Percent grade boring and monitoring apparatus

US 5,014,795 A
Filed: 05/01/1989
Issued: 05/14/1991
Est. Priority Date: 05/01/1989
Status: Expired due to Fees

First Claim

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1. A combination of a boring tool for forming a bore underground at a desired percent of grade and a grade sensor for sensing said percent of grade as said bore is formed, said boring tool having a pipe casing, a casing head carried adjacent to said pipe casing having a cutting head which cuts said bore, means for steering said casing head up or down to correct the grade of said bore, and means for pushing said pipe casing through the bore as it is formed, said grade sensor comprising:

a sensor housing carried by a side wall of said casing;

variable capacitor sensor means carried by said sensor housing for sensing motion about a sensing axis in a pitch direction corresponding to changes in percent of grade, and generating variable capacitance signals in response to said motion about said sensing axis said sensing axis is arranged to extend between 65 and 110 degrees of a vertical axis intersecting the longitudinal axis of said casing; and

means for converting said variable capacitance signals into grade signals representing deviations in percent of grade to correct for deviations of said casing in grade as said bore is formed;

whereby said steering means may be controlled to return said casing to said desired percent of grade.

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Abstract

An earth boring tool for forming a bore underground at a desired percent of grade and a grade sensor (A) for sensing percent of grade as the bore is formed are disclosed. The earth boring tool includes a pipe casing (10) and cutting head (12). Sensor (A) includes dielectric fluid chambers (30b, 32b) formed by chamber plates (30, 32) and a sandwiched capacitor plate (34). Capacitors (34a, 34b) are contacted by the dielectric fluid in the chambers. A differential capacitance signal is produced as a fluid level (80) variably covers and uncovers capacitors (34a, 34b) to produce a varying differential output signal. The differential output signal is converted into a linearly changing percent grade signal (64) by a conversion circuit (44a). The percent of grade signal is displayed on a monitor (C) by which an operator may steer the casing to a desired grade.

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25 Claims

1. A combination of a boring tool for forming a bore underground at a desired percent of grade and a grade sensor for sensing said percent of grade as said bore is formed, said boring tool having a pipe casing, a casing head carried adjacent to said pipe casing having a cutting head which cuts said bore, means for steering said casing head up or down to correct the grade of said bore, and means for pushing said pipe casing through the bore as it is formed, said grade sensor comprising:
- a sensor housing carried by a side wall of said casing;
  
  variable capacitor sensor means carried by said sensor housing for sensing motion about a sensing axis in a pitch direction corresponding to changes in percent of grade, and generating variable capacitance signals in response to said motion about said sensing axis said sensing axis is arranged to extend between 65 and 110 degrees of a vertical axis intersecting the longitudinal axis of said casing; and
  
  means for converting said variable capacitance signals into grade signals representing deviations in percent of grade to correct for deviations of said casing in grade as said bore is formed;
  
  whereby said steering means may be controlled to return said casing to said desired percent of grade.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The apparatus of claim 1 wherein said variable capacitance sensor means includes:
    - an interior chamber means;
      
      a capacitor plate carried in fluid communication with said chamber means which includes capacitor means; and
      
      a dielectric fluid carried within said chamber means which variably covers said capacitor means depending on rotation of said sensor means about said sensing axis to generate said variable capacitance of said capacitor means and corresponding variable capacitance signals.
  - 3. The apparatus of claim 2 wherein said chamber means has a narrow configuration in an axial direction of said sensing axis of said sensor means about which said sensor means senses deviations in percent of grade, and said dimension of said narrow configuration renders said sensor means generally insensitive to movement in a roll direction.
  - 4. The apparatus of claim 2 wherein said chamber means includes first and second chamber plates, and said capacitor plate is sandwiched between said first and second chamber plates defining respective first and second chambers, each said chamber containing said dielectric fluid and having said narrow configuration in said axial direction of said sensing axis effectively limiting said dielectric fluid to displacement generally about the pitch axis of said sensor means eliminating cross-axis coupling in the pitch and roll directions.
  - 5. The apparatus of claim 2 wherein said capacitor means includes first and second capacitors, and said variable capacitance signal includes a linear differential capacitance signal representing a linear change in capacitance ratio between said first and second capacitors;
    - and converting means for converting said differential capacitance signal into a linearly changing percent of grade signal representing the rotation of said sensor unit as said bore is formed.
  - 6. The apparatus of claim 4 wherein said capacitor plate includes a pair of capacitors carried by said plate and each chamber plate has a partial partition carried between said capacitors defining a pair of chamber halfs in said respective chamber between which said fluid passes.
  - 7. The apparatus of claim 1 wherein said sensor housing is mounted within an opening formed in said casing.
  - 8. The apparatus of claim 7 wherein said base of said sensor housing is mounted in said casing flush with an inside wall of said casing.
  - 9. The apparatus of claim 7 wherein said sensor housing includes a sensor cover which covers said sensor means within said sensor housing, said sensor means being secured to said cover, and means for rotatably mounting said cover and sensor means relative to said housing for adjusting the orientation of said sensor means relative to said housing.
  - 10. The apparatus of claim 1 wherein said sensor housing is carried by said casing with said sensing axis extending at about 90 degrees from the vertical axis.

