Steep incline conveyor unit for open working

FIELD: mining engineering.

SUBSTANCE: steep incline conveyor unit (1) contains a route (14) fixed on an inclined slope (10) of an open working. A first and a second lifting cages (15, 16) are movable along the route (14) between the lower level (12) and the upper level (13). The lifting cages (15, 16) are connected together by a common traction device (17). In the region of the lower level (12) of the route (14), there is a loading device (18) provided for filling the lifting cages (15, 16) with minerals (11) through a loading opening (21) from vehicles (19). The lifting cages (15, 16) comprise an discharge opening (23) located below the loading opening (21). It is possible to unload the minerals (11) from the lifting cages (15, 16) without changing their position through the discharge opening.

EFFECT: possibility to load cages with transported mass equal to the load of the feeding vehicle.

16 cl, 13 dwg

 



 

Same patents:

FIELD: mining.

SUBSTANCE: control method of delivery of broken-rock pile extracted with getting machines operating at underground mine working at different points of a network of underground gains of the well, by means of transportation devices and bunker units, which are located in the network of underground gains of the well; at that, on the basis of actual data being recorded continuously, there determined is minimum allowable capacity of transportation devices and buffer capacity of bunker units and compared in the computer-aided control unit to current actual production rate and/or to the specified production rate expected for the specified time period and/or to the specified production rate of the associated getting machine, which is extrapolated as per the previous actual data; and at that, at the specified deviations the control unit implements automatic levelling of carrying capacity with transportation devices and bunker units and/or controls the production rate of the getting machine considering the capacity of in-series connected transportation devices and bunker units.

EFFECT: providing maximum and, when possible, constant product available at the transportation point of the mine.

11 cl

FIELD: testing equipment.

SUBSTANCE: invention is related to benches for execution of experimental research in laboratory conditions. Device comprises section of vertically oriented pipe fixed on frame, lower cut of which has fixed circular guide with angle profile in cross section with vertical and horizontal shelves. There is upper ring arranged on horizontal shelf with the possibility of rotation in horizontal plane versus this guide. Ring is equipped with identical welded round-link chains attached along its perimetre, lower ends of which are fixed on another lower ring with the possibility of its rotation in horizontal plane and displacement in vertical plane. On upper ring along its perimetre there are alternating rollers installed with the possibility of their rotation in horizontal and vertical axes and with the possibility of rollers interaction accordingly with horizontal and vertical shelves of circular guide. Fixation of lower ends in round-link chains is provided due to their fixation in lower ring with the help of radially oriented rods on its internal surface with the possibility of their location inside links of round-link chains. Length of rods protruding parts is equal to width of round-link chains links. Concentrically versus lower ring there is additional internal ring arranged with the possibility of location between it and lower ring of round-link chains. In openings of additional internal ring there are two pairs of rods arranged diametrically at the right angle to each other with increased length and helical thread at their ends and packing nut with the possibility of its rest against internal ring. Internal ring is made of elastic material and is arranged as split with the possibility of its detachment from rods with helical thread after packing nuts screwing off them. Length of round-link chains is selected so that it is possible to move lower ring up and down along them and fix it in required position, setting distances between upper and lower rings. On lower ring along its perimetre with identical pitch on vertical axes, rollers are installed with the possibility of their interaction with internal cylindrical surface of jacket fixed on frame, as well as two additional diametrically installed rollers on detachable horizontal axes with the possibility of their interaction with vertically oriented guides of I-section in cross section. Guides are hingedly suspended to frame by their upper ends with the possibility of their rotation in plane passing through axes of additional rollers, to the sides from lower ring and fixation of these guides in turned position versus frame. On upper and lower rings there are rims attached with the possibility to install sections of flexible elements in their chutes and with rims enclosure by flexible elements at the angle close to 360 degrees. At the same time one end of each flexible element is fixed on rim, and the second one is equipped with dynamometre and is kinematically joined to drive. Upper ring is equipped with stop accessory, having possibility to fix upper ring versus circular guide. Cylindrical jacket is arranged with vertical slot cut with the possibility to arrange branch of flexible element coming off lower ring. In internal cavity of pipe section there is round plate arranged with gap in horizontal plane with the possibility of replaceable weights location on it and interaction with ore sample placed inside internal section of pipe section. Plate, with the help of flexible element, length of which is equal to height of pipe section, is kinematically connected to frame as point of flexible element attachment to frame is allocated along axis of pipe section symmetry. Under lower ring there is container installed on frame with gate valve placed in its upper part with the possibility of ore pass reception and arrangement in container.

