SU928011A1 - Method of mining thick sloping deposits - Google Patents

Description

The invention relates to mining piercing and can be used in the continuous excavation of mineral reserves from powerful and very mild gently dipping deposits with the laying of a goaf.

There is a method of developing powerful deposits, including the division of mineral reserves into horizontal stripes - the sub-floors, the excavation of the reserves of the sub-floors with vertical half-and-half cameras. their widths, the release of broken mountain mass and the laying of the goaf 1.

This method is characterized by the low safety of the cleaning cavity and the relatively high cost of preparatory-cutting work.

The closest to the proposed technical essence and the achieved result is the method of mining of powerful deposits, including cutting of excavation strips and chambers at an angle of 20-40 to the horizon, penetration of transport-sufficient, ventilation and drilling workings, drilling and blasting breaking of stocks of strips

to the mass of bookmarks with the movement of rock mass to transport and haul workings, the force of the explosion, leaving a part of the broken rock mass on the soil of the processing chambers with exploring its extraction during the mining of chambered chambers, airing the sewage treatment plant Kcuviep and subsequent hardening of the SPZ mixture.

This method is characterized by a low safety of the clearing recess and increased costs for the extraction of minerals.

Claims (3)

The aim of the invention is to increase the efficiency of development of powerful gently dipping deposits by reducing production costs and improving the safety of the clearing excavation. The goal is achieved by transporting, transporting and drilling workings orienting excavation strips and cleaning chambers transversely relative to the fall of the deposit, the chambers of the lanes being mined are shifted to the nctno wine of the width of the chambers of the working lanes, and the chambers of the two adjacent lanes are ventilated and placed through one ventilation nyu workout. In addition, when advancing the front of the recess along the uprising, the lower acute-angled parts of the worked-over strips beat off to the working-up chambers. When the recess front is pushed up, the drill workings pass from the transport and haul workings on the working lanes. Figure 1 shows the reservoir to work on the fall, the section; in Fig.2 a section aa in fig 1; on fig.Z section bb in figure 2, the development of mining along the strike; figure 4 - the turn of the mining work on the uprising; on fig.Z - section bb In figure 4. The powerful deposit is worked out with division into sublevels or immediately with full power and cutting cutting holes 1, which are oriented to reduce the area of simultaneously exposed areas of the roof rocks and to ensure identical conditions of excavation transversely oblique in relation to the fall. The strips are cut and prepared for excavation by staggered-1 notched 2, transport-sufficient, and 3 and ventilation 4 workings. At the same time, in the case of the development of work on the fall into the substepped production of the overworking strips near the soil, the deposits do not pass, since they are stored transport and delivery openings of the worked over strips and the ventilation openings are arranged so that the chambers are ventilated in two adjacent strips and were laid through one ventilation hole, and passed only at the contact of the mineral with overburden. The lanes are worked out by chambers 5 oriented according to their rebellion, which are cut by inclined drilling workings 6, made from grab or transport and haul workings with a depth of 0.5-1.5 m and the soil of the lanes and knocked down with ventilation workings. Chamber reserves of fins with fans 7 of the inclined workings. Breaking out of the chamber reserves begins with the formation of a cut-off slit and ductwork 8. The chamber reserves are beaten off with sections in an order of magnitude by cyclically detonating charges of explosives of fans of wells 7. At this, the mountain mass is transferred to the force by the explosion and released upon shipment to the ground arrival 9. The next section of chamber stocks is fenced off after the release of the mining mass previously delivered to the duchka. During the blasting process, a portion of the broken rock mass remains along the walls of the chambers. When the adjacent chambers are excavated, gable slopes of mass 10 are formed. When the front of the soil is pushed up, deposits in the above-developed Strips may remain sharp-edged parts of the mineral, the size of which depends on the slope of the deposit and the bands. These stocks are beaten off by blasting explosives in wells 11, drilled, for example, from niches, 12 undercut openings of working over lanes. At the end of the blasting and shipment of the rock mass at the non-overlapping rock mass of the mats of rifled openings with treatment plants, bridges 13 are installed and the worked out is laid. however, the space is hardened