Method and apparatus for a rotating cutting drum or arm mounted with paired opposite circular polarity antennas and resonant microstrip patch transceiver for measuring coal, trona and potash layers forward, side and around a continuous mining machine

US 5,769,503 A
Filed: 07/23/1996
Issued: 06/23/1998
Est. Priority Date: 07/23/1996
Status: Expired due to Term

First Claim

Patent Images

1. An underground mining system, comprising:

an underground mining machine with a repositionable excavating cutter;

an antenna assembly attached to the underground mining machine and including a planar circularly-polarized transmitter antenna and a planar circularly-polarized receiver antenna mounted side-by-side in a common plane and of opposite circular polarizations;

a transmitter connected to said transmitter antenna with means for emitting synthetic pulse frequency-stepped ground-penetrating radar signals over a range of frequencies into materials accessible to said repositionable excavating cutter;

a receiver connected to said receiver antenna with means for measuring the amplitude and phase of received signals affected by said materials accessible to said repositionable excavating cutter; and

estimation means connected to the receiver for interpreting said amplitude and phase of said received signals into estimates of the thickness of an underground layer of geologic material accessible to said repositionable excavating cutter and proximate to the antenna assembly, wherein said estimates are based on predetermined dielectric constants of said underground material layer.

View all claims

2 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

For use in explosive atmospheres during mining, an flame proof or explosion proof internal AC alternator is provided to source electrical power from the rotations of a cutting head. A synthetic-pulse stepped-frequency ground-penetrating radar is used with oppositely circularly polarized transmitting and receiving antennas in a phase coherent microwave transceiver to measure the thickness of a coal deposit and to control the cut of a continuous mining machine operating in an underground mine. For example, a stepped-frequency radar and resonant microstrip patch antennas mounted near the outside surface of the cutting head to obtain measurements.

Citations

16 Claims

1. An underground mining system, comprising:
- an underground mining machine with a repositionable excavating cutter;
  
  an antenna assembly attached to the underground mining machine and including a planar circularly-polarized transmitter antenna and a planar circularly-polarized receiver antenna mounted side-by-side in a common plane and of opposite circular polarizations;
  
  a transmitter connected to said transmitter antenna with means for emitting synthetic pulse frequency-stepped ground-penetrating radar signals over a range of frequencies into materials accessible to said repositionable excavating cutter;
  
  a receiver connected to said receiver antenna with means for measuring the amplitude and phase of received signals affected by said materials accessible to said repositionable excavating cutter; and
  
  estimation means connected to the receiver for interpreting said amplitude and phase of said received signals into estimates of the thickness of an underground layer of geologic material accessible to said repositionable excavating cutter and proximate to the antenna assembly, wherein said estimates are based on predetermined dielectric constants of said underground material layer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The system of claim 1, wherein:
    - the antenna assembly includes a microstrip antenna mounted on a surface of said repositionable excavating cutter; and
      
      the estimation means determines a vertical thickness of a horizontal overhead seam comprising at least one layer of coal, trona and potash.
  - 3. The system of claim 2, further comprising:
    - a controller connected to servo-control said repositionable excavating cutter according to an output of the estimation means and that provides for cutting away all but a minimum predetermined vertical thickness of said horizontal overhead seam.
  - 4. The system of claim 1, wherein:
    - said repositionable excavating cutter comprises a rotating cutting drum in which the antenna assembly is mounted on the surface; and
      
      the estimation means determines a thickness of a material seam layer comprising at least one of coal, trona and potash.
  - 5. The system of claim 4, further comprising:
    - a controller connected to servo-control said repositionable excavating cutter according to an output of the estimation means and that provides for cutting away all but a minimum predetermined thickness of said material seam layer.
  - 6. The system of claim 1, wherein:
    - the antenna assembly is mounted to a side of said repositionable excavating cutter and provides for the shaping of a set of vertical ribs of material to support a ceiling of an underground mine; and
      
      the estimation means provides measurements of the horizontal thickness of said vertical ribs of material based on signals received from the antenna assembly.
  - 7. The system of claim 6, further comprising:
    - a controller connected to use said measurements from the estimation means to horizontally adjust said repositionable excavating cutter automatically for cutting away all but a minimum predetermined horizontal thickness of said vertical ribs.
  - 8. The system of claim 1, wherein:
    - the receiver is configured to be phase coherent with the transmitter, and at least sixty-four equally spaced frequency steps are generated by the transmitter over a range of frequencies which includes 200 MHz to 1000 MHz.
  - 9. The system of claim 1, wherein:
    - an electronics assembly that includes the transmitter, receiver, and estimation means is mounted in a rotating cutting drum of said repositionable excavating cutter; and
      
      the estimation means determines the corresponding respective vertical thickness of a proximate coal, trona, or potash seam that is variable over a horizontal travel of the underground mining machine.
  - 10. The system of claim 9, further comprising:
    - a timer connected to said rotating cutting drum and the transmitter for controlling the transmitter to time the generation of said frequency-steps to coincide with the antenna assembly being rotated to a top 4°
      
      -5°
      
      of an arc of rotation of said rotating cutting drum.
  - 11. The system of claim 9, further comprising:
    - a material cover of ceramic or polycarbonate is placed over the antenna assembly for wear protection.