EFFECT: provision of possibility in laboratory conditions to detect power and kinematic characteristics of chain gate for ore pass for conditions of bulk ore outlet from ore pass with versions of rotary ring location - upper or lower ones.

5 dwg

FIELD: testing equipment.

SUBSTANCE: invention is related to benches for execution of experimental research in laboratory conditions. Device comprises section of vertically oriented pipe fixed on frame, lower cut of which has fixed circular guide with angle profile in cross section with vertical and horizontal shelves. There is upper ring arranged on horizontal shelf with the possibility of rotation in horizontal plane versus this guide. Ring is equipped with identical welded round-link chains attached along its perimetre, lower ends of which are fixed on another lower ring with the possibility of its rotation in horizontal plane and displacement in vertical plane. On upper ring along its perimetre there are alternating rollers installed with the possibility of their rotation in horizontal and vertical axes and with the possibility of rollers interaction accordingly with horizontal and vertical shelves of circular guide. On lower ring along its perimetre with identical pitch there are rollers arranged in vertical axes with the possibility of their interaction with internal cylindrical surface of jacket fixed on frame, as well as two additional diametrically installed rollers on detachable horizontal axes with the possibility of their interaction with vertically oriented guides of I-section in cross section. Guides are hingedly suspended to frame by their upper ends with the possibility of their rotation in plane passing through axes of additional rollers, to the sides from lower ring and fixation of these guides in turned position versus frame. On upper and lower rings there are rims attached with the possibility to install sections of flexible elements in their chutes and with rims enclosure by flexible elements at the angle close to 360 degrees. At the same time one end of each flexible element is fixed on rim, and the second one is equipped with dynamometre and is kinematically joined to drive. ,. Upper ring is equipped with stop accessory, having possibility to fix upper ring versus circular guide. Cylindrical jacket is arranged with vertical slot cut with the possibility to arrange branch of flexible element coming off lower ring. At least on three round-link chains in area of their fixation to upper ring there are detectors installed, which register value of longitudinal load over round-link chains, and round-link chains with detectors are arranged along perimetre of upper ring at the same distance from each other. In internal cavity of pipe section there is round plate arranged with gap in horizontal plane with the possibility of replaceable weights location on it and interaction with ore sample placed inside internal section of pipe section. Plate, with the help of flexible element, length of which is equal to height of pipe section, is kinematically connected to frame as point of flexible element attachment to frame is allocated along axis of pipe section symmetry. Under lower ring there is container installed on frame with gate valve placed in its upper part with the possibility of ore pass reception and arrangement in container.

EFFECT: provision of possibility in laboratory conditions to detect power and kinematic characteristics of chain gate for ore pass for conditions of bulk ore outlet from ore pass with versions of rotary ring location - upper or lower ones.

4 cl, 6 dwg

FIELD: mining.

SUBSTANCE: invention refers to mineral resource industry and can be applied when developing ore and non-metal minefields for transporting mineral product under influence of proper weight. Method involves boring of a pilot well till design length is achieved by means of a forward travel reaming bit. After that, it is removed and on the free splined shaft there assembled is a reverse travel reaming bit which consists of telescopic cross-pieces and a centering guide. Then, the pilot well is enlarged with reverse travel till the required shape of "flattened cone" is obtained.

EFFECT: excluding rat-holing of the ascending workings, decreasing energy consumption when crushing mined rock, and creating safe working conditions.

2 dwg

Ore chute gate // 2354600

FIELD: mechanics.

SUBSTANCE: ore chute gate comprises two bottoms attached onto cranks and arranged below the outlet hole to turn in a vertical plane in opposite directions relative to horizontal axles. The latter are fitted outside the branch pipe vertical walls and in parallel to them. Aforesaid cranks are linked up by other two cranks with their free ends linked with the rods of power cylinders arranged horizontally. The latter have are furnished with two rods to turn the cranks of aforesaid linkage in different sides. The cranks of bottoms, in initial position and with the gate opened, are oriented horizontally, while the cranks of the above linkage with the branch pipe walls form a 45 degrees angle. There is a dual-slope baffle arranged inside the branch pipe at the level of axles and in parallel to them to overlap the end face edges of bottoms, in plan, with the gate closed. Every bottom's crank has two pins fixed in cantilever therewith to enter, unobstructed, the openings of counter balance that rests upon the bottom's crank via detachable sleeves fitted on the pins.

