Claims
- 1. A directional drilling assembly for use in drilling a curved or a straight borehole, comprising:
- a bent housing having an upper section and a lower section; a bit mounted below said lower section thereof; a mud flow operated motor in said upper section for rotating said bit; a tubular housing coupled to said upper section of said bent housing for rotation relative thereto; and remote controlled means comprising an electric motor in said tubular housing for rotating said bent housing to an angular orientation relative thereto that provides a selected tool face angle for said bit.
- 2. The assembly of claim 1 wherein said electric motor has an output shaft and reduction gear means connecting to said output shaft for causing rotation of said bent housing.
- 3. The assembly of claim 2 further including means including a string of coiled tubing for suspending said drilling assembly in a borehole, and an electric cable in said coiled tubing for supplying power to said electric motor to remotely operate the same.
- 4. The assembly of claim 3 further including means for detecting the orientation angle of said bent housing relative to said tubular housing, and for transmitting a signal representative of said orientation angle to the surface via said cable.
- 5. The assembly of claim 3 further including a measurement tool connected between said tubular housing and the lower end of said coiled tubing, said measurement tool including sensor means for measuring one or more characteristics of the borehole, the formation surrounding said borehole, or the drilling assembly and for transmitting signals representative thereof to the surface via said cable.
- 6. The assembly of claim 1 wherein said remote controlled means is operable to rotate said bent housing in either rotational direction in order to adjust said tool face angle.
- 7. The assembly of claim 1 wherein said electric motor is a brushless DC motor.
- 8. The assembly of claim 3 wherein said electric motor is a brushless DC motor.
- 9. The assembly of claim 5 wherein said sensor means comprises pressure sensors for measuring absolute internal and external pressures.
- 10. A directional drilling tool string adapted to be suspended in a well on coiled tubing and used to drill a curved or a straight borehole, comprising: a bent housing having an upper section and a lower section connected at an angle; mud motor means in said upper section for driving a drill bit mounted below said lower section: orienting means coupled to said upper section and including electric motor means operable to momentarily rotate said bent housing relative to said orienting means to establish a selected tool face angle for said bit, said electric motor means also being operable to continuously rotate said bent housing to achieve straight-ahead drilling; means for connecting said orienting means to said coiled tubing; and electric cable means disposed in said coiled tubing for delivering electrical power to said electric motor means.
- 11. The tool string of claim 10 further including coupling means for rotatably connecting said upper section to said orienting means, said coupling means including planetary gear means for effecting a substantial reduction in the rotational output speed of said electric motor means.
- 12. The tool string of claim 11 wherein said planetary gear means includes upper and lower sets of planetary gears arranged to rotate around a driven center gear, each of said sets meshing with a fixed, outer ring gear, the shafts of said upper set driving an upper hollow shaft and the shafts of said lower set driving a lower hollow shaft, said lower shaft being connected to said upper section of said bent housing.
- 13. The tool string of claim 12 further including upper universal joint means for connecting said shafts of said upper planetary gear set to said upper hollow shaft, and lower universal joint means for connecting said shafts of said lower planetary gear set to said lower hollow shaft.
- 14. The tool string of claim 10 further including power circuit means in said orienting means for controlling the operation of said electric motor means, said power circuit means being connected to said electric cable means.
- 15. The tool string of claim 14 wherein said orienting means includes an outer tubular housing and an inner tubular housing said power circuit means and said electric motor means being mounted in said inner tubular housing, upper fluid passage means between said housings, and cross-over passage means between said upper fluid passage means and the bores of said upper and lower hollow shafts to enable drilling fluids pumped down said coiled tubing to enter said mud motor means via said upper fluid passage means, said cross-over passage means and said bores.
- 16. The tool string of claim 10 further including sensor means for detecting the angle of relative rotation between said orienting means and said upper section of said bent housing.
- 17. The tool string of claim 10 further including logging tool means for making measurements, said logging tool means being located between said orienting means and said coiled tubing, and means for transmitting said measurements to the surface via said electric cable means.
- 18. A method of steering a directional drilling tool string having a bent housing rotatable relative to an orienting tool, said orienting tool and bent housing being suspended in a borehole on coiled tubing, comprising the steps of: coupling said bent housing to an electric motor in said orienting tool; and operating said electric motor to change the orientation angle of said bent housing relative to said orienting tool while using said coiled tubing to prevent rotation of said orienting tool in the borehole.
- 19. The method of claim 18 including the further step of disposing an electric cable in said coiled tubing throughout the length thereof, and providing electric power from the surface to said electric motor via said cable.
- 20. The method of claim 19 including the step of operating said electric motor continuously to cause the bend point of said bent housing to orbit around the axis of the borehole so that a drill bit mounted below said bent housing drills straight ahead for so long as said rotation is continuous.
- 21. A directional drilling system for use in drilling a curved or a straight borehole, comprising:
- means, including a string of coiled tubing, for suspending a drilling assembly in said borehole;
- a drilling assembly suspended from said string of coiled tubing and comprising a bent housing having an upper section and a lower section;
- a bit mounted below said lower section thereof;
- a mud flow operated motor in said upper section for rotating said bit;
- a tubular housing coupled to said upper section of said bent housing for rotation relative thereto;
- remote controlled means in said tubular housing for rotating said bent housing to an angular orientation relative thereto that provides a selected tool face angle for said bit, said remote controlled means for rotating said bent housing comprising an electric motor having an output shaft and reduction gear means for coupling said output shaft and said bent housing; and an electric cable in said string of coiled tubing for supplying power to said electric motor to remotely operate said electric motor.
- 22. The system of claim 21 wherein said remote controlled means are also operable to rotate said bent housing continuously to achieve straight ahead drilling.
- 23. The system of claim 22 wherein said electric motor is a brushless DC motor and said reduction gear means comprises planetary gear means.
CROSS-REFERENCE TO RELATED APPLICATION
This application claims priority from provisional application 60/011,268 filed Feb. 7, 1996, which is incorporated herein by reference.
US Referenced Citations (19)
Foreign Referenced Citations (3)
Number |
Date |
Country |
0 520 578 |
Dec 1992 |
EPX |
2 026 063 |
Jan 1980 |
GBX |
9619635 |
Jun 1996 |
WOX |
Non-Patent Literature Citations (2)
Entry |
Technology Update: "Coiled Tubing BHA Orienter for Directional and Horizontal Drilling", Winter 1995, Sperry-Sun Drilling Services. |
Maurer Engineering Inc., "National Science Foundation Deep Earth Sampling System Phase I Final Report", Jun. 1990. |