SU1183178A1 - Deslimer - Google Patents

Abstract

1. A DIMMER including a separation, classification and control and unloading chambers, a feeding device with an expanding diffuser and fins, a drainage chute and a sand unloading device, characterized in that, in order to increase the efficiency of separation and increase its reliability in operation by uniformly distributing the source material over its cross section and cleaning the separation products, in a separating chamber, arranged in a staggered order with the possibility of changing the angle of their inclination egorodki whose height age; AET in the direction of the diffuser, forming a curved surface, the width of the outlet portion of the separation chamber is equal to the diffuser width. 2. A desaccator according to claim 1, characterized in that the pipes for supplying water with non-return valves are connected to the diffusion valve, to the lower parts of the separating valve and the control and unloading chambers. . 3. The deslamator according to claim 1, characterized in that the device for unloading sands provides an automation system with a density meter and a radioisotope sensor 00 with a secondary device for recording the level of the layer. “00

Description

i The invention relates to the enrichment of minerals, mainly for hydraulic classification, decalcification. The purpose of the invention is to improve the separation efficiency and increase the reliability of the work of the duslamagor by uniformly distributing the source material over its section and cleaning the products once; -green before draining and unloading pescs. FIG. 1 shows a declarator, a cross section; FIG. 2, section A-A in FIG. 15, FIG. 3 —Fold B — B in FIG. 2, The waste separator contains a feed funnel 1, a 2f diffuser pipe with diverging longitudinal recessions 4, a frame 5 on which parallels baffles 6 are installed in chess, in order to change the angle of inclination iT height, which increases in a non-linear manner depending on diffuser 3. Diffuser 3 is connected to a separating chamber 7, which in the upper part passes into the classification chamber consisting of a pyramidal part 8 and a rectangular part 9 with a drain chute 10. Control and unloading is located on the lower part of the separator. amera 11 with an rsecKoBs discharge system including a discharge pipe 12 with a valve 13, a lever 14 with an axis 15, a hydropusher 16, a radioisotope sensor 17 with a secondary device 18, and a densitometer 19. To clean the separation products and prevent sedimentation of the solid in the diffuser 3, a separator 20 is provided in the separator 20 22 to enter the water in the diffuser 3, in the lower part of the separation chamber 7 and the control and unloading chamber 1 Deschlamator works as follows; The pulp enters the feed hopper 1 and through pipeline 2 into the diffuser 3, where its speed reduces With diverging longitudinal partitions 4, the gullet is evenly distributed over the entire width of the separation chamber 7 and, due to the water, feeding the kei through the nozzle 20, pre-splits. In chamber 7, the pulp is broken about .-: 1G1G1: Spruce walls 6 are equipped with the ability to change the angle of inclination in a checkerboard pattern and increase in height along a curve bent in the direction from the diffuser 3 into multiple layers both vertically and horizontally . In this case, the flow regime in the monolayer between the partitions passes from turbulent to laminar and the pulp undergoes separation by supplying an upward flow of water through the nozzle, while fine particles are carried by the ascending water stream into the classification chamber consisting of a pyramid 8 and a rectangular 9 parts where fine muddy particles are separated, which are displaced into the discharge chute 10, and the sand fraction is deposited in the control and unloading chamber 11 and the suspended material is suspended in water through the pipe 22. The material in the control bladder 11 accumulates until it crosses the beam from the radioisotope sensor 17. This signal is transmitted to the secondary device 18 and to the density meter 19, which is set to a predetermined density of the sand fraction, which actuates the hydropulcher drive and 14 valve 13 opens. After the material is unloaded, the control devices operate in the opposite direction, the valve 13 closes and the process repeats. The decoder is tested in industrial conditions. The initial feed was a concentrate of magnetic separation in high intensity fields with a particle size of 0.25–0 mm, obtained from chrome ores, the pulp density of the initial feed was 9% solid, the load was 7–10 t / h, the flow rate was 8–10 m / h, separation by class 40 µm. The table shows comparative indicators of separation in the known and proposed separators. The proposed separator compared to the known one allows to increase the separation efficiency in the 40 µm class by 21% (from 30.0 to 71.0%) and get sands with a solid content of 80%. The height of the partitions 6 is described, in particular, by an equation of the form H 0.1 - al-5-%

where H and f are, respectively, the height of the partitions and the length of the chamber from the power supply to the opposite wall; a and b - coefficients O: a 1,

 b S 1.

Tests have shown that when performing partitions whose heights obey an equation of the specified type, i.e. performing them increasing in height along a curve bent in the direction from the diffuser 3, allows you to evenly split the flow of pulp horizontally, which ensures the best quality of sands - the content of 51.2% Cr ,, 0l to increase the effect

Classification of the class 0.040 mm to 71.90%.

784

When b About the equation will take the form H 0,1 - al.

At the same time, the heights of the partitions will vary along the straight line and decrease in the direction from the diffuser, which will not allow the flow to be converted into laminar flow and achieve the goal.

Setting the partitions of the same height (when aO to b 0) does not ensure uniformity of the flow rate quenching, the separation efficiency decreases.

The economic effect of the proposed slimer in the wet magnetic separation concentrate dewatering unit at the processing plant is 52.7 thousand rubles. in comparison with the famous.

Due to 9.0, 7.8 25.728,, 8th, 9.8 36.934.1 Sands 50.0 6.4021.30 Discharge 3.8 Pre-Pit7, 8 25.728.8 la-9.0 ga12 , 8 37,435.9 myPeski 80.0 1.6 - 2, 37.77.0100.0 48.0100.0 51.3 19.24, 94.770.0 50.072.9 72.302.130.0 43.327.1 37.77.0100, 0 48,0100,0 71,9 13,96,085,0 51,290,6 95,91,015,0 30,09,4

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ffJ irfyVLY f ff

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Claims (3)

1. DESHLAMATOR, including separation, classification and control and unloading chambers, a feeding device with an expanding diffuser and ribs, a drain chute and a device for unloading sand, characterized in that, in order to increase the efficiency of separation and increase its reliability in work by uniform distribution of the source material over its cross-section and purification of the separation products, in the separation chamber are installed staggered with the possibility of changing the angle of their inclination of the partition and whose height increases in the direction from the diffuser, forming a curved surface, the width of the outlet portion of the separation chamber is equal to the diffuser width. 2. Deslamator according to claim 1, characterized in that the pipes for supplying water with check valves are connected to the diffuser §, to the lower parts of the separation and control and discharge chambers. . 3. Deslamator according to claim 1, characterized in that the device for unloading sand is equipped with an automation system with a densitometer and a radioisotope sensor with a secondary device for detecting the layer level. SU. ,, 1183178> ί 1183178