EFFECT: higher reliability of gate operation.

5 cl, 7 dwg

FIELD: mining.

SUBSTANCE: invention refers to test benches for experimental investigations in laboratories. The test bench for investigation of parameters of the chain gate for ore chute consists of the section of a vertical oriented tube secured on a frame; a circular guide of angular profile in cross section with vertical and horizontal flanges is fastened on the lower cut of the said tube; the bench also consists of a ring designed to turn in a horizontal plane relative to the guide and equipped with welded round-link chains arranged along the perimeter of the ring at uniform spacing. Lower ends of chains are secured to another ring, which can turn in a horizontal plane and can be set off in a vertical plane. Alternating between them rollers are installed on the upper ring along its perimeter; the rollers are designed to rotate around horizontal and vertical axes and also the rollers interact correspondingly with horizontal and vertical flanges of the circular guide. Further the rollers are assembled on the lower ring along the perimeter of the ring with uniform distance between them and on vertical axes; these rollers are designed to interact with interior cylinder surface of the case secured on a frame; also on the lower ring there are assembled two additional diametrically set rollers on removable horizontal axes, the said rollers interact with vertical oriented guides of double-T profile in cross section pivotally hanged to the frame with their upper ends and able to turn in the plane passing through the axes of the additional rollers sideways from the lower ring; the said guides can be fixed in turned position relative to the frame. In upper and lower rings in grooves of sections of flexible elements there are secured rims; flexible elements envelope the rims at an angle close to 360 degrees. One end of each flexible element is fastened on the rim, while another is equipped with a dynamometer and kinematically connected with a drive. The upper ring is equipped with a catch device, which fixes the upper ring relative to the circular guide. The cylinder case has a vertical slit wherein the branch of the flexible element running from the lower ring is located. A round plate is placed in the interior cavity of the tube section with a gap in a horizontal plane; alternative loads can be arranged on the plate; also this plate interacts with samples of ore located in the interior cavity of the tube section. By means of the flexible element, the length of which is equal to the height of the tube section, the plate is kinematically tied with the frame, where points of flexible element fixture to the frame are arranged along the symmetry axis of the section of the tube. A container with a slide gate in its upper part is installed under the lower ring on the frame; the samples of ore can be received and placed in the container.

EFFECT: invention facilitates laboratory assessment of strength and kinematic characteristics of chain gate for ore chute for conditions of ore lumps chute with various versions of turn ring position: upper and lower one.

2 cl, 1 dwg

FIELD: mining; transporting.

SUBSTANCE: chain gate for ore chute consists of two rings assembled under discharge opening one above another and oriented in horizontal planes. The rings are tied between them with vertically oriented round-link chains secured on the rings with their ends and arranged along the whole perimeter of rings. The upper ring is stationary fastened under the discharge opening, while the lower ring is kinematically connected with a drive and is designed to turn in horizontal plane. The lower ring is equipped with rollers arranged around the exterior perimeter of the ring at uniform distances; the rollers are designed to rotate around vertical axes and interact with interior surface of a vertically oriented case of cylinder shape; the case envelopes chains with a gap. The case is secured on a stationary foundation. The lower ring from the lower side is made in form of a rim, in the groove of which a steel wire cable is inserted; the cable with its one end is secured on the rim, while with its another end it is tied with a drum, which is kinematically connected to the drive equipped with a breaking facility. In the initial position, when the gate is open, the cable envelopes the rim along the whole length of its circumference, while a slack from the rim strand of the cable envelopes a deflecting unit from below; the deflecting unit can rotate around its axis equipped with sliders; the sliders are designed to be set off in vertical guides and are equipped with a counterweight; in its initial position the counterweight is placed on the foundation. The axis of the drum is assembled so that it exceeds the lower ring at a value bigger, than vertical displacement of the lower ring, when the discharge opening of ore chute is shut; the distance in horizontal plane of the axis of the drum from the axis of the deflecting unit is chosen from the condition of approximate equality of resultant force of tension of tight and slack strands of the cable enveloping the deflecting unit for the lower ring in the initial position and after its displacement upward at closing the discharge opening with curled chains. The case is made with a vertical slot wherein the cable slack from the rim of the lower block can be inserted with a gap; the height of the slot is accepted not less, than the travel of vertical displacement of the lower ring.

