RU2791166C1 - Device for ventilation of dead-end mining workings - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to the field of mining and can be used in underground mining to ventilate the workings of mines and mines. The device for ventilation of dead-end mine workings includes a main pipeline stretched in the main working, a suction pipeline placed in the dead-end working and connected to the main pipeline, a fan connected to the end of the main pipeline. The device is equipped with gas and dust control sensors located at the inlet of the suction pipeline, and automatic fan on/off equipment associated with gas and dust control sensors. At the same time, the main pipeline is made along the length with windows closed by covers and stretched along the entire length of the main working, the suction pipeline is connected to the main pipeline through one of the windows with the cover removed, the fan is installed at the outlet of the main pipeline and is connected to the ventilation opening.

EFFECT: improving the safety and productivity of work performed in mine workings.

1 cl, 3 dwg

Description

The invention relates to the field of mining and can be used in underground mining to ventilate the workings of mines and mines.

A device for forced ventilation of the faces of dead-end mine workings is known, including the ventilation device itself, a ventilation pipeline and sleeves connected to it, connected to the compressed air and water supply lines, a fan connected to the ventilation air pipeline from the side opposite to the connection of the ventilation device to it (patent RU No. 2414599, C1, class E21F 1/08, 03/20/2011).

The disadvantage of the known device for forced ventilation of the bottoms of dead-end workings is that the air polluted with gases and dust from the bottom of a dead-end working, when it is ventilated, enters the air supply working, which causes a decrease in the safety of work in the part of the air supply working located behind the dead-end working in the direction of the clean air flow.

Another drawback is the inability to automatically turn on the ventilation of the face of a dead-end working when the concentration of dust and gas in it is higher than the permissible norm, which also leads to a decrease in the safety of work. increased energy consumption and, as a result, a decrease in work productivity.

In addition, the disadvantage of the known ventilation device is that it is necessary for workers to leave the part of the air supply passage located behind the dead end passage along the flow of clean air. The exit of workers is necessary for the time of ventilation of a dead-end mine after blasting has been carried out in it, which leads to a decrease in the productivity of work performed by workers in the air supply mine due to their downtime.

A known installation for forced ventilation of dead ends, consisting of a fan, a pipeline connected to the fan, an ejector connected to the other end of the pipeline (patent RU No. 2428568, C1, class E21F 1/08, 10.09.2011).

The disadvantage of the known installation for forced ventilation of dead ends is that the air polluted with gases and dust is ejected from the dead end into the air supply opening through which clean air enters, which reduces the safety of work in the air supply opening located behind the dead end along the flow of clean air, from - for throwing polluted air into it.

Another disadvantage is that there is no automatic activation of the ventilation of the dead-end face when the concentration of dust and gas in it is higher than the permissible norm, which also causes a decrease in the safety of work. Another drawback is that there is no function to automatically turn off ventilation when the concentration of dust and gas in the face drops to an acceptable level, which causes increased energy consumption and, in accordance with this, a decrease in work productivity.

In addition, the disadvantage of the known installation of ventilation is the need for workers to leave the air-falling workings located behind the dead-end face along the flow of clean air. The exit of workers is necessary for the duration of blasting in a dead end, which leads to a decrease in the productivity of work performed in the air supply mine due to their downtime.

A device for ventilation of dead-end workings is known, including a pipeline connected to it through a tee switch of the main and backup outlets, a main fan connected to the pipeline, a backup fan connected to the backup outlet (AS SU No. 1141203, A, class E21F 1/00 , 23.02.85).

A disadvantage of the known device for ventilation of a dead end working is the release of air polluted with gases and dust into the air supply working, both in the main mode - suction, and in emergency mode - pressure, which leads to a decrease in the safety of work in the part of the air supply working, located behind the dead end working. flow of clean air.

Another disadvantage is the lack of a function to automatically turn on the ventilation of a dead-end mine when the concentration of dust and gas in it behind the shield is higher than the permissible norm, which also reduces the safety of work. In addition, there is no function to automatically turn off ventilation when the concentration of dust and gas drops to an acceptable level, which causes an increase in energy consumption and, accordingly, a decrease in work productivity.

A disadvantage of the known ventilation device also lies in the fact that it is expedient for workers to leave the part of the air supply passage into which polluted air from the blind passage enters. Workers must leave this part of the air supply tunnel, where they perform work, during the ventilation of the dead-end mine after blasting has been carried out in it, which leads to a decrease in work productivity due to their downtime.

The technical task of the invention is to improve the safety and productivity of work performed in mine workings.

The technical result is achieved in that a device for ventilation of dead-end mine workings, including a main pipeline stretched in the main working, a suction pipeline located in the dead-end working and connected to the main pipeline, a fan connected to the end of the main pipeline, is equipped with gas and dust control sensors, located at the inlet of the suction pipeline, and equipment for automatic switching on/off of the fan associated with gas and dust control sensors. At the same time, the main pipeline is made along the length with windows closed by covers and stretched along the entire length of the main working, the suction pipeline is connected to the main pipeline through one of the windows with the cover removed, the fan is installed at the outlet of the main pipeline and is connected to the ventilation opening.

