RU2843698C1 - Opposite flow disintegrator and flushing material disintegration method - Google Patents

Abstract

FIELD: performing operations.

SUBSTANCE: proposed group of inventions relates to means or methods of flushing and wet separation of lump and granular materials, in particular, to flushing of clay gold-bearing sands. Opposite flow desintegrator consists of in-series connected to each other connecting tray, counter stream tray and receiving tray. Connecting tray is configured to be interfaced with the fine filling sluice. Opposite flow tray features width smaller and depth larger than that of fine filling sluice. Connecting tray is made with smooth constriction from sluice of fine filling to tray of opposite flow and has larger angle of inclination than sluice of fine filling. At the junction of counter flow tray and receiving tray there fixed is retaining threshold made in the form of solid plate overhanging above bottom of counter flow tray and above bottom of receiving tray. Receiving tray width corresponds to the tray of oncoming flow, at its bottom there is drag carpet, and above the drag carpet there is stair mask. One edge of the stair mask is brought under the retaining threshold, and the opposite edge rests against the lower side of the receiving tray. Proposed disintegrator is used to implement the flushing material disintegration method, in which from the fine filling sluice directing the water flow with the flushing material into the connecting tray, after that, fixing the productive concentrate jigging in the opposite flow tray and in the receiving tray.

EFFECT: increasing the degree of disintegration of the flushing material, as well as reducing the loss of raw materials.

2 cl, 3 dwg, 2 tbl

Description

The invention relates to means or methods for washing and wet separation of lump and granular materials, in particular to washing clayey gold-bearing sands [B03B5/00].

The prior art discloses a MINI-DRAG [RU2168635C1, published 10.06.2001], comprising a pontoon, a superstructure, a power plant, a screen, a pebble chute, a shallow and deep filling sluice, the latter being located above the bow of the dredge in front of a grate screen mounted on the superstructure with the ability to oscillate and rigidly connected to the power plant. The screen is equipped with removable grate-type grates, the lower edge of the upper grates being mounted on the upper edge of the lower ones.

The disadvantage of this device is the low degree of disintegration of clay material, as well as high losses of raw materials when the flow of material passes from element to element.

The closest in technical essence is the DEVICE FOR GRAVITY ENRICHMENT OF METAL-BEARING SANDS [RU2171716C1, publ. [10.08.2001], comprising an inclined trough with parallel sides, a collecting surface at the bottom of the trough in the form of mats with various cell configurations, stair templates located above the collecting surface, guides secured along the entire length of the sides above the stair templates, an electromagnet installed in the guides with the possibility of reciprocating movement above the collecting surface and the stair templates, limit switches installed on the guides at the sluice unloading point, and a limit switch installed on one of the guides at the sluice loading point, an inclined tray installed at the sluice unloading point between the electromagnet and the stair templates, a water supply system feeding water into the inclined tray, and a hopper connected to the inclined tray. The main technical problem of the prototype is the uniformity of the flow and the low degree of its mixing, which entails a low degree of disintegration of the clay material.

The objective of the invention is to eliminate the shortcomings of the prototype.

The technical result of the invention consists in increasing the degree of disintegration of the washing material, as well as in reducing the loss of raw materials.

The specified technical result is achieved due to the fact that the counter-flow disintegrator consists of a connecting tray, a counter-flow tray and a receiving tray connected in series with each other, wherein the connecting tray is designed with the possibility of coupling with a fine-fill sluice, and the counter-flow tray has a width smaller and a depth greater than the fine-fill sluice, at the same time the connecting tray is designed with a smooth narrowing from the fine-fill sluice to the counter-flow tray and has a greater angle of inclination than the fine-fill sluice, wherein a retaining threshold is fixed at the junction of the counter-flow tray and the receiving tray, made in the form of a solid plate hanging over the bottom of the counter-flow tray and over the bottom of the receiving tray, wherein the receiving tray corresponds in width to the counter-flow tray, a dredge carpet is placed on its bottom, and a stair stencil is installed on top of the dredge carpet, at In this case, one edge of the stair template is placed under the retaining threshold, and the opposite edge rests against the lower edge of the receiving tray.

Also, the specified technical result is achieved due to the fact that the method of disintegrating the washing material, carried out using a counter-flow disintegrator consisting of a connecting tray, a counter-flow tray and a receiving tray connected in series with each other, wherein the connecting tray is designed with the possibility of coupling with a fine-fill sluice, and the counter-flow tray has a width smaller and a depth greater than the fine-fill sluice, at the same time, the connecting tray is designed with a smooth narrowing from the fine-fill sluice to the counter-flow tray and has a larger angle of inclination than the fine-fill sluice, wherein at the junction of the counter-flow tray and the receiving tray a retaining threshold is fixed, made in the form of a solid plate hanging over the bottom of the counter-flow tray and over the bottom of the receiving tray, wherein the receiving tray corresponds in width to the counter-flow tray, on its bottom a dredge is placed carpet, and a stair template is installed on top of the dredge carpet, with one edge of the stair template placed under the retaining threshold, and the opposite edge resting against the lower edge of the receiving tray, characterized by the fact that a stream of water with washing material is directed from the small-fill sluice into the connecting tray, after which the deposit of productive concentrate is fixed in the counter-flow tray and in the receiving tray.

