcher member toward the second position. 4. The core sample catcher of claim 3 , wherein the spring member comprises a portion of the flap catcher member. 5. The core sample catcher of claim 1 , further comprising a core catcher disposed inside the inner barrel. 6. The core sample catcher of claim 5 , wherein at least a portion of the piston member is disposed at least partly within a portion of the core catcher prior to beginning a coring operation. 7. The core sample catcher of claim 1 , wherein the at least one flap catcher member and the piston member have interacting features configured to prevent the piston member from moving in a downward direction. 8. A coring tool for use in obtaining a core sample from an earth formation within a wellbore, comprising: a core bit; an outer tubular member coupled to the core bit and an inner barrel rotationally secured within the outer tubular member above the core bit, the inner barrel configured to receive a formation core sample therein as the core sample is formed by the core bit as the core bit drills through an earth formation; and a core sample catcher coupled to the inner barrel proximate the lower end of the inner barrel, the core sample catcher comprising: at least one flap catcher member movably coupled to the inner barrel, the at least one flap catcher member configured to move between a first position and a second position, a passageway extending through the inner barrel being at least substantially un-occluded by the at least one flap catcher member in the first position and at least partially occluded by the at least one flap catcher member in the second position; and a piston member comprising a central bore disposed in the passageway of the coring tool, the piston member located and configured to retain the at least one flap catcher member in the first position, the piston member sized and configured to be forced upward within the inner barrel by the core sample and release the retention of the at least one flap catcher member in the first position by the piston member as the core sample is received within the inner barrel. 9. The coring tool of claim 8 , wherein the piston member comprises one or more apertures in a wall of the piston to allow at least a portion of a drilling fluid flowing through the central bore to flush an exterior surface of the piston member. 10. The coring tool of claim 8 , further comprising a spring member configured to bias the at least one flap catcher member toward the second position. 11. The coring tool of claim 10 , wherein the spring member comprises a portion of the flap catcher member. 12. The coring tool of claim 8 , wherein the core sample catcher further comprises a core catcher disposed inside the inner barrel. 13. The coring tool of claim 12 , wherein the piston member is disposed at least partly within a portion of the core catcher prior to beginning a coring operation. 14. The coring tool of claim 9 , wherein the at least one flap catcher member and the piston member have interacting features configured to prevent the piston member from moving downward through the inner barrel. 15. A method of forming a core sample catcher for use with a coring tool for obtaining a core sample from a subterranean formation, the method comprising: movably coupling at least one flap catcher member to an inner barrel such that the at least one flap catcher member is configured to move between a first position and a second position, a passageway extending through the inner barrel being at least substantially un-occluded by the at least one flap catcher member in the first position and at least partially occluded by the at least one flap catcher member in the second position; and disposing a piston member within the coring tool, to retain the at least one flap catcher member in the first position using the piston member, the piston member comprising a central bore in the passageway of the coring tool, the piston member sized and configured to be forced upward within the inner barrel by the core sample and release the retention of the at least one flap catcher member in the first position by the piston member as the core sample is received within the inner barrel. 16. The method of claim 15 , further comprising providing a core catcher within the inner barrel. 17. The method of claim 16 , further comprising disposing the piston member at least partly inside the core catcher. 18. The method of claim 17 , wherein disposing the piston member at least partly inside the core catcher comprises elastically increasing an inside diameter of the core catcher by interference between the piston member and the inside diameter of the core catcher.