RU2709266C1 - Method of preparation and development of extraction unit by diagonal chambers - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining industry and can be used in development of potassium deposits. Passing panel workings, block preparatory workings, mating upper and lower formation with ventilation well, cleaning chambers pass at an angle to block preparatory mine workings. Chambers are driven by blind end face with the help of cutter-loader. One block preparatory development with length of not more than 400 m passes along each formation. Continuous delivery systems are used for ore transportation.

EFFECT: invention makes it possible to pass minimum number of preparatory developments and to reduce terms of preparatory works due to reduction of length of extraction unit and use of means ensuring continuous delivery to panel openings.

4 cl, 2 dwg

Description

The invention relates to the mining industry and can be used in the development of potash deposits.

There is a known development system with a diagonal direction of the treatment chambers, where the conveyor drift passes along the non-working underlying layer first, the transport drift passes parallel to the conveyor drift, periodically knocking them together with ventilation failures. The excavation drift, ventilation drifts along the panel boundaries, as well as additional excavation and ventilation drifts for working off the initial and final parts of the panel with diagonal cameras, pass along the working layer. Cleaning chambers are directed at an angle of 45 ° to the excavation drift (Aman I.P. Development systems: lecture course / I.P. Aman. - Perm: Publishing House of Perm State Technical University, 2008. - p. 142 , Fig. 5.11).

The disadvantage of this method is the large number of preparatory workings and the sequence of preparatory and treatment works, as well as the need to maintain preparatory workings for a long time, which limits the application of this method in unstable rocks.

The closest in technical essence and the achieved result is a method of developing minerals in Canadian potash mines, including a chamber development system with a diagonal arrangement of treatment chambers relative to the preparatory workings. The preparation of the site consists in driving three parallel chambers 900-1200 m long, which periodically interfere with each other through a distance of about 50 m to organize ventilation. Then diagonally located treatment chambers are worked out from the central chambers at an angle of 45 ° to the excavating drifts in the reverse order. (Soloviev V.A. Development of potash deposits: a workshop / V.A. Soloviev, A.I. Secuntsov. - Perm: PNIPU, 2013. - 206 p., Fig. 8.6.).

However, the use of this method entails the need for sinking and maintaining extended centrally located chambers for the period of mining reserves, as well as additional costs for installation and maintenance of the conveyor.

The technical result of the alleged invention consists in a minimum number of preparatory workings and in reducing the time of preparatory work by reducing the length of the excavation unit and the use of means that ensure continuous delivery to panel workings.

The essence of the alleged invention is illustrated by drawings: where in FIG. 1 is a diagram of the preparation and testing of a block using self-propelled cars, FIG. 2 is a diagram of the preparation and testing of a block in combination with a bending conveyor.

On the drawings are indicated: 1 - panel transport drift, 2 - panel conveyor drift, 3 - panel ventilation drift, 4 - starting production along the lower layer, 5 - ventilation well, 6 - starting production along the upper layer, 7 - diagonal chambers of the upper layer, 8 - an opening hole, 9 - diagonal chambers of the lower layer, 10 - shearer, 11 - hopper-loader, 12 - self-propelled car, 13 - local ventilation fan, 14 - bending conveyor.

The method is as follows.

Initially, there is a complex of panel workings, including transport 1, conveyor 2 and ventilation 3 drifts (Fig. 1, 2).

The preparation of the extraction block is carried out with a dead end face in the working openings of the starting workings 4, 6. The ore is delivered from the starting workings 6 of the upper layer by self-propelled equipment to the panel ventilation drift 3, where the ore is unloaded through the drain hole 8 to the panel conveyor located on the conveyor belt shtrek 2. Delivery of ore from the sinking of the starting production 4 of the lower layer is carried out to the panel conveyor drift 2 located on the lower layer (Fig. 1, 2).

After driving the starting workings 4, 6 to the design length of not more than 400 m, they are knocked down by a ventilation well 5 (or an air supply gesenkom) to organize ventilation during mining of chambers (Fig. 1, 2).

Due to the minimum number of preparatory workings (two starting workings 4, 6 and a ventilation well 5) and the possibility of mixing air jets in the workings of the upper formation while simultaneously extracting two layers, the mining of the extraction block should be carried out sequentially: first, all the chambers of the upper layer 7 in the mining block are worked out, then all the cameras 9 lower (Fig. 1, 2).

Since when implementing this method there is no need to install a block conveyor, the development of the diagonal chambers 7, 9 is carried out immediately after the sinking of the starting workings, as a result of which the backlog of preparatory work from the sewage treatment is reduced (Fig. 1, 2).

The diagonal cleaning chambers 7, 9 pass at an angle of no more than 60 ° to the starting excavation 4, 6. The diagonal arrangement allows to reduce the duration of low-productivity operations when cutting into the chamber, as well as to ensure the passage of the cleaning chambers along the axes of the folds oriented in the direction at an angle of 45- 60 ° to the axis of the starting production (Fig. 1, 2).

Ore delivery from the tunneling is carried out by a continuous ore delivery system: two self-propelled cars 12 for each layer (Fig. 1), or a curving conveyor 14 in combination with a combine complex 10, 11 (Fig. 2).

Aeration of the excavation unit during mining of the upper layer is as follows. Fresh air through panel transport drifts 1 is fed into the starting development of the lower layer 4, then through the ventilation hole (air supply gesenk) 5 it enters the starting development of the upper layer 6, from where it is fed to the treatment face of the diagonal chamber 7 using the local ventilation fan 13. from starting production 6 to panel ventilation drifts 3.

When mining the chambers of the lower stratum 9, fresh air is fed through the panel transport drifts 1 to the starting excavation of the lower stratum 4, from where it enters the treatment face of the diagonal chamber 9 using the local ventilation fan 13. The outgoing stream is removed through the ventilation well (air supply gensenk) 5 to the starting production the upper layer 6 and then into the panel ventilation drifts 3.

The proposed method allows to reduce the number of preparatory workings, to eliminate the need to use a block conveyor, by reducing the size of the extraction block and the use of continuous delivery systems for ore transportation directly to the panel conveyor, as well as to implement a safe and effective method of preparing and working out the field’s reserves as in the regional parts, characterized by unsatisfactory rock stability, and in favorable conditions of the field, providing access atochnuyu resistance workings. The proposed method for the preparation and development of reserves is aimed at reducing the life of block workings while maintaining the performance of the combine complex.

Claims (4)

1. The method of preparation and development of the extraction block with diagonal chambers, including the excavation of panel workings, the excavation of block workings, the pairing of the workings of the upper and lower seams with a ventilation well, the sinking of the treatment chambers at an angle to the block workings, the treatment of the treatment chambers with a dead end using a shearer, characterized in the fact that for each layer there passes one block preparatory mine with a length of not more than 400 m, and a continuous delivery system is used for ore transportation . 2. The method according to p. 1, characterized in that the ore is transported using self-propelled cars or a curving conveyor. 3. The method according to p. 1, characterized in that the cameras are positioned at an angle of not more than 60 ° to the block preparatory development. 4. The method according to p. 1, characterized in that the mining of the chambers is carried out immediately after driving the preparatory block workings with a minimum lag of preparatory work from the sewage treatment plant.

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