RU2784075C1 - Mobile gold mining complex - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: invention relates to the mining industry, in particular to devices for the extraction and enrichment of alluvial gold. Mobile gold mining complex contains mounted on two caterpillar carts and pivotally connected mechanism for supplying sands and their disintegration in the form of an excavator installation installed on the first caterpillar cart, and a mechanism for screening and jigging the heavy fraction, its accumulation for subsequent extraction for the purpose of finishing, made in the form of a scrubber -butary, connected to the dump conveyor and installed on the frame of the second caterpillar bogie, made with the possibility of adjusting the lifting angle of the scrubber-butary by means of hydraulic cylinders. The excavator installation contains a body, a receiving table located in the lower front part of the body, a working body for supplying sands mounted on the body above the receiving table and made of a rotary type, with a rotation angle of 180°, for capturing and moving sands to the one installed on the said body with the possibility lifting by means of a lifting hydraulic cylinder to a chevron belt conveyor for further supply of sands to the receiving hopper of the scrubber-butary, a cabin for accommodating two operators and one technical worker, in which the monitoring and control system of the mentioned mechanisms is located, and a diesel oil station. On the frame of the second caterpillar truck, a vibrating sieve with a receiver for separation into two fractions is installed on inflatable wheels. In the tail part of the scrubber-butares, flat square-shaped perforated sieves with cut holes in the shape of a trapezoid and located at an angle of 45° relative to the horizontal axis of the scrubber-butares are installed in series in two rows. The receiving table, the receiving hopper and the vibrating sieve, having main heat exchange cavities, are made with the possibility of heating from a diesel oil station using a double-circuit heat exchange system.

EFFECT: reduction of useful product losses during placer gold mining.

6 cl, 3 dwg

Description

The invention relates to the mining industry, in particular to devices for the extraction and enrichment of alluvial gold (for example, a mechanized gold mining complex (MZK-100)) with an average throughput of 100 m ³ per hour for lightly washing and medium washing sands and can be performed in several versions depending on from operating conditions and volumes of extraction and processing of sands and can vary from 50 -100 m ³ and more.

MZK-100 can be executed in several versions depending on the conditions and production volumes. A smaller class, for mining in geologically constrained conditions and hard-to-reach places in streams and small rivers, as well as for collecting unfinished sides. Higher class, for mining wide floodplain deposits.

The closest analogue of the claimed invention can be adopted a tunneling complex containing an excavator installation, a drum disintegrator and a sluice mounted on the same base, characterized in that the complex is installed on a self-propelled chassis and is equipped with a frame connected to a drum disintegrator, a sluice and a self-propelled chassis body with the possibility regulation of the angle of inclination of the enrichment equipment by means of power hydraulic cylinders (RU 2132463 C1, E21C 41/30, 06/27/1999).

The main disadvantage of this technical solution is that the complex has limited functionality, since it does not contain a number of equipment that allows for a full cycle of the production process in the extraction of alluvial gold.

The main objective of the invention is to create a highly mobile gold mining complex, which allows to reduce operating costs, as well as expand functionality through its use in loading, supplying, washing, separating rock mass into fractions, accumulating useful substances and dumping ephel and rock mass for work site limits.

During the operation of the MZK-100, there is a process of trapping and accumulation of heavy particles of metals, different in size and specific gravity, in addition, the settings allow you to capture and isolate a wide range of minerals, namely; chromites, galena, native gold, platinoids, and many other useful components of natural origin. The setting is carried out by selecting the sieves of the sowing column of the scrubber-butare (for specific data of the sieve analysis, the landfill being worked out), the sieves of the sowing column of the accumulator bin, selecting the angle of inclination of the scrubber-butare, supplying the water flow during irrigation and washing, as well as selecting the purity of the rotation of the vibrator.

The technical result of the claimed invention is to reduce the loss of a useful product during the extraction of alluvial gold.

The technical result is achieved by the fact that a mobile gold mining complex, characterized in that it contains a mechanism for supplying sands and their disintegration installed on two caterpillar carts and pivotally connected in the form of an excavator installation installed on the first caterpillar cart, and a mechanism for screening and jigging a heavy fraction, its accumulation for subsequent extraction for the purpose of finishing, made in the form of a scrubber butary connected to a dump conveyor and an installed frame of the second caterpillar truck, made with the possibility of adjusting the lifting angle of the scrubber butary by means of hydraulic cylinders, while the excavator installation contains a housing, a receiving table located in the lower front part of the body, the working body for supplying sand, mounted on the body above the receiving table and made of a rotary type, with an angle of rotation of 180 °, for capturing and moving sand to the body installed on the said body with the possibility of lifting by means of a lifting hydraulic cylinder and a chevron belt conveyor for further supply of sands to the receiving hopper of the scrubber-butter, a cabin for accommodating two operators and one technical worker, in which the monitoring and control system of the mentioned mechanisms is located, and a diesel oil station, moreover, a vibrating sieve is installed on the frame of the second caterpillar truck on inflatable wheels with a receiver for separating into two fractions, while in the tail section of the scrubber-butars, flat square-shaped perforated sieves are installed in series in two rows, with cut holes shaped like a trapezoid and located at an angle of 45 degrees relative to the horizontal axis of the scrubber-butars, and having main heat-exchange cavities - the receiving table, the receiving hopper and the vibrating screen are made with the possibility of heating from a diesel oil station through a two-circuit heat exchange system.

