RU2343004C1 - Geo-technological complex with hydrodynamic and laser initiation - Google Patents

Abstract

FIELD: motors and pumps; mining engineering.

SUBSTANCE: geo-technological complex with hydrodynamic and laser initiation includes hydro washing-out module for bottom hole, rocks fraction separation system, force-feed hydro transportation system, processing complex with dumping system. The complex is provided with electro-thermal release module for structural links in large extra-heavy rocks fractions. The electro-thermal module releases the above structural links by the laser initiation plant and module for hydrodynamic crashing of middle-size and small-size fractions. The structural links are released by the laser initiation plant, which is movable in vertical direction due to swing drive and movable in horizontal direction due to displacement drive along the gantry. Module for hydrodynamic crashing of middle-size and small-size fractions is installed on the gantry so that it can displace along the above gantry. It is provided with periodic pressurised water supply system and flat rotary reflecting elements. The pressurised water supply system nozzles are installed rigidly and at an angle to the vertical plane regarding each other. The nozzles are shifted in the horizontal plane. The flat rotary reflecting elements are linked in pairs with the displacement system and installed between the pressurised water supply system nozzles so that they can turn around axis in the vertical direction.

EFFECT: increased effectiveness of sandy and clay rocks state and properties change.

6 dwg

Description

The invention relates to the extraction of valuable minerals from high-strength sand and clay rocks in the open development of gold-bearing placer deposits.

A known method of directionally changing the properties of rocks by means of laser radiation and a geotechnological complex with laser initiation, comprising a laser radiation source and a gas supply system, laser radiation source modules with a controlled generation spectrum are arranged to move in vertical and horizontal planes independently of each other, the laser radiation source is equipped with a system for scanning the physical and mechanical parameters of the rocks, and the gas supply system is installed with possibility of double exposure for separating rocks and minerals in density and provided with guide means to guide the heavy fraction and light fraction [1].

This complex is applicable for the destruction of rocks with low surface wettability by water and cannot be used in the development of alluvial deposits in combination with hydraulic washing.

The closest in technical essence are geotechnological complexes with multi-stage disintegration, including a module for hydraulic washing of the face, a system of fractional separation of rock by size, a pressure hydrotransport system, a dumping system and a processing complex [2, 3].

These geotechnological complexes do not allow to effectively change the structural-mechanical state (geometric, morphometric and energy parameters of the system), strength, elastic-rheological, thermophysical and physico-chemical properties of sandy-clay rocks.

The technical result is the intensification of the process of directional changes in the state and properties of sandy clay rocks through the integrated use of hydrodynamic and laser initiation with the formation of the required directional distribution of periodic energy thermoelectric and hydrodynamic effects.

The technical result is achieved by the fact that the geotechnological complex with hydrodynamic and laser initiation, including a module for hydraulic washing of the face, a system of fractional separation of rock by size, a pressure hydrotransport system, a processing complex with a dumping system, is equipped with an module for electrothermal weakening of structural bonds in large fractions of rocks of increased strength by movable in the vertical plane, using the rotation drive, and in the horizontal plane, using a drive drive along the overpass, a laser initiation unit and a hydrodynamic extension module for medium-sized fractions and small fractions, the hydrodynamic additional destruction module for medium-sized fractions and small fractions installed on the overpass with the possibility of moving along the overpass is equipped with a system of periodic pressurized water supply and flat rotary reflective elements, while the nozzles of the periodic pressure water supply system are mounted rigidly at an angle in the vertical plane relative to each other and with displacement in the horizontal plane, and flat rotary reflective elements are connected in pairs with the system of their movement and are installed between the nozzles of the system of periodic water supply under pressure with the possibility of rotation on the axis in the vertical plane.

The complex is supplied with an electrothermal attenuation module for structural bonds in large fractions of high-strength rocks by means of a movable laser initiation unit installed on the overpass and a module for hydrodynamic additional destruction of medium-sized fractions and small fractions with a system of periodic pressurized water supply and flat rotary reflective elements creates the effect of intensification of the directional process changes in the state and properties of sandy clay rocks of increased strength, allowing reduce the loss of fine fractions of valuable components.

The proposed geotechnological complex with hydrodynamic and laser initiation is shown in the drawings.

Figure 1 shows a General view of the complex on the industrial area of the landfill; in Fig.2 is a view A in Fig.1, shows a movable installation of laser initiation mounted on a flyover; figure 3 is a view of B in figure 2; figure 4 is a view In figure 1; figure 5 - section GG in figure 4; figure 6 is a geotechnological diagram of directional changes in the state of sand and clay rocks in water.

The geotechnological complex with hydrodynamic and laser initiation contains a face slurry module 1, a rock fractional separation system 2, a pressure hydrotransport system 3, a processing complex with a dump formation system 4. The electrothermal weakening structure link 5 in large fractions of high-strength rocks contains a mobile vertical plane 6, using the rotation drive 7, and in the horizontal plane 8, using the displacement drive 9 along the overpass 10, laser initiation 11. The module for hydrodynamic destruction of 12 medium-sized and small fractions is equipped with a periodic water supply system under pressure 13 and flat rotary reflective elements 14. Nozzles 15, 16 of the periodic water supply system under pressure 13 are mounted rigidly at an angle 17 in the vertical plane 18 with respect to each other and with an offset 19 in the horizontal plane 20. Flat rotary reflective elements 14 are connected in pairs 21 with the system of their movement 22 and are installed between the nozzles 15 s Stem periodic supply of water under pressure 13 rotatably mounted on an axis 23 in a vertical plane 24.

