System for controlling cutting horizons for continuous type mining machines
First Claim
1. A system for controlling a mining machine, comprising:
- a seam boundary sensor adapted to be mounted on the mining machine, the sensor further adapted to sense energy emissions and to generate a sensor output indicative of sensed energy emissions; and
a control system adapted to be mounted on the mining machine in communication with the seam boundary sensor and to detect a seam boundary located between and formed by material to be mined and undesirable material not to be mined, the control system adapted to detect the seam boundary by monitoring the seam boundary sensor output and to generate a seam boundary signal indicating that the seam boundary has been reached when the seam boundary sensor generates a sensor output indicating that a seam boundary energy emission has occurred, the seam boundary energy emission being caused by mining of undesirable material forming part of the seam boundary.
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Abstract
A control system for continuous mining machine to control the mining horizons of roof and floor horizons relative to the rock boundaries of an underground coal seam or ore vein. The mining machine is provided with a cutting drum mounted on a pivoted arm to allow for vertical displacement of the cutter to control the mining height. A plurality of sensors is carried on the rotatable arm to locate the roof and floor boundaries. Attitude sensors are mounted on the machine for providing signals indicative of the inclinations of the body of the machine, and, a microprocessor receives the signals from the boundary sensors and the attitude sensors for calculating the required roof cut and floor cut. A display device receives the signals from the microprocessor and displays the calculated results to the machine operator.
52 Citations
25 Claims
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1. A system for controlling a mining machine, comprising:
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a seam boundary sensor adapted to be mounted on the mining machine, the sensor further adapted to sense energy emissions and to generate a sensor output indicative of sensed energy emissions; and
a control system adapted to be mounted on the mining machine in communication with the seam boundary sensor and to detect a seam boundary located between and formed by material to be mined and undesirable material not to be mined, the control system adapted to detect the seam boundary by monitoring the seam boundary sensor output and to generate a seam boundary signal indicating that the seam boundary has been reached when the seam boundary sensor generates a sensor output indicating that a seam boundary energy emission has occurred, the seam boundary energy emission being caused by mining of undesirable material forming part of the seam boundary. - View Dependent Claims (2, 3, 4, 5, 6, 7)
the material to be mined includes coal; and
the undesirable material not to be mined includes shale or fire clay.
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8. A method of controlling a mining machine, comprising the steps of:
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sensing energy emissions during mining operations performed by the mining machine using a sensor mounted on the mining machine;
generating sensor outputs indicative of the sensed energy emissions using the sensor;
monitoring, using a computer system mounted on the mining machine and in communication with the sensor, the sensor outputs to determine when a seam boundary located between material to be mined and undesirable material not to be mined has been reached;
generating, using the computer system, a seam boundary signal indicating that the seam boundary has been reached when the sensor generates a sensor output indicating that a seam boundary energy emission, caused by mining of the undesirable material forming part of the seam boundary by the mining machine, has occurred. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
calculating an average value for a plurality of sensors outputs occurring prior to the sensor outputs associated with the seam boundary energy emission; and
generating the seam boundary signal if the average value of the plurality of sensor outputs associated with the seam boundary emission exceeds the average value of the plurality of sensor outputs occurring prior to the sensors outputs associated with the seam boundary energy emission.
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11. The method of claim 8, further comprising the steps of:
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sending the seam boundary signal to an operator display unit mounted on the mining machine in communication with the computer system; and
displaying an indication that the seam boundary has been reached using the operator display unit.
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12. The method of claim 11, further comprising the steps of:
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automatically sending the seam boundary signal to mining controls mounted on the mining machine in communication with the computer system; and
automatically causing the mining machine to stop mining using the mining controls in response to the seam boundary signal.
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13. The method of claim 11, further comprising the steps of:
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calculating a position of a cutter apparatus mounted on the mining machine relative to the seam boundary using the computer system; and
displaying the position of the cutter apparatus relative to the seam boundary using the operator display unit.
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14. The method of claim 13, wherein the step of calculating the position of the cutter apparatus includes the steps of:
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measuring a position of the mining machine relative to a mining machine plane extending from the mining machine to the cutter apparatus using attitude sensors mounted on the mining machine;
using the computer system to compensating for any tilt between the position of the mining machine and the mining machine plane.
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15. The method of claim 8, further comprising the steps of:
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calculating, using the computer system, a position of a cutter apparatus mounted on the mining machine relative to a prior cut made by the cutter apparatus; and
displaying the position of the cutter apparatus relative to the prior cut using the operator display unit.
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16. The method of claim 8, further comprising the steps of:
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calculating, using the computer system, a desired cut level for a cutter apparatus mounted on the mining machine that is a predetermined distance from the seam boundary; and
calculating, using the computer system, a position of the cutter apparatus relative to the desired cut level; and
displaying the position of the cutter apparatus relative to the desired cut level using the operator display unit.
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17. The method of claim 16, further comprising the steps of:
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determining that the cutter apparatus has reached the desired cut level using the computer system; and
displaying an indication that the cutter apparatus has reached the desired cut level using the operator display unit.
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18. The method of claim 17, further comprising the steps of:
automatically causing the cutter apparatus to stop cutting when the computer system determines that the cutter apparatus has reached the desired cut level.
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19. A mining machine, comprising:
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a seam boundary sensor mounted on the mining machine and operable to sense energy emissions during mining operations performed by the mining machine, the sensor further operable to generate sensors outputs based on the sensed energy emissions;
a computer system mounted on the mining machine and in communication with the seam boundary sensor, the computer system operable to monitor the sensor outputs generated by the sensor and to determine that a seam boundary located between material to be mined and undesirable material not to be mined has been reached when the sensor generates a sensor output indicating that a seam boundary energy emission has occurred, and wherein the seam boundary energy emission includes an energy spike created by a dust cloud of particles of the undesirable material created when the mining machine begins cutting the undesirable material forming part of the seam boundary. - View Dependent Claims (20, 21, 22, 23, 24, 25)
the mining machine includes a cutter apparatus operable to be positioned at a plurality of different heights relative to the seam boundary and operable to mine the material to be mined and the undesirable material; and
the computer system is operable to calculate and display a position of the cutter apparatus relative to the seam boundary to the operator.
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21. The mining machine of claim 20, wherein the computer system is operable to calculate and display a position of the cutter apparatus relative to a prior cut made by the cutter apparatus to the operator.
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22. The mining machine of claim 20, wherein:
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the computer system is operable to calculate a desired cut level for the cutter apparatus that is a predetermined distance from the seam boundary; and
the computer system is operable to calculate and display a position of the cutter apparatus relative to the desired cut level to the operator.
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23. The mining machine of claim 22, wherein the computer system is operable to display an indication to the operator that the cutter apparatus has reached the desired cut level.
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24. The mining machine of claim 23, wherein the computer system is further operable to automatically stop the cutter apparatus from moving past the desired cut level.
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25. The mining machine of claim 19, wherein:
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the seam boundary sensor is further operable to sense non-seam boundary energy emissions through a layer of the material to be mined covering the seam boundary; and
the computer system is further operable to receive sensor outputs from the seam boundary sensor indicating the non-seam boundary energy emissions have been sensed, to calculate a position of the mining machine relative to the seam boundary based on the non-seam boundary energy emissions, and to display the position of the mining machine relative to the seam boundary to the operator.
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Specification