RU2267579C1 - Storage sump cleaning method - Google Patents

Abstract

FIELD: coal mining industry, particularly for underground storage sump cleaning.

SUBSTANCE: method involves mounting flight conveyer on storage sump ground; flooding thereof with mine water; pumping mine water out of excavation; dewatering rock mass and loading thereof on the flight conveyer with the use of different loading devices. Lattice flight is covered with protective cases before flooding operation performing. The rock mass is loaded through loading openings created after case removing from the conveyer.

EFFECT: increased efficiency, labor productivity and reduced time and cost of storage sump cleaning.

1 dwg

Description

The invention relates to the coal industry and can be used for cleaning underground mine water collectors.

Known methods for cleaning water baskets using scraper conveyors for the delivery of rock mass include sectioning them as the mine is cleaned, loading the rock mass onto the conveyor using various loading devices and mechanisms, dismantling and delivery of equipment from the cleaned mine before flooding.

The disadvantages of this method is the duration of cleaning up to 2-3 weeks and low productivity, usually not exceeding 10-15 m ³ / person. - shift. The reason for the unsatisfactory indicators is that more than half of the working time is spent on labor-intensive auxiliary operations: delivery of pans and chains to the place where the conveyor is built up, manual cleaning of the soil under the growth, building up the rack and scraper chain, installation and fastening of the tail carriage, adjustment of the chain tension, and also dismantling the conveyor and discharging equipment from the flood zone.

A known method of cleaning the catchment using a scraper conveyor located in the catchment under the roof above the level of flooding (RF patent No. 2112107, E 02 D 19/00, 1998). The disadvantages of this method include the complex and relatively high cost of the device and the need to use additional devices to completely clean the mine over its entire area.

The aim of the proposal is to increase the efficiency of cleaning the catchment, namely, increasing labor productivity and reducing cleaning time and its cost.

For this purpose, the scraper conveyor mounted on the soil of the catchment is flooded, and the wire rack is preliminarily covered with protective covers fixed to the chutes, which are removed from the fasteners selectively after pumping water from the catchment as the conveyor is gradually cleaned, while the dehydrated rock mass is loaded into the conveyor loading openings formed when removing the protective covers.

The drawing shows a side view of part of the catchment (section along the axis of the conveyor), which shows:

1 - a catchment basin;

2 - scraper conveyor;

3 - a protective casing;

4 - loading aperture;

5 - dehydrated rock mass;

6 - flooding level.

The essence of the proposal is as follows.

In the catchment 1 and adjacent workings, a transport line is mounted from scraper conveyors 2 for the delivery of relatively dehydrated rock mass from periodic sweeps of the catchment, while the entire wire rack, from the level of flooding to the conveyor tail carriage in the catchment, is covered with protective covers 3 before flooding of the excavations ( metal, plastic) fastened with pans. The necessity of sheltering the trolley stand before flooding is explained by ensuring the operability of the conveyor after dewatering the sludge catchment basin - otherwise, without shelter, the trolley stand and chains will be tightly silted. Sectional housings are interchangeable and are designed to allow the maximum possible flow through the conveyor, i.e. should be raised above the pans to a certain height (≈300 mm) and withstand the pressure of the rock mass gradually settling over them 5. If there is insufficient contact density between the casings and pans, the conveyor belt before flooding can be covered with plastic wrap over the casings to prevent silting of the conveyor chain.

Before cleaning the silted catchment, water is pumped out of its dead end and relative dewatering of the rock mass for a certain time, as well as checking the operation of the conveyor at idle with an audit of scraper chains. The development, starting from the level of flooding, is cleaned by loading the rock mass with various loading devices: scraper winches, loading machines in the following order: part of the production is cleaned along the entire front by an effective loading distance, for example, 5-6 meters, after which the cleaning is stopped. A protective casing, not necessarily the last in front of the array, is freed from a sample pan that is not necessarily the last in front of the array and is installed above the previous opened pan or placed on the soil of the cleaned part of the excavation, as a result of which a loading opening 4 is formed above the conveyor, into which the rock mass is transferred from the next cycle cleaning up. Such an aperture moves along the lattice stand through a distance optimal for the loading means used (if necessary, covers can be removed from all panes in a row). The removal and transfer of the protective casing is carried out by two miners within 2-3 minutes, which has little effect on the pace of cleaning and labor productivity.

At the end of the cleaning process, the entire pan vessel to the level of flooding is covered with protective covers, conveyor drives and loading equipment are discharged from the flood zone and the catchment is filled with mine water.

The proposed method for cleaning the catchment is applicable to any mine, it allows several times to increase labor productivity in comparison with traditional methods, to reduce the downtime of the catchment and significantly reduce the cost of cleaning it.

Claims (1)

A method of cleaning mine water collectors, including mounting a scraper conveyor on its soil, loading dehydrated rock mass onto it using loading devices and discharging it from the water collector, characterized in that the conveyor is flooded with mine water, and the grate is pre-covered with protective casings fixed to the chutes, which they are removed from the fasteners selectively after pumping water from the catchment basin as the conveyor is gradually cleaned, while the dehydrated rock mass is loaded into the loading openings of the conveyor, sutured when removing the protective covers.