Device and method for locating an inground object and a housing forming part of said device

DC CAFC

US 5,633,589 A
Filed: 05/16/1995
Issued: 05/27/1997
Est. Priority Date: 03/01/1991
Status: Expired due to Term

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1. A method of locating a generally horizontally extending dipole magnetic field transmitter which is disposed underground within a particular vertical transmitter plane defined by its dipole axis and which generates a magnetic dipole field containing magnetic flux lines, each one of which extends from one end of the transmitter around to its opposite end and all of which are spaced from one another about the dipole axis of said transmitter, said method comprising the steps of:

(a) providing a locating receiver including an antenna arrangement and means for producing(i) a first signal if any given one of said flux lines impinges said antenna configuration in a first way,(ii) a second signal if any given one of said flux lines impinges said antenna arrangement in a second way, and(iii) a third signal if any given one of said flux lines impinges said antenna arrangement in a third way;

(b) moving said locating receiver above the ground at a predetermined orientation and within a first vertical receiver plane transverse to the vertical transmitter plane containing the axis of said transmitter either ahead of or behind the transmitter with respect to its general direction of movement so as to cause said receiver to produce successively first, second and third signals at certain respective first, second and third locations within said first receiver plane;

(c) thereafter, again moving said locating receiver above the ground at said predetermined orientation and within a second vertical receiver plane transverse to the vertical transmitter plane containing the axis of said transmitter either ahead of or behind the transmitter with respect to its general direction of movement so as to cause said receiver to produce successively first, second and third signals at certain respective tint, second and third locations within said second receiver plane; and

(d) thereafter, still again moving said locating receiver above the ground within a third vertical receiving plane defined by said second locations within said first and second receiving planes so as to cause said receiver to produce first, second and third signals in a predetermined way which will establish a point above ground directly over the transmitter.

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Abstract

The present invention provides a locator/monitor capable of locating a boring tool and monitoring the progress of the tool for control purposes. The locator/monitor may be used in expedited locating methodology and straightforward calibration techniques of the present invention. A durable and cost effective pitch sensor is also provided by the present invention. In addition, the present invention provides a slotted transmitter housing formed of an electrically conductive material, where the magnetic field generated by the transmitter is capable of penetrating to the surface.

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18 Claims

1. A method of locating a generally horizontally extending dipole magnetic field transmitter which is disposed underground within a particular vertical transmitter plane defined by its dipole axis and which generates a magnetic dipole field containing magnetic flux lines, each one of which extends from one end of the transmitter around to its opposite end and all of which are spaced from one another about the dipole axis of said transmitter, said method comprising the steps of:
- (a) providing a locating receiver including an antenna arrangement and means for producing(i) a first signal if any given one of said flux lines impinges said antenna configuration in a first way,(ii) a second signal if any given one of said flux lines impinges said antenna arrangement in a second way, and(iii) a third signal if any given one of said flux lines impinges said antenna arrangement in a third way;
  
  (b) moving said locating receiver above the ground at a predetermined orientation and within a first vertical receiver plane transverse to the vertical transmitter plane containing the axis of said transmitter either ahead of or behind the transmitter with respect to its general direction of movement so as to cause said receiver to produce successively first, second and third signals at certain respective first, second and third locations within said first receiver plane;
  
  (c) thereafter, again moving said locating receiver above the ground at said predetermined orientation and within a second vertical receiver plane transverse to the vertical transmitter plane containing the axis of said transmitter either ahead of or behind the transmitter with respect to its general direction of movement so as to cause said receiver to produce successively first, second and third signals at certain respective tint, second and third locations within said second receiver plane; and
  
  (d) thereafter, still again moving said locating receiver above the ground within a third vertical receiving plane defined by said second locations within said first and second receiving planes so as to cause said receiver to produce first, second and third signals in a predetermined way which will establish a point above ground directly over the transmitter.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. A method according to claim 1 wherein said antenna arrangement includes first and second antennae, each of which independently senses the magnetic field generated by said transmitter, and wherein(a) each of said first signals indicates when the field strength sensed by said first antenna is stronger than the field strength sensed by said second antenna,(b) each of said third signals indicates when the field strength sensed by said second antenna is stronger than the field strength sensed by said first antenna, and(c) each of said second signals indicates the transition point between said first and third signals when the field strengths sensed by both antennae are equal.
  - 3. A method according to claim 1 wherein said flux lines include horizontal and vertical components, wherein said antenna arrangement consists of a single antenna and wherein(a) the second signal produced while moving in each of said first and second receiver planes is a signal resulting from said receiver sensing a substantially vertical component of said flux lines, and(b) the second signal produced while moving in said third receiver plane is a signal resulting from said receiver sensing a substantially horizontal component of said flux lines.
  - 4. A method according to claim 1 wherein said antenna arrangement consists of a single antenna and wherein(a) the second signal produced while moving in each of said first and second receiver planes is a null signal, and(b) the second signal produced while moving in said third receiver plane is a peak signal.
  - 5. A method according to claim 2 wherein said antenna configuration includes first and second antennae disposed within a common plane and having straight axes fixedly positioned with respect to one another so as to define a fixed angle between one another within the common plane.
  - 6. A method according to claim 5 wherein said fixed angle is approximately 90 degrees.
  - 7. A method according to claim 6 wherein when said locating receiver is moved in either one of said receiving planes, the common plane containing said antennae is maintained in the receiving plane with the first antenna oriented at an angle of 45 degrees above the horizontal in the forward direction and the second antenna oriented at an angle of 45 degrees above the horizontal in the rearward direction.