Brief description of the drawings:

Fig. 1 shows the front view of the counter-flow disintegrator.

Fig. 2 shows a side view of the counter-flow disintegrator.

Fig. 3 shows a top view of the counter-flow disintegrator.

The following are indicated on the figures: 1 – connecting tray, 2 – counter-flow tray, 3 – receiving tray, 4 – small-fill lock, 5 – retaining threshold, 6 – railings, 7 – stair template, 8 – main support of the disintegrator, 9 – support of the receiving tray, 10 – supporting frame of the small-fill lock.

Implementation of the invention.

The counter-flow disintegrator consists of a connecting tray 1, a counter-flow tray 2 and a receiving tray 3 connected in series with each other, wherein the connecting tray 1 on the side opposite the counter-flow tray 2 has the ability to be attached to the fine filling sluice 4 of the washing device for enriching the gold-bearing product in an aqueous medium. In this case, the counter-flow tray 2 (see Fig. 2) has a flow width smaller and a depth greater than the fine-fill sluice 4, while the connecting tray 1 is made with a smooth narrowing from the fine-fill sluice 4 to the counter-flow tray 2 and has a greater angle of inclination (see Fig. 2) than the fine-fill sluice 4. Also, a retaining threshold 5, made in the form of a solid plate, is attached to the side of the counter-flow tray 2 opposite to the connecting tray 1, and railings 6 are installed on the sides of the connecting tray 1, the counter-flow tray 2 and the receiving tray 3 to protect the working personnel from falling. The receiving tray 3 is made in the form of a small fine-fill sluice, on the bottom of this tray a rubber carpet of fine fill is placed (not shown in the figures), and a stair stencil is installed on top of the carpet 7 with inclined ribs, wherein one edge of the stair template 7 is inserted under the retaining threshold 5, and the opposite edge rests against the lower edge of the receiving tray 3. Also in the lower part of the device there are three main supports of the disintegrator 8, attached to the bottom of the supporting frame of the fine-fill sluice 10 and to the area of the joint of the connecting tray 1 and the counter-flow tray 2, wherein the main supports 8 are at an equal distance from each other and are connected to each other by an additional stiffening rib on the supporting frame of the fine-fill sluice 10. At the same time, between the counter-flow tray 2 and the receiving tray 3, three supports of the receiving tray 9 are mounted, located at an equal distance from each other.

The counter flow disintegrator is used as follows.

From the fine filling sluice 4, a water flow with the washing material is directed into the connecting tray 1, after which the productive concentrate is fixed in the counter-flow tray 2 and in the receiving tray 3. Disintegration of the clay washing material is ensured by the operation of the counter-flow, which occurs in the counter-flow tray 2, twisting when falling on the walls of the tray in the opposite direction and hitting the descending flow. At the same time, due to the narrowing and increase in the angle of incidence of the connecting tray 1, an increase in the flow power occurs and, as a result, an increase in the degree of disintegration. The productive concentrate is deposited in the counter-flow tray 2 and in the receiving tray 3.

Example of implementation of the invention.

According to the present invention, a counter-flow disintegrator is manufactured, in which the connecting tray is made of 5 mm thick steel, the counter-flow tray is made of 10 mm thick steel and the receiving tray, as well as the sides of all trays are made of 3 mm thick steel, while the height of the sides is 250 mm, the width of the small fill sluice was 2000 mm at an inclination angle of 7°, the connecting tray was made with an increase in the angle of incidence to 21°, a narrowing from 2000 mm to 1500 mm and a length of 700 mm, and the width of the counter-flow tray was 1500 mm, its depth was 260 mm, and its length was 360 mm. The retaining threshold was made in the form of a solid steel plate 10 mm thick and 100 mm wide, while the retaining threshold was located 60 mm above the counter-flow tray, and 30 mm above the receiving tray. The railings were made of steel reinforcement. The receiving tray was 1000 mm long and installed at an angle of 6°, a rubber carpet of fine filling such as Japanese moss was placed on the bottom of this tray, and a 50 mm high stair template with inclined ribs was installed on top of the carpet, the height of the lower side of the receiving tray, which the stair template rests against, was also 50 mm. The main supports of the disintegrator were made of a square section metal profile pipe, as well as the supports of the receiving tray. All elements of the structure were connected by welding. The disintegrator was tested in the field, a positive result was obtained when washing sands that were difficult to wash due to the high clay content, with an average extraction of 3% of gold from all gold extracted after removing gold from the fine filling sluice of the SB-Aldan washing device. The results of the shooting during testing of the present invention are presented in Table 1.

