Claims
- 1. A tractor for moving within a borehole, comprising:
a tractor body sized and shaped to move within a borehole; a valve on said tractor body, said valve positioned along a flowpath between a source of fluid and a thrust-receiving portion of said body, said valve comprising:
a fluid port; and a flow restrictor having a first position in which said restrictor completely blocks fluid flow through said fluid port, a range of second positions in which said restrictor permits a first level of fluid flow through said fluid port, a third position in which said restrictor permits a second level of fluid flow through said fluid port, said second level of fluid flow being greater than said first level of fluid flow; a motor on said tractor body; and a coupler connecting said motor and said flow restrictor, such that movement of said motor causes said restrictor to move between said first position, said range of second positions, and said third position, said restrictor being movable by said motor such that the net thrust received by said thrust receiving portion can be altered by 100 pounds within 0.5 seconds.
- 2. A tractor for moving within a hole, comprising:
a tractor body having a plurality of thrust receiving portions; at least one valve on said tractor body positioned along at least one of a plurality of fluid flow paths between a source of fluid and said thrust receiving portions; a plurality of grippers, each of said plurality of grippers being longitudinally movably engaged with said body, each of said plurality of grippers having an actuated position in which said gripper limits movement of said gripper relative to an inner surface of said borehole and a retracted position in which said gripper permits substantially free relative movement of said gripper relative to said inner surface, said plurality of grippers, said plurality of thrust receiving portions and said valves being configured such said tractor can propel itself at a sustained rate of less than 50 feet per hour and at a sustained rate of greater than 100 feet per hour.
- 3. The tractor of claim 2, wherein said source of fluid has a differential pressure in the range of 200-2500 psi.
- 4. The tractor of claim 2, wherein said source of fluid has a differential pressure in the range of 500-1600 psi.
- 5. The tractor of claim 2, wherein said tractor can change the rate at which it propels itself without a change in differential pressure of said fluid.
- 6. The tractor of claim 2, wherein said tractor has a length of less than 150 feet.
- 7. The tractor of claim 2, wherein said tractor has a length of less than 100 feet.
- 8. The tractor of claim 2, wherein said tractor has a length of less than 75 feet.
- 9. The tractor of claim 2, wherein said tractor has a length of less than 50 feet.
- 10. The tractor of claim 2, wherein said tractor has a length of less than 40 feet.
- 11. The tractor of claim 2, wherein said tractor has a maximum diameter less than eight inches.
- 12. The tractor of claim 2, wherein said tractor has a maximum diameter less than six inches.
- 13. The tractor of claim 2, wherein said tractor has a maximum diameter less than four inches.
- 14. The tractor of claim 2, wherein said plurality of thrust receiving portions and said plurality of valves are configured to permit said tractor to move at a sustained rate of less than 30 feet per hour and at a sustained rate of greater than 100 feet per hour.
- 15. The tractor of claim 2, wherein said plurality of thrust receiving portions and said plurality of valves are configured to permit said tractor to move at a sustained rate of less than 10 feet per hour and at a sustained rate of greater than 100 feet per hour.
- 16. The tractor of claim 2, wherein said plurality of thrust receiving portions and said plurality of valves are configured to permit said tractor to move at a sustained rate of less than 5 feet per hour and at a sustained rate of greater than 100 feet per hour.
- 17. The tractor of claim 2, wherein said plurality of thrust receiving portions and said plurality of valves are configured to permit said tractor to move at a sustained rate of less than 50 feet per hour and at a sustained rate of greater than 250 feet per hour.
- 18. The tractor of claim 2, wherein said plurality of thrust receiving portions and said plurality of valves are configured to permit said tractor to move at a sustained rate of less than 50 feet per hour and at a sustained rate of greater than 500 feet per hour.