In addition, the lifting angle of the scrubber-butary is from -5 to 15°.

In addition, the working body for supplying sands of the excavator installation is made in the form of an excavator handle or a milling head.

In addition, perforated sieves are made of low-pressure plastic (HDPE), and the working surfaces of the receiving table, receiving hopper, and the inner surface of the scrubber-butary are reinforced with low-pressure plastic (HDPE).

The technical solution is based on the complex integration of units and mechanisms into a single full-cycle production system with the maintenance of the production process under adverse geological, technical and weather conditions, as well as in order to save energy costs for the production process and reduce the loss of a useful product. The complex independently performs the work of loading, feeding, washing, separating the rock mass into fractions, accumulating useful substances and discharging eiffel and rock mass outside the working site. Thus, it releases several units of heavy tractor-excavator equipment, transferring it to the category of auxiliary equipment, which reduces the cost of the production process. The complex was designed according to a block-modular collapsible system with reference to the loading parameters of highly passable trucks (URAL, KAMAZ) for the purpose of delivery to hard-to-reach places and the use of lifting mechanisms for installation and dismantling with a carrying capacity of up to 10 tons, which gives great advantages in logistics and mobility, can be transported both by land and air transport to the work site.

The invention is illustrated by drawings, where:

In FIG. 1 shows a mobile gold mining complex for the extraction of alluvial gold.

In FIG. 2 is a front view of an excavator unit of a mobile gold mining complex.

In FIG. 3 is a plan view of a mobile gold mining facility for alluvial gold mining.

The versatility and mobility of the complex makes it possible to refuse from the operation of additional heavy equipment and, as a result, to change the technological process of mining landfills, which makes it possible to significantly reduce the consumption of fuel and lubricants and the associated costs for the operation and maintenance of the released machinery and equipment, as well as the full-time personnel employed in the technological process. The economic and technical component makes it possible to use the MZK-100 on sands that are poor in content, as well as operate at low temperatures and extend the seasonality of alluvial gold mining.

In FIG. 1-3 shows a mobile gold mining complex, which contains mounted on two caterpillar trucks (21, 22, 23, 24) and pivotally connected mechanisms. The articulated connection of the mechanisms is carried out by means of the rotation mechanism (8) connecting the support frame (7) of the excavator unit and the frame (14) of the second caterpillar bogie.

One of the connected mechanisms is a mechanism for supplying sands and their disintegration in the form of an excavator installation mounted on the first caterpillar truck (21, 22).

Another of the connected mechanisms is the mechanism of screening and jigging of the heavy fraction, its accumulation for subsequent extraction for the purpose of finishing, made in the form of a scrubber butary (11) connected to a dump conveyor (16).

The scrubber-butara is mounted on the frame (12) of the second caterpillar truck (23, 24), which is made with the possibility of adjusting the lifting angle of the scrubber-butara (11) by means of hydraulic cylinders (10).

The excavator installation contains a body (2), a receiving table (20), a working body (1) for supplying sand, a chevron belt conveyor (3), a cabin for accommodating two operators and one technical worker (17, 18, 19) and a diesel oil station ( four).

The receiving table (20) is located in the lower front part of the body (2). The working body (1) for supplying sands is installed on the housing above the receiving table and is made of a rotary type for capturing and moving sands to the chevron belt conveyor (3) mounted on the said housing with the possibility of lifting by means of a lifting hydraulic cylinder (5) for further supplying sands to the receiving hopper (9) scrubber butars (11). The angle of rotation of the working body (1) for supplying sands is 180°. In the cabin for accommodating two operators and one technical worker (17, 18, 19) there is a control and management system for the mentioned mechanisms.

On the frame (12) of the second caterpillar truck, a vibrating screen (13) with a receiver for separation into two fractions is installed on inflatable wheels.

In the tail section of the scrubber-butars (11), perforated sieves of a flat square shape are installed in series in two rows, and the perforation has the shape of a trapezoid located at an angle of 45°.

