A radial lip seal for use with roller cone drill bits is at least partially collapsed and held in place when the drill bit is subjected to hydrostatic pressure in the well bore when performing drilling operations. The drill bit and seal cooperate to form at least one void intentionally established b
A radial lip seal for use with roller cone drill bits is at least partially collapsed and held in place when the drill bit is subjected to hydrostatic pressure in the well bore when performing drilling operations. The drill bit and seal cooperate to form at least one void intentionally established between the outer surface of a seal recess in the bit and the outer surface of the lip seal. The drill bit has a spindle and a rolling cutter positioned around the spindle. The seal recess is formed in the rolling cutter and has an outer surface to carry the lip seal.
대표청구항▼
What is claimed: 1. A drill bit, comprising: a spindle; a rolling cutter positioned around said spindle, said rolling cutter having a seal recess formed therein, said seal recess having an outer surface; and a lip seal positioned in said seal recess and around said spindle, wherein a single void is
What is claimed: 1. A drill bit, comprising: a spindle; a rolling cutter positioned around said spindle, said rolling cutter having a seal recess formed therein, said seal recess having an outer surface; and a lip seal positioned in said seal recess and around said spindle, wherein a single void is established between said outer surface of said seal recess and an outer surface of said lip seal and said lip seal and said seal recess are sized and configured to provide an interference fit between said lip seal and said seal recess when said lip seal is positioned in said seal recess. 2. The drill bit of claim 1, wherein said seal recess has a generally rectangular cross-sectional configuration. 3. The drill bit of claim 1, wherein said outer surface of said seal recess is comprised of a flat surface. 4. The drill bit of claim 1, wherein said outer surface of said seal recess is comprised of at least one concave surface. 5. The drill bit of claim 1, wherein said seal recess further comprises a plurality of corners and said lip seal is comprised of a plurality of protrusions, said protrusions adapted to at least partially engage said corners of said seal recess when said lip seal is positioned in said seal recess. 6. The drill bit of claim 1, wherein said seal recess further comprises a plurality of radiused corners and said lip seal is comprised of a plurality of radiused protrusions, said radiused protrusions adapted to engage said radiused corners of said seal recess when said lip seal is positioned in said seal recess. 7. The drill bit of claim 1, wherein said outer surface of said lip seal is comprised of at least one concave surface. 8. The drill bit of claim 1, wherein said outer surface of said lip seal is comprised of a flat surface. 9. The drill bit of claim 1, wherein said outer surface of said lip seal is comprised of at least one concave surface having a radius of curvature. 10. The drill bit of claim 1, wherein said outer surface of said lip seal is comprised of a plurality of radiused protrusions and a radiused concave surface positioned between said radiused protrusions. 11. The drill bit of claim 1, wherein said at least one void is adapted to be at least partially collapsed when said drill bit is subjected to hydrostatic pressure in a well bore. 12. The drill bit of claim 1, wherein said at least one void is adapted to be at least partially collapsed when said drill bit is subjected to hydrostatic pressure in a well bore and thereby create at least an axial force when said at least one void is at least partially collapsed that tends to secure said lip seal in said seal recess. 13. The drill bit of claim 1, wherein said lip seal is comprised of an elastomeric material. 14. The drill bit of claim 1, wherein said at least one void has a volumetric size that ranges from approximately 0.5-15% of a volumetric size of said lip seal. 15. The drill bit of claim 1, wherein said at least one void has a volumetric size that ranges from approximately 2-6% of a volumetric size of said lip seal. 16. The drill bit of claim 1, wherein said at least one void baa a volumetric size of approximately 4% of a volumetric size of said lip seal. 17. A drill bit, comprising: a spindle; a rolling cutter positioned around said spindle, said rolling cutter having a seal recess formed therein, said seal recess having an outer surface; and a lip seal positioned in said seal recess and around said spindle, said lip seal and said seal recess being sized and configured to provide art interference fit between said lip seal and said seal recess when said lip seal is positioned in said seal recess, wherein a single void is established between said outer surface of said seal recess and an outer surface of said lip seal, said at least one void being adapted to be at least partially collapsed when said drill bit is subjected to hydrostatic pressure in a well bore. 18. The drill bit of claim 17, wherein said seal recess has a generally rectangular cross-sectional configuration. 19. The drill bit of claim 17, wherein said outer surface of said seal recess is comprised of a flat surface. 20. The drill bit of claim 17, wherein said outer surface of said seal recess is comprised of at least one concave surface. 21. The drill bit of claim 17, wherein said seal recess further comprises a plurality of corners and said lip seal is comprised of a plurality of protrusions, said protrusions adapted to at least partially engage said corners of said seal recess when said lip seal is positioned in said seal recess. 22. The drill bit of claim 17, wherein said seal recess further comprises a plurality of radiused corners and said lip seal is comprised of a plurality of radiused protrusions, said radiused protrusions adapted to engage said radiused corners of said seal recess when said lip seal is positioned in said seal recess. 23. The drill bit of claim 17, wherein said outer surface of said lip seal is comprised of at least one concave surface. 24. The drill bit of claim 17, wherein said outer surface of said lip seal is comprised of a flat surface. 25. The drill bit of claim 17, wherein said outer surface of said lip seal is comprised of at least one concave surface having a radius of curvature. 26. The drill bit of claim 17, wherein said outer surface of said lip seal is comprised of a plurality of radiused protrusions and a radiused concave surface positioned between said radiused protrusions. 