RU2059070C1 - Method for making kerf cavity - Google Patents

Abstract

FIELD: mining; applicable in construction of underground mine workings. SUBSTANCE: central blasthole is drilled parallel to mine working axis (square to face plane). Drilled over circumference around the central blast hole and parallel to it are blast holes spaced at optimal intervals and complying with the requirements of the Unified Safety Regulations in Blasing Operations relating to the distances between blast holes in gaseous and dusty faces. Blast holes located over circumference are spaced from one another at the same distance and have the depth similar to that of the central blast hole. Blast holes are loaded with explosives as follows. Made in blast holes 1,2 and 3 are air bottom gaps (by means of hydraulic ampouls inflated with air) equalling the length of charges of blast holes 4,5,6 and 7. Then, introduced into blast holes are charges, and inert materials are used to stem the blast holes. First are initiated three blast holes with air-filled bottom space, and then, the remaining four blast holes with the next delay stage. EFFECT: higher efficiency. 3 cl, 5 dwg

Description

 The invention relates to the coal and mining industry, and more particularly to methods for forming a cut cavity during passage of mine workings by a blasting method.

There is a method of forming a cut cavity by a direct cut with a leading hole. In this cut, the central hole is drilled 0.6-1.0 m deeper than the rest of the set holes and is charged at this depth. The charge of the central hole is blown up with a slowdown relative to the charges located around the holes of the log [1]
The disadvantage of this cut is that with an increase in the depth of the holes, the length of the pressed part of the cutting cavity also increases so that the charge of the central hole is not able to eject the blasted rock mass and form a cutting cavity.

 Closest to the proposed method is the formation of a cut hole [2], including drilling the central and around it six peripheral holes, all to the same depth perpendicular to the surface of the face, placing charges in two tiers, and charges are placed in holes from the side of the hole with the formation of air gaps from the side of the bottom of the holes, in other explosive charges are placed from the bottom of the holes opposite to the uncharged parts of neighboring holes, first the explosives of the first tier are blown up, Then in the central hole, and last of all the charges of the second tier.

 The disadvantages of this cut are that there is no internal jamming of the holes, the explosion of the explosive charge of the central hole separately from the remaining holes gives an additional impulse to disperse the blasted rock and the overlapping of the charges of the second tier of the explosive charges of the first tier is associated with a gap in the continuity of the explosive charges of the second tier.

 The aim of the invention is to increase the efficiency of the explosion of cutting holes.

 The goal is achieved by the fact that in a straight cut all holes that are evenly spaced around the circumference, as well as the central hole, are drilled to the same depth, charged with single charges, but a group of holes, in the design of the hole charges of which a bottom air gap is provided, explode first.

 In figure 1, 2, 3 shows the location of the holes in the plane of the face; Figures 4 and 5 design blast holes charges of the first and second tiers.

 The formation of the cutting cavity according to the proposed method is carried out in the following sequence.

 Parallel to the axis of production (perpendicular to the face plane), drill a central hole. In a circle around the central borehole, boreholes are drilled parallel to it at a distance that is optimally and sufficiently consistent with the requirements of the "Unified Safety Rules for Blasting" in terms of the distance between the boreholes in dangerous faces due to explosion of gas and dust. The holes located around the circumference are at an equal distance from each other and have the same depth as the central hole.

 Charging holes is as follows.

 In the boreholes NN1, 2, 3 (Figs. 1, 2 and 3) create bottom air gaps 8 (Fig. 4) (for example, by using air-blown hydraulic tubes) for the length of charges 9 (Fig. 5) of boreholes NN4, 5, 6 , 7 (figures 1, 2 and 3). Then, charges 9 are introduced into the holes and the holes are indented with inert materials 10 (Figs. 4 and 5). Initiation of charges is made first of three holes with air bottom gaps, and then the next stage of deceleration of the remaining four holes.

 An increase in the efficiency of the explosion is achieved due to the presence of a single, non-rechargeable part of the holes in the depth of the array opposite the charges of the second tier and the creation of a system of microcracks that form in the array and the bottom part of the holes during the passage of the detonation wave as a result of the explosion of the charges of the first tier.

 The use of only 2 stages of deceleration in a cut creates favorable conditions for the use of the proposed cut in a set of holes for faces that are dangerous for the explosion of gas or dust, where the number of stages of deceleration is limited by the requirements of the "Unified safety rules for blasting". In addition, the use of the proposed method for the formation of the cutting cavity provides a high utilization rate of the holes, protects the workings from deformation during explosion of charges, and provides effective single-shot blasting of a set of holes.

Claims (3)

 1. METHOD FOR FORMING A LOG CAVITY, including drilling perpendicularly to the bottom hole plane of the central hole and parallel to it equally six depths of peripheral holes with the same hole, loading single holes of explosives of each hole with creating air gaps from the bottom of the holes in the same holes, placing the explosive charge in the remaining holes at the level of air gaps with the formation of two tiers of explosive charges and the explosion of explosive charges, starting from the closest to the surface exposure of the tier of explosive charges and ending remote tier, characterized in that, in order to increase the efficiency formation cuttings cavity in all blastholes from their mouth produce stemming of an inert material, wherein the length of all charges remote tier BB receiving the same, and blasting explosive charges in each tier are carried out simultaneously.  2. The method according to claim 1, characterized in that the explosive charges of the first stage of the line detonation charge the central and three holes located on the diameter of the circle.  3. The method according to claim 1, characterized in that the explosive charges of the first stage of the line detonation charge the central and two adjacent peripheral holes.

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