Method and apparatus for collecting drill bit performance data
First Claim
1. A drill bit for drilling a subterranean formation, comprising:
- a bit body bearing at least one cutting element and adapted for coupling to a drillstring;
a chamber formed within the bit body, the chamber configured for maintaining a pressure substantially near a surface atmospheric pressure while drilling the subterranean formation;
one or more sensors disposed in the chamber and configured for sensing at least one physical parameter; and
a pressure-activated switch disposed in the bit body and comprising;
a fixed member disposed in a recess of the bit body and configured to be held in a fixed position during a change in a pressure substantially near the bit body;
a displacement member disposed in the recess and configured to be displaced within the recess in response to the change in the pressure substantially near the bit body; and
a deformable member disposed between the fixed member and the displacement member and configured to deform in response to the change in the pressure substantially near the bit body such that the displacement member is displaced relative to the fixed member;
wherein the pressure-activated switch is configured to generate a pressure signal responsive to the change in the pressure.
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Accused Products
Abstract
Drill bits and methods for sampling sensor data associated with the state of a drill bit are disclosed. A drill bit for drilling a subterranean formation comprises a bit body and a shank. The shank further includes a central bore formed through an inside diameter of the shank and configured for receiving a data analysis module. The data analysis module comprises a plurality of sensors, a memory, and a processor. The processor is configured for executing computer instructions to collect the sensor data by sampling the plurality of sensors, analyze the sensor data to develop a severity index, compare the sensor data to at least one adaptive threshold, and modify a data-sampling mode responsive to the comparison. A method comprises collecting sensor data by sampling a plurality of physical parameters associated with a drill bit state while in various sampling modes and transitioning between those sampling modes.
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Citations
21 Claims
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1. A drill bit for drilling a subterranean formation, comprising:
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a bit body bearing at least one cutting element and adapted for coupling to a drillstring; a chamber formed within the bit body, the chamber configured for maintaining a pressure substantially near a surface atmospheric pressure while drilling the subterranean formation; one or more sensors disposed in the chamber and configured for sensing at least one physical parameter; and a pressure-activated switch disposed in the bit body and comprising; a fixed member disposed in a recess of the bit body and configured to be held in a fixed position during a change in a pressure substantially near the bit body; a displacement member disposed in the recess and configured to be displaced within the recess in response to the change in the pressure substantially near the bit body; and a deformable member disposed between the fixed member and the displacement member and configured to deform in response to the change in the pressure substantially near the bit body such that the displacement member is displaced relative to the fixed member; wherein the pressure-activated switch is configured to generate a pressure signal responsive to the change in the pressure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A drill bit for drilling a subterranean formation, comprising:
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a bit body bearing at least one cutting element and adapted for coupling to a drillstring; a chamber formed within the bit body, the chamber configured for maintaining a pressure substantially near a surface atmospheric pressure while drilling the subterranean formation; one or more sensors disposed in the chamber and configured for sensing at least one physical parameter; a fluid property sensor disposed in the bit body and configured to provide a fluid property signal responsive to a fluid property selected from the group consisting of fluid impedance, fluid resistance, and fluid capacitance; and a power gating module coupled to the fluid property signal, a power supply, and a data analysis module, wherein the power gating module is configured for operably coupling the power supply to the data analysis module when the fluid property signal indicates a fluid property of interest.
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10. A drill bit for drilling a subterranean formation, comprising:
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a bit body bearing at least one cutting element and adapted for coupling to a drillstring; a chamber formed within the bit body, the chamber configured for maintaining a pressure substantially near a surface atmospheric pressure while drilling the subterranean formation; one or more sensors disposed in the chamber and configured for sensing at least one physical parameter; a data analysis module disposed in the drill bit and operably coupled to the one or more sensors; and at least one remote sensor disposed in the drill bit and configured for wireless communication with the data analysis module. - View Dependent Claims (11, 12)
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13. A drill bit for drilling a subterranean formation, comprising:
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a bit body bearing at least one cutting element and adapted for coupling to a drillstring; a chamber formed within the bit body, the chamber configured for maintaining a pressure substantially near a surface atmospheric pressure while drilling the subterranean formation; one or more sensors disposed in the chamber and configured for sensing at least one physical parameter; and a load cell affixed in a load cell chamber within the bit body wherein the load cell chamber is in communication with the chamber, the load cell comprising; a first attachment section configured for attachment to the load cell chamber; a second attachment section configured for attachment to the load cell chamber; a stress section disposed between the first attachment section and the second attachment section and configured with at least one surface for receiving at least one strain gauge; at least one strain gauge affixed to the at least one surface; and conductors operably coupled to the at least one strain gauge and configured to pass through the load cell chamber and into the chamber. - View Dependent Claims (14, 15, 16, 17)
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18. A drill bit for drilling a subterranean formation, comprising:
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a bit body bearing at least one cutting element and adapted for coupling to a drillstring; a chamber formed within the bit body, the chamber configured for maintaining a pressure substantially near a surface atmospheric pressure while drilling the subterranean formation; one or more sensors disposed in the chamber and configured for sensing at least one physical parameter; a temperature sensor configured for sensing a temperature of the drill bit; a power gating module coupled to the temperature sensor; a power supply; and a data analysis module; wherein the power gating module is configured for operably coupling the power supply to the data analysis module when the temperature sensor indicates that a predetermined temperature has been reached. - View Dependent Claims (19, 20, 21)
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Specification