Receiving table (20), receiving hopper (9) and vibrating sieve (13) having main heat-exchange cavities are made with the possibility of heating from diesel oil station (4) via double-circuit heat exchange system.

Also, the mobile gold mining complex contains a hydraulic tank (25) and a fuel tank (26) (Fig. 3).

Outriggers (6) are located on the sides of the second tracked bogie, have auxiliary functions and are designed for lifting and leveling the bogie in a horizontal level, as well as for maintenance and repair of the undercarriage.

In addition, the location (27) of the hydraulic tanks is not conceptual, and they can be installed, depending on the execution and configuration, in any accessible place. Their main purpose is the collection and storage of coolant, as well as hydraulic oil.

The work sequence is based on the following example.

The bulldozer removes the upper vegetation cover layer, removes plant residues and moves them along the sides of the landfill, starting from the lower level, prepares the initial site for the zero point (a raft compaction is considered under the zero point), a complex is set up on it, water is supplied to it for irrigation, sand washing and starts moving at a working speed (adjustable by the operator from the operator's cab of the excavator installation, the receiving table (20) is lowered to the zero point, in order to pick up from the frontal collapse and feed by the excavator working body (1), capable of rotating 180 degrees and having a gripper to remove boulders, sands (without allowing heavy fractions to settle) and moving them to the chevron belt conveyor (3) for feeding into the receiving hopper (9) irrigated with water, with the flow of water and under the action of the center of gravity, the sands move to the scrubber-butara (11 ), which has trapezoid rivets in its rounded internal shape for turning the halyard over and skov, as well as breaking clay pieces and better disintegration. In the tail part of the scrubber-butare (11), perforated sieves are installed in two rows in series. The sieves of the sowing row of the scrubber-butare are made of thick low-pressure plastic, have the shape of square plates, with cut holes in the shape of a trapezoid and located at an angle of 45 degrees relative to the horizontal axis of the scrubber-butare. The plates are laid in such a way that the elevation of the cut holes is located towards the middle and forms an angle of 90 degrees. With this arrangement, the effect of self-cleaning from the rock mass stuck between the cells is achieved. When the butara rotates, the process of moving the gravel mixture occurs both in vertical and horizontal planes, the cut windows of the sowing bar, located at an angle of 45 degrees, act as guide chutes for the gravel mixture, moving along them, it knocks out stuck pieces of rock mass, which gives the effect self-cleaning from clay and flagstone rocks, with the first row of sieves installed from below as a feeder, and the second one, vice versa (and forms a herringbone in shape) to improve the unloading of hali.

The scrubber-butara (11) is installed on the frame (12) of the second undercarriage, which has a vertical lifting and lowering stroke by hydraulic cylinders (10) from -5 to 15 degrees to adjust the optimal working angle. Shut-off equipment for connecting and supplying water for irrigation is mounted in the frame on the left and right (it additionally acts as a transmission pipe in order to reduce costs and metal consumption). A vibrating sieve (13) with a receiver is installed on the frame (12) (for separation into 2 fractions and subsequent accumulation in 2 sections in the tail section of useful substances), which is fixed at 4 points, surrounded by a metal bandage with inflatable wheels. The wheels are installed instead of springs, torsion bars or springs, whereby it is possible to achieve a higher amplitude of vibration, remove excessive lateral rolling, due to the pressure difference between the upper and lower pairs of wheels, it is also possible to achieve heterogeneity of the vertical rolling of the plane of the netting stack (which allows for a wide spectral adjustment of the sieves). Rubber wheels have a longer life, low cost, quick replacement. The drive is made in the form of a hydraulic vibrator and is placed in the middle at the bottom of the vibrating screen.

The supply is carried out from a hydraulic motor driven from a diesel oil station (4), from which all components and assemblies of the complex are powered.

In the process of hydrosettling under the influence of vibration, stratification occurs by specific gravity and the penetration of heavy fractions into the lowest points of storage pockets located in 2 levels depending on the dimension, ephel together with magnetite and pegmatite (parasitic when useful substances accumulate in storage pockets) do not have time to be caked and washed into the dump through a plastic hose of different lengths, fed by a separate high-pressure pump according to the ejector principle, forming a waste heap or a ridge aside from mining from ephels according to the instructions for mining landfills and dividing into galley and ephel dumps.

Scrubber-butara (11), the front part is laid on closed-type roller bearings, based on the frame (12), in the rear part it is fixed on the shaft and through the supporting supports it is connected to the gearbox (15) driven by hydraulic motors, allowing you to adjust the speed from the control panel located in the operator's cabin (17) to control the enrichment process.

