RU2449241C1 - Method to form multicharge in drowned well - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: in the method to form charges in drowned wells, including drilling of wells, their filling with explosives and a plug from inertial materials, a multicharge is formed in wells filled with water, made of two different types of hose explosive charges. The main hose explosive charge with detonation speed corresponding to the speed of stress wave propagation in surrounding rock and weight of 75…80% from total mass of the multicharge is placed vertically along the well axis. The second hose explosive charge with high speed of detonation exceeding the speed of stress wave propagation in a rock massif and weight of 20…25% from the total mass of the multicharge, is placed along the spiral around the first hose charge, with a pitch of one turn along the vertical line equal to two well diameters. Linear initiation of the explosive multicharge is carried out simultaneously along the entire length of the well with a detonating chord with a charge of 40 g/m.

EFFECT: amplified amplitude of a voltage pulse and intensity of rocks grinding, which as a whole increases efficiency of drilling and blasting works with reduction of hazardous effect of explosion to environment.

5 cl, 1 dwg

Description

The invention relates to mining, and in particular to methods of drilling and blasting in quarries during the formation of combined charges in flooded wells, and can be used in various fields using blasting in rock formations.

There is a method of separate formation of a combined explosive charge dispersed over the depth of the well using air gaps up to 3-4 m high between charges or between charge and stemming made of inert materials (see Efremov E.I. Preparation of rock mass in open pits / E. I. Efremov. - M .: Nedra. - 1980. - 271 p.).

The disadvantage of this method is that in flooded wells the formation of such a combined charge is difficult, while the efficiency of crushing rocks is reduced.

There is also known a method of forming an explosive charge in a waterproofing shell previously placed in a flooded well, due to the displacement of water more dense than explosive water (see Seinov N.P. Technology for loading flooded wells with non-waterproof explosives / N.P. Seinov, B. S. Valiev // Sat Blasting case No. 89/46. - M .: Nedra. - 1986. - S.204-215).

The disadvantages of the method is that it does not allow for efficient and uniform crushing of the rock, while increasing the yield of oversized material.

Closest to the claimed is a method of forming a dispersed charge of explosives in a waterproofing shell, with the creation of air gaps in a waterlogged well (see US Pat. RF No. 2306523, IPC F42D 1/08, publ. September 20, 2007, Bull. No. 26).

This method also does not allow for efficient and uniform crushing of rock over the entire height of the ledge and to reduce the specific consumption of explosives.

The technical result of the invention is to increase the efficiency of explosive crushing of rocks and reduce the yield of oversize due to the formation of a combined charge in waterlogged wells, consisting of two different explosive hose charges, including various types of explosives, the use of combined clogging and linear simultaneous initiation of explosive charge throughout height with a powerful detonating cord with a weight of 40 g / m.

The result is achieved in that the method of forming charges in waterlogged wells, including drilling wells, forming explosive charges in them and jamming from inert materials, is characterized in that the formation of explosive charges is carried out by placing a hose charge made in the form of a spiral in water-filled wells In this case, the main hose charge placed vertically along the axis of the borehole, and the auxiliary hose charge wound on the main one, are made of explosives with a detonation velocity equal to and greater than the propagation velocity eniya stress wave in the surrounding rock mass, respectively.

The method also differs in that the step of winding the auxiliary hose charge is equal to two diameters of the well.

The method also differs in that the masses of the main and auxiliary hose charges are equal to 75 ... 80% and 20 ... 25% of the total mass of the charge, respectively.

The method also differs in that linear simultaneous initiation of auxiliary explosive hose charges along the entire length with a detonating cord with a weight of 40 g / m is carried out.

The method also differs in that the stemming is made of expanded polystyrene placed in the well above the explosive charge with a gap filled with water and bulk material located above the well with a height of at least three diameters of the well.

The essence of the method is that they form a combined charge in water-filled wells, consisting of two different types of explosive hose charges. The main charge, including explosive with a detonation velocity corresponding to the propagation velocity of the stress wave in the surrounding rock and weighing 75 ... 80% of the total mass of the combined charge, is placed vertically along the axis of the well in a thick-walled polyethylene hose. The second hose charge, including an explosive with a high detonation velocity exceeding the speed of propagation of the stress wave in the rock mass and weighing 20 ... 25% of the total mass of the combined charge, is placed in a spiral around the main charge. To intensify crushing, linear simultaneous initiation of charges along the entire height is used with a powerful detonating cord with a weight of 40 g / m. After placement of explosive charges in a flooded well, a combined stemming is performed, including a flooded section above the explosive charge, expanded polystyrene laid on a mirror of water in the well, and a section of bulk material consisting of clay or small gravel (5-20 mm) mixed with sand (35-40%) and drill trifles, at least three well diameters high.