EFFECT: invention facilitates simplifying design of chain gate and increasing reliability of operation at discharging lumps via discharge opening of ore chutes of increased sizes.

3 dwg

Ore chute gate. // 2347911

FIELD: mining..

SUBSTANCE: invention refers to auxiliary transport equipment, particularly to gates and is designed mainly for shutting off outlet apertures of ore chutes in mines; it can be also implemented for outlet of lump loads from hoppers. The ore chute gate contains two cylinder bottoms installed under an outlet port secured on two cranks; the said bottoms are designed to rotate in vertical plane into opposite directions against horizontal axes. The axes are located on outer sides of vertical walls of a sleeve and parallel to them. The cylinder bottoms of cranks are arranged overhung with the length of arc corresponding to right angle; free ends of bottoms are directed inside the sleeve. Kinematical connection between cranks is made in form of additional cranks secured on axes. Free ends of cranks are connected with rods of two double-piston-rod actuating cylinders oriented horizontally and assembled with gaps relative to two other walls of the sleeve. In their initial position at an open gate the cranks are oriented horizontally, while the additional cranks form the angle of 45 degrees with the walls of the sleeve; the additional cranks are designed to interact after turn into the direction of the sleeve at the angle of 90 degrees with stops secured on the sleeve. A shield with two sloping surfaces is installed inside the sleeve at the level of axes and parallel to them; the said shield overlaps the end flanges of the cylinder bottoms in plane when the gate is closed and is oriented along the axis of sleeve symmetry. Free ends of the shield are arranged in slots of the side walls of the sleeve and are designed to set off the shield in vertical and horizontal planes. The shield is spring loaded towards brackets of the sleeve by means of a compression spring. At the ends of the shield there are installed unbalance vibrators; their axes are parallel to a lengthwise axis of the shield. Dimensions of the gate are chosen considering the following ratio R=0.5B+a, r<0.355[0.5(B-b)+a-c], where R is radius of the crank, m, r is radius of additional crank, m, B is the width of the outlet port of the sleeve, m, a is the distance between the axis and inside surface of the sleeve wall, m, b is total distance between piston rods and piston rods and end walls of the actuating cylinder for final positions of the piston rods, m, c is the height of the piston rod of the actuating cylinder, m. A replaceable component out of wear and shock resistant material is installed on top of the shield with two sloping surfaces.

EFFECT: increased reliability of operation at unloading oversize lumps through outlet port of ore chute, eliminating possibility of jamming of separate lumps of unloaded bulk between cylinder bottoms and supporting them cranks and avoiding doming.

2 cl, 5 dwg

Ore drawing device // 2312810

FIELD: mining, particularly devices to draw and deliver particulate materials (crushed rock) from ore passes in underground mining.

SUBSTANCE: device comprises gutter with driving gate arranged in lower part thereof and defining sector in cross-section. The gate may rotate in vertical plane. The gutter has comb member arranged in bottom part thereof and connected to gate through hinged-lever connection. Lever of the connection is installed in the comb member and may slide in slot by means of roller. Upper comb member part has dovetail partitions.

EFFECT: increased operational reliability, simplified structure, assemblage and maintenance.

2 dwg

FIELD: mining, particularly transport specially adapted to underground conditions.

SUBSTANCE: method involves loading industrial waste in tilting skip unloaded from skip bottom; receiving and unloading industrial waste via hoppers; lowering empty skip at predetermined depth for skip loading with industrial waste from another hopper; transporting skip filled with industrial waste along bore to receiving hopper opened by means of hinges; unloading industrial waste through bottom thereof; filling the skip with mineral; lifting the skip to day surface along the bore.

EFFECT: increased efficiency of skip hoist usage for industrial waste lowering and transportation to goaf.

1 dwg

FIELD: mining operations.

SUBSTANCE: invention relates to the mining industry and can be used in stripping and mining operations at the fields, composed of dense and semi-hard rocks, with use of boom surface miners, spreaders and other mining machines. The method comprises continuous extraction and direct overburden waste disposal, continuous extraction, transportation, sorting of mineral resources. The front of mining operations is located along the short axis of the career field, the continuous working of overburden bench of high altitude is performed simultaneously on two sub-benches using boom surface miners. The overburden on the conveyors of the boom surface miners is fed through the receiving devices to the conveyors of the loading consoles of the spreader. The process of combining the conveyors of the boom surface miners with the receiving devices of the loading consoles and positioning of the spreader relative the boom surface miners is provided by the automatic control system. The mining operations are carried out with the use of excavating milling machine, the mineral resources are fed by the loader to the hopper of the mobile reloading unit with a conveyor and then to the mobile-sorting unit.