- 19. A tractor for moving within a borehole, comprising:
a tractor body having a thrust-receiving portion having a rear surface and a front surface; a spool valve comprising:
a valve body having a spool passage defining a spool axis, said valve body having fluid ports which communicate with said spool passage; and an elongated spool received within said spool passage and movable along said spool axis to control flowrates along fluid flow paths through said fluid ports and said spool passage, said spool having a first position range in which said valve permits fluid flow from a fluid source to said rear surface of said thrust-receiving portion and blocks fluid flow to said front surface, the flowrate of said fluid flow to said rear surface varying depending upon the position of said spool within said first position range, said fluid flow to said rear surface delivering downhole thrust to said body, the magnitude of said downhole thrust depending on the flowrate of said fluid flow to said rear surface, said spool having a second position range in which said valve permits fluid flow from said fluid source to said front surface of said thrust-receiving portion and blocks fluid flow to said rear surface, the flowrate of said fluid flow to said front surface varying depending upon the position of said spool within said second position range, said fluid flow to said front surface delivering uphole thrust to said body, the magnitude of said uphole thrust depending on the flowrate of said fluid flow to said front surface; a motor on said tractor body; a coupler connecting said motor and said spool so that operation of said motor causes said spool to move along said spool axis; and a gripper longitudinally movably engaged with said tractor body, said gripper having an actuated position in which said gripper limits movement of said gripper relative to an inner surface of said borehole and a retracted position in which said gripper permits substantially free relative movement of said gripper relative to said inner surface; wherein said motor is operable to move said spool along said spool axis sufficiently fast to alter the net thrust received by said thrust-receiving portion by 100 pounds within 2 seconds.
- 20. The tractor of claim 19, wherein said motor is operable to move said spool along said spool axis sufficiently fast to alter the net thrust received by said thrust-receiving portion by 100 pounds within 0.2 seconds.
- 21. The tractor of claim 19, wherein said motor is operable to move said spool along said spool axis sufficiently fast to alter the net thrust received by said thrust-receiving portion by 100 pounds within 0.1 seconds.
- 22. The tractor of claim 19, further comprising:
one or more sensors on said tractor body, configured to generate electrical feedback signals which describe one or more of fluid pressure in said tractor, the position of said tractor body with respect to said gripper, longitudinal load exerted on said tractor body by equipment external to said tractor or by inner walls of said borehole, and the rotational position of an output shaft of said motor, said output shaft controlling the position of said spool along said spool axis; and an electronic logic component on said tractor body, configured to receive and process said electrical feedback signals, said logic component configured to transmit electrical command signals to said motor; wherein said motor is configured to be controlled by said electrical command signals, said command signals controlling the position of said spool.
- 23. The tractor of claim 22, wherein said sensors include a first pressure sensor configured to measure fluid pressure on said rear side of said thrust-receiving portion of said tractor body, and a second pressure sensor configured to measure fluid pressure on said front side of said thrust-receiving portion.
- 24. The tractor of claim 22, wherein said sensors include a displacement sensor configured to measure the position of said thrust-receiving portion with respect to said gripper.
- 25. The tractor of claim 22, wherein said sensors include a rotary accelerometer configured to measure the angular velocity of said output shaft.
- 26. The tractor of claim 22, wherein said sensors include a potentiometer configured to measure the rotational position of said output shaft.
- 27. A tractor for moving within a borehole, comprising:
a tractor body sized and shaped to move within a borehole; and a valve on said tractor body, said valve positioned along a fluid flow path between a source of fluid and a thrust-receiving portion of said tractor body sized and configured to receive thrust from said fluid, said valve comprising:
a fluid port, said fluid flow path passing through said fluid port; and a flow-restricting body having one or more recesses on edges of said flow-restricting body, said flow-restricting body having a first range of positions in which said in which said flow-restricting body completely blocks fluid flow through said fluid port, a second range of positions in which said flow-restricting body permits fluid flow through said fluid port only through said recesses, and a third range of positions in which said flow-restricting body permits fluid flow through said fluid port at least partially outside of said recesses; wherein the flowrate of fluid flowing along said fluid flow path is controllable by controlling the position of said flow-restricting body within said first, second, and third ranges of positions.
- 28. The tractor of claim 27, further comprising:
a motor on said tractor body; and a coupler connecting said motor and said flow-restricting body so that operation of said motor causes said flow-restricting body to move within said first, second, and third ranges of positions; wherein said motor is operable to move said flow-restricting body sufficiently fast to alter the net thrust received by said thrust-receiving portion by 100 pounds within 2 seconds.
- 29. The tractor of claim 28, wherein said motor is operable to move said flow-restricting body sufficiently fast to alter the net thrust received by said thrust-receiving portion by 100 pounds within 0.1 seconds.
