RU187582U1 - Double trapezoidal linear sluice for enriching sand in placer deposits - Google Patents

Abstract

The utility model relates to the field of gravitational enrichment of minerals, in particular to gateway devices for separating materials in water by density, and can be used to enrich the sands of placer deposits of noble metals (gold, platinum, silver, etc.).

The technical task of the utility model is to increase the productivity of the proposed device and improve the quality of extraction of the useful component.

The double linear lock of the trapezoidal section for enriching the sands of placer deposits contains two parallel-mounted troughs of the trapezoidal cross-section, with sides inclined to the horizontal, on the bottom of which there are riffles, the troughs being connected with their upper ends to the pulp source through a flow splitter equipped with a movable partition wall made with the ability to change the flow direction of the pulp. A feature of this utility model is that the corrugations are made in the form of partitions, the lateral parts of which are welded to the inclined sides of the trough, and the central parts are removable, attached for the period of operation to the side corrugations.

Description

The utility model relates to the field of gravitational enrichment of minerals, in particular to gateway devices, for separating materials in water by density, and can be used to enrich the sands of placer deposits of noble metals (gold, platinum, silver, etc.).

Known enrichment gateway [Patent RU No. 2083701, IPC V03B 5/70, publ. 1977], consisting of a gutter with parallel sides and a smooth bottom, on the bottom of which are placed mats, on top of which there are stencils, characterized in that the stencils are made of round material, to which stops are welded, joined along the entire length by connecting plates that do not touch each other with rugs and round material, and are located in the middle and rear parts of the airlock in such a way that they form gaps between them parallel to the sides of the airlock.

The disadvantage of this lock is the complexity of manufacturing and operation, the need for periodic shutdown of the flushing device for removing concentrate from the lock.

Known gateway flushing device [Patent RU No. 2203141, IPC B03B 5/02, B03B 5/70, publ. 06/21/2001] for the enrichment of sands of placer deposits, consisting of an inclined bottom with vertical sides, open from the bottom, trapping elements in the form of solid sills, mounted on the bottom, drive vibrations and irrigation. The bottom with the sides is installed with the possibility of changing the angle of inclination up to negative when its back is higher than the front. Solid sills are installed only at the rear of the bottom. The remaining sills are made intermittent, consisting of alternating walls and gaps between them, and the walls of adjacent sills are placed in a checkerboard pattern. In front of the lower solid sills, grooves were made with unloading holes, under which cassettes with tubes were placed with the possibility of longitudinal movements of the cassettes with inner diameters not less than the diameters of the holes, and the center-to-center distances between the tubes are equal to the center-to-center distances of the holes.

The disadvantage of this lock is the high complexity of manufacturing and operation, the difficulty of maintaining a given operating mode, the need for periodic shutdown of the flushing device for removing concentrate from the lock.

Known gateway [Verkhoturov M.V. Gravity enrichment methods. M: MAX Press, 2006 p. 204], consisting of a trough (gutter) of rectangular cross section with vertical walls, on the bottom of which stencils (mats) are laid, which keep the settled solid particles from demolition.

The disadvantage of this lock is the inability to retain small particles of the useful component, the need for periodic shutdown of the flushing device to remove the concentrate from the lock.

For all its simplicity, reliability, and low cost of operation, the locks of modern flushing devices have common drawbacks: deterioration of the collecting capacity over time (due to bed filling), a relatively labor-intensive method of removing concentrate from the lock, and the associated downtime of the industrial device, and a sufficiently large volume of concentrate for each shot .

All existing types of locks using the gravitational principle of separating concentrate from the pulp stream have the same drawback: a decrease in the catching ability of the lock in time. So, after 10 ÷ 12 hours of operation of the gateway (from the moment of commissioning), the catching ability decreases by 10 ÷ 20%. Typically, concentrate removal is carried out once a day after 22 hours of operation (2 hours are spent on the removal process). By this time (i.e., by the time the industrial device stops to take the concentrate), the catching ability of the gateway is reduced by 50 ÷ 80% (due to siltation of the corrugations (stencils)). Ultimately, this leads to the loss of precious metal (in the form of demolition of small fractions) on average up to 40 ÷ 50% of the volume of precious metal removed from the lock. And the smaller the particles of precious metal of a particular deposit, the greater the amount of loss during washing. To increase the frequency of concentrate removal means to increase the idle time of the industrial device for the period of concentrate removal. So a simple industrial instrument for the period of removal for a season is 220-250 hours, which is equivalent to a loss of 10-12 days or 10% of the duration of the washing season. Naturally, doubling the pickup frequency will result in a loss of 20% of the time, etc. Given the limited duration of the washing season (and in the Russian Federation the vast majority of alluvial deposits of precious metals are in the northern hemisphere, where the washing season does not exceed 120 days), such a loss of time (consider the loss of productivity of the industrial device) is unacceptable.

The cross-section of the flushing device locks in domestic and foreign practice has one shape: a rectangle with the dimensions of the sides corresponding to the design capacity and the characteristics of the screen-disintegrator. So for industrial equipment GGM-3 they are equal: length 10m, width 1.46m, height 0.4m. Deposition of metal from the pulp stream as well as undesirable deposition of waste rock is carried out on entire gateway collecting surface having an area in this case 14,6m ^2. From the first hour of the gateway’s operation, flushing components are deposited, i.e. and minerals and waste throughout the deposition area. This leads to the fact that with the accepted practice of removing concentrate from the lock 1 time per day (i.e., after about 22 hours of operation of the lock), a layer of concentrate with a volume of up to 0.5 ÷ 0.6 m ³ in loose mass is deposited on its trapping surface , i.e. up to 500 ÷ 600kg. Therefore, in practice, when removing the concentrate, manual (more correctly, “foot”) rock sampling is performed, which delays the removal process, which attracts workers of other professions. With this method of sampling, part of the precious metal (up to 5% of mainly fine fractions) is dumped.

