UA138434U - BODY CHARGE OF EXPLOSIVE SUBSTANCE IN POLYETHYLENE COVER - Google Patents

Abstract

The borehole charge of the explosive in the polyethylene shell contains a polyethylene shell (sleeve) made of a cylindrical shape with a diameter equal to the diameter of the well (dsvrd.), Along the inner perimeter of which are formed along the entire length of the plastic hemispheres. equal to 1/8 of the length of the circle of the shell. A polyethylene shell with a load is placed in a well that is filled with explosive, the initiator is installed, the well is sealed with a stamping, blasting is performed with deceleration, where dsvrd. - diameter of the well; dnk is the diameter of the hemisphere.

Description

A useful model belongs to the mining industry and can be used during the explosive destruction of rocks by well charges in quarries.

Well-known well charges of explosive substance (BP) in a waterproofing shell of variable diameter (polyethylene sleeve), in which wide and narrow parts alternate with each other at equal intervals. At the same time, the diameter of the wide part is 1.1-1.2 the diameter of the well, and the diameter of the narrowed part of the shell is 1.1 of the critical diameter for this type

BP PP and methods of forming non-waterproof BP into waterproofing shells of variable cross-section, in which wide and narrowed parts with a length of 2 well diameters alternate with each other at equal intervals |21.

The closest in its technical essence and the achieved result from the proposed technical solution, chosen as an analogue, is a well charge made of non-waterproof BP in polyethylene shells (sleeves) of a constant diameter |ZI.

The structure of the charge is a polyethylene shell (sleeve) of constant diameter for the entire length of the well and with a cross-sectional diameter greater than the diameter of the well, in which the water-resistant BP net is placed.

The use of this design of the charge in a waterproof shell of a constant diameter along the entire length of the well and with a cross-sectional diameter greater than the diameter of the well increases the direct contact of the BP with the rock, which creates a significant increase in the effective coefficient of the explosion (KKDV) throughout the well column and, as a result, to growth the volume of crushed fractions and the output of oversized destroyed rock, which is a negative factor in the development of non-metallic minerals.

The basis of the proposed useful model is the task of developing a new design of a well charge BP in a polyethylene casing (sleeve), which ensures effective destruction of strong rocks due to the use of a new form of polyethylene casing (sleeve) with a diameter equal to the diameter of the well (Osvrd), along the perimeter of which with on the entire length of the inner side, plastic hemispheres with a diameter of dnk are formed, filled with an inert material (small foam rubber), thanks to which, during the detonation of the BP charge, they ensure the creation of a different gradient load of the rock massif along the entire length of the well, and as a result, a reduction in the volume of rock crushing along the height of the ledge, losses

From minerals in the development of ore and non-ore deposits, as well as a reduction in the cost of production due to savings in BP.

The problem is solved by the fact that the borehole charge of an explosive substance in a polyethylene casing, according to a useful model, the polyethylene casing (sleeve) is made of a cylindrical shape with a diameter equal to the diameter of the well (Asvrd.), along the inner perimeter of which plastic hemispheres are formed along the entire length, which between they alternate evenly along the perimeter of the polyethylene shell at a distance equal to 1/8 of the length of the circle of the shell, then the polyethylene shell with the load is lowered into the well, filled with an explosive substance, an initiator is installed, the wells are sealed with a rammer and detonated slowly, where Osvrd. - diameter of the well; dkk - the diameter of the hemisphere.

With the use of the design of a borehole charge of an explosive substance in a polyethylene shell (sleeve) of a new form, the technical result is achieved by forming plastic hemispheres along its perimeter along the entire length of the well, which, after detonating the explosive charge, create a multi-gradient load on the mass of rocks, increasing the useful effect of the explosion, reducing the of crushed fractions and cost of production.

The essence of the useful model is explained by drawings and diagrams: Fig. 1 - general view of the polyethylene sheath (sleeve); Fig. 2 - cross-section along A-A of the polyethylene shell (sleeve) and the beginning of the detonation process in the BP charge; fig. C - the work of high-temperature gas flows of a cumulative initiating pulse on the formation of a system of cracks on the surface of the well.

The method of forming a borehole charge of an explosive substance in a polyethylene shell is implemented in the following sequence.

On the ledge of the rock block (1, Fig. 1) near the wells (2, Fig. 1) to be charged, cylindrical polyethylene sheath-sleeves (3, Fig. 1) of a new shape with a diameter equal to the diameter of the well (Osvrd.), length which is related to the height of the ledge and, accordingly, to the depth of the well. The insulating polyethylene sheath-sleeve (3, Fig. 1) is made of polyethylene with a wall thickness of at least 0-0.4-0.6 mm, along the entire length of which plastic hemispheres with a diameter of (Occ) filled with inert material, for example, foam rubber (4, Fig. 1, Fig. 2), which alternate evenly along the perimeter of the polyethylene shell-sleeve at a distance equal to 1/8 of the length of the circle of the shell.

A prepared polyethylene sleeve-sleeve (3) with a load (a piece of rock) is lowered into the borehole. After the preparatory operations are completed, charging machines drive into the unit and fill the polyethylene sleeve-sleeve (3) with explosive substance (5), forming a charge of a continuous structure. According to the technology, after filling the polyethylene shell-sleeve with an explosive substance, on a non-electric initiation system (NSI), for example MOMEI, Prima

Era, Impulse, 2-4 connected T-400 TNT shells are lowered into the well - the main detonator (6). At the end of charging, the well is sealed with stuffing.

Charged wells are switched to diagonal patterns and detonated in slow motion.

After the initiation pulse is sent through the NSI waveguide, type MOMEG, Prima Era, Impulse, the warhead cartridge (6, Fig. 3) is triggered and on the surface of the VR charge (5) in its cross-section to the border of the charge column, and then along it to the end well (2), the front of the detonation wave O (7, 8 Fig. 3) is formed with its exit to the stationary mode of detonation. Due to the action of such a design of the charge in the polyethylene shell-sleeve of the new shape, there is a point load of different intensity of the rock massif, which contributes to the emergence of stretching waves with its subsequent destruction.

The use of the proposed BP charge in a new form of polyethylene shell contributes to the creation of a multi-gradient load of the massif of rocks and, as a result, with reduced consumption of explosives, ensuring their rational crushing.

Sources of information: 1. Pat. Mo 37722, Ukraine. MKV5 E 42 V 3/00. The method of destruction of cracked rocks by explosives. Efremov E.I. and others Bul. May 4, 2001. 2. Pat. Mo. 6518, Ukraine. MKV5 E 42 V 3/04. The method of forming a well charge with explosives. Efremov E.I. and others Bul. May 5, 2005. 3. Horobtsiv A.D., Gachkiv A.I., Prokopenko V.S. Waterproof BP charges during explosions. Coal

of Ukraine. 1989. - Mo 10. - P. 15-18 (analogue).

Claims (1)

USEFUL MODEL FORMULA A borehole charge of an explosive substance in a polyethylene sheath, which differs in that it contains a polyethylene sheath (sleeve), made of a cylindrical shape with a diameter equal to the diameter of the well (Osvrd), along the inner perimeter of which plastic hemispheres are formed along the entire length (dnk - diameter hemispheres), which alternate evenly along the perimeter of the polyethylene shell at a distance equal to 1/8 of the length of the circle of the shell, the polyethylene shell with the load is placed in the well, which is filled with an explosive substance, the initiator is installed, the well is sealed with a filler, the detonation is carried out slowly. dife E As y shko eat DOttkooettkh yokiya t V KE to xZ i is m zh a i. . And with MU I hall about . in Fig. 1