12. A method for determining the thickness of underground geologic deposits over twelve inches in thickness, the method comprising the steps of:
- transmitting a series of synthetic-pulse stepped-frequency ground-penetrating radar signals from a circularly polarized microwave microstrip transmitting antenna into an underground geologic deposit;
  
  receiving a reflected series of signals with a second microwave microstrip receiving antenna having a circular polarization opposite to said transmitting antenna;
  
  using a fast Fourier transform to generate amplitude versus time data;
  
  signal processing said data to determine a time "t" between a first amplitude peak corresponding to a near interface of said underground geologic deposit and a second amplitude peak corresponding to a far interface of said underground geologic deposit, where "t" is the travel time of said transmitted signals reflected through the thickness of said underground geologic deposit; and
  
  estimating the dimension of said thickness of said underground geologic deposit by multiplying the speed of light by the time "t" and dividing the product by the square root of a predetermined dielectric constant of the material of said underground geologic deposit.
- View Dependent Claims (13, 14)
- - 13. The method of claim 12, wherein:
    - the steps of transmitting and receiving are such that said transmitting and receiving antennas are mounted to a continuous mining machine.
  - 14. The method of claim 13, further comprising the step of:
    - controlling the cutting depth of said continuous mining machine into said underground geologic deposit according to an estimate of said thickness of said underground geologic deposit obtained in the step of estimating.

15. A instrumentation system for determining the thickness of underground geologic deposits from a cutting drum of a mining machine operating in explosive atmospheres, the system comprising:
- a power generator providing for the ignition-free generation of electrical power in an explosive atmosphere from an alternating current (AC) alternator mechanically driven by at least one of a water turbine and a swinging counterweight set in motion by a rotating cutting drum of a mining machine;
  
  an antenna assembly including a planar circularly-polarized transmitter antenna and a planar circularly-polarized receiver antenna mounted side-by-side in a common plane and of opposite circular polarizations and mounted near an outer perimeter of said rotating cutting drum and mounted behind a protective skin;
  
  a transmitter connected to said transmitter antenna and providing for synthetic pulse frequency-stepped ground-penetrating radar signals over a range of frequencies, and connected to receive operating power from the power generator;
  
  a receiver connected to said receiver antenna and providing for measurements of a radio-illuminated underground material layer based on the amplitude and phase of received signals, and connected to receive operating power from the power generator; and
  
  estimation means connected to the receiver for interpreting said amplitude and phase of said received signals into estimates of the thickness of an underground layer of geologic material proximate to the antenna assembly based on predetermined dielectric constants of said underground material layer, and connected to receive operating power from the power generator.
- View Dependent Claims (16)
- - 16. The system of claim 15, wherein:
    - the antenna assembly further comprises a combination of stepped-frequency and resonant patch antennas as sensors that are disposed in said cutting drum and provide navigation signals for the mining machine according to an estimate of said radio-illuminated underground material layer thickness provided by the estimation means.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
International Bank
Original Assignee
Stolar Incorporated
Inventors
Stolarczyk, Larry G., Stolarczyk, Gerald L.
Primary Examiner(s)
Bagnell, David J.

Application Number

US08/685,214
Time in Patent Office

700 Days
Field of Search

299/1.1, 299/1.2, 324/323, 324/332, 324/644
US Class Current

299/1.2
CPC Class Codes

E21C 27/24   by milling means acting on ...

E21C 35/00   Details of, or accessories ...

E21C 35/24   Remote control specially ad...

E21C 39/00   Devices for testing in situ...

Method and apparatus for a rotating cutting drum or arm mounted with paired opposite circular polarity antennas and resonant microstrip patch transceiver for measuring coal, trona and potash layers forward, side and around a continuous mining machine

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

Citations

16 Claims

Specification

Solutions

Use Cases

Quick Links

Method and apparatus for a rotating cutting drum or arm mounted with paired opposite circular polarity antennas and resonant microstrip patch transceiver for measuring coal, trona and potash layers forward, side and around a continuous mining machine

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

16 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links