RU2232975C1 - Method for charging of blind pass entry with explosive - Google Patents

Abstract

FIELD: mining art, in particular, formation of explosive charges at underground mining of high-grade deposits by mine ore-breaking with level and sublevel caving.

SUBSTANCE: the method of explosive charging of a blind pass entry includes driving of the blind pass entry, removal of the exploded rock from the driving of this entry and charging of its cavity with explosive. The cavity of the blind pass entry is charged by means of a pipe-line for delivery of explosive and a pipe-line for transportation of stemming, which are installed in the blind pass entry. A flexible shell for placement of explosive is preliminarily fastened on the ends of these pipe-lines terminating in the blind pass of the entry, the flexible shell has dimensions providing for placement of the linear explosive charge in the length of the blind pass entry, and in the upper part it is provided with a branch pipe for delivery of explosive to its cavity and a branch pipe for air passage. Fastened in the cavity of the flexible shell before its installation is a detonating cord provided with switching elements to the blasting network behind the flexible shell, and the pipe-line for delivery of explosive is connected to the branch pipe of delivery of explosive to the cavity of the flexible shell. After installation of both pipe-lines with the flexible shell fastened on them in the cavity of the blind pass entry the mouth part of this entry is filled with the rock of the driving of the blind pass entry forming a pile, from which the ends of both pipe-lines are brought out. Then, the flexible shell is filled with explosive through the pipe-line and the branch pipe for delivery of explosive alternating this operation with the operation of filling of the cavity of the blind pass entry with stemming around the flexible shell being filled with explosive by feeding the stemming through the open end of the pipe-line for its transportation. At filling of the flexible shell with explosive the air pressed out from it is exhausted through the pipe-line for transportation of stemming, and after the cavity of the blind pass entry is filled with stemming the pressed out air is discharged through the pipe-line for delivery of explosive.

EFFECT: decreased labor consumption and safety of the method.

1 dwg

Description

The proposed technical solution relates to mining, and in particular to methods of forming explosive charges (BB) during underground mining of powerful deposits by mine blasting ore with floor and sub-floor collapse.

There is a method of generating an explosive charge in an upstream mine for breaking ore (see RF patent No. 2166728, F 42 D 3/04, E 21 C 41/22, published in BI No. 13, 2001), including sinking of an upstream mine with a blasting the method, leaving the broken rock in the estuary of this mine and using it as a face, charging the cavity of the rising mine with an explosive charge through the well from the overlying horizon. Rising production is carried out by the method of successive sectional blasting of dispersed explosive charges in a set of wells drilled along the route of the rising production, leaving the pillar with the unexploded ends of the wells in the upper part of the production. After the release of the beaten rock to the bottom of the bottomhole, surveying is carried out of the obtained contour of the rising production, using the unexploded ends of the wells of the last section as a whole. According to the results of this survey, the actually obtained sections of the rising production at various heights are determined and the lines of least resistance are determined from them. Then, by calculation using these data, the values of the necessary dispersed explosive charges are determined by the height of the rising generation and the depth of their location. After that, they carry out the laying of each of these charges with the militant placed in it through the unexploded ends of the wells of the last section as a whole, and the gaps between these explosive charges are filled with inert material and a network of blasting the militants is laid through them.

A disadvantage of the known technical solution is the inability to use it due to the lack of mining workings over the deadlock uprising through which it is possible to carry out work on the formation of explosive charge.

Also known is a method of forming a chamber charge (see AS USSR No. 683292, class E 21 C 37/12, 41/06, published in BI 29, 1981), which includes tunneling the camera with a blasting method, loading the chamber with explosives substances and its clogging, moreover, the chamber passes in the form of rebellious workings, while the rock mass obtained during sinking, blocking the mouth of the rebellious workings, is left uncleaned and used as a clogging device, and the chamber is charged through a hole connecting the free space of the chamber above the clogging with one of adjacent mine workings.

The disadvantage of this method is the inability to use the known technical solution due to the lack of workings over the dead end uprising.