EFFECT: increase of the productivity of mining operations in the development of deep deposits of mineral resources composed of dense and semi-hard rocks.

2 dwg

Impactite miner // 2554617

FIELD: machine building.

SUBSTANCE: machine for impactite mining. The miner comprises a resonant motor transferring torque to an auger, a pickup unit pivotally attached to a carriage frame, and a pulley block to lift the auger. A rocker with a steam boiler being mounted on one arm and a compressed air cylinder - on the other, is suspended as the counterbalance to the auger.

EFFECT: improved design.

5 dwg

FIELD: physics; geophysics.

SUBSTANCE: invention relates to geophysics and can be used for exploration of mineral deposits in a geologic environment. The invention relates to a sensor device and a method for geoelectric survey of a location, stratigraphic arrangement and range of mineral deposits and contiguous rocks delineating said deposits. The disclosed sensor device has a sensor head (51), an end surface which forms a sensor measurement surface (53) and at least one electrode. According to the invention, the sensor head (51) can be brought into contact with the surface of the geologic environment, and a centre electrode (54) and a plurality of external electrodes (55), arranged in a geometrically uniform manner around the centre electrode (54), are placed on the sensor measurement surface (53). The centre electrode (54) and external electrodes (55) are electroconductive and electrically insulated from each other.

EFFECT: high accuracy of survey data of a deposit directly in the development process thereof.

15 cl, 7 dwg

FIELD: mining.

SUBSTANCE: in order to enlarge the range of simultaneous processing and versions of control of a cutting force in the processing zone, formation of destruction zones is performed considering strength characteristics of rock as to width of the processed surface at variation of functional and technological parameters and their rational combination under conditions of selective development of deposits with complex structures. Strength characteristics of rock are fixed by mine rock strength recording sensors connected through a system block to a control system of operation of hydraulic cylinders, and drum balance is provided by distributed offset of hydraulic cylinders. Pressure of working liquid in piston cavities of the hydraulic cylinders is designed for a force required for rotation of turning levers.

EFFECT: increasing productivity, improving reliability and enlarging technological efficiency of destruction of rocks of different strength and coherence degree by controlling a cutting force in a zone of processing and formation in a surface layer of the processed massif of destruction zones considering strength characteristics of rock at selective development of deposits with complex structures by means of open-pit surface miners.

2 cl, 6 dwg

FIELD: mining.

SUBSTANCE: method to form a trajectory of excavator bucket motion is carried out with the help of an operation of putting a handle with the bucket into backward motion in the vertical plane in a system of coordinates connected to a boom. At the same time the axis of handle rocking in the specified system of coordinates is fixed. The operation of trajectory curvature control is carried out by change of the distance between the bucket and the axis of handle rocking. At the same time the handle rocking axis fixed in the system of coordinates connected to the boom is moved in the system of coordinates connected with the handle along the circumference arc, the centre of which is at the end of the handle. The proposed method is realised by working equipment comprising a boom, a handle with a bucket rigidly installed on it, a rope mechanism of bucket lift and a discharge mechanism. Besides, the discharge mechanism comprises a yoke, which forms rotating couples with the boom and the handle, and a hydraulic cylinder, the stem and body of which are connected hingedly with the yoke and handle accordingly.

EFFECT: simplified design of a discharge mechanism, at the same time possibility is provided to adjust bucket movement trajectory.

2 cl, 3 dwg

FIELD: mining.

SUBSTANCE: system includes bottom-hole, dumped and intermediate running fixed platforms connected by means of two running lines, two-sided bucket with V-bottom connected to each mast by means of hoisting-hauling line enveloping the corresponding sheave arranged between running lines with possibility of movement relative to each other together with running lines. Intermediate running fixed platform is equipped with two supporting sheaves of running lines and one supporting sheave of hoisting-hauling lines. Rotation axis of hoisting-hauling line sheave has the possibility of being moved along guide curves of running lines.

EFFECT: improving efficiency, reducing the wear of lines and improving environmental conditions owing to equipping the mast of intermediate running fixed platform with the most effective equipment.

9 dwg

FIELD: mining.