- 30. A tractor for moving within a borehole, comprising:
a tractor body sized and shaped to move within a borehole; and a valve on said tractor body, said valve positioned along a fluid flow path between a source of fluid and a thrust-receiving portion of said tractor body, said thrust-receiving portion sized and configured to receive thrust from said fluid, said valve comprising:
a valve body having an elongated spool passage defining a spool axis, said valve body having first and second fluid ports which communicate with said spool passage, said fluid flow path passing through said spool passage and through said first and second fluid ports; and an elongated valve spool received within said spool passage and movable along said spool axis, said spool having a flow-restricting segment defining a first chamber within said spool passage on a first end of said flow-restricting segment and a second chamber within said spool passage on a second end of said flow-restricting segment, said flow-restricting segment having an outer radial surface configured to slide along inner walls of said spool passage so as to fluidly seal said first chamber from said second chamber, said flow-restricting segment having one or more recesses on one of said first and second ends and on said outer radial surface, said spool having a first range of positions in which said flow-restricting segment completely blocks fluid flow through said first fluid port, a second range of positions in which said flow-restricting segment permits fluid flow through said first fluid port only through said recesses, and a third range of positions in which said flow-restricting segment permits fluid flow through said first fluid port at least partially outside of said recesses; wherein the flowrate of fluid flowing along said fluid flow path is controllable by controlling the position of said valve spool within said first, second, and third ranges of positions.
- 31. The tractor of claim 30, wherein a collective cross-sectional area of said recesses is defined by the intersection of a transverse plane with said recesses, said transverse plane being generally perpendicular to said spool axis, said cross-sectional area of said recesses having a maximum value at an end of said flow-restricting segment.
- 32. The tractor of claim 31, wherein said cross-sectional area of said recesses decreases to zero as said recesses extend toward a longitudinal midpoint of said flow-restricting segment.
- 33. The tractor of claim 30, wherein said recesses are generally pyramid-shaped.
- 34. The tractor of claim 30, wherein the position of said valve spool is controllable by logic componentry on said tractor body.
- 35. The tractor of claim 34, wherein said logic componentry transmits command signals to a motor controlling the position of said valve spool.
- 36. The tractor of claim 35, wherein said logic componentry receives and processes pressure signals from pressure sensors on said tractor body.
- 37. The tractor of claim 36, wherein one of said pressure signals is the pressure of fluid flowing along said fluid flow path from said valve to said thrust-receiving portion.
- 38. The tractor of claim 35, wherein said logic componentry receives and processes position signals from position sensors on said tractor body.
- 39. The tractor of claim 35, further comprising a traverse mechanism converting rotation of an output shaft of said motor into translation of said valve spool generally along said spool axis, wherein said logic componentry receives and processes signals from a motor output sensor measuring the rotation of said output shaft.
- 40. The tractor of claim 39, wherein said motor output sensor comprises one of a rotary accelerometer and a potentiometer.
- 41. The tractor of claim 39, wherein said traverse mechanism comprises:
a threaded leadscrew coupled to said output shaft; a leadscrew housing enclosing said leadscrew, said leadscrew housing having an elongated slot generally parallel to said leadscrew; a leadscrew nut threadingly engaged with said leadscrew, said leadscrew nut having a key engaged within said slot of said leadscrew housing; and a stem having a first end coupled to said leadscrew nut and a second end coupled to said valve spool; wherein rotation of said leadscrew causes said leadscrew nut to rotate with respect to said leadscrew and translate along said leadscrew due to the engagement of said key within said slot.
- 42. A tractor for moving within a borehole, comprising:
a body; a valve on said body, said valve being positioned along a fluid flow path from a source of a first fluid to a thrust-receiving portion of said body, said valve being movable generally along a valve axis, said valve having a first position in which said valve completely blocks fluid flow along said flow path and a second position in which said valve permits fluid flow along said flow path; a motor on said body; a coupler connecting said motor and said valve so that operation of said motor causes said valve to move along said valve axis; and a pressure compensation piston exposed on a first side to said first fluid and on a second side to a second fluid, said first and second fluids being fluidly separate, said piston configured to move in response to pressure forces from said first and second fluids so as to effectively equalize the pressure of said first and second fluids; wherein said valve is exposed to said first fluid, said motor being exposed to said second fluid.
- 43. The tractor of claim 42, wherein said first fluid comprises drilling mud and said second fluid comprises oil.