8. In a method of locating the inground depth of a boring tool by means of a locator positioned a particular distance above ground using a magnetic field transmitter in either the boring tool or the locator and a receiver in either the boring tool or locator, which ever one does not include the transmitter, wherein the receiver senses and measures the magnetic field generated by the transmitter in order to determine the depth of the boring tool relative to the locator, the improvement comprising the steps of:
- (a) measuring the distance from the locator to the ground independent of the measurements taken by the receiver of said magnetic field; and
  
  (b) thereafter, subtracting the distance so measured from the depth of the boring tool as measured by the receiver using the magnetic field from the transmitter to provide the depth of the boring tool from ground level.
- View Dependent Claims (9, 10)
- - 9. The improvement according to claim 8 wherein the distance from the locator to the ground is measured ultrasonically.
  - 10. The improvement according to claim 8 wherein said transmitter is located in said boring tool and said receiver is located in said locator.

11. A locator/monitor capable of locating a magnetic field transmitter disposed beneath a reference surface and generating a transmitted signal, the locator/monitor including a receiver comprising:
- (a) a first range sensor capable of sensing a first component of a carrier portion of the transmitted signal;
  
  (b) a second range sensor capable of sensing a second component of the carrier portion of the transmitted signal and oriented orthogonally to the first range sensor;
  
  (c) processor means in communication with the first and second range sensors for generating a monotonic function indicative of distance between the transmitter and the receiver; and
  
  (d) means for independently determining a vertical distance between two locator/monitor positions.
- View Dependent Claims (12, 13)
- - 12. A locator/monitor according to claim 11 wherein the independent determining means comprises an ultrasonic measurement means.
  - 13. A locator/monitor according to claim 12 wherein the ultrasonic measurement means comprises:
    - (a) an ultrasonic transmitter capable of transmitting an ultrasonic signal toward the reference surface;
      
      (b) an ultrasonic receiver capable of receiving an ultrasonic signal emanating from the reference surface; and
      
      (c) a temperature sensor capable of monitoring ambient temperature at each locator/monitor position.

14. A transmitter assembly comprising a hollow, elongated housing having opposite ends and defining an elongation axis and a chamber within the housing and a transmitter having an elongated antenna which is shorter in length than said housing, which is positioned within the housing chamber in substantially parallel relationship with said elongation axis and which is capable of generating a magnetic field signal within the chamber for transmission through the housing and outside the latter, the housing being formed of a body of durable, electrically conductive material such that the generation of said magnetic field signal within the housing chamber induces a current within the housing body along a path circumferentialIy around the elongation axis which in turn results in a magnet field counter to the generated magnetic field signal, said housing being sized and configured to enclose the antenna within the chamber such that the ends of the antenna are spaced inwardly with respect to the corresponding ends of the housing, said housing defining at least two circumferentially spaced apart elongated apertures which extend generally generally along the length of the housing entirely through the housing body into the chamber, said apertures stopping short of the ends of the housing but extending beyond the ends of the antenna such that an electrically conductive path circumferentially around the housing surface is lengthened from what it would be if the housing were solid and the induction of said magnetic field counter to the transmitted signal is reduced from what it would have been if the housing were solid without substantially diminishing the durability of the housing body.
- View Dependent Claims (15, 16, 17, 18)
- - 15. An assembly according to claim 14 wherein a ratio between antenna outside diameter and housing inside diameter is less than 0.8.
  - 16. An assembly according to claim 14 wherein the housing material is steel.
  - 17. An assembly according to claim 14 wherein the apertures are at least approximately one and one-half times as long as said antenna.
  - 18. An assembly according to claim 14, wherein said elongated apertures are configured such that the intensities of said magnetic field signal at different points about a circle extending concentrically around the antenna are substantially equal.

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Current Assignee
Merlin Technologies Incorporated
Original Assignee
John E. Mercer
Inventors
Mercer, John E.
Primary Examiner(s)
Snow, Walter E.

Application Number

US08/442,481
Time in Patent Office

742 Days
Field of Search

324/326, 324/327, 324/328, 324/329, 324/226, 324/225, 324/262, 324/207.26, 324/207.22, 324/207.11, 324/207.15, 324/207.16, 324/207.17 , 324/207.23, 324/338, 324/339, 324/332, 324/333, 175/40, 175/45
US Class Current

324/326
CPC Class Codes

E21B 47/0228   using electromagnetic energ...

E21B 47/0232   at least one of the energy ...

E21B 47/024   of devices in the borehole ...

G01C 9/06   Electric or photoelectric i...

G01C 9/20   the indication being based ...

G01V 3/165   operating with magnetic or ...

Device and method for locating an inground object and a housing forming part of said device

First Claim

1 Assignment

Litigations

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Accused Products

Abstract

206 Citations

18 Claims

Specification

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Device and method for locating an inground object and a housing forming part of said device

First Claim

1 Assignment

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Litigations

0 Petitions

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Accused Products

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Abstract

206 Citations

18 Claims

Specification

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