RU2070292C1 - Method for stripping and development of inclined and steeply dipping deposits - Google Patents

Abstract

FIELD: mining. SUBSTANCE: stripping inclined working for transporting by conveyer hoist of rock mass extracted in the deep zone of open pit, and stripping horizontal working for transporting the rock mass to concentration level to crushing and transfer point are driven by leading the work front on benches lying over the concentration level and conveyer and crushing and transfer point are located in these workings. Conveyer hoist is protected from injuring effect of blast and climatic environment of galleries by two jackets and safety pillar. EFFECT: higher efficiency. 1 cl, 3 dwg

Description

 The invention relates to the mining industry and can be used in the open development of inclined and steeply dipping mineral deposits.

 There is a known method of opening and mining a steeply dipping field, including conducting open-pit mining of a half-trench along a quarry board that has reached its limit position, to accommodate a conveyor elevator, the device of crushing and transfer points (DPP) on platforms at the sides, also set to the limit position (K.A. Kumachev , V.Ya. Maimind. Designing of iron ore quarries. M. Nedra, 1981, p. 237 238).

 The disadvantage of this method is the low efficiency. By the time the side of the quarry reaches its maximum position, excavation work, placement of the conveyor lift and the DPP device, mining goes relative to the concentration horizon to a considerable depth and volume of cargo turnover, which is carried out by a very energy-intensive, expensive and most polluting automobile transport environment, remains significant.

 Closer to the proposed technical essence and the achieved result is a method of opening and working out a quarry field, including opening the horizons of a quarry field on one of its flanks with temporary exits, which, as mining operations develop and the maximum boundaries of the quarry are reached, become constant and, on the contrary, steep inside a major trench along the conveyor lift route with the formation of an auxiliary working area, mining the quarry field in horizontal layers in the main working area in direction to the auxiliary (Aut. St. USSR N 912933).

 The disadvantage of this method is the low efficiency and limited application. The creation of an auxiliary working zone increases the volume of mining and construction and mining preparatory work, worsens the mining regime, and assumes a sufficient size of the quarry field.

 The purpose of the invention is to increase the economic efficiency and environmental friendliness of the development of the field by reducing the transport work performed by dump trucks when delivering the rock mass to the concentration horizon to the DPP.

 This goal is achieved by the fact that in the known method of opening and developing a field, including opening the horizons of the quarry field with temporary exits, turning as the mining operations develop and reaching the maximum boundaries of the quarry into permanent ones, mining the quarry field with horizontal layers with the preparation of rocks for excavation using a blasting method and delivery rock mass from deep horizons to the surface with a conveyor lift, revealing an inclined mine, for conveyor transportation of rock mass, cored in the deep zone of the quarry, and revealing horizontal excavation, to deliver the rock mass coming from the deep zone to the runway, they pass along a stationary route laid along the contour of the quarry, ahead of the front of work on the ledges overlying the concentration horizon, place a conveyor and DPP, erected from the blocks of increased strength the shelter gallery of the conveyor lift, form the first protective shirt of the gallery from the rocks of the fine fraction, and behind it, on top of the first the second of the rocks of ordinary cr pnosti, cut from the rock mass adjacent to the inclined formulation from pit field, a safety loop that then with some lag from the main front defined operational safety conditions conveyor lift is fulfilled in conjunction with the second and first part of the protective jackets gently gallery lift mode.

 Figure 1 presents a part of the developed quarry field, within which a conveyor lift and a runway are located, with the position of mining operations corresponding to the end of installation of a conveyor lift, a runway and gallery construction; in Fig.2 the same part of the career field with an active steep lift; figure 3 section aa.

 In the drawings, the following notation: 1, 2, respectively, inclined and horizontal open workings; 3 temporary dump of breed; 4 - conveyor; 5 DFS; 6 gallery; 7 first protective shirt; 8 second protective shirt; 9 emphasis; 10 safety pillar; 11 cutting gap; 12 quarry contour.

 The method is as follows.

 By the criterion of the minimum cost of transporting the rock mass, the route, the horizon of the DPP (concentration horizon) and the position of the working ledges are determined, upon reaching which it is advisable to move the rock mass mined at the concentration and underlying horizons. Determine by calculation the time of construction, installation and commissioning, and on it the beginning of the excavation of opening workings 1 and 2.

 The rock from the excavation of the excavation 1 is located in a temporary dump 3, directly at the excavation along its perimeter. At the end of the excavation of mine workings 1 and 2, they begin in mine 1 to mount the conveyor 4, and in mine 2 to the construction and installation of the DPP. Upon completion of installation of the conveyor 3 in the excavation 1, the construction of the gallery 6 is started. After it, at a certain interval, the first protective jacket 7 is formed from fine rock breeds, and a second protective jacket 8 is also created from the dump 3 rocks, the entire breed is consumed to create it dump 3. Shedding of rock from the bodies of shirts 7 and 8 is pre-empted by the emphasis 9.

 In parallel, as the front of the work approaches the development of the conveyor elevator placement, a safety pillar 10 is cut off from the rock mass adjacent to the mine 1 from the quarry side, which then, with some lagging from the main front, determined by the operational safety conditions of the conveyor elevator, is worked out jointly with the second and part of the first protective shirts in a gentle gallery 6 and conveyor 4 mode.

 In this way, the proposed method for opening and developing the field ensures the stationarity and sufficient comfort of the working conditions of the conveyor lift (very important for development in the North), mining the deep part of the quarry field with a minimum height of rock mass for assembly vehicles, which ensures a significant reduction in overall cargo turnover and in particular, its part attributable to the assembly road transport, and, consequently, the costs under the item "transport", pollution reduction quarry and near-quarry spaces with exhaust gases. In addition, part of the working space 1, limited by gallery 6, will be used naturally, and in a special way, if absolutely necessary, to ventilate the quarry space, which is also very important for quarries located in climatic regions characterized by high inversion.

Claims (1)

 The method of opening and developing inclined and steeply dipping deposits, including opening the horizons of the quarry field with temporary exits, turning as the mining operations develop and reaching the boundary contour of the quarry permanent, mining the quarry field with horizontal layers with drilling and blasting rock preparation, sinking of the inclined excavation for transportation by a mountain conveyor lift mass extracted in the deep zone of the quarry and revealing horizontal excavations for the delivery of rock mass coming from the depths the quarry zones along a stationary track laid along the contour of the quarry ahead of the front of work on ledges overlying the concentration horizon, characterized in that a gallery for sheltering the conveyor lift is erected from the fastening blocks with increased accuracy and the first protective jacket of the gallery is formed from fine rock , a second protective jacket is formed from medium-sized rocks on top of it, and at the end they are cut from the array of rocks adjacent to it from the side of the quarry la, a safety rib, which then with some delay from the main front fulfill together with the second and first part of the protective jackets.

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