RU2021122679A - DEVICE, METHOD AND COMPUTER SOFTWARE PRODUCT FOR PLANNING EXPLOSION ORDER - Google Patents

Claims (45)

1. A device (11) containing at least one data processing device (14) for planning the order of blasting holes (3) of the scheme (7) for the location of holes in the bottom of the heading (2) of the drilling and blasting cycle, and the bottom (5) of the heading (2 ) defines the first free surface (24) for blasting; while the device (11) is provided with data on the holes and the available time delays of the explosion; the device (11) is configured to plan a blasting sequence (9) for the drilling pattern (7) by dividing the blast into successive time delays after the initial blasting of the cut charges, creating an initial second free surface for blasting; device (11) is configured to allow selection of one or more holes (3) for each greater time delay for which holes (3) surround a previously formed second free surface (26) defined by holes (3) having a shorter time delay than considered time delay, and holes (3) form a group (34) of holes for this time delay; the device (11) is configured to determine the volumes (V _B ) of the blasted rock for each subsequent time delay based on the input data on the selected group (34) of holes and data on the expanding second free surface (26); the device (11) is configured to determine the free volume (V _F ) for each subsequent time delay, while the free volume (V _F ) is determined by the expanding second free surface (26) and the length (L) of the stop (2); And the device (11) is also configured to multiply the determined volumes of blasted rock (V _B ) by the entered loosening factor (SF), compare the results of the multiplication with the determined free volumes (V _F ) and allow selection of only those groups (34) of holes for which the results of the multiplication less than the determined free volumes (V _F ). 2. The device according to claim 1, characterized in that device (11) is also configured to determine fracture angles (BA) for holes (3) surrounding the second free surface (26); the device (11) is provided with data on the minimum allowable fracture angle (BA); the device (11) is also configured to allow selection of only those holes (3) that have a break angle (BA) greater than the minimum break angle (BA) towards the second free surface (26). 3. Device according to claim 2, characterized in that the device (11) is configured to allow the selection of only those holes (3) that have a fracture angle (BA) of at least 55° towards the second free surface (26). 4. The device according to any one of paragraphs. 1-3, characterized in that the device (11) is also configured to determine the perpendicular distances defining the fracture distances (Bd) between the outermost holes (3) of valid alternatives of at least two groups (34) of holes and the second free surface (26 ), and configured to give priority to the group (34) of holes having the smallest break distance (Bd). 5. The device according to any one of paragraphs. 1-4, characterized in that the device (11) is provided with data on the charges (17) of the holes (3) and data on the maximum instantaneous total amount of explosive material allowed for blasting with time delays; And the device (11) is configured to calculate the total amount of explosive material in the selected holes (3) for the considered time delay and limit the selection of holes (3) so that the total amount of explosive material in the holes (3) is below the allowed instantaneous total amount of explosive material. 6. The device according to any one of paragraphs. 1-5, characterized in that the device (11) is configured to: work in cooperation with the operator (10) and is configured to provide the operator (10) with proposals for selected holes (3) for each time delay and asking the operator (10) for confirmation for the proposed previous time delay before starting planning for the next time delay. 7. The device according to any of the previous paragraphs. 1-6, characterized in that the device (11) contains at least one display device (21) and is configured to visualize on the display device (21) the generated blasting sequence (9) step by step by representing the volumes of blasted rock (V _B ) at every time delay. 8. The device according to any of the previous paragraphs. 1-7, characterized in that the device (11) contains at least one display device (21) and is configured to: displaying the hole pattern (7) along with the selectable holes (3) on the display device (21); displaying on the display device (21), with the considered time delay, the previous second free surface (26) defined by holes (3) having a shorter time delay compared to the considered time delay; indication of the selected holes (3) for the considered time delay relative to the previous second free surface (26) and indicating the expansion of the second free space (26) caused by the selected holes (3) for the considered time delay. 9. The device according to any one of paragraphs. 1-8, characterized in that the device (11) is also configured to determine the same time delays for two separate groups (34) of holes (3) located on opposite sides of the second free surface (26), so that the specified groups (34) will be explode at the same time, while the removed rock will collide during the explosion and be crushed upon collision. 10. The device according to any one of paragraphs. 1-9, characterized in that the device (11) is configured to select only single holes for a predetermined number of first time delays to ensure sufficient free volume for the blasted rock at the start of blasting. 11. A method for planning the order of blasting holes (3) in the scheme (7) of the location of holes in the stop (2) of the drilling and blasting cycle, and the bottom (5) of the stop (2) determines the first free surface (24) for blasting; wherein the method includes: using at least one data processing device (14) in the planning process; receiving a hole pattern (7) containing data about the holes; receiving data (17) about the charges of the entry (2), wherein the data (17) about the charges contains the available blast time delays and the amount of explosive material for each hole; planning a blasting sequence (9) for the drilling pattern (7) by dividing the blast into successive time delays after the initial blasting of the cut charges, creating an initial second free surface for the blast; selection for each considered time delay of at least one group (34) of holes containing one or more holes (3) surrounding the previously formed second free surface (26) defined by holes (3) having a shorter time delay than the considered time delay delay; calculating the volume of blasted intact rock (V _B ) under consideration of the time delay for the selected group (34) holes; determining the volume of the forthcoming blasted broken rock by multiplying the calculated volume (V _B ) of the blasted unbroken rock by the loosening factor (SF) entered into the device (11); determining the available free volume (V _F ), which is the volume defined by the second free surface (26) and the length (L) of the stop (2), and allowing the selection of only those holes (3) which, with the considered time delay, give a volume of broken rock less than the determined free volume (V _F ), so that the rock has sufficient space for expansion during blasting. 12. The method according to p. 11, characterized in that it includes providing, by the data processing device (14), offers of selected holes for each time delay and requesting confirmation by the operator (10) of each of the proposals before scheduling for the next time delay. 13. The method according to claim. 11 or 12, characterized in that it includes taking into account the entered selections of holes (3), made manually by the operator (10), and continuing the automated planning for the next time delays. 14. The method according to any one of paragraphs. 11-13, characterized in that it includes calculating the total amount of explosive material in the selected holes (3) for the considered time delay and presenting the result on the display device (21). 15. Computer software product (15) for planning the blasting sequence (9), characterized in that it contains a program code configured to perform the method according to any one of paragraphs. 11-14 when it is executed on a computer or data processing device (14).