The closest in technical essence and the set of essential features is the method implemented in the device for charging rising wells with liquid explosives (see AS USSR No. 293125, class F 42 D 7/00, published in BI No. 30, 1971 .), including the sinking of a dead end uprising and charging its cavity with an explosive charge through a pipeline for supplying explosives. At the end of the latter, a flexible shell is preliminarily fixed for the placement of explosives. The flexible shell has dimensions that ensure the placement of a linear explosive charge along the length of the dead-end rising production. Before installing it, a detonating cord with switching elements to the explosive network outside the flexible shell is fixed in the cavity of the flexible shell. Through the pipeline for supplying explosives, the flexible shell of the explosives is filled with the release of air displaced from it when the flexible shell of the explosives is filled.

A disadvantage of the known technical solution is the impossibility of its use for solid explosives, as this would complicate the charging process and would not ensure the safety of working conditions.

The technical task of the proposed solution is to reduce labor costs for generating an explosive charge in a dead-end uprising mine and ensuring safe working conditions due to the mechanization of the process and the associated removal of miners from generating explosive charge.

The problem is solved as follows. A method for loading explosive of a dead-end uprising mine is proposed, including sinking of a dead-end uprising mine and charging its cavity with an explosive charge through a pipeline for supplying explosives, at the end of which a flexible shell is preliminarily fixed to accommodate explosives. The flexible shell has dimensions that ensure the placement of a linear explosive charge along the length of the dead-end rising production. In the cavity of the flexible shell before its installation, a detonating cord is fixed, equipped with switching elements to the explosive network outside the flexible shell. Through the pipeline for supplying explosives, the flexible shell of the explosives is filled with the release of air displaced from it when the flexible shell of the explosives is filled. According to the technical solution, when charging a dead-end uprising mine, in addition to the pipeline for supplying explosives, a pipeline is used to transport jamming. The mentioned pipelines are installed in a deadlock uprising, and at the end of the pipeline for supplying explosives ending in a dead end of a deadlock uprising, a flexible shell is fixed to accommodate the explosives, which is equipped with an explosive supply pipe in its upper part and an air passage pipe in the upper part. The pipeline for supplying explosives is connected to the nozzle for supplying explosives into the cavity of the flexible shell. After the installation of both pipelines with a flexible shell in the cavity of a dead-end uprising mine, the estuary part of this mine is filled with blasted rock obtained from its penetration, forming a stack from which the ends of both pipelines are led. Then, through the pipeline and the nozzle for supplying explosives, the flexible shell of the explosives is filled, alternating this operation with the operation of filling the dead end cavity of the deadlock rebounding around the filled flexible explosives by feeding the stem through the open end of the pipeline for transportation. When the explosive shell is filled with a flexible shell, the air displaced from it is discharged through the pipeline for transporting the bottom hole, and when the dead end cavity of the deadlock rising production is filled with displacements, the displaced air is discharged through the pipeline to supply the explosive.

Significant differences of the proposed technical solution are the charging of the cavity of the deadlock uprising by means of a pipeline for supplying explosives and a pipeline for transporting the casing, which are installed in the dead end uprising.

By means of a pipeline for supplying explosives to a dead-end uprising, a flexible shell pre-mounted on it is installed to accommodate explosives. The dimensions and shape of the flexible shell provide the necessary design power along the length of the dead end rising line charge of explosives with a detonating cord equipped with switching elements to the explosive network outside the flexible shell. Filling the flexible shell of the explosive and filling the cavity of the cavity of the dead-end uprising around the flexible shell filled with explosives is carried out alternating these operations, which ensures the completeness of filling the explosives of the cavity of the flexible shell and the possibility of using a smaller thickness of its walls.

When filling the flexible shell of the explosive, the air displaced in this case is discharged through the pipeline for transporting the bottom hole, and when the dead end cavity is filled with the dead end uprising cavity, the displaced air is discharged through the pipeline for supplying the explosive.

The aforementioned ensures the safe conduct of work on charging a dead-end uprising production of explosives, since the work is carried out without the presence of miners in this mine, and high-quality operations on charging a dead-end uprising production by filling a specific cavity of a flexible shell fixed in a given design location with a calculated explosive charge.