- 44. A tractor for moving within a borehole, comprising:
an elongated body; an elongated mandrel longitudinally movably engaged with said body; and a gripper assembly, comprising:
an inflatable bladder on said mandrel; and one or more elongated beams having first ends fixed to said mandrel on a first end of said bladder and second ends longitudinally movably engaged with said mandrel on a second end of said bladder; wherein said bladder has an inflated position in which said bladder or said beams limit movement of said gripper assembly relative to an inner surface of said borehole, and a deflated position in which said bladder or said beams permit substantially free relative movement between said gripper assembly and said inner surface, said beams being configured to flex radially outward to grip said inner surface when said bladder is in said inflated position, said beams being configured to transmit torque from within said body to said inner surface of said borehole.
- 45. The tractor of claim 44, wherein said bladder is configured to apply a radially outward force onto said beams when said bladder is in said inflated position, which causes said beams to flex outward and grip said inner surface of said borehole.
- 46. The tractor of claim 44, wherein said mandrel is non-rotatably engaged with said body so that said body is prevented from rotating with respect to said inner surface of said borehole when said bladder is in said inflated position.
- 47. The tractor of claim 44, wherein said first ends of said beams are hingedly secured to said mandrel, said second ends of said beams being hingedly secured to a shuttle configured to slide longitudinally on said mandrel, said shuttle being non-rotatable with respect to said mandrel.
- 48. A tractor for moving within a borehole, comprising:
an elongated body configured to pull equipment within said borehole, said equipment exerting a longitudinal load on said body; a gripper longitudinally movably engaged with said body, said gripper having an actuated position in which said gripper limits movement between said gripper and an inner surface of said borehole, and a retracted position in which said gripper permits substantially free relative movement between said gripper and said inner surface; and a propulsion system on said body for propelling said body through said borehole while said gripper is in said actuated position; wherein said body is sufficiently flexible such that said tractor can turn up to 30° per 100 feet of travel, while said longitudinal load is at least 5250 pounds.
- 49. The tractor of claim 48, wherein said body is sufficiently flexible such that said tractor can turn up to 45° per 100 feet of travel, while said longitudinal load is at least 5250 pounds.
- 50. The tractor of claim 48, wherein said body is sufficiently flexible such that said tractor can turn up to 60° per 100 feet of travel, while said longitudinal load is at least 5250 pounds.
- 51. The tractor of claim 48, wherein said tractor has large diameter segments and small diameter segments, said large diameter segments including one or more of a valve housing having valves configured to control the flow of fluid to components of said propulsion system, a motor housing having motors configured to control said valves, an electronics housing having logic componentry configured to control said motors, one or more propulsion chambers configured to receive fluid to propel said body, pistons axially movable within said propulsion chambers, and said gripper, said large diameter segments having a diameter of at least 3.125 inches, substantially all of the bending of said tractor occurring in said small diameter segments.
- 52. The tractor of claim 48, wherein said body has a diameter of at least 1 inch.
- 53. The tractor of claim 48, wherein said tractor has a length of at least 10 feet.
- 54. The tractor of claim 48, wherein said pistons are fixed to said body and movable along a stroke length inside said propulsion chambers, said stroke length being at least 10 inches.
- 55. The tractor of claim 48, wherein the total length of said large diameter segments comprises at least 50%-80% of the length of said tractor.
- 56. The tractor of claim 48, wherein the flexibility of said tractor is such that said tractor can bend so as to turn up to 60° per 100 feet of travel, while said longitudinal load is as high as 10,500 pounds.
- 57. The tractor of claim 48, wherein said body has longitudinal boreholes for transporting fluid through said body, said boreholes being gun-drilled.
- 58. The tractor of claim 48, wherein said body comprises an outer cylinder and an inner cylinder diffusion-bonded together, one of said cylinders having longitudinal interruptions so that longitudinal passages are formed between said cylinders, said longitudinal passages being configured to transport fluid through said body.
- 59. The tractor of claim 48, wherein said large diameter segments include said propulsion chambers and said pistons inside said propulsion chambers, said pistons being fixed to said body, each of said pistons surrounding a segment of said body and having an annular surface generally perpendicular to said body, said annular surface being configured to receive thrust from a fluid flowing to said piston, said pistons having a diameter of at least 1.5 inches.
- 60. The tractor of claim 48, wherein said gripper has a length of at least 10 inches.
