SU163514A1 - - Google Patents

Description

The method of charging boreholes and forming charges from loose explosives, mainly in open pit mining using the method of borehole explosions, is well known.

In terms of their geological structure (strength, watering, etc.), rocks are extremely diverse, and for their rational development using borehole explosions, plants produce a wide range of explosive compositions with different physical and explosive properties, for example, many brands of ammonites and dinamons are made. and other low-explosive formulations.

A method is proposed for charging boreholes with the simultaneous formation of charge from separate (unmixed) bulk explosive components, for example, from granulated ammonium nitrate and trotyl. This method allows, when there are several explosives in the quarries (at the quarries), such as TNT and saltpeter, to obtain mixtures of explosives with a given percentage ratio of components in the process of charging wells (blocks) and forming charges of a rational structure in relation to a specific geological structure blasted rock.

Before blasting hard rock to ensure its even crushing in

The prepared well, for example, a depth of not less than 10 m and a diameter of not less than 150 mm in the process of charge / recharge, is formed in the following manner. Trotyl is placed at the bottom of the well and with a reboot with a fighter of powerful explosives (400-500 g) on a detonating cord, then the well is filled with roomones, placed at the height of the charge in layers or as a mixture with a gradual decrease in the trotyl content in charge from 100 10% of the corresponding increase in the content of nitrate.

The percentage of the corresponding components and the mixture that is mounted in the well is controlled by a mixing funnel (bin), divided into sectors to accommodate the charge components and the moving valve.

At a distance of about 1 m from the upper level of the charge, the second fighter (detonator) is placed in it and the stem is inserted, and the detonating cord from the fighters is connected to the explosive main.

When this method of dry boreholes is charged into a mixture of explosive components including saltpeter, it is proposed to add up to 15% of water in relation to the weight of the charge, thus creating a water-filled explosive and increasing the density and power of the charge.

FIG. Figures 1 and 2 show the charges formed from separate Komiopaeites in the longitudinal section; on fng. 3 - mixing funnel (bunker) in longitudinal section; on fkg. 4 - charges in longitudinal section, formed with air gaps: in wells of directional (inclined) drilling; in fig. 5 - longitudinal section of the charge, formed in the well with cumulative funnels and air gaps; in fig. 6 - cumulative charge in the longitudinal section, the shock wave of the explosion is directed downward along the axis of the charge; in fig. 7 - the same, the shock wave of the explosion is directed horizontally; in fig. 8- the same, the shock waves of the explosion are directed towards each other; in fig. 9 - the same, the shock wave of the explosion is directed both down the axis of charge and horizontally in opposite directions.

A powerful explosive (TNT) 2, an upper thriller (detonator) 3, a lower intermediate thriller 4, a thread of a degassing cord 5, an explosive mixture 6, an inert material striker 7 are placed on the bottom / well. The air gap 8, which is a compensator, reduces the peak pressure of the products of a charge explosion and extends their exposure time to the rock to be destroyed.

The mixing funnel 9 (see Fig. 3) is divided into sectors 10 and has a regulating movable damper (gate) 11, a mixing hose 12 and a valve 13. For ease of charging, the mixing funnel can be mounted on a vehicle (self-propelled unit) used for transporting explosives substances from warehouses to the place of charging of boreholes.

To blast a rock that has a well height and a mixed geological structure because of its tenacity, resistance, water cut, in order to ensure its even crushing along the height of the ledge, during the formation of the charge in the well, it is proposed to introduce additives that increase the power and sensitivity of the charge or reduce it. power, inject the additive of inert substances: sand, drilling fines, sludge, slag and other loose or liquid substances, and also form charges in the wells with one or more air gaps and cumulative funnels, made, for example, of metals, alloys, etc., which direct the shock wave of the explosion and increase the transmission of detonation, in charge.

Charges formed with air gaps in wells of directional (inclined) drilling include the following elements: the lower part of charge 14 from powerful explosives, the middle and upper parts of charge

15 from an explosive mixture, top fighter (DS toner) 3, intermediate fighters 16, threads of detonating cable 5, air gaps 8, stemming 7.

The charge formed in the well, with cumulative funnels and air gaps, has the following arrangement of elements: the lower part of charge 14 of MOHI, explosives, the middle and upper part of charge 1B from a mixture of components, the upper action (detonator) 3, intermediate fighters 16, thread of detonating cord 5, air gaps 8, stemming 7, cumulative funnels 17.

The method of charging boreholes is equally applicable for charging explosive wells, chambers, boreholes, and for filling explosive shells of explosive products (ammunition) with the simultaneous formation of cumulative charges of a rational structure with the action of a shock wave in a given direction. The constituent elements of these charges with the impact of the explosion wave down the axis of the charge and in the direction horizontally are indicated by the numbers: explosive charge 14, cumulative voroiki 17, action films (detonators) 3, detonating cord 5, air gaps 8 , downhole 7. A cumulative charge, the shock waves of which are directed towards each other, serves to obtain local high pressure. The charge 14 of the explosive is molded in the housing 18 with the hermetic cover 19, the cumulative collars (cones) 17 in it are combined with their bases. The charge is activated with the help of two militants (detonators) 3 located at opposite ends of the charge and initiated simultaneously.

In the cumulative charges of the intended purpose, the shock wave of the explosion is directed both down the axis of the charge and horizontally in opposite directions. Char 14 is molded in a cone case 18 with a cumulative funnel / 7 located by a notch down along the axis of charge and two funnels 20 with the direction of cumulative recesses in opposite directions from its axis. The charger is activated by two militants (detonators) 3, one located at the top of the charge, and the other at its center, approximately at an equal distance from the tops of the three cumulative funnels; both militants are undermined simultaneously by known means of initiating the explosives.

The method of charging boreholes by forming a charge from individual bulk explosive components is the simplest and allows for more complete use

imparting explosive energies and increasing blasting efficiency. It provides charges in wells, chambers, in the shells of explosive nzdelsh (ammunition, etc.) of a given structure with a rational ratio of individual explosive sonorous components, as applied to a specific purpose of the explosion, and also sharply reduces the cost of preliminary preparation of explosives, for their grinding, mixing, drying and transportation. This method can be widely used in ferrous and nonferrous metallurgy, the construction industry, as well as in the construction of canals, reservoirs, seismic and other works.

Subject of invention

Claims (2)

1. The method of charging boreholes with the formation of charge from individual bulk explosive components, for example, ammonium nitrate and trotyl, is distinguished by the fact that, for the purpose of more complete use of the energy of the explosive suspension and uniform crushing of the rock at the height of the ledge during borehole blasting kroonkihs on open-cast mining, at the bottom of the well, for example, a depth of at least 10 m and a diameter of at least 150 mm in the drilled hole, troit with a fighter from a powerful explosive on the detonating cord, then fill the well component They are placed in charge in layers or in the form of a mixture with a gradual decrease in the content of TNT in charge from 100 to 10%, and the second action is located about 1 m from the upper level of charge, after which the blocking and The detonating cord from the militants are connected to an explosive highway. 2. A method for charging boreholes according to claim 1, characterized in that. In order to increase the density and power of the charge when charging dry wells, an admixture of water in an amount of up to 15% of the weight of the charge is added to the mixture of explosive components, including nitrate, with a water-based explosive. Fig 7 Fig 2 I Figz