EA013438B1 - Method of opencast mining of minerals and working area complex therefor - Google Patents

Abstract

A method of open-cast mining of mineral deposits and working area equipment therefor are related to mining industry and can be used for open-cast mining of mineral deposits in rocks of different strength. The technical task of the invention is aimed at improving efficiency of mineral mining in rocks of different strength and at reducing energy intensity of loosing and haulage operations. The method of open-cast mining of mineral deposits comprises blast drilling and loosening and separation from massif adjoining rock and minerals inclined layers top-down, conveyance of loosened rock to a bench toe by gravity force, haulage and transporting, loosening is carried out continuously and in a surface layer of bench slope by sections, wherein separation from massif, haulage, transporting and blast drilling of rock are performed simultaneously with forming stream of broken rock, while rock and minerals are separated and transported separately. Rock breaking includes simultaneous drilling and wedging of rock band in pass from a blast hole mouth, drilling is performed continuously and in plane parallel to a slope in the direction from upper top to bottom. When developing the first band longitudinal axes of extreme blast holes are arranged along the line of crossing lateral sides of the band and forming plane of the bench slope, wherein when moving to develop next bands the crossing lateral sides of the band and forming plane of the bench slope is preserved in the front direction. The working area complex for opencast mining of mineral deposits comprises a rock-breaking unit, a telescopic handler with a landing site, a loading unit with a feed bin and a face band conveyor, the rock-breaking unit and the telescopic handler are arranged in one line, the loading unit is kinematically connected to the face band conveyor, the rock-breaking unit is embodied as a multi-machine aggregate enabling to move along a bench slope, the loading unit as a carrying frame connected to the telescopic handler and mounted on rails, sleepers of which are made as slides and provided with mechanisms of moving the face band conveyor parallel to front working area. Said mechanism is embodied as a winch with a drive and a rope the end of which is fixed to an anchor, drives of the mechanisms of moving the face band conveyor parallel to front working area are electrically connected therebetween and the anchors are arranged along the line parallel to the front working area. The multi-machine aggregate comprises drill rods in guide pipes arranged in a row, conjugated with wedges and communicated with a source of high-pressure gas impulses.

Description

The invention relates to the mining industry and can be used for opencast mining of mineral deposits in rocks of different strengths.

The known method of cyclic-continuous development of mineral deposits in rocks by crashing and loading modules (Solod SV Technique and technology for the development of local deposits by an open method. M .: LLC Nedra-Business Center, 2001, p. 272-276), including the destruction of blocks of rock by mass explosions, excavation and supply of destroyed rocks to screening and mechanical crushing, followed by continuous transportation by belt conveyors. Mineral deposits are developed in a similar pattern, the ore is delivered for processing or to the warehouse. The development of deposits carried out in horizontal layers from top to bottom. Blasting machines and charging machines are located on the upper platform of the scarp, and excavators, crushing units and downhole belt conveyor - on the lower platform. The described method of development can be used in various conditions of occurrence of minerals and is characterized by relatively high productivity.

The disadvantage of the described method of mining of mineral deposits is the use of mass explosions for the preliminary destruction of rock blocks, which leads to the emergence of large pieces - oversized, precluding direct loading of rock (minerals) on conveyor belts, and requires repeated mechanical or explosive destruction of oversize. In addition, the used mountain transport equipment has high metal and energy intensity, high initial cost and requires a considerable amount of money and labor to operate and repair.

For the prototype of the selected method of open development of mineral deposits (RF patent No. 2112880, E21S 41/26, publ. In 1998), according to which the opening of the deposits carried out by a vertical trunk in the center of the career field, horizontal and inclined underground workings. At a given depth, the inclined underground working turns into a horizontal one, where a station is being built for loading rocks and minerals onto a trunk transport, for example, trains or a conveyor. The development of deposits is carried out in layers with a slope, in which the destroyed rock moves towards the vertical shaft - the ore passing by gravity. The development of horizontal layers produced sequentially from top to bottom ring stoppers. After the explosion, the destroyed rock rolls along the board of the quarry into the unopened part of the ore pass, from which it is loaded through specially equipped hatches onto the trunk transport. Mining machines and materials, as well as maintenance personnel, are delivered to the pit quarries for blasting operations carried out on spiral or loop half-trains conducted on board the pit, as well as by air using aerostats controlled by cable winches. The balloon can be placed equipment grab type, which is moved into the ore passes are not dumped by the explosion of the rock, are stripping slopes and work sites. The described method and devices for its implementation increase the intensity of the development of mineral deposits by using the force of gravity of the flow of destroyed rocks, which leads to lower costs.