- 61. A tractor for moving within a borehole, comprising:
an elongated body defining a longitudinal axis and being configured to transmit torque through said body, said body configured so that when said body is subjected to a torque about said longitudinal axis of as high as 500 ft-lbs, twisting of said body is limited to 5° per step of the tractor; a first gripper axially movably engaged with said body, said first gripper having an actuated position in which said first gripper limits movement of said first gripper relative to an inner surface of said borehole and a retracted position in which said first gripper permits substantially free relative movement between said first gripper and said inner surface, said first gripper being rotationally fixed with respect to said body so that said first gripper resists rotation of said body with respect to said borehole when said first gripper is in said actuated position; a second gripper axially movably engaged with said body, said second gripper having an actuated position in which said second gripper limits movement of said second gripper relative to an inner surface of said borehole and a retracted position in which said second gripper permits substantially free relative movement between said second gripper and said inner surface, said second gripper being rotationally fixed with respect to said body so that said second gripper resists rotation of said body with respect to said borehole when said second gripper is in said actuated position; and a propulsion system on said body, for propelling said body when at least one of said grippers is in said actuated position; wherein said body is sufficiently flexible such that said tractor can turn up to 60° per 100 feet of travel.
- 62. The tractor of claim 61, said tractor having large diameter segments and small diameter segments, said large diameter segments including one or more of a valve housing having valves configured to control the flow of fluid to components of said propulsion system, a motor housing having motors configured to control said valves, an electronics housing having logic componentry configured to control said motors, one or more propulsion chambers configured to receive fluid to propel said body, pistons axially movable within said propulsion chambers, and said grippers, said large diameter segments having a diameter of at least 3.125 inches, said small diameter segments having a diameter of 2.05 inches or less, substantially all of the bending of said tractor occurring in said small diameter segments.
- 63. The tractor of claim 61, wherein said body has a diameter of at least 1 inch.
- 64. The tractor of claim 61, wherein said grippers are configured to transmit a torque of up to 500 ft-lbs to said borehole.
- 65. The tractor of claim 61, wherein each of said grippers comprises:
a generally tubular mandrel concentrically slidably engaged on said body, said mandrel having one or more longitudinal grooves engaged on splines on the outer surface of said body so that said mandrel is prevented from rotating with respect to said body; and an inflatable bladder fixed to said mandrel.
- 66. The tractor of claim 65, wherein each of said grippers further comprises one or more flexible beams extending longitudinally across said bladder, said beams configured to flex and grip said inner surface of said borehole when said bladder is inflated, said beams being configured to transmit torque from said body to said inner surface of said borehole.
- 67. A tractor for moving within a borehole, comprising an elongated body and a packerfoot, said packerfoot comprising:
an elongated mandrel longitudinally movably engaged on said body; and a generally tubular bladder assembly concentrically engaged on said mandrel, said bladder assembly comprising:
a generally tubular inflatable bladder having a radial exterior; a first mandrel engagement member attached to a first end of said bladder and engaged with said mandrel; a second mandrel engagement member attached to a second end of said bladder and engaged with said mandrel; a plurality of longitudinally oriented flexible beams on said radial exterior of said bladder, said beams having first ends at said first end of said bladder and second ends at said second end of said bladder, said beams configured to flex and grip onto a borehole when said bladder is inflated; a first band securing said first ends of said beams against said first mandrel engagement member; and a second band securing said second ends of said beams against said second mandrel engagement member.
- 68. The tractor of claim 66, wherein said mandrel is non-rotatably engaged on said body.
- 69. The tractor of claim 68, wherein said body includes longitudinally oriented splines, said mandrel having longitudinal inner grooves which receive said splines so that said mandrel is longitudinally movable with respect to said body, said splines preventing rotation of said mandrel with respect to said body.
- 70. The tractor of claim 66, wherein said first mandrel engagement member is fixed to said mandrel and said second mandrel engagement member is longitudinally slidably engaged with said mandrel, said second tube portion being non-rotatable with respect to said mandrel.
- 71. A tractor for moving within a borehole, comprising:
an elongated body defining a longitudinal axis; and an inflatable bladder longitudinally movably engaged with said body, said bladder formed from an elastomeric material reinforced by fibers arranged in a cross-ply arrangement, said bladder having an inflated position in which said bladder limits movement of said bladder relative to an inner surface of said borehole, and a deflated position in which said bladder permits substantially free relative movement between said bladder and said inner surface.
- 72. The tractor of claim 71, wherein said fibers are oriented in two general directions crossing one another at an angle of between 7° and 30°.
- 73. The tractor of claim 71, wherein each of said two general directions are within 30° of said longitudinal axis.
- 74. The tractor of claim 71, wherein said fibers comprise S-glass fibers.
- 75. The tractor of claim 71, wherein said elastomeric material comprises one of NBR and AFLAS.
