UA129048U - METHOD OF DRILLING - Google Patents

Abstract

A method of exploding a well includes drilling a well on a quarry block, filling a well with an explosive, placing it in explosives of fighters, for example, in the form of TNT checkers, filling the cavity of the well with the explosion, the rock block of the block products of explosive detonation. In the cavity of the well, before performing the charging work on the block, place and fix a tubular container in which pre-insulate the bottom part and which is made of easily destroyed material. The tubular container is placed in such a way that its upper boundary is not higher than the level of the explosive. Then the wells are placed fighters and in a given volume serves any explosive, such as ammonium nitrate. After the charge of the explosive is formed, liquid hydrocarbons - liquid petroleum products or liquid refined petroleum products, such as diesel fuel or ha, or liquid fuel oil - are fed into the tubular well located in the well. Part of the volume of the remaining cavity of the well is filled with a hole from the crushed rock mass. Militants and explosives are sequentially initiated. The created products of detonation destroy the tubular capacity and affect the mountain range.

Description

A useful model belongs to the mining industry and can be used in the development of ore deposits in an open way with explosive destruction of rocks with the help of well charges of a large diameter, drilled mainly by rotary drilling machines.

The useful model is intended for the destruction of strong monolithic or cracked rocks, the destruction of which requires significant material and labor costs.

A useful model can be used in the destruction of rocks by the use of low-cost explosives to reduce the cost of drilling and blasting and, accordingly, the cost of finished products for metallurgical enterprises.

A useful model can be used in those cases when the explosive used does not require special storage and transportation conditions, as well as compliance with specific safety rules during manufacture, as well as special equipment for preparing a ready-made mixture for charging wells on the block.

There is a well-known method of drilling wells, which includes drilling wells on a quarry block, filling the wells with an explosive substance, placing detonation means in the explosive substance, driving the equipped well with crushed rock mass, initiating the explosive substance, destroying the rock mass by the products of the detonation of the explosive substance (Russian Patent Mo 2120929 for the invention).

As an explosive substance, granular ammonium nitrate is placed in the well, which is pre-mixed with diesel fuel. In addition to the specified components, a regulated amount of granulotol is added to the resulting mixture.

During the production of explosives, solid components are fed into separate compartments of the receiving hopper of the stationary point of explosives production, after which the release of these components takes place through calibrated holes in the mixer, where diesel fuel is simultaneously introduced.

The disadvantage of the known method is that the increase in the efficiency of rock destruction is achieved only due to the fact that granulotol is introduced into the mixture.

The introduction of granulotol leads to a significant increase in the price of explosives and, accordingly, to an increase in the cost of drilling and blasting.

After charging the well, according to the method, the movement of diesel fuel to the lower part of the well is not excluded, which leads to a decrease in the energy efficiency of the mass explosion, in addition, diesel fuel, as a rule, is lost, penetrating into cracks in the rock massif.

The closest solution, chosen as a prototype, is the method of detonating well charges, which includes drilling wells on the quarry block, filling each well with an explosive mixed with diesel fuel, placing fighters in the explosive, filling the well cavity with a punch over the explosive, sequential initiation of militants and explosives, impact on the rock massif of the block by products of detonation of explosives (Vovk A.A. Explosive Guide, Kyiv, 1963. - 527 p.).

The disadvantage of the known method is that a considerable period of time passes from the moment of preparation of the explosive substance, its placement in the well to the moment of carrying out the blasting. As a result, diesel fuel moves to the lower part of the well, which disrupts the qualitative picture of a mass explosion. In the presence of porous and cracked rocks of the mountain massif, diesel fuel is lost, which also leads to unsatisfactory rates of rock destruction and significant oversize output.

The method can only be used to a limited extent when carrying out blasting works on small-area blocks where there is a small time gap between the process of charging the wells and the mass explosion.

The task of the useful model is to improve the method of detonating a well charge due to the fact that: the explosive, regulated by time, is saturated with liquid petroleum products or liquid waste from oil refining; distribution of liquid petroleum products or liquid oil refining waste is ensured by placing a tubular container in the explosive substance that is easily destroyed, the length of which is not higher than the height of the charge of the explosive substance; liquid petroleum products or liquid oil refining wastes are provided in the explosive due to the fact that calibrated holes can be made in the tubular container, the diameter of which depends on the viscosity of the product and the time required for saturation of the explosive;

a tubular container, after saturation of the explosive substance with liquid petroleum products or processing waste, can be used to create channel counter-directed detonation waves by placing and initiating warheads in the upper and lower parts of the container.

