Apparatus and method for communication with downhole equipment using drill string rotation and gyroscopic sensors
First Claim
1. A method for transmitting data to a borehole device affixed to a drill pipe, comprising:
- (a) representing said data by a controlled rotation of said drill pipe;
(b) sensing said rotation with a gyroscope having at least one axis; and
(c) decoding said sensed rotation into said transmitted data.
1 Assignment
0 Petitions
Accused Products
Abstract
Apparatus and methods are utilized for controlling downhole equipment attached to a drill string by the transmission of commands from the surface of the earth. The drill string is rotated at the surface of the earth sequentially through one or more discrete angles of rotation to generate a command code. The sequence of discrete angular rotations is sensed downhole by a gyroscope and decoded as a command in a microprocessor. Alternately, a command code is transmitted by sequentially rotating the drill string at different angular rates which are likewise sensed by the gyroscope and decoded in the microprocessor. The microprocessor then transmits the decoded command to the controlled equipment.
149 Citations
23 Claims
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1. A method for transmitting data to a borehole device affixed to a drill pipe, comprising:
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(a) representing said data by a controlled rotation of said drill pipe;
(b) sensing said rotation with a gyroscope having at least one axis; and
(c) decoding said sensed rotation into said transmitted data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
(d) inputting said sensed rotation into a computer within said drill collar;
(e) decoding said sensed rotation into said transmitted data at said computer; and
(f) from said decoded sensed rotation, forming a command signal representative of said transmitted data.
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4. The method of claim 3 comprising the additional step of operating downhole equipment responsive to said command signal.
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5. The method of claim 4 comprising the additional step of rotating said drill pipe through a plurality of controlled rotations thereby forming a word representing said transmitted data.
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6. The method of claim 5 wherein said word is organized into a command message and an error message.
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7. The method of claim 1 wherein said controlled rotation comprises one or more incremental rotations through a predefined increment angle.
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8. The method of claim 1 wherein said controlled rotation comprises rotation at one or more predefined rotation speeds.
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9. The method of claim 1 wherein the gyroscope has a single axis and is positioned with the axis of the gyroscope in an X-Y plane.
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10. The method of claim 1 wherein the gyroscope has a single axis and an initial reference location is defined at one angle with respect an axis of the drill pipe.
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11. The method of claim 1 including the step of sensing rotation of the drill pipe with respect to at least two gyroscope axes.
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12. The method claim 11 wherein the least two gyroscope axes are located at nonright angles with respect to an axis of the drill pipe.
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13. A method for controlling, from the surface of the earth, downhole equipment attached to a drill string, comprising the steps of:
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(a) providing means at an upper end of said drill string at the surface of the earth for controllably rotating said drill string;
(b) controllably rotating said drill string to define a command;
(c) sensing drill string rotation with a gyroscope having at least one axis located in a drill collar at a lower end of said drill string within a borehole, wherein a selected axis of said gyrosope is positioned at a known angular relationship with said drill collar;
(d) decoding, within said drill collar, said sensed rotation into a signal representative of said command; and
(e) operating said equipment in response to said signal. - View Dependent Claims (14, 15, 16, 17)
(f) providing a microprocessor within said drill collar which cooperates with said gyroscope; and
(g) operating said microprocessor to (i) determine if said error is less than a predetermined allowable error, (ii) decode said sensed rotations into a signal representative of said command, and (iii) if said error is less than said allowable error, transmit said command from said microprocessor to operate said equipment.
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16. The method of claim 13 wherein said controlled rotation comprises one or more incremental rotations through a predefined increment angle.
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17. The method of claim 13 wherein said controlled rotation comprises rotations at one or more predefined rotation speeds.
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18. An apparatus for transmitting data to a borehole device affixed to a drill pipe, comprising:
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(a) means for controllably rotating said drill pipe representative of said data;
(b) a gyroscope having at least one axis for sensing said rotations; and
(c) means for decoding said sensed rotations into said transmitted data. - View Dependent Claims (19, 20, 21, 22, 23)
said gyroscope is mounted within a drill collar affixed to said drill pipe in the vicinity of a drill bit; and
said at least one axis of said gyroscope is parallel to a major axis of said drill collar.
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20. The apparatus of claim 19 further comprising a microprocessor within said drill collar, wherein:
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said sensed rotations are decoded into said transmitted data; and
a command signal, representative of said transmitted data, is formed to operate downhole equipment.
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21. The apparatus of claim 20 wherein said drill string is rotated through a plurality of controlled rotations thereby forming a word of transmitted data comprising said command and an error message.
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22. The apparatus of claim 18 wherein said controlled rotation comprises one or more incremental rotations through a predefined increment angle.
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23. The apparatus of claim 18 wherein said controlled rotation comprises rotations at one or more predefined rotation speeds.
Specification