An example implementation of the method of loading explosives of a dead end uprising is shown (see drawing) in a schematic diagram (vertical section) and is illustrated by an implementation example.

In the dead-end uprising mine 1, a pipe 3 is installed that ends in its dead-end 2 for transporting stemming and a pipe 4 for supplying explosives to the cavity 5 of the flexible shell 6 by means of a nozzle 7 for supplying the explosives of the pipeline 4, at the end of which a flexible shell 6 is fixed. The flexible shell 6 is equipped with a nozzle 8 for the passage of air and has dimensions that ensure the placement of a linear charge of 9 explosives in it of the required design power along the length of the dead-end rising generation 1. A detonating cord 10 is fixed in the cavity 5 of the flexible shell 6, providing made by the elements 11 of switching to the blast network outside the flexible shell 6. After that, the wellhead 12 of the dead-end uprising mine 1 is filled with blasted rock 13 from the penetration of this mine 1, forming a pile of rock 13. At the same time, the ends 14 and 15 of the pipelines are removed from the rock pile 13 4, 3, equipped with three-way cranes 16 and 17, respectively connected to a charging machine 18 for supplying explosives and to a filling machine 19 for feeding and transporting jamming.

First, the charging machine 18 through the pipe 4 through the pipe 7 into the cavity 5 of the flexible shell 6 serves 30-100 kg of explosives (or more, depending on the strength of the material of the flexible shell 6), filling its lower part. Under the influence of its own weight of explosives, the flexible shell 6 extends along the length of the dead end uprising 1, and the air displaced from the flexible shell 6 through the pipe 8 enters the pipe 3 and through the open three-way valve 17 enters the atmosphere. Then fill the lower wellhead 12 of the dead-end uprising 1 by feeding the bottom hole (fine sand, gangue, etc.) by means of a filling machine 19 through pipeline 3 through its open end. In this case, the air displaced from the cavity of the dead-end upward generation 1 through the pipe 8 enters the cavity 5 of the flexible shell 6, then through the pipe 7, the pipeline 4 and the open three-way valve 16 - into the atmosphere. Alternating the operations of filling the explosive flexible shell 6 and filling the cavity 5 of the dead-end uprising 1 around the filled explosive flexible shell 6, a linear explosive charge is generated in the dead-end uprising 1. This ensures the safety of charging the dead-end uprising 1 and high-quality formation of the explosive charge .

Claims (1)

A method of loading explosive impingement upstream production by an explosive, including penetrating a deadlock uprising production and charging its cavity with an explosive charge through an explosive supply pipe, at the end of which a flexible shell is preliminarily attached to accommodate the explosive, while the flexible shell is sized to accommodate a linear charge explosive along the length of the dead end uprising, and in the cavity of the flexible shell before installing it I fix t detonating cord, equipped with switching elements to the blast network outside the flexible shell, through the pipeline for supplying explosive fill the flexible shell with explosive with the release of air displaced when filling the flexible shell with explosive, characterized in that when charging the dead-end rebellious generation pipelines for supplying explosives use a pipeline for transporting stemming, while these pipelines are installed in a dead end uprising a flexible shell for accommodating an explosive, which is provided in the upper part with a nozzle for supplying explosive in its cavity and a pipe for air passage, while a pipe for supplying explosive is fixed at the end of the pipeline for supplying explosive ending in a dead end of a dead end uprising. the wellhead hour is connected to the nozzle for supplying the explosive into the cavity of the flexible shell, after installing both pipelines with a flexible shell in the cavity of the dead end uprising l this mine is filled with blasted rock obtained from its penetration, forming a stack from which the ends of both pipelines are led out, then the flexible shell is filled with explosive through the pipeline and the nozzle for supplying explosive, alternating this operation with the operation of filling the dead end cavity of the uprising excavation around flexible shell filled with explosive material by feeding stemming through the open end of the pipeline for transportation, and when filling explosive g The displaced air is discharged from it through the pipeline through the pipeline for transporting the stemming device, and when filling the cavity of the dead end uprising mine, the displaced air is discharged through the pipeline to supply explosive.