The task is solved due to the fact that the method of detonating a well charge includes drilling a well on a quarry block, filling the well with an explosive substance, placing militants in the explosive substance, for example, in the form of TNT shells.

The cavity of the well is filled with a plug, which is placed above the explosive. When an explosion is carried out, the militants and the explosive substance are sequentially initiated.

The gaseous products formed by the detonation of the explosive affect the rock massif of the block and destroy it to the predicted granulometric composition.

According to the useful model, in the cavity of the well, before carrying out charging work on the block, a tubular container made of material that is easily destroyed is placed and fixed. In the indicated container, the bottom part is pre-insulated. The container is placed in such a way that its upper border is not higher than the level of the explosive substance.

After the tubular container is placed, fighters are also placed in the well, and any explosive substance, for example, ammonium nitrate, is given in a given volume. After the explosive charge is formed, liquid petroleum products or liquid waste from oil refining, such as diesel fuel or kerosene, or liquid fuel oil, are fed into the tubular container placed in the well. Part of the remaining volume of the well is filled with crushed rock mass and sequentially initiate the warheads and, accordingly, the explosive substance.

The detonation products formed during the initiation of the explosive destroy the tubular container, mix with the explosive liquid petroleum products or liquid waste from oil refining and affect the rock massif of the block, which is worked out in the quarry.

For uniform and complete saturation of the explosive substance, the tubular container is filled with liquid petroleum products or liquid oil refining waste in an amount that is (8-12)95 of the volume of the explosive substance in the well.

For uniform regulated saturation of the explosive substance with liquids

With oil products or liquid waste from oil refining, the side wall of the tubular container is perforated with through holes.

For the formation of counter-directed channel detonation waves, the side wall of the tubular container is perforated with through holes. Fighters are placed and fixed in the end parts of the tubular container. By initiating the warheads, counter-directed channel detonation waves are formed along the axis of the container, with the help of which high-temperature plasma is formed along the height of the explosive charge.

The technical result of the use of a useful model is that: high energy characteristics of the explosion are provided, which allow the rock massif to be destroyed to a given granulometric composition; any explosive can be used as an explosive, such as ammonium nitrate, which is safe for storage and transportation; effective saturation of the explosive substance is ensured, which prevents the precipitation of liquid petroleum products or processing waste; the cost of demolition works is reduced due to the high energy efficiency of the explosive, which is used without the use of expensive components; implementation of the method makes it possible to achieve the predicted granulometric composition of the destroyed mining mass with a minimum content of oversized pieces of rock; implementation of the method does not require complex main and auxiliary equipment for the preparation of an explosive charge and its initiation.

The method is implemented as follows.

Drilling of wells is carried out after appropriate preparation of the block being worked out.

After cleaning the wells, they start charging them. Charging wells and carrying out an explosion is considered on the example of one well.

When charging a well, a tubular container is lowered into its cavity, the internal volume of which is (8.0-12.0)95 of the volume of the explosive in the well.

In advance, before charging the well, a tubular container is made from a prepared pipe, made, for example, of polymer materials. The bottom part of the container is hermetically sealed.

After lowering the tubular container into the well, warheads, such as TNT shells, are placed in it. TNT checkers are connected to the means of switching for the installation of a subversive network on the working unit.

If necessary, the tubular container is fixed in the well cavity using wedges, this allows it to be placed in a given position.

After placing the container and fighters, the cavity of the well is filled with an explosive substance. Traditional saltpetre or any other explosive substance, the use of which is expedient for economic reasons, can be used as an explosive.

The height of the tubular container, as a rule, does not exceed the height of the column of explosive substance, the amount of which is determined according to the passport of drilling and blasting works. After feeding the explosive substance into the well, the tubular container is filled with liquid hydrocarbons - liquid petroleum products or liquid waste from oil refining. To fill the tubular container, you can use, for example, diesel fuel or kerosene, or liquid fuel oil.

After filling the tubular container, the well is rammed with crushed rock mass and the final commutation of the blasting network is performed.

In the case of an explosion initiated by militants, the explosive substance destroys a tubular container with liquid petroleum products or liquid oil refining waste, which saturates the explosive and activates the energy indicators of the explosion.

Studies have shown that with a known viscosity of the hydrocarbon products used, the explosive substance can be effectively saturated before the mass explosion. This ensures the high energy of the explosion, which is necessary for the destruction of strong rocks.