The disadvantage of the described method of mining mineral deposits is that the destruction of the horizontal rock blocks in the ring stopping is carried out by explosions of charges from explosives cyclically. The withdrawal of equipment and maintenance personnel before the explosion of the next block of overburden or minerals reduces the productivity of mining, increases the risk when developing the lower horizons due to the possible fall of pieces of rock from above. In addition, non-dimensions in destroyed rock can form arches above the mouth of a vertical well, blocking access to means of transport in underground workings. The elimination of such accidents takes a lot of time and can cause long-term career downtime. The described method eliminates the efficient selective mining of minerals.

The technical problem of the invention is to improve the efficiency of development of mineral deposits in rocks of different strengths while reducing the energy intensity of the processes of destruction and transportation of rocks.

The task is solved due to the fact that in the method of open-pit mining of mineral deposits, including drilling and blasting destruction and separation from the array of host rocks and minerals in oblique layers from top to bottom, the movement of damaged rocks to the bottom of the ledge under the action of gravity, overload and transportation, destruction lead continuously and in the surface layer of the slope of the ledge by strips, while separation from the array, overload and transportation of the rock is carried out synchronously with the formation of the stream shattered rocks being separated from array congestion and transporting host rocks and minerals are carried out separately.

Destruction involves the simultaneous drilling and ripping of a strip of rock into a wedge from the mouth of a hole. Drilling is carried out continuously and in a plane parallel to the slope, in the direction from the upper edge to the lower working platform of the ledge.

When developing the first strip, the longitudinal axes of the extreme holes in the row are positioned along the line of intersection of the lateral sides of the strip to be worked out and the ledge inclination plane formed when

- 1 013438 working off the following lanes, the intersection of the side and the formed surface of the slope of the ledge is maintained in the direction of the work front.

In the bottomhole complex of devices for open-pit mining, including a rock destruction device, a telescopic material handler with a receiving plate, a hopper with a feeder hopper and a bottomhole conveyor belt, a rock destructive device and a telescopic material loader are located along the rock collapse line, the overload device is kinematically connected with the bottomhole belt conveyor, rock-breaking device is made in the form of a multi-machine unit and with the possibility moving the slope ledge charging device - in the form of a carrier frame connected with a telescopic loader and installed on the rails, the sleepers are manufactured in the form of slides and are provided with mechanisms for moving the longwall conveyor belt parallel to the front work.

The mechanism for moving the downhole belt conveyor parallel to the front of the work is designed as a winch with a drive and a cable, the end of which is attached to the anchor. The drives of the mechanisms for moving the downhole belt conveyor parallel to the work front are electrically interconnected, and the anchors are installed along a line parallel to the work front.

The multi-machine assembly includes row-mounted drill rods in guide tubes associated with wedges and communicated with a source of high-pressure gas pulses.

Continuous destruction of rocks in the surface layer of the slope by strips and separation of strips from the pillar in the direction from the top edge to the lower work area of the ledge will preserve the natural structure of the deposits and separate the host rocks and minerals from the massif, which will create conditions for effective selective mining of mineral deposits. . The implementation of the transshipment and transportation synchronously with the formation of a stream of destroyed rock, constantly moving under its own weight to the lower working platform, and loading directly into the means of transport will allow continuous development of deposits in rocks of different strengths, including rocks, to increase the efficiency of overburden and mining operations due to higher labor productivity, lower energy and cost.

The location of the axes of the extreme holes in the row along the line of intersection of the lateral sides of the first strip to be worked out and the new plane of slope of the ledge formed allows to form the face. The location of the axis of the extreme hole during the development of subsequent lanes along the work front will allow preserving the parameters of the face and conditions for continuous development of deposits, i.e. continuous destruction of rock rocks without oversize and loading of the stream of rocks into the means of transport without excavation.

