RU2325531C1 - Geotechnological complex for gold dredging and placer mining - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: said complex is provided with a supported trestle and an ultrasonic and mechanical tumbling module. Rotatable ultrasonic radiation module is connected to movable carriage rim by means of a hub and sliding supports. The movable carriage is provided with a drive for moving it along the trestle cross beam and a drive for turning the ultrasonic radiation module around the movable carriage yoke axis. The rotatable ultrasonic radiation module has drives for moving the ultrasonic sources in the vertical plane, a dual drive for moving the ultrasonic sources in horizontal plane, sensors to determine the rock physical and mechanical state, and communication links with functional module of disintegration process automatic control system.

EFFECT: improved efficiency of mining due to intensification of disintegration of rock with complex physical and mechanical properties during dredging and placer mining.

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Description

The invention relates to mining and is intended for the open development of alluvial deposits.

There is a method of developing placers with a stationary tower excavator, the machine tower of which was installed on the foundation and strengthened by extensions. The bucket for feeding the rock for processing was moved with a double-drum winch / 1 /.

This method does not provide effective preparation of rocks of increased strength and clay content for processing and cannot be used at sites with complex physical and mechanical characteristics.

Known methods for open mining of minerals using pelleting equipment / 2 /.

These methods are not suitable for large boulders, strong cementation of the rock and for highly plastic clays.

A known hydraulic method of developing placers, including the preliminary preparation of the rutted ditch, mechanical destruction and hydraulic erosion of the rock in the face, forcing and directing the rock into the rutted ditch, pressure-free transportation of the rock with its free soaking during transportation / 3 /.

This method is not effective in the development of cemented rock or rocks with increased ductility.

The closest in technical essence are geotechnological complexes with multi-stage disintegration, including a preliminary mechanical or hydraulic loosening module, a disintegration module with an ultrasonic radiation system, installed below a non-pressure hydrotransport system for washed rock, a transportation system, a dump formation system, a processing complex / 4, 5, 6 / .

These complexes have increased labor intensity during operation and are less effective in the processing of rocks with a high content of limestone and sandstone.

The technical result is an increase in the efficiency of mining by intensifying the process of destruction of rocks with complex physical and mechanical properties in the development of placers.

The technical result is achieved by the fact that in the geotechnological complex for the development of gold-bearing placers, including a module for preliminary mechanical destruction and hydraulic washing of the rock in the face with guiding shields, a module for disintegration with an ultrasonic radiation system located below the level of the dredged ditch for rock hydrotransport, a processing complex with hydrotransport systems and waste rock dumping system, disintegration module equipped with a rotary ultrasound module radiation associated with the hub and sliding supports with the rim of the movable carriage, and the movable carriage is equipped with a drive for moving it along the crossbar cross member and a drive for rotating the ultrasonic radiation module about the axis of the fork of the moving carriage, while the rotary ultrasonic radiation module is equipped with actuators for moving the system of ultrasonic emitters in the vertical a plane, a two-way drive moving the system of ultrasonic emitters in a horizontal plane, fixation sensors physical equilibrium is rock and a communication link with the function block automatic process control system of disintegration.

The possibility of forming the required sequence of actions by the proposed means allows us to solve the problem, determines the novelty, industrial applicability and inventive step of development.

The geotechnological complex for the development of gold-bearing placers is shown in the drawings.

Figure 1 - General view of the geotechnological complex; figure 2 is a section aa in figure 1.

The geotechnological complex for the development of gold-bearing placers contains module 1 of preliminary mechanical destruction and hydraulic erosion of the rock in the face 2 with guiding shields 3, a disintegration module 4 with an ultrasonic radiation system 5, located below the level of the groove 6 for hydrotransporting the rock, a processing complex 7 with hydrotransport systems 8 and 9 waste rock dumping system. The disintegration module 4 is equipped with a rotary ultrasonic radiation module 10, which is connected by a hub 11 and sliding bearings 12 to the rim 13 of the movable carriage 14. The movable carriage 14 is provided with a drive 15 for moving it along the cross member 16 of the flyover 17 and a drive 18 for rotating the ultrasonic radiation module 10 around axis 19 forks 20 of the movable carriage 14. The rotary module of ultrasonic radiation 10 is equipped with actuators 21, 22 for moving the system of ultrasonic emitters 23 in a vertical plane 24, with a two-way drive 25 for moving the system s sonotrodes 23 in the horizontal plane 26. The rotary ultrasonic radiation module 10 has a tight connection 27 to the guide 28 to move the system sonotrodes 23 vertical rod 24. In the system 29 of ultrasonic oscillators 23 mounted sensors 30 fixing physical-mechanical state of the rock. The rotary module of ultrasonic radiation 10 and sensors 30 for detecting the physical and mechanical state of the gold-bearing rock are connected by communication 31 to the functional unit 32 of the automatic control system for the process of disintegration 33. The system of ultrasonic emitters 23 is equipped with transducers 34, emitters 35 and is connected to an ultrasonic radiation generator 36.

The geotechnological complex for the development of gold-bearing placers works as follows.