11. Earth boring apparatus for boring and laying pipe casing underground commencing from a boring pit station of the type which includes means for forming a bore and pushing the pipe casing through the bore as it is formed, said apparatus comprising:
- a casing head carried adjacent the front of said pipe casing;
  
  a cutting head carried by forward end of said casing head;
  
  steering means moving said casing head relative to said pipe casing for steering said casing head through said bore during boring at a desired grade;
  
  a grade sensor unit contained in a sensor housing carried by said casing for sensing the percent of grade at which said bore is being bored;
  
  said grade sensor unit including a variable capacitance means having a chamber means formed in part by a capacitor plate with a capacitor means;
  
  a dielectric fluid contained in said chamber means for variably covering said capacitor plate as said sensor rotates about a sensing axis generally in a pitch direction to cause displacement of said dielectric fluid and variance in said capacitor means;
  
  means for generating variable capacitance signals in response to said displacement of said dielectric fluid; and
  
  converting means for converting said variable capacitance signals into grade deviation signals indicating deviations in percent of grade of said bore so that said casing head may be steered to correct for said deviation in percent of grade and return said casing to said desired grade;
  
  means mounting said sensor housing containing said sensor unit within an opening formed in said casing so that a base of said sensor housing is generally flush with an inside wall of said casing.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The apparatus of claim 11 wherein capacitor means includes first and second capacitors, and said variable capacitance signal includes a linear differential capacitance signal representing a linear change in capacitance ratio between said first and second capacitors;
    - and said converting means for converting said differential capacitance signal into a linearly changing percent of grade signal representing the rotation of said sensor unit as said bore is formed.
  - 13. The apparatus of claim 11 wherein said sensor housing includes a sensor cover which covers said sensor unit within said sensor housing, said sensor unit being secured to said cover, and means for rotatably mounting said cover and sensor unit relative to said housing for adjusting the orientation of said sensor unit relative to said housing.
  - 14. The apparatus of claim 11 wherein said sensor housing includes a fitting conduit being carried by said casing connected to said fitting, and an instrument cable connected to said sensor unit passing through said conduit to a monitor having a visual readout of said percent of grade.
  - 15. The apparatus of claim 14 including a plurality of conduits and plurality of said pipe casings joined end to end and connectable to each another, said instrument cable passing through said plurality of conduits in series.
  - 16. The apparatus of claim 11 wherein said sensor housing is carried by said casing within a range of about 65 to 110 degrees of a vertical axis intersecting the longitudinal axis of the casing.

17. For use with apparatus for boring and laying pipe casing underground which includes means for steering said casing head up or down to determine the grade of said bore, means for pushing said pipe casing through the bore as it is formed, and a sensor for sensing the percent of grade of said casing comprising:
- a grade sensor unit contained in a sensor housing mountable to said casing for sensing percent of grade;
  
  said grade sensor unit comprising variable capacitance means having a chamber means formed in part by a capacitor plate with capacitor means;
  
  a dielectric fluid carried in said chamber means for variably covering said capacitor means to produce a variable capacitance signal;
  
  converting means for converting said variable capacitance signal into a grade deviation signal representing the deviation in grade from a desired percent of grade;
  
  wherein said sensor housing is mounted within an opening formed in said casing so that a base of said sensor housing is generally flush with an inside wall of said casing;
  
  wherein said sensor housing includes a sensor cover which covers said sensor unit within said sensor housing, said sensor unit being secured to said cover, and means for rotatably mounting said cover and sensor unit relative to said housing for adjusting the orientation of said sensor unit relative to said housing.
- View Dependent Claims (18, 19, 20, 21, 22, 23)
- - 18. The apparatus of claim 17 wherein said chamber means includes a first chamber formed on a first side of said capacitor plate, and a second chamber formed on a second side of said capacitor plate, said dielectric fluid contained in said first and second chambers;
    - andsaid first and second chamber plates forming ground plates equal distant from said capacitor plate.
  - 19. The apparatus of claim 18 wherein said capacitor means includes a first capacitor and a second capacitor carried by said capacitor plate exposed to said dielectric fluid.
  - 20. The apparatus of claim 19 including:
    - a first partition in said first chamber, and a second partition in said second chamber;
      