27. The drill bit of claim 17, wherein said at least one void is adapted to create at least an axial force when said at least one void is at least partially collapsed that tends to secure said lip seal in said seal recess. 28. The drill bit of claim 17, wherein said lip seal is comprised of an elastomeric material. 29. The drill bit of claim 17, wherein said at least one void has a volumetric size that ranges from approximately 0.5-15% of a volumetric size of said lip seal. 30. The drill bit of claim 17, wherein said at least one void has a volumetric size that ranges from approximately 2-6% of a volumetric size of said lip seal. 31. The drill bit of claim 17, wherein said at least one void has a volumetric size of approximately 4% of a volumetric size of said lip seal. 32. A drill bit, comprising: a spindle; a rolling cutter positioned around said spindle, said rolling cutter having a seal recess formed therein, said seal recess having an outer surface and a plurality of corners; and a lip seal positioned in said seal recess and around said spindle, said lip seal having at least one outer concave surface and a plurality of protrusions positioned proximate said outer concave surface, wherein said protrusions are adapted to at least partially engage said corners of said seal recess when said lip seal is positioned in said seal recess, and wherein a single void is established between said outer surface of said seal recess and said at least one outer concave surface of said lip seal. 33. The drill bit of claim 32, wherein said lip seal and said seal recess are sized and configured to provide an interference fit between said lip seal and said seal recess when said lip seal is positioned in said seal recess. 34. The drill bit of claim 32, wherein said seal recess has a generally rectangular cross-sectional configuration. 35. The drill bit of claim 32, wherein said outer surface of said seal recess is comprised of a flat surface. 36. The drill bit of claim 32, wherein said plurality of corners in said seal recess are radiused corners, and wherein said protrusions on said lip seal are radiused protrusions. 37. The drill bit of claim 32, wherein said at least one outer concave surface of said lip seal has a radius of curvature. 38. The drill bit of claim 32, wherein said at least one void is adapted to be at least partially collapsed when said drill bit is subjected to hydrostatic pressure in a well bore. 39. The drill bit of claim 32, wherein said at least one void is adapted to be at least partially collapsed when said drill bit is subjected to hydrostatic pressure in a well bore and thereby create at least an axial force when said at least one void is at least partially collapsed that tends to secure said lip seal in said seal recess. 40. The drill bit of claim 32, wherein said lip seal is comprised of an elastomeric material. 41. The drill bit of claim 32, wherein said at least one void has a volumetric size that ranges from approximately 0.5-15% of a volumetric size of said lip seal. 42. The drill bit of claim 32, wherein said at least one void has a volumetric size that ranges from approximately 2-6% of a volumetric size of said lip seal. 43. The drill bit of claim 32, wherein said at least one void has a volumetric size of approximately 4% of a volumetric size of said lip seal. 44. A methods comprising: providing a drill bit comprised of: a spindle; a rolling cutter positioned around said spindle, said rolling cutter having a seal recess formed therein, said seal recess having an outer surface; and a lip seal positioned in said seal recess and around said spindle, wherein a single void is established between said outer surface of said seal recess and an outer surface of said lip seal, and wherein said lip seal and said seal recess are sized and configured to provide an interference fit between said lip seal and said seal recess when said lip seal is positioned in said seal recess; positioning said drill bit in a well bore wherein said at least one void is at least partially collapsed when said drill bit is subjected to hydrostatic pressure in said well bore; and performing drilling operations with said drill bit. 45. The method of claim 44, wherein said seal recess has a generally rectangular cross-sectional configuration. 46. The method of claim 44, wherein said outer surface of said seal recess is comprised of a flat surface. 47. The method of claim 44, wherein said outer surface of said seal recess is comprised of at least one concave surface. 48. The method of claim 44, wherein said seal recess further comprises a plurality of corners and said lip seal is comprised of a plurality of protrusions, said protrusions adapted to at least partially engage said corners of said seal recess when said lip seal is positioned in said seal recess. 49. The method of claim 44, wherein said seal recess further comprises a plurality of radiused corners and said lip seal is comprised of a plurality of radiused protrusions, said radiused protrusions adapted to engage said radiused corners of said seal recess when said lip seal is positioned in said seal recess. 50. The method of claim 44, wherein said outer surface of said lip seal is comprised of at least one concave surface. 51. The method of claim 44, wherein said outer surface of said lip seal is comprised of a flat surface. 52. The method of claim 44, wherein said outer surface of said lip seal is comprised of at least one concave surface having a radius of curvature. 53. The method of claim 44, wherein said outer surface of said lip seal is comprised of a plurality of radiused protrusions and a radiused concave surface positioned between said radiused protrusions. 54. The method of claim 44, wherein when said at least one void is at least partially collapsed, at least an axial force is created that tends to secure said lip seal in said seal recess. 55. The method of claim 44, wherein said lip seal is comprised of an elastomeric material. 56. The method of claim 44, wherein said at least one void has a volumetric size that ranges from approximately 0.5-15% of a volumetric size of said lip seal. 57. The method of claim 44, wherein said at least one void has a volumetric size that ranges from approximately 2-6% of a volumetric size of said lip seal. 58. The method of claim 44, wherein said at least one void has a volumetric size of approximately 4% of a volumetric size of said lip seal.
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