with a mixture of 14. It is fed through pipelines 15 installed in the ventilation, and when divided into sub-floors and in transport and haul openings. In the latter case, the pipelines are protected, for example, by placing them in special or drainage grooves. The cleaning works are carried out simultaneously in several lanes and substages arranged one above the other with divergent fronts. On the opposite flanks of the cgikdoy, stripes under this are worked out one by one chamber to the array of the hardened bookmark, and at the same time, stocks of one or two successive chambers are cut and prepared for the clearing. When working out the chambers, in the case of the development of the clearing notch on the uprising, the acute low-angle parts of the BaENWx bands also beat off. Their blasting is carried out by the training chambers before laying the last. As a result of leaving the gable slopes of the rock mass after filling the developed space with a hardening mixture, the soil of the forked mass of the bookmark mass becomes corrugated. The advantages of this circumstance are realized by the fact that the chambers on the lanes of the bands are shifted by half the width of the chambers on the bands. By such mixing, the slopes of the rock mass protect the artificial roof of the developed chambers from the explosions of the explosives borehole air, provide it with a stable tent-like shape and eliminate the laborious and dangerous operation of cleaning the soil, as during the process of blasting the chamber stocks, the mountain slope mass moves together with duchkam. The working of the chambers of each overworked strip is delayed by 1.5-3.5 cameras to the cameras of the overworking strip. Chambers of the same name at the sublevel floor-work out ahead of the upper floor. The advance of working out for each upper sub-floor is at least 1-2 cameras. In this order, the workings for working out are staggered in relation to each other. This makes it possible to use the transport workings of the upper sub-floors and to ventilate the chambers of the lower substage and, when dredging, use the transport and delivery workings of the overhead strips at once for all the power to drill the excavations in the overhead strips. Since every two adjacent belts work out for one ventilation output, the cleaning work is planned in such a way as to maximize the design of loading and haul operations in one or two adjacent transport and delivery workings, and the backfill work in adjacent strips was carried out from one production in parallel or consistently. This achieves a simplified ventilation, a reduction in the amount of air for ventilation, a reduction in the pollution of the workings, and an easier reduction of the workings to a safe condition. The use of the proposed method of development in comparison with existing methods allows reducing the specific volume of cutting work no less than 2 times, eliminating the presence of people and mechanisms in the cleaning space, increasing the stability of the artificial roof, and hence the flow rate of the shearing while increasing the width of the chambers , facilitate the maintenance of transport, hauling and ventilation openings, simplify ventilation and reduce air consumption for ventilation, and improve sanitary and hygienic conditions. Formula 1. The method of developing powerful gently dipping deposits, including cutting the excavation strips and chambers under coal 20-40 to the horizon, driving transport and hauling ventilation and drilling workings, drilling and blasting breaking up the stocks of strips to the bedding array with moving the mountain mass to detonation by force of the explosion, leaving a part of the broken rock mass on the soil of the working chambers with its subsequent extraction during the mining of the working Ks1mer, ventilation of the treatment chambers and subsequent hardening mixtures, which are characterized by the fact that, in order to increase the efficiency of developing powerful gently dipping deposits by reducing production costs and improving the safety of the clearing excavation, transport and delivery, ventilation and drilling workings orient the excavation strips and cleaning chambers crosswise obliquely relative to to the fall of the deposit, the chambers of the overworked lanes are displaced by half the width of the chambers of the overworking lanes, and the chambers of the two adjacent lanes are aired and laid through the production of a vent, 2. Method POP.1, characterized in that during the exploit. The front of the recess of the uprising, the lower acute-angled parts of the felloes being worked, are beaten to the additional chambers. 3. Method POP1, characterized in that when the recess front is pushed up by the fall, the excavations pass from the transport and delivery openings of the working lanes. Sources of information taken into account in the examination 1. The author's certificate of the USSR 153893, cl. E 21 C 41/06, 1963. 2, Copyright certificate 2754698, cl. E 21 C 41/06, 16; O4.79 (prototype). h and 4 IG t5 J L ± () v (i