Bore location system having mapping capability
First Claim
1. A system for mapping a horizontal bore below a ground surface, said system comprising:
- an underground boring drill string having a boring head and a plurality of boring rods disposed behind said boring head;
a first coil antenna disposed within said drill string proximate said boring head;
transmitter circuitry disposed within said drill string in operative communication with said first antenna, said transmitter circuitry driving said first antenna so that said first antenna emits a magnetic field from said horizontal bore;
a portable above-ground first receiver having first receiver circuitry and a pair of second coil antennas in operative communication with said first receiver circuitry, wherein said first receiver circuitry receives measurement signals from said second antennas corresponding to signals induced on said second antennas by said magnetic field and determines a depth of said first coil based upon said measurement signals, and wherein said portable first receiver includes a transmitter in communication with said first receiver circuitry and wherein said first receiver circuitry transmits wireless signals from said transmitter corresponding to said depth; and
a second receiver remote from said first receiver, said second receiver having an operator-actuatable control, second receiver circuitry and a third antenna in operative communication with said second receiver circuitry so that when said third antenna receives said wireless signals, said second receiver circuitry receives signals from said third antenna corresponding to said depth, wherein said second receiver circuitry includes memory and a processor in operative communication with said memory and said control, wherein said processor stores, in said memory responsively to an operator instruction received through said control, data corresponding to said depth of said boring tool at a particular position of said boring tool in said horizontal bore, wherein said processor stores said data in association with an identifier that identifies the sequence of said depth data among a plurality of said depth data stored in said memory corresponding to respective said particular positions, and wherein said processor associates said depth data for said respective particular positions with actual ground level data that defines actual ground levels at said particular posotions relative to each other.
3 Assignments
0 Petitions
Accused Products
Abstract
A method for mapping a bore below a ground surface is provided. A boring rod head configured to transmit a signal indicating the pitch angle of the boring rod head with respect to a horizontal plane is disposed within a bore. The boring rod head is advanced within the bore in predetermined linear increments. The pitch angle is measured at each increment. The change in depth is determined at each increment from a prior increment based on the length of the increment and the measured pitch angle at the increment. For each increment, the changes of depth determined in the prior step are added, including the change of depth for the most recent increment. Thus, the depth of the bore at each increment with respect to a predetermined horizontal plane is determined. The depths determined in the prior step are then adjusted by an amount equal to the difference between the predetermined horizontal plane and a ground surface above the bore at each increment so that the adjusted depth at each increment describes the depth of the bore with respect to the ground surface at that increment. The adjusted depth data is accumulated.
82 Citations
12 Claims
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1. A system for mapping a horizontal bore below a ground surface, said system comprising:
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an underground boring drill string having a boring head and a plurality of boring rods disposed behind said boring head;
a first coil antenna disposed within said drill string proximate said boring head;
transmitter circuitry disposed within said drill string in operative communication with said first antenna, said transmitter circuitry driving said first antenna so that said first antenna emits a magnetic field from said horizontal bore;
a portable above-ground first receiver having first receiver circuitry and a pair of second coil antennas in operative communication with said first receiver circuitry, wherein said first receiver circuitry receives measurement signals from said second antennas corresponding to signals induced on said second antennas by said magnetic field and determines a depth of said first coil based upon said measurement signals, and wherein said portable first receiver includes a transmitter in communication with said first receiver circuitry and wherein said first receiver circuitry transmits wireless signals from said transmitter corresponding to said depth; and
a second receiver remote from said first receiver, said second receiver having an operator-actuatable control, second receiver circuitry and a third antenna in operative communication with said second receiver circuitry so that when said third antenna receives said wireless signals, said second receiver circuitry receives signals from said third antenna corresponding to said depth, wherein said second receiver circuitry includes memory and a processor in operative communication with said memory and said control, wherein said processor stores, in said memory responsively to an operator instruction received through said control, data corresponding to said depth of said boring tool at a particular position of said boring tool in said horizontal bore, wherein said processor stores said data in association with an identifier that identifies the sequence of said depth data among a plurality of said depth data stored in said memory corresponding to respective said particular positions, and wherein said processor associates said depth data for said respective particular positions with actual ground level data that defines actual ground levels at said particular posotions relative to each other. - View Dependent Claims (2, 3, 4, 5)
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6. A method for mapping a horizontal bore below a ground surface, said method comprising the steps of:
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providing an underground boring drill string in said horizontal bore, said drill string having a boring head and a plurality of boring rods disposed behind said boring head;
providing a first coil antenna disposed within said drill string proximate said boring head;
providing transmitter circuitry disposed within said drill string in operative communication with said first antenna, said transmitter circuitry driving said first antenna so that said first antenna emits a magnetic field from said horizontal bore;
providing a portable above-ground first receiver having receiver circuitry and a pair of second coil antennas in operative communication with said receiver circuitry, wherein said receiver circuitry receives measurement signals from said second antennas corresponding to signals induced on said second antennas by said magnetic field and to determine a depth of said first coil based upon said measurement signals;
measuring said depth with said first receiver when said boring tool is at a particular position within said horizontal bore;
respectively repeating said measuring step when said boring tool is at a plurality of said particular positions;
at each said measuring step, wirelessly transmitting signals corresponding to said depth from said transmitter to a second receiver remote from said first receiver;
storing, at said second receiver, data corresponding to said depth of said boring tool at each said particular position in association with an identifier that identifies said particular position; and
associating, at said second receiver, said depth data for said respective particular positions with actual ground level data that defines actual ground levels at said particular positions relative to each other. - View Dependent Claims (7, 8)
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9. A system for mapping a horizontal bore below a ground surface, said system comprising:
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an underground boring drill string having a boring head and a plurality of boring rods disposed behind said boring head;
a first coil antenna disposed within said drill string proximate said boring head;
transmitter circuitry disposed within said drill string in operative communication with said first antenna, said transmitter circuitry driving said first antenna so that said first antenna emits a magnetic field from said horizontal bore;
a portable above-ground first receiver having first receiver circuitry and a pair of second coil antennas in operative communication with said first receiver circuitry, wherein said first receiver circuitry receives measurement signals from said second antennas corresponding to signals induced on said second antennas by said magnetic field and determines a depth of said first coil based upon said measurement signals, and wherein said portable first receiver includes a transmitter in communication with said first receiver circuitry and wherein said first receiver circuitry transmits wireless signals from said transmitter corresponding to said depth; and
a second receiver remote from said first receiver, said second receiver having an operator-actuatable control, second receiver circuitry and a third antenna in operative communication with said second receiver circuitry so that when said third antenna receives said wireless signals, said second receiver circuitry receives signals from said third antenna corresponding to said depth, wherein said second receiver circuitry includes memory and a processor in operative communication with said memory and said control, wherein said processor stores, responsively to an operator instruction received through said control, data corresponding to said depth of said boring tool at a particular position of said boring tool in said horizontal bore, wherein said processor store said data in association with an identifier that identifies the sequence of said depth data among a plurality of said depth data storesed in said memory corresponding to respective said particular positions, and wherein said processor stores data, in said memory, corresponding to depth of an existing underground utility passing through a vertical surface defined by said horizontal bore. - View Dependent Claims (10)
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11. A method for mapping a horizontal bore below a ground surface, said method comprising the steps of:
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providing an underground boring drill string in said horizontal bore, said drill string having a boring head and a plurality of boring rods disposed behind said boring head;
providing a first coil antenna disposed within said drill string proximate said boring head;
providing transmitter circuitry disposed within said drill string in operative communication with said first antenna, said transmitter circuitry driving said first antenna so that said first antenna emits a magnetic field from said horizontal bore;
providing a portable above-ground first receiver having receiver circuitry and a pair of second coil antennas in operative communication with said receiver circuitry;
wherein said receiver circuitry receives measurement signals from said second antennas corresponding to signals induced on said second antennas by said magnetic field and to determine a depth of said first coil based upon said measurement signals;
measuring said depth with said first receiver when said boring tool is at a particular position within said horizontal bore;
respectively repeating said measurement step when said boring tool is at a a plurality of said particular positions;
at each said measuring step, wirelessly transmitting signals corresponding to said depth from said transmitter to a second receiver remote from said first receiver;
storing, at said second receiver, data corresponding to said depth of said boring tool at each said particular position in association with an identifier that identifies said particular position; and
storing, at said second receiver, data corresponding to depth of an existing underground utility passing through a vertical surface defined by said horizontal bore. - View Dependent Claims (12)
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Specification