Table 1 – Results of filming during testing of the flow disintegrator

N p.p. Date Extraction from disintegrator, g Flushing volume, ^m3 Extraction from the sluice of small filling, g Number of hours worked % of total 1 08.07.2024 19.15 1820 878,0 74 2.18% 2 13.07.2024 29.80 1800 1004,0 81 2.97% 3 14.07.2024 7.80 390 209.0 19 3.73% 4 19.07.2024 31.95 2090 1032,0 96 3.10% 5 20.07.2024 6.40 420 190,0 19 3.37% 6 26.07.2024 32.25 2360 1159,0 108 2.78% 7 04.08.2024 43,45 3657 1474,0 147 2.95% 8 06.08.2024 12.90 1265 399,0 39 3.23% 9 10.08.2024 25.70 1775 813,0 76 3.16% 10 20.08.2024 61.85 4727 1863,0 159 3.32% Total: 271.25 20 304 9 021 818 3.01%

The prototype of the present invention, DEVICE FOR GRAVITY CONCENTRATION OF METAL-BEARING SANDS, described in document RU2171716C1 published on 10.08.2001, was tested under identical conditions. The prototype was also tested in the field when coupled with the same washing device, with the use of which the tests of the present invention were conducted. The result was obtained when washing sands that are difficult to wash due to the high clay content with the extraction of an average of 1.1% of gold from all the gold extracted after removing the gold from the fine filling sluice of the SB-Aldan washing device. The results of the survey during the prototype testing are presented in Table 2. This result shows that the efficiency of the prototype in terms of disintegration of clay material and reduction of raw material losses is almost 3 times lower than that of the flow disintegrator.

Table 2 – Results of shooting during prototype testing

N p.p. Date Extraction from disintegrator, g Flushing volume, ^m3 Extraction from the sluice of small filling, g Number of hours worked % of total 1 13.09.2024 5.7 1456 725 81 0.79% 2 16.09.2024 8.9 1440 828 89 1.07% 3 17.09.2024 2,3 312 173 21 1.33% 4 19.09.2024 9.6 1672 851 106 1.13% 5 23.09.2024 1.9 336 157 21 1.21% 6 29.09.2024 9.65 1888 956 119 1.01% 7 03.10.2024 13 2926 1217 162 1.07% 8 05.10.2024 3.85 1012 329 43 1.17% 9 07.10.2024 7.7 1420 671 84 1.15% 10 08.10.2024 18.55 3782 1537 175 1.21% Total: 81.15 16244 7444 901 1.11%

The technical result of the invention consists in increasing the degree of disintegration of the washing material, as well as reducing the loss of raw materials.

The specified technical result is achieved due to the presence of a narrowing of the connecting tray when connecting the small-fill sluice and the counter-flow tray, as well as an increase in the angle of inclination of the connecting tray, which provides an increase in the power of the passing flow before entering the counter-flow tray, as well as due to the swirling of the flow when falling on the walls of the counter-flow tray in the opposite direction and its subsequent cutting into the descending flow. Also, the presence of a retaining threshold allows to restrain the washing material from overflowing into the receiving tray when it initially falls on the wall of the counter-flow tray, which ensures high-quality disintegration of the entire volume of the flow being passed.

Thus, thanks to the claimed invention, it is possible to reduce industrial losses during the washing of difficult-to-wash gold-containing material and to increase the degree of disintegration of clay material during the production of the product.

Claims (2)

1. A counter-flow disintegrator consisting of a connecting tray, a counter-flow tray and a receiving tray connected in series with each other, wherein the connecting tray is designed with the possibility of coupling with a fine-fill sluice, and the counter-flow tray has a width smaller and a depth greater than the fine-fill sluice, while the connecting tray is designed with a smooth narrowing from the fine-fill sluice to the counter-flow tray and has a greater angle of inclination than the fine-fill sluice, wherein a retaining threshold is fixed at the junction of the counter-flow tray and the receiving tray, made in the form of a solid plate hanging over the bottom of the counter-flow tray and over the bottom of the receiving tray, wherein the receiving tray corresponds in width to the counter-flow tray, a dredge carpet is placed on its bottom, and a stair stencil is installed on top of the dredge carpet, wherein one edge of the stair The stencil is inserted under the retaining threshold, and the opposite edge rests against the lower edge of the receiving tray. 2. A method for disintegrating a washing material using a counter-flow disintegrator consisting of a connecting tray, a counter-flow tray and a receiving tray connected in series with each other, wherein the connecting tray is designed with the possibility of coupling with a fine-fill sluice, and the counter-flow tray has a width smaller and a depth greater than the fine-fill sluice, while the connecting tray is designed with a smooth narrowing from the fine-fill sluice to the counter-flow tray and has a greater angle of inclination than the fine-fill sluice, wherein a retaining threshold is fixed at the junction of the counter-flow tray and the receiving tray, made in the form of a solid plate hanging over the bottom of the counter-flow tray and over the bottom of the receiving tray, wherein the receiving tray corresponds in width to the counter-flow tray, a dredge carpet is placed on its bottom, and a dredge carpet is installed on top of the dredge carpet. a stair template, where one edge of the stair template is placed under the retaining threshold, and the opposite edge rests against the lower edge of the receiving tray, characterized by the fact that a stream of water with washing material is directed from the small-fill sluice into the connecting tray, after which the deposit of productive concentrate is fixed in the counter-flow tray and in the receiving tray.