      said first and second partitions electrically isolating said first and second capacitor plates in said first and second chambers to thus define a pair of chamber halfs in each of said first and second chambers;
      
      said first and second chambers being filled with equal amounts of said dielectric fluid;
      
      said dielectric fluid consisting of equal amounts of a dielectric liquid and an inert gas; and
      
      slots formed at the top and bottom of said partitions to permit equalization of the fluid level and gas pressure between said pair of chamber halfs in each of said first and second chambers.
  - 21. The apparatus of claim 20 wherein said variable capacitance signal includes a linear differential capacitance signal representing a linear change in capacitance ratio between said first and second capacitors;
    - and said converting means converts said differential capacitance signal into a linearly changing percent of grade signal representing the rotation of said sensor unit as said bore is formed.
  - 22. The apparatus of claim 17 wherein said sensor housing includes a fitting connectable to a pipe section, the pipe section connected to said fitting carried by said casing, and an instrument cable connected to said sensor unit for passing through said pipe section to a monitor which displays said changes in percent of grade into a digital display reading.
  - 23. The apparatus of claim 17 wherein said sensor housing is carried by said casing within a range of about 65 to 110 degrees of a vertical axis intersecting the longitudinal axis of the casing.

24. A method for controlling an earth boring tool for forming a bore underground at a desired percent of grade using a boring tool having a pipe casing, a casing head carried at a forward end of said pipe casing having a cutting head which cuts said bore, and means for steering said casing head up or down to form said bore at said desired grade, said method comprising:
- mounting a grade sensor having a sensing axis onto a side portion of said casing so that said sensing axis is angularly disposed in a range of 65 to 110 degrees f a vertical axis intersecting the longitudinal axis of said casing;
  
  sensing said percent of grade as said bore is formed by detecting the difference in capacitance between two capacitors which are carried in said sensor by using a dielectric fluid confined in a chamber in contact with said capacitors for displacement about said sensing axis of said sensor in a pitch direction so that said fluid is displaced according to the rotation of said sensor about said sensing axis to variably cover said capacitors and produce differential capacitor signals representing rotation of said fluid about said sensing axis;
  
  converting said differential capacitance signals into a linearly changing percent of grade signals; and
  
  using said percent of grade signals to steer said casing back to desired grade.

25. A combination of a boring tool for forming a bore underground at a desired percent of grade and a grade sensor for sensing said percent of grade as said bore is formed, said boring tool having a pipe casing, a casing head carried adjacent to said pipe casing having a cutting head which cuts said bore, means for steering said casing head up or down to correct the grade of said bore, and means for pushing said pipe casing through the bore as it is formed, said grade sensor comprising:
- a sensor housing carried by a side wall of said casing;
  
  variable capacitor sensor means carried by said sensor housing for sensing motion about a sensing axis in a pitch direction corresponding to changes in percent of grade, and generating variable capacitance signals in response to said motion about said sensing axis; and
  
  means for converting said variable capacitance signals into grade signals representing deviations in percent of grade to correct for deviations of said casing in grade as said bore is formed;
  
  whereby said steering means may be controlled to return said casing to said desired percent of grade;
  
  wherein said variable capacitance sensor means includes;
  
  an interior chamber means;
  
  a capacitor plate carried in fluid communication with said chamber means which includes capacitor means; and
  
  a dielectric fluid carried within said chamber means which variably covers said capacitor means depending on rotation of said sensor means about said sensing axis to generate said variable capacitance of said capacitor means and corresponding variable capacitance signals; and
  
  wherein said chamber means includes first and second chamber plates defining respective first and second chambers, and said capacitor plate is sandwiched between said first and second chamber plates, defining respective first and second chambers, each said chamber containing said dielectric fluid and having said narrow configuration in said axial direction of said sensing axis effectively limiting said dielectric fluid to displacement generally about the pitch axis of said sensor means eliminating cross-axis coupling in the pitch and roll directions.

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Current Assignee
Paul N. Gibson
Original Assignee
Augers Unlimited, Inc.
Inventors
Gibson, Paul N.
Primary Examiner(s)
Dang, Hoang C.

Application Number

US07/345,907
Time in Patent Office

743 Days
Field of Search

175/45, 175/62, 175/73, 175/61, 175/320, 33/366, 33/313
US Class Current

175/45
CPC Class Codes

E21B 47/022   of the borehole, e.g. using...

E21B 7/06   Deflecting the direction of...

E21B 7/20   Driving or forcing casings ...

G01C 9/06   Electric or photoelectric i...

G01C 9/20   the indication being based ...

Percent grade boring and monitoring apparatus

First Claim

2 Assignments

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Abstract

21 Citations

25 Claims

Specification

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Percent grade boring and monitoring apparatus

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

21 Citations

25 Claims

Specification

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Solutions

Use Cases

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