To implement this variant of the method, before carrying out the explosion when charging the well, the surface of the tubular container is perforated with calibrated holes, the diameter of which is determined depending on the viscosity of liquid petroleum products or liquid oil refining waste. An important factor that determines the effectiveness of the implementation of the method is the correct choice of the diameter of the holes.

This diameter should ensure the saturation of the explosive substance until the moment of the explosion without sedimentation of oil products in the bottom part of the well under the influence of gravity.

When implementing this variant of the method, the order of work is preserved, but before the moment of explosion, the hydrocarbons saturate the explosive substance completely and evenly, which

Zo ensure high activity of the explosive substance from the moment of its initiation by the militants.

As research has shown, the optimal volume of the tubular container is a volume that is (8.0-12.0)95 of the volume of the explosive substance in the well. This volume of the tubular container allows to optimally saturate the explosive substance in the well cavity with the hydrocarbon explosion catalyst. When the volume of the container is reduced to less than 8.095, the explosive is not completely saturated, which does not allow to obtain the maximum energy effect during the destruction of rocks on the block. When the volume increases by more than 12.0 95, excessive saturation of the explosive substance with hydrocarbons occurs.

An increase in the volume of liquid petroleum products or liquid waste from oil refining leads to their losses and an increase in the cost of blasting, in addition, an excess amount of hydrocarbons does not lead to an increase in the energy characteristics of the explosion and the quality of crushing the rock massif.

Studies have shown that any hydrocarbon raw material can be used as an explosive activator - liquid petroleum products or liquid waste from oil refining are adjusted, if necessary, with the help of solvents to the required degree of viscosity.

In special conditions, when the destruction of strong rocks is required, high energy indicators can be achieved due to the formation of high-temperature plasma, which affects the explosive substance.

To implement the method, when charging a well, a tubular container with perforated walls is placed in it, as in the above-described variant. In addition, in the upper and lower parts of the tubular container, warheads, for example, TNT shells, are placed.

After filling the container with petroleum products, the well is rammed. From the container, through the holes, liquid petroleum products or liquid waste from oil refining seep out and saturate the explosive substance in the well. After saturation, the tubular container empties, creating a free channel inside the explosive. When the warheads are initiated, channel detonation waves are formed in the upper and lower parts of the tubular container, which move towards each other.

During the formation of channel detonation waves, the explosive substance is initiated by high-temperature plasma simultaneously along the entire height of the cavity in the well.

This pattern of detonation minimizes the initiation time of the explosive substance, and the presence of hydrocarbons in the explosive substance ensures high energy indicators of the explosion.

Research and industrial tests have shown the high efficiency of the method and the possibility of its implementation in the open development of deposits represented by rocks with a wide range of physical and mechanical properties.

Claims (4)

USEFUL MODEL FORMULA A method of detonating a well charge, which includes drilling a well on a quarry block, filling the well with an explosive substance, placing warheads in the explosive substance, for example, in the form of TNT shells, filling the cavity of the well of the kill located above the explosive substance, successive initiation of the warheads and explosive substance, impact on the rock massif of the block by the products of detonation of the explosive substance, which differs in that in the cavity of the well, before carrying out charging work on the block, a tubular container is placed and fixed, in which the bottom part is pre-insulated and which is made of easily destructible material , while the tubular container is placed in such a way that its upper border is not higher than the level of the explosive substance, after which fighters are placed in the well and any explosive substance, such as ammonium nitrate, is fed in a given volume, and after the formation of the explosive charge in tubular container placed in Sver depth, liquid hydrocarbons are fed - liquid petroleum products or liquid waste of oil refining, for example diesel fuel or kerosene, or liquid fuel oil, after which the remaining part of the volume of the well cavity is filled with a drill from crushed rock mass, sequentially initiate the warheads and the explosive, at the detonation products created by this destroy the tubular container and affect the mountain massif. 2. The method of detonating a well charge according to claim 1, which is characterized by the fact that the tubular container is filled with hydrocarbons - liquid petroleum products or liquid oil refining waste in an amount equal to (8.0-12.0) 95 of the volume of the explosive in the well. 3. The method of detonating a well charge according to claim 1, which differs in that the side wall of the tubular container is perforated with through holes. 4. The method of detonating a well charge according to claims 1-2, which differs in that the side wall З of the tubular container is perforated with through holes, and warheads are placed in the end parts of the tubular container, which, when initiated, form counter-directed detonation channels along the axis of the tubular container waves, with the help of which high-temperature plasma is formed at the height of the explosive charge.