Carry out preliminary preparation of the dredged ditch 6 for hydrotransportation of the rock and the foundation pit for the disintegration module 4. The pit of the disintegration module 4 is located below the level of the dredged ditch 6 for hydrotransport of the rock. Preliminary mechanical destruction and hydraulic erosion of the rock in the face 2 of module 1 are carried out, the rock is forced out and directed into the grooved ditch 5 using guide shields 3 and other mechanisms. On threaded ditch 5, pressure-free hydrotransportation of the rock is carried out. With the receipt of the rock in the foundation pit of the disintegration module 4 and filling it to a certain level, the physical and mechanical state of the rock in the water is examined and fixed using sensors 30 mounted on the rod 29 and connected via communication link 31 to the functional block 32 of the automatic control system for the process of disintegration 33. Functional unit 32 registers the source data and calculates the movement parameters of the movable carriage 14 and the rotary module of ultrasonic radiation 10. Includes Xia actuator 15 for moving the movable carriage 14 along the cross member 16, the trestle 17 to the initial position. The drive 18 rotates the ultrasonic radiation module 10, which is connected through the hub 11 and the sliding bearings 12 to the rim 13, around the axis 19 of the fork 20 of the movable carriage 14 for more accurate fixation of the system of ultrasonic emitters 23 over the initial zone for processing sand-clay gold-bearing rocks in water. A signal is sent to the actuators 21, 22 for moving the ultrasonic emitters 23 in the vertical plane 24 to orient the emitters 35 to a certain immersion depth in the “sand-clay gold-bearing rock in water” system. Through rigid connections 27 with the guides 28, the rotary module of ultrasonic radiation 10 is moved in a vertical plane 24 and is fixed in a predetermined position. An automatic control system for the process of disintegration 33 sends a signal to the generator 36 to control the power, amplitude of sound pressure or intensity of ultrasonic radiation. Through the transducers 34 and the direct action of the emitters 35 on the “sand-clay gold-bearing rock in water” system, the rock is destroyed and disintegrated in the initial processing zone of the disintegration module 4. For a more intense impact on the rock, a two-sided drive 25 for moving ultrasonic emitters 23 in the horizontal plane 26 The simultaneous effects of radiation and mechanical mixing. The intensity of the process of destruction of the rock increases. The drive 25 is also used for more accurate and economical orientation of the emitters without moving the movable carriage 14. After completion of the rock treatment in the source zone by means of an automatic control system for the process of disintegration 33, a command is issued to go over and process the next zone of the disintegration module 4, the processing cycle is repeated. Disintegrated pulp is accumulated from the side of the hydrotransport system 8 and fed to the processing complex 7 with the waste rock dump system 9.

The geotechnological complex for the development of gold-bearing placers increases the efficiency of mining by intensifying the destruction process and preparing the rock for further processing.

Information sources

1. Shorokhov S.M. Technology and comprehensive mechanization of placer mining. Ed. 2nd rev. and add. M .: Nedra, 1973, p. 258, fig. 80.

2. Handbook for the development of placers. Under the general editorship of V.P. Berezina, V.G. Leshkova, L.P. Matsueva, S.V. Potemkina. M .: Nedra, 1973, p. 177, Fig. 39.

3. Handbook for the development of placers. Under the general editorship of V.P. Berezina, V.G. Leshkova, L.P. Matsueva, S.V. Potemkina. M .: Nedra, 1973, p. 347, Fig. 94.

4. Khrunina N.P., Mamaev Yu.A. and others. Geotechnological complex with multi-stage disintegration: Patent RU 2209678, IPC V03V 5/00, E21C 41/26, 08/10/03, Bull. No. 22 (prototype).

5. Khrunina NP, Mamaev Yu.A. and others. Geotechnological complex with multi-stage disintegration: Patent RU 2209974, IPC E21C 41/30, V03V 5/00, 08/10/03, Bull. No. 22 (prototype).

6. Khrunina N.P. Geotechnological complex with multi-stage disintegration: Patent RU 2206403, IPC V03V 5/00, Е21С 41/26, 06.20.03, Bull. No. 27 (prototype).

Claims (1)

A geotechnological complex for the development of gold-bearing placers, including a module for preliminary mechanical destruction and hydraulic erosion of the rock in the face with guiding shields, a disintegration module with an ultrasonic radiation system located below the level of the dredged ditch for hydrotransporting the rock, a processing complex with hydrotransport systems and a waste rock dumping system, characterized in that the disintegration module is equipped with a rotary ultrasonic radiation module connected by means of a hub and sliding supports with a rim of the movable carriage, and the movable carriage is equipped with a drive for moving it along the crossbar cross member and a drive for rotating the ultrasonic radiation module about the axis of the fork of the moving carriage, while the rotary ultrasound module is equipped with drives for moving the system of ultrasonic emitters in a vertical plane, a two-way drive displacement of the system of ultrasonic emitters in the horizontal plane, sensors for fixing the physical and mechanical state of the rocks s and communication with the functional unit of the automatic control system of the disintegration process.

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