In addition, the riffles (stencils) of the existing locks, laid on the bottom of the lock and removed when removing the concentrate, have a mass of up to 50 ÷ 60 kg per section 1.2 m long and are dismantled manually. Which also lengthens the process of removal of the concentrate, which means it increases the complexity of the work and a simple industrial device.

The technical task of the utility model is to increase the productivity of the proposed device and improve the quality of extraction of the useful component.

The technical problem is solved due to the fact that the double linear sluice of the trapezoidal section for enriching the sands of placer deposits contains two parallel-mounted troughs of the trapezoidal cross-section, with sides inclined to the horizontal, riffles are installed on the bottom, and the troughs are connected with the upper ends to the pulp source through the flow splitter equipped with a movable partition door, configured to change the direction of flow of the pulp. A feature of this utility model is that the corrugations are made in the form of partitions, the lateral parts of which are welded to the inclined sides of the trough, and the central parts are removable, attached for the period of operation to the side corrugations.

In FIG. 1 shows a cross section of one trough.

In FIG. 2 shows the flutes of the gateway.

In FIG. 3 shows a flow splitter in two active modes.

In FIG. 4 shows a cross section of a double linear sluice of a trapezoidal section for the enrichment of sands of placer deposits.

The double linear lock of the trapezoidal section for enriching the sands of placer deposits contains two parallel-mounted troughs of 6 trapezoidal cross-sections, with sides inclined to the horizontal (not indicated in the figure), on the bottom of which there are riffles, and trough 6 is connected by the upper ends to the pulp source through the bifurcation stream 5, equipped with a movable door-partition (in Fig. not indicated), configured to change the direction of flow of the pulp. A feature of this utility model is that the riffles are made in the form of partitions, the lateral parts of which are welded to the inclined sides of the trough 6, and the central parts are removable, attached for the period of operation to the lateral riffles 2.

The flutes of the proposed gateway are made in two types: side flutes 2 are welded to the inclined sides of the gateway, and the central flutes 1 are removable and have only one central connecting bar-3, which reduces their weight by about 3 ÷ 4 times. Removable flutes are kept from slipping due to connection with side flutes using pins threaded through holes 4.

When the total deposition surface of the solid pulp components is approximately equal to the deposition area of the GGM-3 industrial appliance lock adopted as an analog, the concentrate directly accumulates on the bottom of the proposed lock design, 2.8 times less than the width of the analog lock. Consequently, the volume of concentrate during removal will also be 2.8 times less (without deterioration of the quality of the concentrate), as well as the cost of labor and time for its removal.

The double linear lock of the trapezoidal section for the enrichment of sands of placer deposits includes two parallel troughs of 6 trapezoidal sections in such a way that they are included in the work processes in turn: one lock in the enrichment of the source material, the second in the removal of the concentrate. This allows you not to stop the washing device for the period of removal of the concentrate and, thus, to eliminate the loss of time in the operation of the industrial device and thereby increase its productivity by at least 10%. In addition, the presence of two parallel troughs 6 allows the concentrate to be removed from the airlock, not after 22 hours, as is the case in existing structures, but after 12 hours or after 10, 8, etc. hours, as this will be dictated by the characteristics of the sands or other organizational and technical factors. It is important that a reduced minimum period of removal of the concentrate will provide the smallest demolition of the useful component from the gateway due to filling the bed.

To ensure the frequency of inclusion in the operation of one or the other trough in the upper part (from the incoming pulp stream), a flow splitter 5 is installed, equipped with a movable partition door.

Consider the work of a double linear gateway of a trapezoidal section.

The source material to be enriched, coming from any screen-disintegrator of the washing device as part of the pulp, is fed to the input of the flow splitter 5. The flow splitter 5 of the pulp and both gateway troughs 6 are connected together using flange connections that allow them to be separated during transportation .

The pulp from the bifurcation 5 using the partition door is sent to one of the troughs 6 of the airlock, where the source material is enriched for a certain (set) time period (from 6 hours to 12 hours). After the specified time, the door of the baffle 5 is transferred (manually or mechanically) to the second working position (which takes from 2 to 3 seconds) without stopping the industrial device, after which the pulp with the enriched material enters the second trough 6 of the lock. And from the first trough 6, the concentrate is removed. After a certain period of time (from 6 hours to 12 hours), the pulp stream is switched back to the first trough 6 using the already mentioned partition wall, and concentrate is removed from the second trough 6. And so on until the field is fully developed.

Claims (2)

1. A double linear trapezoidal lock for enriching the sands of placer deposits, containing two parallel-mounted troughs of a trapezoidal cross-section, with sides inclined to the horizontal, riffles are installed on the bottom, and the troughs are connected with the upper ends to the pulp source through a flow splitter equipped with a movable door - a partition made with the possibility of changing the direction of flow of the pulp. 2. A double linear lock of a trapezoidal section for enriching the sands of placer deposits according to claim 1, characterized in that the corrugations are made in the form of partitions, the side parts of which are welded to the inclined sides of the trough, and the central parts are removable, attached to the side flutes for the period of operation.

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