Mining system and method featuring a bread loaf shaped borehole
First Claim
1. A mine defining an aperture created by excavation for extracting material from a mine face, said mine comprising:
- a plurality of intersecting substantially arcuate roof sections;
a pair of substantially vertical walls intersecting said plurality of substantially arcuate roof sections; and
a substantially horizontal generally planar floor intersecting said substantially vertical walls;
wherein said mine aperture is defined by said plurality of arcuately intersecting roof sections disposed between said pair of substantially vertical walls such that said substantially vertical walls further intersect said substantially horizontal generally planar floor, thereby creating and forming a bread loaf shaped borehole mine aperture.
6 Assignments
0 Petitions
Accused Products
Abstract
A method and apparatus for cutting a borehole substantially in the shape of a bread loaf within a mine includes four cutting systems. The first cutting system is a pair of three-armed, counter rotating, cutting heads which remove material from the mine face in a substantially vertical plane. The second cutting system is a pair of rotating cutting drums which follow the pair of counter rotating cutting heads. The third cutting system is a substantially vertical, rotating cutting head which removes the kerf formed at the ceiling or roof portion of the borehole. The fourth cutting system is a plow which both removes the kerf at the bottom of the borehole and directs the mined material to a conveyor system to remove the mined material from the mine.
43 Citations
20 Claims
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1. A mine defining an aperture created by excavation for extracting material from a mine face, said mine comprising:
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a plurality of intersecting substantially arcuate roof sections;
a pair of substantially vertical walls intersecting said plurality of substantially arcuate roof sections; and
a substantially horizontal generally planar floor intersecting said substantially vertical walls;
wherein said mine aperture is defined by said plurality of arcuately intersecting roof sections disposed between said pair of substantially vertical walls such that said substantially vertical walls further intersect said substantially horizontal generally planar floor, thereby creating and forming a bread loaf shaped borehole mine aperture.
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2. A method of making a borehole for a mine, said method comprising the steps of:
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making two substantially vertical circular cuts against the face of the mine, said cuts made by two substantially vertical counter-rotating cutting heads;
removing the kerf at the upper intersection of said two substantially vertical circular cuts, said kerf at the upper intersection removed using at least one substantially vertical rotating cutting head;
removing the kerf at the lower intersection of said two substantially circular vertical cuts, said kerf at the lower intersection removed using a plow type apparatus; and
forming substantially vertical walls extending downwardly from said substantially circular vertical cuts and forming a substantially horizontal floor between said two substantially vertical walls, wherein said vertical walls are formed using at least two substantially vertically oriented counter-rotating drums.
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3. An apparatus for forming a borehole in a mine, said apparatus comprising:
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a first cutting head constructed and arranged to rotate in a substantially vertical cutting plane, wherein said first cutting head has a plurality of bit assemblies pivotally mounted, wherein said bit assemblies comprise a plurality of springs for maintaining a radial position, thereby allowing maximum cutting diameter and further allowing ease of retraction of said cutting heads from said borehole, said first cutting head further comprising a plurality of water jet nozzle assemblies for removing material from a mine face;
a second cutting head constructed and arranged to rotate in said substantially vertical cutting plane in a direction opposite to the rotation of said first cutting head, wherein said second cutting head has a plurality of bit assemblies pivotally mounted, wherein said bit assemblies comprise a plurality of springs for maintaining a radial position, thereby allowing maximum cutting diameter and further allowing ease of retraction of said cutting heads from said borehole, said second cutting head further comprising a plurality of water jet nozzle assemblies for removing material from a mine face;
said first and second cutting heads each having a plurality of arms and open spaces therebetween, said arms and open spaces constructed and arranged so that said arms on said first cutting head intersect said open spaces in said second cutting head when said first and second cutting heads are rotated;
a pair of substantially vertical counter-rotating cutting drums positioned behind said first and second cutting heads;
a plurality of water jet nozzle assemblies disposed upon said pair of counter-rotating cutting drums;
a cutting head constructed and arranged to remove the kerf formed in said cutting plane between said first and second cutting heads at the top of the mine face, said cutting head having a plurality of bit assemblies pivotally mounted, wherein said bit assemblies further comprise a plurality of springs for maintaining a radial position, thereby allowing maximum cutting diameter and further allowing ease of retraction of said cutting heads from said borehole; and
a plow constructed and arranged to remove the kerf formed in said cutting plane between said first and second cutting heads at the bottom of the mine face. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
(a) an input portion for sensing conditions within the mine face, (b) a portion for processing the information received from said system for receiving information from within the mine, and (c) an output portion for providing control signals to said system for removing material from the mine face.
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18. The system as defined in claim 17 wherein said input portion includes sensors selected from a group including sensors for determining:
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the operation of the motors used to drive the system;
the position of the system within the borehole of the mine;
the atmospheric conditions within the mine;
the operation of the conveyor;
the operation of the tramming system.
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19. The system as defined in claim 17 wherein said processing portion of said controller includes segments selected from a group including a operational control portion, a diagnostic section, and a warning and shutdown section.
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20. The system as defined in claim 16 wherein said output section of said controller includes segments selected from a group including the following:
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control of mining operations;
control of system position;
control of conveyor operation;
monitoring of the operation of the system and conditions within the mine.
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Specification