RU2659446C1 - Method for forming fissure cavity of any configuration in rock mass with use of parallely converged shear and blast-hole charges - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining and mining industries. Method includes drilling two kinds of holes or holes of different diameters along the line of the cavity formed: the first – a larger diameter – pressing, the second – a smaller diameter – ejection, the placement of explosives in them and blasting. Ratio of the diameters of holes or wells of ejection and pressing is determined depending on the mining-geological and mining-technical conditions of production of these types of work. Method allows to increase the efficiency and safety of these types of work due to the optimal distribution of charges of different diameters in the array at a certain distance along the line of the cavity formed and to a certain depth determined for the specific mining and geological and mining conditions of the cavity being formed.

EFFECT: formation of the fissure cavity of any configuration of a given depth with a minimum flow rate for drilling and consumption of explosives.

4 cl, 2 dwg

Description

The invention relates to the mining and construction industries and can be used to form a crevice cavity of any configuration in a rock mass during explosive destruction of rocks by elongated charges (a hollow cavity, the formation of leading lining during construction of mine workings, etc.).

Known methods for the formation of logging cavities using holes or wells using an explosive method [E.O. Mindeli, V.A. Salganik, G.A. Vorotelyak et al. “Methods and means of explosive breaking of ore”. M .: Nedra, 1977 - 312 p.].

The disadvantages of the methods are:

- the complexity of the formation of the cutting cavities;

- the lack of the possibility of forming a cavity of the necessary configuration;

- the instability of these cutting operations under changing mining and geological and mining and technical conditions for blasting operations associated with the lack of substantiation of their parameters.

The closest in technical essence and the achieved result is a method of forming a direct slotted cut [N. G. Dubynin, V.A. Kovalenko "Theoretical foundations of mine workings." Novosibirsk, "Science". 1982 - 140 p.].

The disadvantages of the method are:

- unreasonably large volume of drilling and consumption of explosives;

- the instability of these types of cuts associated with the lack of validity of their parameters for various mining and geological and mining conditions for their use;

- Frequent pressing in with a crushed breed of non-rechargeable boreholes or wells.

The objective of the invention is to reduce the cost, increase the reliability and efficiency of the formation of the cavity of any configuration for any mining and geological and mining conditions for blasting.

This is achieved by the fact that the method of forming a slit cavity of any configuration in a rock mass includes drilling two types of holes or wells of different diameters in turn along the line of the formed cavity: first — larger diameter — press-in, second — smaller diameter — ejection, placement of explosives in them and blasting . The ratio of the diameters of the boreholes or ejection and press-in wells is determined from the expression:

,

,

where d ₁ , d ₂ - respectively, the diameters of the bore holes or press-in and ejection wells, m;

σ is the compressive strength of rocks, MPa;

g is the density of the formed charge, kg / m ³ ;

D is the detonation velocity of the explosive used, km / s.

Boreholes or ejection wells are placed inside the crushing zone of boreholes or press-in wells, at the contact the crushing zone is the cracking zone, at a distance determined from the expression:

,

,

where r is the distance inside which boreholes or ejection wells are placed on the contact, m

Drill holes or ejection boreholes with an overshot, determined on the basis of the size of the crushing zone of boreholes or press-in wells, the propagation velocity of longitudinal waves in the array and the detonation velocity of the explosive used.

The boreholes or ejection wells are blown up with a slowdown with respect to the boreholes or boreholes, which is determined based on the size of the crushing zone of the boreholes or boreholes and the speed of propagation of longitudinal waves in the blasting mass.

The method is illustrated by drawings (Fig. 1; Fig. 2), which shows a diagram of the location of holes or wells along the line of formation of the cavity (1) for pressing (2) and ejecting (3) of the crushed rock; the size of the borehole or hole excess (4); depth of the cavity formed (5); placement of fighter cartridges (6) in the generated charges; the zone of crushing holes or press-in wells (7) and drill holes or ejection wells (8).

, заполняют обуренные шпуры или скважины взрывчатым веществом, причем шпуры или скважины выброса взрывают с замедлением по отношению к шпурам или скважинам запрессовки на время t.The method is as follows: in the design loop, two types of holes or wells of different diameters are drilled along the line of the cavity being formed so that the diameter of the holes or press-in wells (d ₁ ) must be larger than the diameters of the holes or ejection wells (d ₂ ), while the diameters of the holes or wells are selected based on the fact that the boreholes or ejection wells should be inside the formed zone of crushing boreholes or press-in wells (r), and the boreholes or bore-holes outside the formed zone of crushing from boreholes or boreholes and; to ensure the necessary depth of the formed cavity of the borehole or borehole drilled with a break to depth

, fill drilled holes or boreholes with explosive, moreover, boreholes or ejection wells are blown up with a retardation with respect to boreholes or boreholes by pressing in at time t.

The ratio of the diameters of the boreholes or ejection and press-in wells is determined from the expression:

where d ₁ - the diameter of the holes or press-in wells, m; d ₂ - the diameter of the holes or ejection wells, m; σ is the compressive strength of rocks, MPa; g is the loading density of explosives, kg / m ³ ; D is the detonation velocity of the explosive used, km / s.

