RU2102598C1 - Method for development of watered mineral deposits - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: this can be used in opencast development of watered mineral deposits. According to method following procedure is adopted: deposit is exposed, overburden and mineral are mined in benches, pillars are formed, overburden ground mass is dumped into worked-out space behind pillar, mineral is extracted and loaded out. Lower working bench of mineral is developed in sub-benches. Mineral material from upper sub-bench is extracted and placed on upper working area into dewatering pile. Formed from lower sub-bench is subwater pile at bench slope, it is worked, and mineral is placed into dewatering pile. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to mining and can be applied in the open development of mineral deposits.

 There is a method of open development of irrigated mineral deposits, including mining of minerals with dumping of overburden in the internal dump (SU, AS 1412406, E 21 C 41/00, 1987). The disadvantage of this method is the need to drain the field, which adversely affects the ecological situation of the area.

 The closest in technical essence to the invention is a method for developing stratified mineral deposits, including opening a deposit, developing overburden and minerals with ledges with the formation of pillars, laying overburden in the worked-out space in its entirety, shipping minerals (SU, a.s. 1122824 E 21 C 41/28, 1984). The disadvantage of this method is the impossibility of developing partially flooded deposits without dewatering and extracting minerals from the pillar.

 The purpose of the invention is the reduction of mineral losses. This goal is achieved by the fact that the lower mining ledge of the mineral is developed by the steps, while the mineral from the upper step is removed and laid on the upper working platform in a dehydrating stack, and an underwater stack is formed from the lower step on the escarpment of the ledge, then it is developed and laid in the dehydrating a stack.

 In patent studies, no analogues were identified whose features are similar to the set of essential features set forth in the claims. The invention is industrially applicable.

 The drawing shows a plan of the developed area.

 The method is as follows.

 Open the flooded mineral deposit. Pass a cutting trench 1. Cut overburden and mining ledges. When developing the lower production ledge 2 in the worked out space form the pillar 3 of the mineral. Then the overburden is moved to the worked-out space and laid in its entirety 3.

 The lower mining ledge 2 is developed by sub-steps 4 and 5. In this case, the mineral from the upper sub-step 4 is removed by an excavator 6 to the maximum depth of its scooping and stored in a dehydrating stack 7 on the upper platform of the ledge 2. From the rocks of the lower sub-step 5, an underwater stack 8 is formed at the escarpment of the ledge 2, for example, using a rope scraper, the head support 9 of which is installed on the upper platform of the ledge 2, and the tail support 10 on the rear 3. Minerals from the underwater stack 8 are removed by an excavator 6 and stored in a dewatering stack 7.

 After dehydration of the mineral in the stack 7, it is shipped and transported to the surface.

 If the ledge 2 is composed of heterogeneous or heterogeneous minerals, they are removed selectively, dividing into pouch, by an excavator and a rope scraper. If necessary, cut the third approach. The division into sub-steps is carried out in accordance with the properties of minerals and the parameters of mining and loading equipment. Row scrapers, tower excavators, floating clamshell shells, dredgers can excavate the rocks of the lower sub-stages, forming an underwater pile at the escarpment of the ledge or a surface dewatering pile 7. In this way, independent dewatering piles of 7 different types or minerals of different types are formed on a working platform, which sequence. Shipment from dewatering stacks should not impede the extraction of raw materials from the underwater face, and when developing rock, drilling and blasting blocks.

 According to the described technology, non-rock and blasted rock formations are developed. Drilling and blasting loosening produce a joint of all the rocks worked out by ledge 2, or selective, drilling the upper approach from the dry working platform of ledge 2, and lower drilling rigs mounted on the pontoon.

The advantages of the method:
mining of minerals without dewatering while maintaining the environmental conditions of the area;
reduction of mineral losses in the bottom of the reservoir;
the possibility of separate excavation of different types and varieties of raw materials.

Claims (1)

 A method of developing waterlogged mineral deposits, including opening a deposit, developing overburden and minerals with ledges with the formation of pillars, laying overburden in the worked-out space for the whole, shipping the minerals, characterized in that the lower mining ledge is developed with sub-steps, while the mineral from the upper sub-stage is removed and laid on the upper working platform in a dehydrating stack, and an underwater stack is formed from the lower sub-stage at the opening sa ledge, and spend it, and placed in a pile of dewatering.