The way the open development of mineral deposits is as follows. On the upper working platform, a machine aggregate is inserted into the rock mass within the limits of the strip being worked. Destruction and separation from the pillar of the host rocks and minerals are inclined from top to bottom with continuous drilling of holes, wedging in the strip of rock into the hole from the mouth of the hole with wedges and periodic high-pressure gas pulses in the hole cavity during the separation of rock. The frequency and power of high-pressure gas pulses are set depending on the strength and properties of the rocks being destroyed. The movement of the flow of destroyed rocks to the base of the ledge occurs under the action of gravity. Overloading and transportation of rocks at the lower working platform is carried out continuously and synchronously with the separation and formation of the flow of rock directly in the face. In the case when the mineral deposit does not have a pronounced shape and mining work must be carried out simultaneously with the development of host rocks, separation from the massif, transshipment and transportation of overburden and minerals are carried out separately while maintaining the direction of the bottomhole in an inclined plane from top to bottom. and the formation of flow for the restructuring of cargo traffic on the lower working platform (the rock is sent to the dump, the ore - for processing). If the size of the deposit goes beyond the limits of the strip, then the rock is worked up to the upper boundary of the minerals in adjacent strips, and then the minerals are separated. When developing the first strip, the longitudinal axes of the side holes are positioned along the line of intersection of its sides with the new plane of the slope of the step. During the transition to working out the next strip, the intersection of its side and the new surface of the escarpment of the ledge is maintained in the direction of movement of the work front.

The bottomhole complex of devices for open-pit mining of mineral deposits is illustrated in the drawing, where in FIG. 1 shows the executive mechanisms of the complex in the process of production of overburden works, side view; in fig. 2 - carrier frame of a mobile loading device with a mechanism for moving the downhole belt conveyor parallel to the work front; in fig. 3 multi-machine unit in the initial position on the upper work platform of the ledge.

The bottomhole complex of devices for the open development of mineral deposits includes a rock destructive device, a loading crane, a loading device and a vehicle — a bottomhole conveyor belt. The rock-breaking device consists of a carrying platform 1 with an inclined plane 2, on the surface of which a multi-machine unit 3 is placed. The multi-machine unit 3 is in its initial position connected by cables 4 through a system of blocks 5 to lifting hoists

- 2 013438 kami 6. At the lower working platform of the ledge on the same line with the carrier platform 1 and the multi-machine unit 3 there is a telescopic material loader 7 with the loading plate 8, the receiving 9 and the unloading 10 conveyors. The discharge conveyor 10 is kinematically connected with a mobile loading device 11. The loading device 11 consists of a carrier frame 12 with a feed hopper 13 and a drive (not shown in the drawings) and is connected by cables 14 and winches 15 with receiving 9 and discharge 10 conveyors. Racks 16 of frame 12 with grippers 17 are mounted on rails 18 attached to sleepers made in the form of sled 19 on which mobile bottomhole belt conveyor 20 is installed. At the ends of sleeper sled 19, mechanisms for moving the bottomhole conveyor belt 20 parallel to the front of the work or its longitudinal are installed axis. The mechanism for moving the downhole belt conveyor parallel to the work front consists of a winch 21 mounted on each sleeper-sled 19 with a drive 22. The winch 21 is connected by a cable 23 to a portable anchor 24. The drives 22 are electrically interconnected, and the anchors 24 are installed along a line parallel to the front of works or the longitudinal axis of the downhole belt conveyor 20.

The multi-machine unit 3 includes drill rods 25 installed in a row, coupled with wedges 26, a percussion mechanism 27 and a high-pressure gas pulse generator (not shown in the drawings). Side plates 28 are hingedly attached to the receiving plate 8 of the material handler 7 with the possibility of solution from 0 to 90 °.

