Blasting method

US 8,538,698 B2
Filed: 01/30/2013
Issued: 09/17/2013
Est. Priority Date: 09/08/1999
Status: Expired due to Term

First Claim

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1. A method for assigning a cost-directed spacing to a borehole of predetermined diameter on a drill line along a bench of rock having a known density and a rock face, each location and borehole being subject to blast design criteria including a minimum spacing criterion, a maximum spacing criterion, and a minimum energy factor criterion, the method comprising:

(i) proposing, by a processor, a compliant spacing for a borehole on the drill line with reference to at least one associated burden boundary;

(ii) associating, by the processor, with the borehole a rock burden determined in part relative to the at least one burden boundary;

(iii) determining, by the processor, a cost-based loading configuration for the borehole according to a method for determining a priority-directed loading configuration for the borehole subject to blast design criteria, the method comprising;

(a) selecting a segment of the explosive column portion of the borehole to be filled with explosive material, wherein the explosive materials are evaluated in order of cost to generate a cost-directed loading configuration;

(b) determining the rock burden associated with the identified segment;

(c) evaluating candidate explosive materials for use in the identified segment in order of priority until one is found that meets the blast design criteria, wherein the explosive materials are evaluated in order of cost to generate a cost-directed loading configuration, and assigning the first complaint material to the selected segment, assigning stemming to the segment when all the candidate explosive materials fail to meet the minimum energy factor criterion and indicating whether all the candidate explosive materials exceed the maximum energy factor criterion; and

(d) repeating steps (a), (b) and (c) for each segment of the explosive column, and recording the resulting compliant configuration and determining its associated cost;

(iv) proposing, by the processor, a different compliant spacing with a corresponding borehole-boundary distance;

(v) repeating step (ii), (iii) and (iv) for each different compliant spacing; and

(vi) identifying, by the processor, the compliant spacing with the lowest cost compliant loading configuration.

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Abstract

Methods for evaluating drill pattern parameters such as burden, spacing, borehole diameter, etc., at a blast site are disclosed. One method involves accumulating the burden contributed by successive layers of rock and matching the accumulated rock burden to a target value for a borehole having a length related to the average height of the layers. Another method relates to varying drill pattern parameters and characteristics to match blast design constraints, including the substitution of one explosive material for another by the proper balance of materials and/or output energies to the associated rock burden. Analysis of deviations from target rock burdens and corrective measures are disclosed, as well as cost optimization methods. The various methods can be practiced using an appropriately programmed general purpose computer.

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12 Claims

1. A method for assigning a cost-directed spacing to a borehole of predetermined diameter on a drill line along a bench of rock having a known density and a rock face, each location and borehole being subject to blast design criteria including a minimum spacing criterion, a maximum spacing criterion, and a minimum energy factor criterion, the method comprising:
- (i) proposing, by a processor, a compliant spacing for a borehole on the drill line with reference to at least one associated burden boundary;
  
  (ii) associating, by the processor, with the borehole a rock burden determined in part relative to the at least one burden boundary;
  
  (iii) determining, by the processor, a cost-based loading configuration for the borehole according to a method for determining a priority-directed loading configuration for the borehole subject to blast design criteria, the method comprising;
  
  (a) selecting a segment of the explosive column portion of the borehole to be filled with explosive material, wherein the explosive materials are evaluated in order of cost to generate a cost-directed loading configuration;
  
  (b) determining the rock burden associated with the identified segment;
  
  (c) evaluating candidate explosive materials for use in the identified segment in order of priority until one is found that meets the blast design criteria, wherein the explosive materials are evaluated in order of cost to generate a cost-directed loading configuration, and assigning the first complaint material to the selected segment, assigning stemming to the segment when all the candidate explosive materials fail to meet the minimum energy factor criterion and indicating whether all the candidate explosive materials exceed the maximum energy factor criterion; and
  
  (d) repeating steps (a), (b) and (c) for each segment of the explosive column, and recording the resulting compliant configuration and determining its associated cost;
  
  (iv) proposing, by the processor, a different compliant spacing with a corresponding borehole-boundary distance;
  
  (v) repeating step (ii), (iii) and (iv) for each different compliant spacing; and
  