The efficiency of rock crushing is increased due to the imposition of longitudinal, transverse and tangential stresses in the rock mass resulting from the simultaneous explosion of various types of explosive combined charge and locking of detonation products in the borehole until the surrounding rock is completely destroyed by combined jamming. In areas where detonation waves in charges and stress waves meet in the rock mass, more intense crushing of the rock occurs.

Combined stemming can also increase the explosion efficiency due to the "locking" of detonation products and reduce the radius of expansion of fragments. The use of foamed polystyrene as a stemming in combination with bulk materials with a sufficiently high density, compressibility and a high coefficient of internal friction, allows to reduce the length of the stemming and create air gaps that provide maximum resistance to the repulsive action of detonation products.

A schematic diagram of a method of forming charges in waterlogged wells is shown in Fig.1.

The method is as follows.

A combined charge consisting of two different types of explosive hose charges is placed in drilled water-logged wells (1) with a diameter of 0.16-0.20 m. The main charge (2), including explosive with a detonation velocity corresponding to the propagation velocity of the stress wave in the surrounding rock and weighing 75 ... 80% of the total mass of the combined charge, is placed vertically along the axis of the well in a thick-walled polyethylene hose with a diameter of 0.10-0.15 m. The second is an additional hose charge (3) with a diameter of 0.024 m, including an explosive with a high detonation velocity exceeding the speed of propagation of a stress wave in the rock mass and weighing 20 ... 25% of the total mass th charge, fasten with twine and placed in a spiral around the main charge (2) with a step of one turn equal to 0.15-0.20 m. A powerful detonating cord (4) with a hitch 40 is attached to the additional hose charge (3) with twine g / m After placing explosive charges in a waterlogged well, a combined stemming is performed, including a waterlogged section above the explosive charge (5), expanded polystyrene (6) laid on a water mirror in the well, and a section of loose material (7) consisting of clay or small gravel (5-20 mm) mixed with sand (35-40%) and drill fines, with a height of at least three well diameters. Using a detonating cord (4), a simultaneous initiation of a combined explosive charge is linearly simultaneous over the entire height.

The method of generating a combined explosive charge in flooded wells, based on the principles of using the physical laws of fracture, allows to increase the useful use of blast energy and improve the quality of rock crushing without additional costs due to the use of a combined design and technological parameters of the explosive charge, a combination of various types of explosives and combined jamming.

The use of a combined explosive charge and combined stemming allows to increase the useful work of an explosion by 1.3-1.5 times due to interference of stress waves, reducing peak pressure and increasing the total duration of the explosion pulse.

The multiple effects of waves on rocks provide an increase in the amplitude of the stress pulse and the intensity of crushing of rocks, which reduces the cost of drilling wells by reducing their over-drilling and generally improves the efficiency of drilling and blasting operations while reducing the harmful effects of the explosion on the environment.

Claims (5)

1. The method of forming charges in flooded wells, including drilling wells, forming explosive charges in them and jamming from inert materials, characterized in that the formation of explosive charges is carried out by placing a hose charge made in the form of a spiral in water-filled wells, while the main hose a charge placed vertically along the axis of the borehole, and an auxiliary hose charge wound on the main one, are made of explosives with a detonation velocity equal to and greater than the propagation velocity of the stress wave in approx uzhayuschem rock mass, respectively. 2. The method according to claim 1, characterized in that the step of winding the auxiliary hose charge is equal to two diameters of the well. 3. The method according to claim 1, characterized in that the masses of the main and auxiliary hose charges are respectively 75 ... 80 and 20 ... 25% of the total mass of the charge. 4. The method according to claim 1, characterized in that the linear simultaneous initiation of auxiliary hose charges of explosives along the entire length of the detonating cord with a weight of 40 g / m. 5. The method according to claim 1, characterized in that the stemming is made of expanded polystyrene placed in the well above the explosive charge with a gap filled with water and bulk material located above the expanded polystyrene with a height of at least three well diameters.