The bottom of the pit 25 is made with a slope towards the pit 26 of the hydrodynamic extension module 12. And the bottom 27 of the pit 26 is made with a slope 28 to the side of the pressure hydrotransport system 3. The module of the hydrodynamic additional destruction 12 is installed on the overpass 29 on the supports 30 with the possibility of moving along the overpass 29 using drive 31. The system of fractional separation of rock by size 2 is equipped with a hydromonitor unit 32.

Geotechnological complex with hydrodynamic and laser initiation works as follows.

After the formation of pits 25, 26 for large, medium and small fractions in the industrial landfill zone and the connection between them, as well as the formation of the slopes of the bottom of the pit 25 towards the pit 26, and the bottom 27 of the pit 26 towards the pressure hydraulic transport system 3 is carried out production working cycle. The rock 1 destroyed by a hydraulic jet in the mud slaughter module 1 by means of pressureless transport, by gravity or by means of additional means falls into the zone of action of the fractional separation of rock by size 2. Using a hydraulic monitor 32, the rock is subjected to preliminary softening and moving large pieces into the foundation pit 25 of the electrothermal module weakening of structural bonds 5, and pieces of rock of medium size and less - in the pit 26 of the module of hydrodynamic additional destruction 12. In mode Along with the electrothermal weakening of structural bonds 5 by means of a laser initiation unit 11, movable in the vertical plane 6, by means of a rotation drive 7, and in the horizontal plane 8, by means of a movement drive 9 along the overpass 10, a pulsed, high radiating power effect on the rock is carried out, containing inclusions of minerals with oxide films that increase the absorption capacity of incident energy from 50 to 80%. The high-speed pulsed heating regime of rock moving under the action of water enhances the effect of electrothermal weakening of high-strength structural bonds, leads to volumetric deformation and partial destruction.

The rock moving from the pit 25 to the pit 26 of the hydrodynamic extension module 12 is subjected to sequential activation using a periodic water supply system under pressure 13 and flat rotary reflective elements 14. The hydrodynamic extension module 12 is installed on the overpass 29 on the supports 30 with the possibility of moving along the overpass 29 using drive 31. Through installed rigidly at an angle 17 in a vertical plane 18 with respect to each other and with an offset 19 in the horizontal plane 20 of the nozzle 15, 16, the water flows tsya in pulsed mode with a varying pressure - the maximum and reduced in size by half. Associated in pairs 21 with the moving system 22 and installed between the nozzles 15 of the system of periodic water supply under pressure 13 with the possibility of rotation on the axis 23 in the vertical plane 24, the flat rotary reflective elements 14 are rotated periodically to reflect the pulp flow and create cramped deformation conditions and enhance the effect of the wedging effect static and dynamic pressure of the liquid phase. Irreversible surface deformation and additional destruction of the rock is carried out.

On the bottom 27 of the pit 26, made with a slope of 28 towards the pressure hydrotransport system 3, the crushed rock enters the processing units of the processing complex with the dumping system 4, bypassing the disintegration equipment.

The complex provides an effective directed change in the state and properties of high-strength sandy-clayey rocks to increase the extraction of fine fractions of valuable minerals by combining accelerating the destruction of electrothermal and hydrodynamic activation.

Information sources

1. Pat. 2283956 Russian Federation, IPC ⁷ Е21С 37/00. The method of directional changes in rock properties through laser radiation and a geotechnological complex with laser initiation / Khrunina NP, Mamaev Yu.A. Applicant and patent IGD FEB RAS, declared. 05/30/2005; publ. 09/20/2006. Bull. No. 26.

2. Pat. 2209678 Russian Federation, IPC ⁷ В03В 5/00, Е21С 41/26. Geotechnological complex with multi-stage disintegration / Khrunina N.P., Mamaev Yu.A. et al. Applicant and patent. IGD FEB RAS, declared. 02/08/2002; publ. 08/10/2003. Bull. Number 22.

3. Pat. 2206403 Russian Federation, IPC ⁷ В03В 5/00, Е21С 41/26. Geotechnological complex with multi-stage disintegration / Khrunina N.P. Applicant and patent IGD FEB RAS, declared. 02/08/2002; publ. 06/20/2003. Bull. Number 17.

Claims (1)

A geotechnological complex with hydrodynamic and laser initiation, including a bottom face hydraulic wash module, a rock fractional separation system by size, a pressure hydrotransport system, a processing complex with a dump formation system, characterized in that it is equipped with an electrothermal weakening module for structural bonds in large fractions of high-strength rocks by moving vertical plane using the rotation drive and in the horizontal plane using the AC drive along the flyover of the laser initiation unit and the hydrodynamic extension module of medium-sized fractions and small fractions, while the hydrodynamic additional destruction module of the medium-sized fractions and small fractions installed on the flyover with the possibility of moving along the overpass is equipped with a system of periodic pressurized water supply and flat rotary reflective elements, the nozzles of the periodic pressure water supply system are mounted rigidly at an angle in the vertical plane in relation to th to one another and offset in a horizontal plane, and the flat rotary reflecting elements are connected in pairs with the system of displacement and nozzles mounted between periodic water supply system pressure is rotatably journalled in the vertical plane.

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