The way the open development of mineral deposits is as follows. On the upper work platform of the ledge install multimachine unit 3, the angle of inclination is taken equal to the angle of repose of the ledge, with the help of winches 6 lowered to the contact of the drill rods 25 with the rock, include rotational (not shown) and the percussion mechanisms 27 and enter into position . Multi-machine unit 3 and a telescopic material handler 7 is installed in the bottomhole along the flow line of the collapse of the rock. The end of the discharge conveyor 10 is placed above the hopper-feeder 13 and the upper branch of the bottomhole conveyor belt 20. In the process of moving the multi-machine unit 3, the drill rods 25 pass holes in the newly formed slope plane of the ledge parallel to its working plane and simultaneously drill the splitting of the rock strip in the approach from the mouth of bore-holes with wedges 26 while synchronously moving the bottom and the mouths of the bore-holes. When slowing the movement of the multi-machine unit 3 in strong rocks from a high-pressure pulse generator (not shown), high-pressure gas pulses are periodically fed into the cavity of holes, for example, from an explosion of charges from a stoichiometric mixture of hydrogen and oxygen or water. Destroyed rock under the action of its own weight in the form of a stream moves to the lower working platform, enters the loading plate 8, from where it is fed to the bottomhole conveyor belt 20 by means of receiving 9 and unloading 10 conveyors of the loader 7 the plates 28 are aligned with the plane of the lower working platform. After lifting the multi-machine unit 3 to the upper working platform, the side plates 28 are lifted, moving the rock to the receiving conveyor 9. The multi-machine unit 3 is mounted on an inclined plane 2 of the carrier platform 1 (FIG. 1), which is moved to the new lane. Telescopic reloader 7 take away from the lower edge of the escarpment slope, combine the receiving 9 and discharge 10 conveyors and together with the loading device 11 are moved to the new rock strip, where the receiving plate 8 is installed in the working position - at the base of the slope of the ledge. Moving the downhole conveyor 20 with a loading device 11 parallel to the work dummy or its longitudinal axis at a predetermined distance is performed by turning on the drives 22 of the winches 21, while the ropes 23, winding, move the sliders 19 simultaneously and evenly towards the anchors 24.

The use of the proposed method and the bottom-hole complex of devices for the open development of mineral deposits will reduce the cost of funds and labor for the construction and operation of quarries; increase work safety; to preserve the natural structure of the rock mass and increase the angle of slope of the sides and the depth of the pit without additional costs; complete the automation of the complex of devices due to the continuity of technological processes; create favorable conditions for compliance with environmental requirements in the production of mining operations.

Claims (6)

CLAIM 1. The method of open development of mineral deposits, including drilling and blasting destruction and separation from the array of host rocks and minerals in oblique layers from top to bottom, moving the destroyed rocks to the base of the ledge under the action of gravity, overload and transportation, characterized in that the destruction is carried out continuously and the surface layer of the slope of the ledge stripes, while separation from the array, reloading and transportation of rocks carried out synchronously with the formation of a stream of broken rock, and separation from the array, overload and transporting host rocks and minerals are carried out separately. 2. The way the open development of mineral deposits according to claim 1, characterized in that the destruction includes the simultaneous drilling and propping of a strip of rock in the stope from the mouth - 3,013,438 boreholes wedges, and drilling is carried out continuously and in a plane parallel to the slope of the ledge, in the direction from the upper edge to the lower working platform of the ledge. 3. The method of opencast mining according to claim 1, characterized in that when mining the first strip, the longitudinal axes of the extreme holes in a row are positioned along the intersection line of the lateral sides of the developed strip and the formed slope plane of the ledge, during the transition to the development of the following lanes and the formed surface of the slope of the ledge retain in the direction of the front works. 4. The bottomhole complex of devices for the open development of mineral deposits, including a rock destructive device, a telescopic material handler with a receiving plate, a loading device with a feed hopper and a bottomhole conveyor belt, characterized in that the rock destructive device and a telescopic material loader are located along the line of rock collapse, reloading the device is kinematically connected with a downhole belt conveyor, the rock-breaking device being made in the form of a multi-machine unit and with the ability to move along the slope of the ledge, the loading device is in the form of a supporting frame connected with a telescopic material handler and mounted on rails, the sleepers of which are made in the form of a sled and equipped with mechanisms for moving the bottomhole conveyor belt parallel to the work front. 5. The bottomhole complex of devices for the open development of mineral deposits according to claim 4, characterized in that the mechanism for moving the bottomhole conveyor belt parallel to the front of work is designed as a winch with a drive and a cable, the end of which is attached to the anchor, while the mechanisms for moving the bottomhole belt the conveyor is electrically interconnected, and the anchors are installed along a line parallel to the front of the work. 6. The bottomhole complex of devices for the development of mineral deposits according to claim 4, characterized in that the multi-machine unit includes drill rods installed in a row in guide pipes associated with wedges and communicated with a source of high-pressure gas pulses.