The distance at which boreholes or press-in wells are drilled (inside: on the contact, the crushing zone - the zone of cracks from bore-holes or press-in wells), is determined by the formula 2:

,

,

the size of the borehole or borehole is determined from condition 3:

- глубина формируемой полости, м; r - радиус зоны смятия от шпуров или скважин запрессовки, м; с - скорость распространения продольной волны в массиве, км/с.Where

- depth of the formed cavity, m; r is the radius of the zone of collapse from holes or press-in wells, m; s is the longitudinal wave propagation velocity in the array, km / s.

The deceleration time is determined by the formula 4:

the notation is the same.

The essence and example of a specific implementation of the method is as follows: Determined by the geological and mining conditions in which a gap is formed.

) - 1 м.Example 1: it is necessary to create a gap in the rocks with a compressive strength of 100 MPa; longitudinal wave propagation speed - 4000 m / s; diameters of existing drill bits: 50 mm; 45 mm; 42 mm; 36 mm; BB - ammonal (D = 4500 m / s); loading density - g = 1000 kg / m ³ ; slot depth (

) - 1m.

1. We determine the diameters of the press-in holes and ejection (we take the diameter of the press-in hole d ₁ = 45 mm), then (according to 1):

accept the closest available, i.e. d ₂ = 0.036 m.

2. Determine the distance at which it is necessary to drill ejection holes (according to 2)

3. Determine the value of the rebound (according to 3)

4. Determine the deceleration of the blast hole ejection in relation to the bore holes (according to 4)

(when used to slow the detonating cord (LH):

D = 6000 m / s;

=6⋅0,06=36 см; т.е. длина ДШ шпуров выброса должна быть длиннее на 36 см.

= 6⋅0.06 = 36 cm; those. the length of the LH of the ejection holes should be 36 cm longer.

Example 2: it is necessary to create a gap in the rocks with a compressive strength of 80 MPa; longitudinal wave propagation velocity in the array - 5000 m / s; diameters of existing drill bits: 50 mm; 45 mm; 40 mm; 36 mm; the explosive used is granulite AS-8 (detonation speed D = 3600 m / s; loading density - 1100 kg / m ³ ; slot depth - 1.5 m.

We accept the diameter of the press-in hole - 50 mm.

1. Then (according to 1), the diameter of the ejection hole will be determined:

Accept, the closest available, the diameter of the hole ejection d ₂ = 0,040 m

2. We determine the distance at which it is necessary to drill ejection boreholes (inside this zone: on the contact the crushing zone is the crack zone), (according to 2):

т.е

3. Determine the depth of the drill (according to 3)

those

4. Determine the deceleration time (according to 4):

(when used to slow down the LH: D = 6000 m / s, i.e. 6 m = 1 ms

those. the length of the detonating hole (LH) in the eject holes should be 28.3 cm longer than in the press holes).

Having all the necessary data, we proceed to equipping the massif along the line of the cavity being formed, loading and blasting the massif, boreholes of various diameters are arranged in alternating order:

Example 1: d ₁ = 0.045 m; d ₁ = 0.036 m;

Example 2: d ₂ = 0.05 m; d ₂ = 0.04 m;

on distance:

Example 1: r = 0.226 m;

Example 2: r = 0.236 m (inside the indicated zones: on the contact the crushing zone is the crack zone) to the design depth with a brow:

;example 1:

;

;example 2:

;

the charge is formed with direct initiation and is blown up: press-in holes - instantly; ejection holes - with a slowdown:

Example 1: t = 0.06 ms;

Example 2: t = 0.047 ms.

Thus, the method has the following advantages and in comparison with the prototype: it allows to reduce the volume of drilling and blasting operations, to form a cavity in the rock mass of any configuration with optimal parameters for any mining and geological and mining conditions with a sufficient degree of accuracy, to determine the ratio of the diameters of the ejection holes and press-fit , determine the depth of their drilling and the distance at which they are located, as well as the intervals of deceleration of the explosive charges.

Claims (11)

1. A method of forming a slit cavity of any configuration in a rock mass, including drilling two types of holes or wells of different diameters along the line of the formed cavity in turn: the first - the larger diameter - press-in, the second - the smaller diameter - ejection, the placement of explosives in them and blasting, different the fact that the ratio of the diameters of the holes or wells ejection and press fitting is determined from the expression:

where d ₁ , d ₂ - respectively, the diameters of the bore holes or press-in and ejection wells, m; σ is the compressive strength of rocks, MPa; g is the density of the formed charge, kg / m ³ ; D is the detonation velocity of the explosive used, km / s. 2. The method according to p. 1, characterized in that the bore-holes or ejection wells are placed inside the crushing zone of the bore-holes or press-in wells, at the contact the crushing zone is the crack zone, at a distance determined from the expression:

where r is the distance inside which boreholes or ejection wells are placed on the contact, m 3. The method according to claim 2, characterized in that the boreholes or ejection wells are drilled with an excess determined based on the size of the crushing zone of the boreholes or press-in wells, the propagation velocity of the longitudinal waves in the array and the detonation velocity of the explosive used. 4. The method according to p. 3, characterized in that the boreholes or ejection wells are blown up with retardation with respect to the boreholes or boreholes, determined based on the size of the crushing zone of boreholes or boreholes and the speed of propagation of longitudinal waves in the blasting mass.

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