RU2036306C1 - Method for mining of mineral gently dipping seams by combine complexes - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: method for mining mineral gently dipping seams by combine complexes includes extraction of mineral by panels, paneling, driving of panel airways, stoping and transportation headings and air and service openings, and mineral production working in panels by production rooms. Production rooms are worked in diagonal direction relative to panel with formation of obtuse angle between directions of driving and stoping of production rooms. Stoping and transportation headings driven along panel longitudinal axis separates panel into two half-panels. Air and service openings on lower half-panel are driven during preparation of half panel. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the mining industry and is intended for use in the development of flat formations with combine complexes.

 The combine complex has the greatest productivity when the delivery length does not exceed a certain critical value, at which the combine does not stand idle in anticipation of a self-propelled wagon.

A known method is when with a large length of the chamber below it perpendicular to its axis through a distance not exceeding the critical delivery length, special delivery workings pass that connect ore-discharge wells to the camera, and conveyor belts are installed in the delivery workings [1]
However, the application of the method is effective with a large capacity of the produced formation. When developing formations of medium power, the value of which is no more than 1-3 harvester moves with vertical overlay, the application of this method is not economically feasible. The costs of driving the mine workings and the operation of conveyors will lead to a significant increase in the cost of ore.

Closest to the proposed method is the development of mineral strata by combine complexes, including the extraction of minerals by panels, preparation of panels, ventilation panel, mining-transport and ventilation-and-delivery workings and the cleaning excavation of minerals in panels by treatment chambers [2]
When developing a reservoir in this way, ventilation and delivery workings can be carried out both during the preparatory process and during the period of treatment. In the first case, the time for preparation increases, which leads to the need to reduce productivity at the production site. In the second case, the productivity of the mining site is reduced due to the loss of time on the hauls of the combine complex for driving delivery workings in the leading treatment unit. Performance also decrease because of the reduction of speed of movement of self-propelled carriages when performing cornering maneuvers ⁽⁹⁰ ° angle) between the cleaning chamber and the delivery generation.

 The purpose of the invention to improve the performance of the combine complex.

 To do this, the treatment chambers pass in a diagonal direction with respect to the panel with the formation of an obtuse angle between the directions of penetration and mining of the treatment chambers, while the excavation-transport excavation along the longitudinal axis of the panel is divided into two half-panels, the ventilation and delivery excavations in the lower half-panel pass the period of its preparation, and ventilation and delivery workings in the upper half-panel pass in the process of treatment dredging.

Through the diagonal arrangement of treatment chambers movement of self-propelled carriage on the conjugation of these chambers with the delivery ventilation-generation is carried out at an obtuse angle, which allows them to pass at a faster rate than when cornering at ^90.

 Due to the diagonal arrangement of the treatment chambers in at least one of the half-panels, where the angle between the direction of its working out and the direction of tunneling of the chambers is obtuse, ventilation and delivery workings can be passed in the process of cleaning work, without losing time on the haulage of the combine.

 In the proposed method, the movement of a self-propelled car between any two closest ventilation and delivery workings is carried out diagonally, and when the cameras are driven parallel to the excavation drift (prototype), ceteris paribus, the movement between the same points of the ventilation and delivery workings is carried out along two legs of a rectangular triangle, the diagonal of which is equal to the movement of a self-propelled car in the proposed method. Therefore, in the proposed method, the transportation length is reduced more significantly than when developing the reservoir in a known manner, selected as a prototype.

 The drawing shows a schematic flow chart of the application of the method.

 In the process of preparing the panel, a mining-transport drift 1 and ventilation panel drifts 2 pass. The ventilation and delivery excavations 3 in half-panel I pass during the treatment work with diagonal chambers 4, and in half-panel II during the preparatory work. In the case of a folded roof, the chambers run along the folds of the roof of the seam when the seam is worked out at full capacity, or chambers are cut across the stretch of the seams when the seam is worked out with a protective ore pack in the roof of the chambers.

In the first case, undercutting of the formation is prevented, which prevents dilution. In the second case, the stability of the roof increases, which reduces the cost of maintaining it. In addition, this makes it possible to work out the reservoir with wider chambers while supporting the roof on wider pillars with a higher bearing capacity, which will increase the extraction of ore from the bowels. In the case of a calm bedding, the chambers in both half-panels are symmetrically performed at an obtuse angle to the direction of panel mining. Almost enough if the angle is 120 ^about . This will provide favorable conditions for the notch of the combine harvester and insignificant loss of speed in the corners when moving a self-propelled wagon.

Claims (1)

 METHOD FOR THE DEVELOPMENT OF GENDER BEDS OF USEFUL FOSSIL WITH COMBINE COMPLEXES, including extraction of minerals by panels, preparation of panels, carrying out ventilation panels, extraction-transport and ventilation-delivery workings and a cleaning excavation of minerals in panels pass through treatment chambers, which differs by relative to the panel direction with the formation of an obtuse angle between the directions of penetration and development of treatment chambers, while carrying out excavation-conveyor The production of mercury along the longitudinal axis of the panel is divided into two half-panels, the ventilation and delivery developments in the lower half-panel pass during the preparation period, and the ventilation and delivery developments in the upper half-panel pass in the process of cleaning excavation.

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