UA13373U - Method for breaking-off rocks or man-made building objects - Google Patents

Abstract

A method for breaking-off rocks or man-made building objects includes drilling of blast-holes in rocks or man-made building objects, with preparation of charges, with equipping the charges with means of initiation of ignition, with installation of the equipped charges to blast-holes, connecting the means of initiation of ignition to the equipment for bringing charges into action, with bringing into action the means for initiation of ignition, deflagration of charges.

Description

Description of the invention

A useful model will apply to the mining and construction industry, namely: to the chipping of rock 2 or artificial construction objects.

There is a known method of extracting block stone, in which holes are drilled in the rock, measures are taken to prepare the charges, charges are equipped with means of initiating ignition, the charges are installed in the holes, the means of ignition are connected to the equipment for triggering the charge, and the means are detonated. initiation of ignition with the subsequent activation of the charge, 70 and the rock formation is carried out by the release of gases during the combustion of the chemical compound of the charge in the closed volume of the hole.

The disadvantages of the known method of extracting block stone is that explosive substances of the initiating mode of action are used as a charge. for example, explosives based on quicksilver (mercury fulminate), lead azide, lead trinitroresorcinate or explosive mode of action, for example, explosives based on tetranitropentaeriyrite (pentrite), cyclotrimethylenetrinitramine, trinitrophenylmethylnitramine. trinitrotoluene, ammonium nitrate. Explosives based on nitro ethers with various additives, flax seeds, and black powders are also used. All the mentioned substances are explosive, sensitive to moisture and thermal effects (at the same time, the sub-level properties are sharply reduced). When using charges from explosive substances, there is a large consumption of components due to the low energy of explosive substances used in the extractive industry, low efficiency of using the energy of explosive substances due to its expenditure on explosiveness (crushing of rock). From a technological point of view, when using charges from explosive substances, it is impossible to eliminate the negative consequence of the explosion, which leads to the formation of microcracks and stone chips, both in the detached commodity block and in the main rock massif. Also, from the mentioned point of view, the fact that the structure of the natural occurrence of the rock and the natural fissuring of the rock is not taken into account when setting the charges is also a disadvantage. in

The closest analogue is the method of extracting block stone, in which holes are drilled in the rock, measures are taken to prepare the charges, equip the charges with means of initiating ignition, install the equipped charges in the holes, connect the means of initiating ignition with the equipment for driving the charge into action , detonation of the means of initiation of ignition with the subsequent triggering of the charge is carried out, and the rock mass is broken by the release of gases during the combustion of the chemical compound of the charge in the closed volume of the cord, which does not contain explosive material. By means of the determined placement of the gas generators of the boreholes, when the rock mass is knocked out, it is simultaneously thrown up and displaced along the lower plane, measures are taken to examine the rock mass that has been knocked out for cracks, and visual control of the rock mass is carried out and the stone structure and the presence of cracks in the specified rock mass are detected, according to the conclusions of the survey and the detection of the presence of cracks determine the places - drilling additional holes in the reflected rock massif, carry out measures to prepare the line taking into account the detected cracks, equip the charges with ignition initiators, insert the charges into the prepared additional holes and connect them together to form an electric circuit. the specified "4" hole is plugged after installing the gas generators in the hole, detonation of the ignition means with the subsequent activation of the gas generators, the release of gases during the combustion of the chemical compound of the gas generators and the direct impact of the stone block with the specified gases. After carrying out an additional examination of the stone block for cracks that may occur when the stone block is thrown, a repeated visual control of the block is carried out, the places of drilling new holes are determined into which new charges are inserted, and the means of ignition initiation are detonated, with the subsequent activation of the hole gas generators, the release of gases at combustion of the chemical compound of the gas generators of the hole gas and - by the direct knocking of the stone block with the specified gases. The corresponding procedure is repeated up to the number of holes until no cracks are detected in the commodity block of stone.

This method of extracting block stone does not solve the problem from a technological point of view of the occurrence of cracks and chips of stone, both in the commodity block that stands out, and in the rock massif when it is thrown up and moved along the lower plane. The disadvantages also include the fact that the energy efficiency of the charges is not fully used. c" The useful model is based on the task of increasing the energy efficiency of devices for chipping rock by determining the minimum length of the holes, the arrangement of charges in the holes relative to each other in one row at the bottom of the holes or, depending on the depth of the holes, in parallel in several rows at the same level. 29 rocks or artificial construction objects due to the pressure of gases released from the filling over the entire area from the holes, creating splitting stress and the repulsive effect of gases on the slab, which must be chipped away from the main massif.

The task is solved by the fact that in the method of chipping rock or artificial construction objects, which includes drilling holes in rock or in artificial construction objects, preparing charges with 60 equipping the latter with ignition initiation means, installing equipped charges in holes, with the connection of means of initiation of ignition with the equipment for setting the charges into action, actuation of the means of initiation of ignition with the subsequent deflagration of the charges, which leads to the reflection of the rock massif by its simultaneous tossing and displacement along the lower plane during the release of gases due to the combustion of the chemical compound of the charge in a closed the volume of the hole that does not contain explosive material, according to the useful model 62, the holes for installing the equipped charges have a length of at least 0.8 meters, and the charges in the holes are located relative to each other in one row at the bottom of the holes or in parallel several rows on one levels

During the deflagration of the chemical compound of the charge, splitting voltage and the repulsive effect of gas pressure along the line of the walls of the holes are carried out. The chipping of a mountain massif or artificial construction objects is carried out by the pressure of gases on the walls over the entire area of freed holes, freed from clogging as a result of its compaction by gases during the combustion of a composite three-component chemical mixture of a crystalline oxidizer, a liquid mixture of hydrocarbons, and a powder-like modifier of the combustion process.

