RU2777633C1 - Method for opening the deposit during geological exploration - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: invention relates to the mining industry. The method includes driving the main shaft, installing a cage hoist in it, driving a working horizon and an auxiliary shaft, installing an evacuation hoist in it, driving a ventilation horizon, and installing a main ventilation fan. The sinking of the main and auxiliary shaft is carried out in one working, dividing it in the process of fastening with non-combustible materials and forming two sections. Then, a cage lift is installed in the main compartment, and then the working and ventilation horizons pass. At the same time, a gateway is installed at the junction of the main compartment and the ventilation horizon, and a bypass working is passed from the auxiliary compartment, connecting it with the ventilation horizon. At the auxiliary compartment, a main ventilation fan is installed, connecting it to the auxiliary compartment with an air duct, and an evacuation hatch is formed in the air duct, above which a winch with an evacuation rope is installed.

EFFECT: simplification of work during geological exploration and reduction of the volume of mining and capital works.

1 cl, 2 dwg

Description

The invention relates to the mining industry, in particular to geological exploration during detailed exploration of deposits.

Known methods of opening a deposit during exploration work, including driving the main shaft, installing a cage lift in it, driving a working horizon and an auxiliary shaft, installing an evacuation lift in it, driving a ventilation horizon and installing a main ventilation fan (see Mining Handbook. Ed. V. A. Grebenyuk, Y. S. Pyzhyanova, I. E. Erofeeva M., Nedra, 1983, p. 179, Fig. IV.5). When implementing these methods, the main and auxiliary wells, depending on the length of the section of the investigated field, are located on the flanks of this section, using a flank opening, or in close proximity to each other in the middle of the section, using a central opening. Further, in the ore part of the site of the investigated deposit, blocks are cut between the horizons, separating them from each other by rising workings between the horizons. Fresh air enters the mine through the main shaft, then along the working horizon and rising workings it enters the mining blocks, gets polluted in them and goes to the ventilation horizon and is removed from the mine or mine through the auxiliary shaft.

The disadvantages of analogues are the complexity and increased scale of exploration and increased costs for their implementation.

The closest to the claimed technical solution is a method of opening a deposit during geological exploration, including driving the main shaft, installing a cage lift in it, driving a working horizon and an auxiliary shaft, installing an evacuation lift in it, driving a ventilation horizon and installing a main ventilation fan (see Development mineral deposits, V. I. Golik, Vladikavkaz: Mavr., 2006, p.95, Fig. 3.11a).

The disadvantages of the prototype are the complexity and increased scale of geological exploration and increased costs for their implementation, since, given the temporary nature of the experimental mine or mine, the construction of two separate shafts complicates and increases the cost of the project.

The technical result of the claimed method is the simplification of work during geological exploration, the reduction in the volume of mining and capital work.

The technical result is achieved by the fact that in the known method of opening a field during geological exploration, including driving the main shaft, installing a cage lift in it, driving a working horizon and an auxiliary shaft, installing an evacuation lift in it, driving a ventilation horizon and installing a main ventilation fan, according to the invention , the driving of the main and auxiliary shaft is carried out in one working, dividing it in the process of fastening with non-combustible materials and forming two compartments, then a cage lift is installed in the main compartment and then the working and ventilation horizons pass, while a lock is installed at the interface of the main compartment and the ventilation horizon, and from the auxiliary compartment, a bypass working is passed, connecting it with the ventilation horizon, after which a main ventilation fan is installed at the auxiliary compartment, connecting it to the auxiliary compartment with an air duct, and in an evacuation hatch is formed in the air duct, over which a winch with an evacuation rope is installed.

This method will simplify the work during geological exploration and reduce the amount of mining and capital work.

The essence of the invention is shown in the drawings, where in Fig. 1 shows a frontal section A-A of the mine, in Fig. 2 - section B-B in Fig 1, the plan of conjugation of the ventilation horizon with the trunk.

The method of opening the deposit during exploration works is implemented as follows.

The main and auxiliary shafts are driven in one working, dividing it in the process of fastening with non-combustible materials into two sections, forming the main 1 and auxiliary 2 sections. Then, in the main compartment 1, a cage lift 3 is installed and the working 4 and ventilation 5 horizons pass. At the junction of the main compartment 1 and the ventilation horizon 5, a lock 6 with ventilation jumpers 7 is installed to prevent direct flow of ventilation jets from the main compartment 1 to the auxiliary compartment 2 through the interface of the ventilation horizon 5 with the main compartment 1. From the auxiliary compartment 2, a bypass development 8 passes, connecting thus, it is with the ventilation horizon 5, while the lower end part of the auxiliary compartment 2 is located above the junction of the ventilation horizon 5 with the main compartment 1. air duct 10 form an evacuation hatch 11, over which a winch 12 with an evacuation rope 13 is installed.

Working 4 and ventilation 5 horizons are dead-end workings, since they have no exit or connection with workings that have access to the day surface at the opposite end of the shaft. At the same time, the working 4 and ventilation 5 horizons are interconnected by mining operations, for example, workings of treatment works and have a significant length, of the order of 1.5-2 km, requiring ventilation. Ventilation of workings is carried out as follows. The main ventilation fan 9 connected to the auxiliary compartment 2 is suction-operated. Thus, fresh air enters the shaft through the main compartment 1, then to the place of work on the working horizon 4. As a result, the air becomes polluted and enters the ventilation horizon 5 through the workings of the cleaning works. The exhaust air returns to the shaft through the ventilation horizon 5 and through auxiliary compartment 2 is released into the atmosphere.

In the event of a collapse or fire on the working horizon 4, the exhaust air jet “overturns”, that is, it changes its direction to the opposite. The main ventilation fan 9 starts to blow. At the same time, fresh air enters the mine through the auxiliary compartment 2, then along the ventilation horizon 5 to the place of mining, through the workings of which it enters the working horizon 4 and then through the main compartment 1 is released into the atmosphere. Workers go to the ventilation horizon 5 and, washed with fresh air, move to the shaft, and then along the auxiliary compartment 2, using the evacuation rope 13, with the help of a winch 12 they rise to the day surface through the evacuation hatch 11. The ventilation jumpers 7 of the lock 6 are opened alternately in case the need to carry out work on the ventilation horizon 5 or to deliver equipment to it.

This method, in comparison with the prototype, will simplify the work during geological exploration and reduce the amount of mining and capital work.

Claims (1)

SUBSTANCE: method for opening a deposit during geological exploration works, including driving a main shaft, installing a cage hoist in it, driving a working horizon and an auxiliary shaft, installing an evacuation hoist in it, driving a ventilation horizon and installing a main ventilation fan, characterized in that the driving of the main and auxiliary shaft is carried out one working, dividing it in the process of fastening with non-combustible materials and forming two compartments, then a cage lift is installed in the main compartment and then the working and ventilation horizons pass, while a lock is installed at the junction of the main compartment and the ventilation horizon, and a bypass working is passed from the auxiliary compartment, connecting it with the ventilation horizon, after which a main ventilation fan is installed at the auxiliary compartment, connecting it to the auxiliary compartment with an air duct, and an evacuation hatch is formed in the air duct, over which the mouth pour a winch with an evacuation rope.

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