SUBSTANCE: invention relates to the field of underground survey and production and is intended for measurement of properties of specific resistance of earth formations as they are penetrated through well. Combined tool for measurement of specific resistance includes both antennas of induction/propagation and antennas of side specific resistance arranged in grooves on well pipe. At the same time antenna of side specific resistance includes insulating basic layer arranged in groove, toroidal antenna arranged over insulating basic layer and protective device arranged over groove.

EFFECT: increased accuracy and reliability of measurement of underground specific resistance due to provision of combined measurement of specific resistance, using side sensor and sensor of induction or propagation in one and the same area of bed in a single trip.

18 cl, 20 dwg

Stripping aggregate // 2396394

FIELD: mining.

SUBSTANCE: invention refers to mining and can be implemented at open development of mineral deposits by non-transport system in complicated mining and geological conditions. The stripping aggregate consists of face and dumping non-rotary carrier platforms with masts interconnected with two running cables, and of a double-sided bucket with a bottom of V-shape coupled with each mast by means of a lift-and-drag cable enveloping a corresponding block installed between the running cables. The block of the face non-rotary platform is rigidly tied with the first running cable and is connected to the second running cable; it travels along this cable relative to the block of the non-rotary dumping carrier platform together with the second running cable. The block of the dumping non-rotary platform is rigidly tied with the second running cable and is connected to the first running cable; it travels along this cable relative to the block of the non-rotary face carrier platform together with the first running cable.

EFFECT: raised efficiency of stripping aggregate and reduced wear of cables.

10 dwg

FIELD: mining.

SUBSTANCE: invention refers to mining and can be implemented in open pits of mineral deposits for transporting excavated mass. The method consists in communicating horizons with a carrying flexible link, in securing capacities to the flexible link; also these capacities can freely travel; in connecting the capacities with a flexible pulling link, in equipping it with a balloon, and in loading capacities at final horizons. Also unloading of capacities is performed at intermediary horizons situated between stations of loading of upper and lower horizons, notably, the distance between stations of loading and unloading of each horizon is uniform; the balloon is fastened to the capacity of the upper horizon; lifting of excavated mass is performed from the lower horizon by means of aerostatic force of the balloon, while lowering excavated mass from the upper horizon is performed by means of gravitation force of excavated mass of the upper horizon and empty lower capacity. Also there is suggested the device for implementation of the method.

EFFECT: facilitating transporting excavated mass from hard accessible places with narrow slopes.

2 cl, 1 dwg

FIELD: mining.

SUBSTANCE: invention relates to mining, in particular, to navigation system of combined cutter-loader intended for operations in open-pit bench. This mining equipment includes a combined cutter-loader, a conveyor assembly, and a steering assembly, which joins said combined cutter-loader and conveyor assembly. In addition, this equipment includes a course sensor and a steering device, which is sensitive to signals from said course sensor. The first drive is located in combined cutter-loader, in conveyor assembly, or in steering assembly. The first drive is placed on one side of combined cutter-loader centreline. In addition, the second drive is located either in combined cutter-loader, or in conveyor assembly, or in steering assembly. The second drive is placed on another side of combined cutter-loader centreline. The first and the second drives are used to adjust angle of joint between combined cutter- loader and conveyor assembly on either side of parallel line in order to keep pre-defined direction of combined cutter-loader advancing.

EFFECT: precise driving of combined cutter-loader in order to increase coal cutting from mining zone.

22 cl, 13 dwg

FIELD: mining operations.

SUBSTANCE: invention relates to the mining industry and can be used in stripping and mining operations at the fields, composed of dense and semi-hard rocks, with use of boom surface miners, spreaders and other mining machines. The method comprises continuous extraction and direct overburden waste disposal, continuous extraction, transportation, sorting of mineral resources. The front of mining operations is located along the short axis of the career field, the continuous working of overburden bench of high altitude is performed simultaneously on two sub-benches using boom surface miners. The overburden on the conveyors of the boom surface miners is fed through the receiving devices to the conveyors of the loading consoles of the spreader. The process of combining the conveyors of the boom surface miners with the receiving devices of the loading consoles and positioning of the spreader relative the boom surface miners is provided by the automatic control system. The mining operations are carried out with the use of excavating milling machine, the mineral resources are fed by the loader to the hopper of the mobile reloading unit with a conveyor and then to the mobile-sorting unit.

EFFECT: increase of the productivity of mining operations in the development of deep deposits of mineral resources composed of dense and semi-hard rocks.

2 dwg

Up!