  (vi) identifying, by the processor, the compliant spacing with the lowest cost compliant loading configuration.
- View Dependent Claims (2, 3, 4, 5, 6, 12)
- - 2. The method of claim 1 wherein step (vi) comprises identifying the location of the borehole and of the first and second boundaries of the rock burden associated with the cost-directed spacing.
  - 3. The method of claim 1 comprising using a boundary associated with the cost-directed spacing as a fixed boundary for the rock burden of a subsequent borehole on the drill line and repeating the method to assign a cost-directed spacing to the subsequent borehole.
  - 4. The method of claim 1 comprising stopping the repeat of code (iv) and (v) when an energy factor constraint is not met.
  - 5. The method of claim 1 comprising first proposing in step (i) a spacing that corresponds to the minimum spacing criterion and proposing in step (iv) an incrementally larger spacing than was used in the previous steps (ii) and (iii).
  - 6. The method of claim 1 comprising proposing in step (ii) a spacing that corresponds to the maximum spacing criterion and proposing in step (iv) an incrementally smaller spacing than was used in the previous steps (ii) and (iii).
  - 12. The non-transitory computer readable method of claim 1 further comprising broadening at least one blast design constraint by an acceptable degree and repeating the steps of claim 1.

7. A non-transitory computer readable medium containing computer instructions stored therein for causing a computer processor to perform assigning a cost-directed spacing to a borehole of predetermined diameter on a drill line along a bench of rock having a known density and a rock face, each spacing and borehole being subject to blast design criteria including minimum spacing, maximum spacing, and minimum and maximum energy factors, the medium comprising:
- (i) code for accessing data relating to the configuration of a bench and to blast design criteria comprising minimum and maximum energy factors and data comprising energy and cost characteristics of candidate explosive materials;
  
  (ii) code responsive to user input defining on the bench a drill line having a drill line start point and a drill line end point;
  
  (iii) code for proposing a compliant spacing for a borehole on the drill line with reference to at least one burden boundary;
  
  (iv) code for associating with the borehole a rock burden determined in part relative to the at least one burden boundary;
  
  (v) code for determining a cost-based loading configuration for the borehole, comprising;
  
  (a) code for selecting a segment of an explosive column portion of the borehole to be filled with explosive material;
  
  (b) code for determining the rock burden associated with the selected segment and for accessing data pertaining to blast design criteria comprising minimum and maximum energy factors and for accessing data pertaining to candidate explosive materials;
  
  (c) code for evaluating candidate explosive materials for use in the selected segment in order of priority until one is found that meets the blast design criteria, and for assigning the first compliant material to the selected segment, for assigning stemming to the segment when all candidate explosive materials fail to meet the minimum energy factor criterion, and for indicating whether all candidate explosive materials exceed the maximum energy factor criterion; and
  
  (d) coded that causes code (a), (b), and (c) to repeat for each segment of the explosive column, and for indicating the resulting compliant configuration and determining its associated cost;
  
  (vi) code for proposing a different compliant spacing with a corresponding borehole-boundary distance and for causing code (iv) and (v) to repeat for each different compliant spacing; and
  
  (vii) code for indicating the compliant spacing with the lowest cost compliant loading configuration.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The non-transitory computer readable medium of claim 7 comprising code for indicating the location of the borehole and of the first and second boundaries of the rock burden associated with the cost-directed spacing.
  - 9. The non-transitory computer readable medium of claim 7 comprising code for using a boundary associated with the cost-directed spacing as a boundary for the rock burden of a subsequent borehole on the drill line and executing the code of parts (iii)-(vii) to assign a cost-directed spacing to the subsequent borehole.
  - 10. The non-transitory computer readable medium of claim 7 wherein code (iii) proposes a borehole and associated boundary spacing that corresponds to the minimum spacing criterion;
    - andwherein code (iv) comprises code for proposing an incrementally larger spacing than was used previously in code (iii), (iv) and (v).
  - 11. The non-transitory computer readable medium of claim 7 wherein code (iii) proposes a borehole and associated boundary spacing that corresponds to the maximum spacing criterion;
    - andwherein code (iii) comprises code for proposing incrementally smaller spacing than was used previously in code (iii), (iv) and (v).

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Current Assignee
Optimuck, LLC
Original Assignee
Live Oak Ministries
Inventors
Heck, Jay Howard Sr.
Primary Examiner(s)
KUNDU, SUJOY K

Application Number

US13/753,687
Publication Number

US 20130191029A1
Time in Patent Office

230 Days
Field of Search

702/6, 702/11, 102/301, 102/302, 102/312, 102/313, 703/2, 703/5, 703/10, 175/2
US Class Current

702/6
CPC Class Codes

E21C 37/16   by fire-setting or by simil...

F42D 1/00   Blasting methods or apparat...

G01V 9/00   Prospecting or detecting by...

Blasting method

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

68 Citations

12 Claims

Specification

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Blasting method

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

68 Citations

12 Claims

Specification

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Solutions

Use Cases

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