In the method of chipping rock or artificial construction objects, by placing the charges relative to each other in one row at the bottom of the holes or in parallel in several rows at the same level depending 7/0 on the length of the holes, the length of which must be at least 0, 8 meters when a mountain massif or artificial building objects are chipped away, a splitting stress and a repulsive action are carried out as a result of the work of gases.

The proposed method of chipping rock or artificial construction objects provides highly efficient block extraction of stone from rocks or artificial blocks on construction objects without the formation of micro-cracks and stone chips both in the chipped block and in the main massif. The essence /5 of the proposed useful model is explained by drawings.

Fig. 1 - the diagram of placement of charges in the holes when they are used.

Fig. 2 - a diagram of the combustion of the mixture and the lifting of the plug up the holes.

Fig. 3Z is a diagram of the pressure of gases on the walls of holes formed during the combustion of a composite three-component chemical mixture.

Fig. 4 - a diagram of the chipping of a mountain massif or artificial construction objects.

To implement the method of chipping rock or artificial construction objects, the claimed technological process takes place.

Having previously conducted an examination of the rock in order to detect the natural occurrence of stone and cracks or an artificial construction object in order to detect cracks, the places of drilling holes in the rock or in artificial construction objects are determined.

After specified technological operations, 5 tons of holes are drilled in the rock or in artificial construction objects with a depth of at least 0.8 meters, taking into account the fissure of the object. The prepared cords C are equipped relative to each other in one row at the bottom of the holes or in parallel in several rows at the same level with the devices of hole gas generators and on the basis of a composite three-component chemical mixture with

From a crystalline oxidizer, a liquid mixture of hydrocarbons and a powdery modifier of the combustion process. For this purpose, additional means of ignition initiation are installed in the gas generator hole 1 and they are connected by means of electric circuits 4 to the device for excitation (initiation) of detonation of the means of initiation of ignition. After equipping the holes with hole gas generators 1, technological operations are carried out in order to densely fill the holes with sand, clay or other material to create a closed volume relative to 5 G of the hole gas generator 1. "-

The prepared hole gas generators 1 explode (initiate ignition), as a result of which 7 specified hole gas generators 1 are triggered.

In the process of activation of the gas generators of the holes 1, a chemical reaction of the combustion of the chemical mixture takes place with the release of a large amount of gases 8, which are formed instantly, lifting the filling of the holes 2 upwards, " Compacting it and pressing it over the entire area of the freed holes 8 of a mountain massif or an artificial building object - ptv) with 5.

A large load on the walls of the hole Z and on the backfill 2 creates a splitting stress for chipping and directly leads to the repulsive effect of rock or artificial building objects 5 from the massif 6 along the stress concentrators, namely, along the planar placement of the holes 3.

Thus, during the splitting of rock or artificial construction objects by the formation of splitting stress and repulsive action on the planar placement of holes Z, a commodity block is obtained without the formation of cracks both in the rock or artificial construction object 5 hak and in the main massif 6 . o Improvement of the proposed method of chipping rock or artificial construction objects, in comparison with the prototype, is achieved by placing charges relative to each other in one row at the bottom of the cords or 5p in parallel in several rows at the same level, depending on the length bore holes Increasing efficiency

The application of the method of chipping rock or artificial construction objects also consists in the fact that 4) the length of the holes should be at least 0.8 meters.

Sources of information: 1. Shchukin Yu.G. and other "Industrial Explosive Substances Based on Recycled Ammunition",

ODdO Publishing House "Nedra", M., 1998, pp. 12-16 - analogue. 2. Shchukin Y.G. and others "Industrial explosive substances based on the disposal of ammunition", from ODdO Izdatelsto "Nedra", M., 1998, pp. 54-62 - prototype. 3. Engineering ammunition. Guide to material and application. Book one. Military

Order of the Red Banner of Labor, publishing house of the Ministry of Defense of the USSR, Moscow, 1976, p. 242. in 4. Stone work. The second book. 1989 (Ekida) MARK-Kiviappiv. Pages 22-39.

Claims (2)

Formula of the invention 65 1. A method of chipping rock or artificial construction objects, which includes drilling holes in rock or in artificial construction objects, preparing charges with equipping the latter with means of initiating ignition, installing equipped charges in holes, connecting means initiation of ignition with equipment for initiating charges, activation of means of initiation of ignition with the subsequent deflagration of charges, which leads to the reflection of the rock massif by simultaneously throwing it up and shifting it along the lower plane during the release of gases due to the combustion of the chemical compound of the charge in a closed volume a hole that does not contain explosive material, which is distinguished by the fact that the holes for installing equipped charges have a length of at least 0.8 m, and the charges in the holes are located relative to each other in one row at the bottom of the holes or in parallel in several rows at the same level. 2. The method according to claim 1, which differs in that during the deflagration of the chemical compound of the charge, 7/0 splitting voltage and the repulsive action of gas pressure along the line of the walls of the holes are carried out. that 2 (ze) in (ze) (ze) e - and? - (95) (95) -i syu» 60 b5