RU2133341C1 - Transportation complex for opencast mining operations - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: transportation complex is intended for elevating rock mass from deep horizons of quarries and can be used in opencast mining operations. Complex includes two rope lines of similar length. Both lines are fixed at lower horizon by means of supporting unit with pulley block. Each line has carriage with air balloon connected to carriage. Air balloon is used to equalize weight of transportation vessel with load. Transportation vessel is fastened to carriage. Carriages are movably connected by pulling rope passing through pulley block and fastened at lower horizon so that upper extreme position of vessel on one line corresponds to lower extreme position of vessel on other transportation line. Ends of pulling ropes coming from each carriage after passing through deflecting pulleys are connected to drums of two reversible winches installed at different sites of upper horizon. Application of aforesaid arrangement of transportation complex allows for reduction of expenses for hauling rock mass together with improvement of ventilation conditions in quarry. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to transport and dumping processes of open cast mining and can be used for lifting rock from deep horizons of quarries and lowering the rock to the lower horizons of the quarry for internal dumping, as well as earthwork in the construction of large-scale objects in the construction of pits or channels for lifting on the surface of the excavated soil and the descent of building materials.

 Known transport complex for open cast mining, including a guide rope, stretched by means of a counterweight between supports located on the lower and upper horizons; a container suspended from the guide rope with the possibility of free movement along it, and an aerostat attached to the container (AS USSR N 1776795, IPC E 21 C 41/26, 1990).

 The disadvantages of the known transport complex are limited technological capabilities due to the impossibility of the simultaneous implementation by the complex of descending and ascending cargo flows to separate loading and unloading points and, as a result, the high energy costs associated with the lifting of the rock mass.

 The closest set of essential features to the proposed transport complex is a transport complex for open cast mining, including a support rope between a winch installed on the upper horizon and a pulley block mounted on the lower horizon, an aerostat connected to a transport tank and a support rope, a reception capacity (bunker) (Boyko Yu.S. Cargo balloons for open pit mining. Journal: Industrial Transport. 1980, N 10, pp. 17-18).

 However, this transport complex, due to the limitations of its cable system, the composition of aerostatic devices and transport tanks, does not allow, simultaneously with raising the rock mass to the upper horizons, to lower the rock to the lower horizons when it is necessary to carry out internal dumping at a certain stage of the development of the quarry. In addition, the use of the prototype is associated with high costs for transporting the rock mass due to the high statistical imbalance of the system when returning the balloon to the lower horizon and adverse loads on the pulley block.

 The objective of the invention is to expand the technological capabilities of the complex and reduce energy costs for transportation.

 This is achieved by the fact that the transport complex for open cast mining, including a support rope between a winch mounted on the upper horizon, and a pulley block fixed on the lower horizon of the quarry, an aerostat connected to a transport tank and a support rope, a hopper, and the support rope system made in the form of two cable lines of the same length, diverging upwards from the support node fixed on the lower horizon, each of which is equipped with a carriage with an aerostat and a transport capacity attached to it freely movable through the pipeline, wherein the carriage is movably connected, passing through a pulley-block fixed on the lower horizon traction rope so that the upper limit position the container on one line, corresponds to the lower extreme position to the other line capacitance. The ends of the traction ropes extending from each carriage after passing through the deflecting pulleys are connected to the drums of two reversing winches.

 The invention is illustrated by drawings.

 In FIG. 1 shows a transport complex for open cast mining when lifting rock mass on two sides of the quarry. In FIG. 2 shows a scheme for airing the quarry during operation of the transport complex.

 The transport complex for open cast mining contains balloons 1, which are connected to transport tanks 3 with the help of carriages 2, and the carriages are attached to load-bearing cableways 4 with the possibility of free movement along them. The load-carrying cable lines 4 are fixed at one end with an anchor support 5 on the lower horizon 6 of the quarry and pulled by a pulley 7 with a counterweight 8 located on the supporting device 9 on the upper horizon 10 of the quarry. The traction rope 11 passes through a pulley-block 12, mounted on the lower horizon 6 of the quarry, and is connected to the cutters so that the upper extreme position of the transport tank 3 for one highway corresponds to the lower extreme position of the transport tank 3 on another highway, while its ends extending to the upper horizon 10 after passing through the deflecting pulleys 13 on the supporting device 9, are fixed on the drum of the winch 14.

 It is possible to install one reversible winch, while the traction rope 11 forms a closed loop by means of a pulley 13 on one of the sides of the quarry, a pulley-block 12 on the lower horizon 6 and a pulley 13 on the other side of the quarry.

 The transport complex for open mining works as follows.

 At the beginning of the transport cycle, one of the transport tanks 3 is installed on the lower horizon 6, while the other transport capacity is located on the upper horizon 10 of the quarry. We load the transport tank 3, on the lower horizon 6, with minerals, and empty rock transport tank 3, located on the upper horizon 10. Then, with the help of winches 14, one of which operates in reverse mode, traction rope 11 and deflecting pulley 13 on the supporting device 9, the pulley block 12 on the anchor support 5 raise the mineral in the direction of the concentration plant. In this case, the transport tank 3 with waste rock is lowered to a dump located inside the quarry (not shown in the drawing). The balloon 1 with the carriage 2 moves along the main rope 4, fixed on the lower horizon 6 to the anchor support 5. The constant tension of the rope 4 is provided through the pulley 7 on the supporting device 9 by the counterweight 8. This scheme of transporting the rock mass balances the transport complex.

 If external dumping is used at the quarry, then lifting the transport tank 3 with minerals for unloading at the upper horizon 10, the other (empty) tank 3 is on the lower horizon 6 and is loaded with empty rock for transportation to external dumps. In this case, both highways of the transport complex operate on the rise. The lifting force of balloons 1 balances the tare mass, and the movement of balloons along the slope of the quarry contributes to ventilation (Fig. 2).

 The proposed transport complex is multifunctional, i.e. It works on ascent and descent at the same time and on ascent to different points, is characterized by minimal energy consumption and contributes to the ecologization of career space.

Claims (1)

 A transport complex for open cast mining, including a support rope between a winch installed on the upper horizon and a pulley block fixed to the lower horizon of the quarry, an aerostat connected to a transport capacity and a support rope, a hopper, characterized in that the support rope system is made in in the form of two cable lines of the same length, diverging from the support node fixed on the lower horizon, each of which is equipped with a carriage with an aerostat and a transport capacity attached to it with free movement along the highway, while the carriages are movably connected by a pulling rope fixed on the lower horizon so that the upper extreme position of the tank on one highway corresponds to the lower extreme position of the tank on another highway, the ends of the pull ropes extending from each carriage after passing through the deflecting pulleys are connected to the drums of two reversing winches installed at different sites.

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