Downhole buried utility sensing and data transmission system and method
First Claim
1. A downhole buried utility sensing and data transmission system for detecting and communicating data related to a variety of different types of buried utilities and objects and the approximate distance between the detected utility or object and a drilling head connected therewith, the system comprising:
- a sensor array disposed in a housing mounted closely adjacent to a drilling head at the lower end of a drill pipe, said sensor array comprising;
metallic sensor means for detecting the presence of ferromagnetic metallic objects including steel pipes and structures;
RF sensor means for detecting the presence of non-metallic utility infrastructure including gas pipelines, concrete sewer lines, telecommunication lines, and cable systems by detecting RF tracer lines and transmitters associated with the respective utility;
electric field sensor means for detecting the presence of energized AC and DC power cable systems; and
means for determining the approximate range, relative azimuth, and elevation of the sensor array relative to the detected utility or object; and
said sensor array adapted to be connected with data transmission means in said drill pipe lower end for transmitting analog or digitally encoded data signals to the surface.
2 Assignments
0 Petitions
Accused Products
Abstract
A downhole buried utility sensing and data transmission system for connection at the lower end of a drill string has sensors capable of detecting the existence of various different types of buried utilities and objects and making calculations as to the radial separation distance between the detected utilities and the drill head and transmitting data between the down hole drill head to the surface. The sensors respond to material properties used to construct the utility lines or the energy fields created by the operation of these lines (pipes and cables) or from the energy associated with transmission of the particular utility service, including sound energy resulting from fluid flow and electromagnetic energy from electric currents. The system can detect and distinguish the presence of ferromagnetic metallic objects including steel pipes and structures; non-metallic utility infrastructure including gas pipelines, concrete sewer lines, telecommunication lines, and cable systems outfitted with RF tracer lines and transmitters; energized AC and DC power cable systems; and determining the approximate range, relative azimuth, and elevation of the sensors relative to the detected utility or object. The system also supports automatic cessation of drilling operations by combining the warning information with microprocessor control of drill string rotation and thrust.
51 Citations
12 Claims
-
1. A downhole buried utility sensing and data transmission system for detecting and communicating data related to a variety of different types of buried utilities and objects and the approximate distance between the detected utility or object and a drilling head connected therewith, the system comprising:
-
a sensor array disposed in a housing mounted closely adjacent to a drilling head at the lower end of a drill pipe, said sensor array comprising;
metallic sensor means for detecting the presence of ferromagnetic metallic objects including steel pipes and structures;
RF sensor means for detecting the presence of non-metallic utility infrastructure including gas pipelines, concrete sewer lines, telecommunication lines, and cable systems by detecting RF tracer lines and transmitters associated with the respective utility;
electric field sensor means for detecting the presence of energized AC and DC power cable systems; and
means for determining the approximate range, relative azimuth, and elevation of the sensor array relative to the detected utility or object; and
said sensor array adapted to be connected with data transmission means in said drill pipe lower end for transmitting analog or digitally encoded data signals to the surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
programmable microcontroller means with controlling software to sample said data signals transmitted from said sensor means, manage power consumption, interface with a telemetry system used to steer the drilling head, assemble message containing alarm information sent to the telemetry system, perform ranging calculations, and discriminate between relevant and non-relevant signals based on user-definable thresholds and parameters; and
power conditioning means for receiving DC power from a battery and converting it to multiple voltages for use by the system electronics.
-
-
3. The buried utility sensing and data transmission system according to claim 1, wherein
said RF sensor means comprise inductive pickup coils for detecting the presence of non-metallic utility infrastructure including gas pipelines, concrete sewer lines, telecommunication lines, and cable systems by detecting RF tracer lines and transmitters associated with the respective utility. -
4. The buried utility sensing and data transmission system according to claim 1, wherein
said electric field sensor means comprise electric field sensors for detecting the presence of energized AC and DC power cable systems. -
5. The buried utility sensing and data transmission system according to claim 1, wherein
said electric field sensor means comprise magnetometers with three independent fluxgates on mutually-orthogonal axes for detecting the presence of energized AC and DC power cable systems. -
6. The buried utility sensing and data transmission system according to claim 1, wherein
said metallic sensor means comprise magnetometers with three independent fluxgates on mutually-orthogonal axes for detecting the presence of ferromagnetic metallic objects including steel pipes and structures. -
7. The buried utility sensing and data transmission system according to claim 1, further comprising
means for communicating a signal to controls on a surface drill rig when pre-set alarm thresholds are exceeded to automatically stop the rotation and forward advance of said drill head to prevent contact with buried utilities or other underground obstacles without human intervention. -
8. The buried utility sensing and data transmission system according to claim 1, wherein
said sensors are disposed in said housing to scan both radially around said drilling head and axially in front of said drilling head to assure sufficient clearance between buried utilities and a pilot hole drilling head and a final size bore formed during successive back reaming operations. -
9. The buried utility sensing and data transmission system according to claim 1, further comprising
analog or digitally encoded data transmission means connected with said sensor array selected from the group consisting of electromagnetic data transmission, RF data transmission, direct wire line transmission systems utilizing phase or frequency shift keying, pulse width modulation, amplitude modulation. -
10. The buried utility sensing and data transmission system according to claim 9, wherein
said drill pipe functions as an electrical lossy single conductor with the earth forming the electrical return path; - and
said data transmission means comprises a microprocessor controlled frequency synthesizer for producing frequencies in the range of from about 15 Hz to about 100 Khz for transmission of data;
transmitter means for encoding said data from said sensor array into electromagnetic signals generated by said frequency synthesizer in the form of simultaneously encoded multiple frequencies impressed simultaneously on said drill pipe; and
a receiver-demodulator located at the earth surface for receiving and decoding said signals from said encoded multiple frequencies from said transmitter means.
- and
-
11. The buried utility sensing and data transmission system according to claim 1, wherein
said metallic sensor means, said RF sensor means, and said electric field sensor means each comprise a pair of sensor elements with a first and second sensor element disposed a fixed distance apart sufficient to facilitate determination of said sensor array relative to each respective type of detected utility or object. -
12. The buried utility sensing and data transmission system according to claim 11, wherein
the response output voltage V1, of the first one of each of said pair of sensor elements at a particular point in space, is determined by the equation: -
Where A is a constant of proportionality characteristic corresponding to the physical phenomenon of the utility or object being measured including relative and absolute permeability of the transfer medium, the strength of the source signal, and electronic system gain, r is the radial distance from the utility or object being measured; and
the second one of each of said pair of sensor elements is affixed a constant distance, x, from the said first one and its response output voltage V2 is determined by the equation;
wherein the constant A remains the same and the two equations are combined to solve for the distance r.
-
Specification