Claims
- 1. A downhole drilling parameter sensor device for use with drilling operations of a borehole used in oil and gas exploration, the sensor device comprising:a plurality of independent load cells orthogonally positioned within a drill collar wall of a drill string, where said drill collar has an inside diameter and an outside diameter, with said load cells comprising: a first Wheatstone bridge comprising four strain gauges orthogonally positioned within a ring configuration within said load cell; and a second Wheatstone bridge comprising a set of four strain gauges orthogonally positioned within a ring configuration within said load cell; a plurality of temperature sensors positioned within said drill collar wall and arrayed to measure temperatures at locations comprising said drill collar's outside diameter, said drill collar's inside diameter, and said load cells; a triaxial vibration sensor positioned within said drill string proximate to said load cells; a magnetometer array positioned within said drill string in physical association with said triaxial vibration sensor; a first pressure transducer positioned within said drill string in fluid communication with an annular volume surrounding said drill string within said borehole; and a second pressure transducer positioned within said drill string in fluid communication with an internal bore of said drill string; wherein said plurality of independent load cells provide for redundant measurements of weight-on-bit, torque-on-bit, and bending-on-bit forces parameters, said plurality of temperature sensors provide for measurements of temperature gradients across the load cells so as to correct said load cell measurements for any temperature dependent errors, said triaxial vibration sensor and said magnetometer array provide for measurements of drill string motion to provide for finding and tracking drill string rotational orientation within the borehole, and said pressure transducers provide for measurement of pressure variations so as to correct said load cell measurements for any pressure dependent errors.
- 2. The sensor device of claim 1 wherein said strain gauges comprise foil strain gauges covered with a protective coating and located on an inside diameter of a ring member element of said load cells.
- 3. The sensor device of claim 1 wherein said plurality of load cells number four, are ring-shaped in configuration, and are press-fit into circular recesses positioned within said drill collar wall.
- 4. The sensor device of claim 1 further comprising a read-out port in a side wall of said drill collar for electrical connection between a set of input and output conductors associated with said load cells, said temperature sensors, said pressure transducers, said triaxial vibration sensor, and said magnetometer array, and an external data collection device.
- 5. The sensor device of claim 1 wherein an internal wall of said drill collar at said inside diameter is thermally insulated from a drilling fluid used in operation of said drill string within said borehole.
- 6. The sensor device of claim 1 wherein said drill collar wall is thermally insulated from a drilling fluid used in operation of said drill string within said borehole.
- 7. A sensor array for use with oil and gas borehole drilling operations comprising:a plurality of strain gauge load cells positioned within a drill collar wall of a drill string, said drill collar wall having an inside and outside diameter, each of said load cells comprising at least two Wheatstone bridge circuits, each circuit comprising a set of four strain gauges orthogonally positioned within a ring configuration within said load cell; a plurality of temperature sensors positioned within said drill collar wall and arrayed to measure temperatures at said drill collar inside and outside diameters, and said load cells; a triaxial vibration sensor positioned proximate to said load cells; a magnetometer array positioned proximate to said triaxial vibration sensor; a first pressure transducer in fluid communication with an annular volume surrounding said drill string within said borehole; and a second pressure transducer in fluid communication with an internal bore of said drill string; wherein said plurality of load cells provide weight-on-bit, torque-on-bit, and bending-on-bit force parameters, said plurality of temperature sensors provide temperature gradient values across said load cells so as to correct said load cell measurements, said triaxial vibration sensor and said magnetometer array provide measurement of drill string motion, and said pressure transducers provide measurement of pressure variations so as to correct said load cell measurements.
- 8. The sensor array of claim 7 wherein each of said strain gauges comprise foil strain gauges covered with a protective coating and located on an inside diameter of a ring member element of said load cells.
- 9. The sensor array of claim 7 wherein said plurality of load cells number four, are ring-shaped in configuration, and are press-fit into circular recesses positioned within said drill collar wall.
- 10. The sensor array of claim 7 further comprising a read-out port positioned in said drill collar wall for electrical connection between a set of input and output conductors associated with said load cells, said temperature sensors, said pressure transducers, said triaxial vibration sensor, and said magnetometer array, and an external data collection device.
- 11. The sensor array of claim 7 wherein an internal wall of said drill collar at said inside diameter is thermally insulated from a drilling fluid used in operation of said drill string within said borehole.
CROSS REFERENCE TO RELATED APPLICATIONS
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/111,982, filed Dec. 12, 1998.
US Referenced Citations (13)
Provisional Applications (1)
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Number |
Date |
Country |
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60/111982 |
Dec 1998 |
US |