- 76. An inflatable engagement bladder for use in a tractor for moving within a borehole, said bladder comprising an elastomeric material reinforced by fibers oriented in two general directions crossing one another at an angle of between 0° and 60°, said bladder having an inflated position in which said bladder limits movement of said bladder relative to an inner surface of said borehole, and a deflated position in which said bladder permits substantially free relative movement between said bladder and said inner surface.
- 77. A set of two or more connected tractors for moving within a borehole, comprising a logic component and said tractors, each of said tractors comprising:
an elongated tractor body having first and second thrust-receiving portions, each thrust receiving portion having a first surface and a second surface generally opposing said first surface; a first gripper longitudinally movable with respect to said first thrust-receiving portion, said first gripper having an actuated position in which said first gripper limits movement of said first gripper relative to an inner surface of said borehole and a retracted position in which said first gripper permits substantially free relative movement between said first gripper and said inner surface; a second gripper longitudinally movable with respect to said second thrust-receiving portion, said second gripper having an actuated position in which said second gripper limits movement of said second gripper relative to said inner surface and a retracted position in which said second gripper permits substantially free relative movement between said second gripper and said inner surface; one or more valves on said tractor body controlling:
a first flowrate, said first flowrate being the flowrate of fluid flowing to and imparting thrust to said first surface of said first thrust-receiving portion; a second flowrate, said second flowrate being the flowrate of fluid flowing to and providing thrust to said second surface of said first thrust-receiving portion; a third flowrate, said third flowrate being the flowrate of fluid flowing to and providing thrust to said first surface of said second thrust-receiving portion; a fourth flowrate, said fourth flowrate being the flowrate of fluid flowing to and providing thrust to said second surface of said second thrust-receiving portion; actuation and retraction of said first gripper; and actuation and retraction of said second gripper; and wherein said logic component controls said valves of said tractors so as to actuate and retract one or more of said first grippers simultaneously, and also to actuate and retract one or more of said second grippers simultaneously.
- 78. The set of tractors of claim 77, wherein said valves are controlled by motors, said logic component configured to transmit electronic command signals to said motors, said motors being controlled by said electronic command signals.
- 79. The set of tractors of claim 78, wherein each of said tractors includes sensors on said tractor body, said sensors comprising one or more of:
position sensors sensing the positions of said thrust-receiving portions with respect to said grippers; pressure sensors sensing the pressures of said first, second, third, and fourth flowrates; and one of rotary accelerometers or potentiometers sensing the output of said motors; wherein said sensors are configured to transmit electronic signals to said logic component.
- 80. The set of tractors of claim 77, wherein said logic component resides within one of said tractors.
- 81. The set tractors of claim 77, wherein each of said tractors has a logic component receiving at least one of pressure and displacement signals from sensors on the tractor, all of said logic components communicating said signals to each other.
- 82. The set of tractors of claim 77, wherein one of said tractors is configured to sustain speeds roughly between 1 and 150 feet per hour, and another of said tractors is configured to sustain speeds roughly between 10 to 750 feet per hour.
- 83. The set of tractors of claim 77, wherein one of said tractors is configured to sustain speeds roughly between 1 and 750 feet per hour, and another of said tractors is configured to sustain speeds roughly between 750 to 1500 feet per hour.
- 84. The set of tractors of claim 77, wherein said logic component communicates with a control unit spaced from said set of tractors.
RELATED APPLICATIONS
[0001] This application is a continuation of application Ser. No. 09/916,478, filed Jul. 26, 2001, which is a continuation of application Ser. No. 09/453,996, filed Dec. 3, 1999, now U.S. Pat. No. 6,347,674, which claims priority from abandoned Provisional Application Serial No. 60/112,733, filed Dec. 18, 1998, abandoned Provisional Application Serial No. 60/129,503, filed Apr. 15, 1999, and abandoned Provisional Application Serial No. 60/168,790, filed Dec. 2, 1999.
Provisional Applications (3)
|
Number |
Date |
Country |
|
60112733 |
Dec 1998 |
US |
|
60129503 |
Apr 1999 |
US |
|
60168790 |
Dec 1999 |
US |
Continuations (2)
|
Number |
Date |
Country |
Parent |
09916478 |
Jul 2001 |
US |
Child |
10290069 |
Nov 2002 |
US |
Parent |
09453996 |
Dec 1999 |
US |
Child |
09916478 |
Jul 2001 |
US |