Extraction of polluted air into the ventilation passage from the suction pipeline through the main pipeline stretched along the main passage makes it possible to exclude the release of polluted air into the main passage from the dead-end passage, which leads to an increase in the safety of work, because poisonous gases and harmful dust do not enter the atmosphere of the main working and workings associated with it. The emission of polluted air into the ventilation opening is provided by a fan associated with it, installed at the outlet of the main pipeline.

The implementation of the main pipeline with windows along the length allows you to connect several suction pipelines to it, which makes it possible to increase the safety of work when they are carried out simultaneously, respectively, in several dead-end workings carried out from the main working, while due to the simultaneous work, their productivity increases.

The supply of the suction pipeline with gas and dust control sensors, which are located at its inlet and connected to the equipment for automatically turning on and off the fan, ensures continuous monitoring of the concentration of gas and dust in a dead-end mine and automatically turns on the fan when the gas and dust concentrations are detected by sensors above the permissible norm, which also leads to an increase in the safety of work. The ability to automatically turn off the fan when the concentration of gas and dust drops to an acceptable level eliminates the increased, wasteful energy consumption.

Exhaust of polluted air into the ventilation working through the main pipeline laid in the main working makes it possible to carry out work without interruption for ventilation in the main and associated workings, because polluted air from a dead-end working is not thrown into these workings, which eliminates the technological downtime of work and, accordingly, increases their productivity.

The device for ventilation of dead-end mine workings is illustrated by drawings, where in Fig. 1 shows a horizontal longitudinal section of the dead end and main workings; in fig. 2 is a vertical section A-A of the dead-end and main workings in FIG. 1; in fig. 3 - vertical longitudinal section of the main and ventilation workings.

The figures show the suction pipeline 1, placed in a dead end working 2, the main pipeline 3, stretched in the main development 4. The main pipeline 3 is made with windows 5 located along its length and closed covers. The suction pipeline 1 is connected to the main pipeline 3 through an open window 5. A fan 6 is connected to the outlet end of the main pipeline 3, to which a branch pipe 7 is connected, which goes into the ventilation opening, for example, the ventilation shaft 8.

At the inlet end of the suction pipeline 1, installed in the face area 9 of the dead-end working 2, sensors 10 are fixed, fixing the concentration of gas and dust in the dead-end working 2. The sensors 10 are connected to the equipment for automatically turning on the fan 6 (not shown in the figures) The end face of the inlet end of the main pipeline 3 is closed with plug 11 or another suction line can be connected to it. Also, with the main pipeline 3 through the windows 5 can be connected, if necessary, other suction pipelines. The arrows indicate the direction of movement of clean air in the main working 4 and dead-end working 2.

Device for ventilation of dead-end mine workings works as follows. When carrying out work at the bottom 9, dust appears, gases are formed during blasting, and gas emissions from the rock mass are possible, which mix with air and concentrate in the bottomhole space of the dead-end mine 2.

To remove polluted air, a fan 6 is turned on. Polluted air from a dead-end mine 2 is drawn into the suction pipeline 1, from it into the main pipeline 3 and through the branch pipe 7 it is thrown into the ventilation shaft 8, from which the polluted air carries out the air flow coming from the main mine 4. When polluted air is removed, the fan 6 draws clean air from the main mine 4 into the dead-end mine 2.

Perhaps the constant release of natural gas from the mountain range. Under such operating conditions, if work in the dead end 2 is temporarily not carried out, then gas concentration occurs, first of all, in the bottomhole space - near the bottomhole 9. In such cases, when the gas concentration level is higher than the permissible norm, the sensor 10 is triggered and sends a signal to equipment for automatically turning on the fan 6. After extracting the polluted air, the sensor 10, if it does not detect the presence of gas, sends a signal to turn off the fan 6.

Thus, the use of the proposed device for ventilation of dead-end mine workings will make it possible to remove polluted air into the ventilation opening without throwing it into the main and associated workings, which makes it possible to increase the safety of work. Also, the productivity of work increases due to the elimination of a technological break for ventilation, tk. workers can remain at their workplaces in the main working and associated with it when ventilating dead-end workings.

Claims (1)

A device for ventilation of dead-end mine workings, including a main pipeline stretched in the main working, a suction pipeline located in a dead-end mine and connected to the main pipeline, a fan connected to the end of the main pipeline, characterized in that it is equipped with gas and dust control sensors placed on at the inlet of the suction pipeline, and equipment for automatic switching on/off of the fan associated with gas and dust control sensors, while the main pipeline is made along the length with windows closed by covers and stretched along the entire length of the main working, the suction pipeline is connected to the main pipeline through one of windows with the cover removed, the fan is installed at the outlet of the main pipeline and is connected to the ventilation opening.

Images