Gale is discharged onto the dump conveyor (16), driven by a hydraulic motor, by gravity. The conveyor (16) can move 180 degrees and move vertically, forming a galley heap along the entire front, depending on the need. The working surfaces of the receiving table (20), receiving hopper (9), the inner surface of the scrubber-butary (11) are reinforced with HDPE (low pressure plastic) in order to protect against abrasion by abrasive types of rocks during operation and reduce metal consumption. In order to avoid freezing of working surfaces and increase the period of testing of landfills in adverse weather conditions, a 2-circuit heating system was used, powered by a diesel oil station (4). The thermal energy received from the operation of the engine and the oil station, through 2 circuits (oil separately, antifreeze from the engine separately) are fed into 2 heat exchangers connected by one line, transmitting one flow through a pump to the lower part of the receiving table (20), which has water main cavities, as well as to the receiving hopper (9), where the main heat-exchange cavities are located along the outer sides, and to the vibrating screen (13), where the heat-exchange cavities are also located. Antifreeze or antifreeze is used as a heat exchange fluid.

The extended type cabin (17, 18 and 19) is designed for two operators and one technical worker, one operator is busy with the uniform supply of sand to the conveyor, the second one, through a system of video cameras displayed on the monitor, monitors the uniform supply of sand, water, as well as the discharge of ephels , hali and water slurry, registers the boundaries and volumes of the landfill mining through the GPS system with data transmission on request.

This complex does not have a deck for catching useful products, which makes it possible for it to move progressively, maneuver and carry out a uniform supply of sand and water, without overloading the working complaining surfaces.

Example: Capturing and collecting the concentrate of useful material is carried out according to the principle of a jigging machine in the hopper of a vibrating screen (13), which is inclined towards the rear and has 2 storage pockets, one for catching a larger fraction, just below the sieve, the second for a finer one, located in the very bottom point. When sand is supplied to the vibrating sieve (13), separation by size occurs in the aquatic environment and the entire fraction rolls down the inclined towards the rear part, in the process of movement under the influence of vibration, stratification occurs in specific gravity and the heavier ones occupy the lowest point moving into the accumulation pocket and displacing more lungs. If we take into account that magnetite and pegmatite, as well as other minerals, have a specific gravity ranging from 3.5 to 6.5 kg / m ³ , then the specific gravity of gold and platinoids (including impurities) starts from 14 to 26 kg / m ³ . When using decks, there are always problems with trapping useful substances, the correct angle of inclination of the deck, the volume of water supply, the uniformity of sand loading, the correct location and height of the corrugations, as well as the flooding of the trapping mats, which leads to demolition and losses. The vibrating sieve bunker is devoid of these shortcomings, and the catching pockets are able to accumulate several tens of kilograms of useful products without loss, which makes it possible to shoot much less frequently.

Claims (6)

1. A mobile gold mining complex, characterized in that it contains a mechanism for supplying sands and their disintegration installed on two caterpillar carts in the form of an excavator installation installed on the first caterpillar cart, and a mechanism for screening and jigging the heavy fraction, its accumulation for subsequent extraction for the purpose of finishing, made in the form of a scrubber butary connected to the dump conveyor and mounted on the frame of the second caterpillar bogie, made with the possibility of adjusting the lifting angle of the scrubber butary by means of hydraulic cylinders, while the excavator installation contains a housing, a receiving table located in the lower front part body, a working body for supplying sand, mounted on the body above the receiving table and made of a rotary type, with a rotation angle of 180 °, to capture and move sand to the chevron belt conveyor installed on the said body with the possibility of lifting by means of a lifting hydraulic cylinder for further supply of sands to the receiving hopper of the scrubber-butare, a cabin for accommodating two operators and one technical worker, in which the monitoring and control system of the mentioned mechanisms is located, and a diesel oil station, moreover, a vibrating screen with a receiver for separating into two fractions, while in the tail part of the scrubber-butares, flat square-shaped perforated sieves with cut holes, having the shape of a trapezoid and located at an angle of 45 ° relative to the horizontal axis of the scrubber-butares, are installed in series in two rows, and having the hopper and the vibrating screen are made with the possibility of heating from the diesel oil station through a double-circuit heat exchange system. 2. The complex according to claim 1, characterized in that the lifting angle of the scrubber butary is from 5 to 15°. 3. The complex according to claim 1, characterized in that the working body for supplying the sands of the excavator installation is made in the form of an excavator handle. 4. The complex according to claim 1, characterized in that the working body for supplying the sands of the excavator installation is made in the form of a milling head. 5. The complex according to claim 1, characterized in that the perforated sieves are made of low-pressure plastic (HDPE). 6. The complex according to claim 1, characterized in that the working surfaces of the receiving table, the receiving hopper, the inner surface of the scrubber butary are reinforced with low-pressure plastic (HDPE).

Images