Claims
- 1. Apparatus for hydraulically mining a location, said apparatus including a hydraulic monitor means having horizontal and vertical positionable control means, a source of high pressure water, and means for coupling said source of water to said monitor means, an improved apparatus comprising:
- a. distance measuring means having a beam means and a signal output;
- b. process control means having a signal input means, a display output means and signal output means;
- c. means coupling said signal output of said distance measuring means to said signal input means of said process control means;
- d. display means having a signal input and a visual display;
- e. means for coupling said display output means of said process control means to said signal input of said display means;
- f. control means having an output coupled to said signal input means of said process control means; and
- g. monitor control means having a signal input and an output coupled to said horizontal and vertical positionable control means, with said signal input of said monitor control means coupled to said signal output means of said process control means
- whereby said beam means from said distance measuring means determines the contour of said mining location, said contour being displayed in said visual display of said display means and wherein operation of said control means cause said process control means to develop an output at said signal output means to said horizontal and vertical positionable control means to position said hydraulic monitor means.
- 2. Apparatus as described in claim 1 wherein said distance measuring means comprises a laser generating said beam means which impinges on said reflects from said location to said distance measuring apparatus generating a corresponding electrical signal at its signal output.
- 3. Apparatus as set out in claim 2 wherein said distance measuring means is swept both vertically and horizontally to develop a series of points which can be visually displayed on said display means as a three-dimensional representation of said location being mined.
- 4. Apparatus as described in claim 1 wherein said means for coupling said source of high pressure water to said hydraulic monitor means includes a control valve means having a signal control input and first and second fluid outlets, fluid diverter means, means for coupling said diverter means to said first outlet of said control valve means, means for coupling said hydraulic monitor means to said second fluid outlet and means for coupling said signal control input of said control valve means to said signal output means of said process control means whereby said source of high pressure water to said hydraulic monitor means can be diverted during the operation of said distance measuring means from said hydraulic monitor means to said diverter means.
- 5. A method for the remote control of a location being mined hydraulically having a floor and walls comprising:
- a. directing a high velocity stream of water against the location to hydraulically mine material at said location, during a predetermined interval of time;
- b. diverting said high velocity stream of water to another position at said remote location;
- c. measuring the distance form a known position to a plurality of points on said walls;
- d. transmitting said measured distances to a computer means;
- e. displaying said measured distances as calculated by said computer means to generate a representation of said location; and
- f. continuing said sequence of hydraulically mining and diverting said water to generate an updated representation of said location.
- 6. The method as described in claim 5 wherein the direction of said high velocity stream of water is controlled by said computer.
- 7. The method as described in claim 6 wherein said computer is controlled by manually inserting coordinates into said computer in correspondence to a desired change as determined by said display.
- 8. Method as described in claims 5, 6, or 7 including scanning said location while measuring said distance, thereby generating a complete representation of said location.
- 9. Method of hydraulically mining a surface of a mining location comprising:
- a. determining the dimensions of said surface of said mining location from a fixed point at said location;
- b. constructing at a second location remote from said mining location a visual representation of said surface from the determined dimensions of said mining location with respect to said fixed point;
- c. jetting water under high pressure against a selected area on said surface of said mining location;
- d. determining changes in said dimensions of said selected area of said surface of said mining location;
- e. reconstructing at said second location a new visual representation of said surface from the determined changes of said location during the jetting of said water; and
- f. redirecting said jetted water under high pressure utilizing data from said reconstruced visual representation.
- 10. The method as described in claim 9 wherein said dimensions are determined by scanning, using distance measuring equipment, said area.
- 11. The method as described in claim 9 or 10 wherein said visual representation is contructed at a second location remote from said mining location.
- 12. The method as described in claim 9 or 10 wherein said jetting of said water is interrupted during the period of time said dimension is determined.
- 13. The method as described in claim 9 or 10 wherein said water is diverted during the period of time said dimensions are determined.
- 14. An apparatus for hydraulic mining of materials, said apparatus including a frame having a nozzle means having vertical and horizontal positioning means mounted on said frame, and a first input means coupled to said nozzle means, an improvement comprising:
- a. distance measuring means mounted on said frame and oriented to measure in the direction of said nozzle;
- b. means for operating said distance measuring means;
- c. diverter nozzle means mounted on said frame and oriented along the direction of said nozzle means;
- d. second input means coupled to said diverter nozzle means; and
- e. means for coupling said first input means to a source of high pressure fluid while said distance measuring means is not in operation and for coupling said second input means to said source of high pressure fluid when said distance measuring means is in operation.
RELATED APPLICATION
This application is a continuation of U.S. patent application Ser. No. 668,543, filed Nov. 5, 1984, now abandoned which is assigned to the same Assignee as this application.
US Referenced Citations (19)
Continuations (1)
|
Number |
Date |
Country |
Parent |
668543 |
Nov 1984 |
|