RU2039272C1 - Method for dumping and working of hard rocks with coarse fractionation - Google Patents

Abstract

FIELD: mining. SUBSTANCE: primary fill is formed in making dump tier by filling rock mass at angle of natural slope. When filling next portions of rock mass on primary fill, upper slope edge layers of different fractions of dump tier are formed due to segregation of material different lumps. Dump tier is worked by subbenches in descending order with taking layers optimized in lump sizes found in the intervals of certain heights of transfer store with subsequent loading on transportation facilities directed depending on needed size fraction of rock mass. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to the mining industry and can be used for transshipment operations in the open development of mineral deposits and the processing of dumps.

There is a method of forming warehouses and transshipment points in a quarry by dumping the rock mass under the escarpment of the ledge and subsequent processing of the dumping stage with calls) by an excavator with loading into transport tanks [1]
There is also a method of storage and development of rock with the formation of the dump stage and its mining under the ledges in descending order [2] However, these methods are characterized by the gross formation of the dump layer and, accordingly, its gross development, which do not allow classification of rocks by size (fractions), which leads to the need for subsequent processing of the entire rock mass by crushing and screening.

 Known methods for the partial separation of rock by size at mechanized transshipment points provide for the separation of only oversized pieces, and are also caused by the need to build special metal structures and devices for separating oversize, or receiving bunkers with gates, or with through openings in the walls of the bunkers, and using means for extraction of oversized pieces: crane, loader or bulldozer. The complexity and danger of oversized cleaning operations from the receiving hopper lead to downtime of the transshipment point and transport.

 In FIG. 1 shows a flow chart of the implementation of the proposed method; figure 2 section along aa in figure 1; in Fig.3 a section along BB in Fig.1.

 The dumping tier of the transshipment warehouse is sprinkled from the upper unloading platform 1 of the ledge 2 to the lower receiving platform 3 with the unloading of dump trucks 4 or other vehicles first directly under the slope of the ledge, sprinkling it with the primary embankment 5 at an angle of natural slope until an inclined plane 6 forms from the receiving platform to the upper edge of the ledge. Further unloading of vehicles is carried out on the upper unloading platform with the supply of rock mass 7 in small portions 8 to the edge of the ledge with a bulldozer 9, a single-bucket loader or directly from the dump truck, regulating the gradual rash of material by lifting the body. The size of the portions of the supplied material should provide the condition: individual pieces should roll, and not drain in the total mass along the formed inclined plane.

 With regulated dumping of rock mass on an inclined plane, large material and oversized pieces are rolled out to the base of the stack 12 due to segregation, medium-sized and small material are distributed, respectively, in the middle 11 and upper 10 parts of the formed warehouse.

 During the subsequent development of the warehouse stack, with the steps of 13, in a descending order, excavation of layers 10,11,12, optimized according to the grain composition, being in intervals of constant heights along the length of the warehouse, is carried out with loading by an excavator 14 or a loader on a delivery vehicle 15, directed to the destination depending on the requirements to fineness of the material. The number and elevations of the layers are determined based on the required grain size composition of the fractions.

The proposed method for the formation of a transshipment point in a quarry allows preliminary enrichment of rocks, the increased content of useful components in which are confined to certain size classes, and also, when selectively extracting layers of a transshipment warehouse optimized by grain composition, carry out separate shipment of raw materials to specialized consumers for their intended purpose:
a trifle to producers of sand and mineral flour,
middle fraction to crushed stone producers,
a large fraction like rubble stone and crushed stone with preliminary crushing.

 super-large fraction to manufacturers of facing products and blocks.

Claims (1)

 METHOD FOR STORAGE AND DEVELOPMENT OF ROCK ROCKS WITH Rough Fractionation, including the delivery of rock to the transshipment warehouse, the formation of the dumping tier and its subsequent development with the steps in the descending order, characterized in that when forming the dumping tier by feeding the rock mass they form at the angle of the natural slope, which, when subsequent portions of rock mass are poured onto the upper edge of the slope due to segregation of different-sized material, fractional layers of the dumping tier, the mining of which is carried out with the extraction of layers optimized according to the composition of the grains, which are in the range of certain heights of the transshipment warehouse, followed by loading onto vehicles sent for the purpose depending on the size requirements of the material.

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