RU2033270C1 - Concentration unit - Google Patents

Abstract

FIELD: concentration of mixtures. SUBSTANCE: concentration unit has classification chambers disposed one above the other. Inclined plates of lower chamber are perpendicular to plates in upper chamber. EFFECT: increased efficiency and enhanced reliability in separation and dehumidification of mixtures. 6 dwg

Description

 The invention relates to the field of concentration classifying devices used in the industry of non-metallic building materials for the enrichment, separation and dehydration of mineral mixtures. It can be used in the processing of minerals and industrial waste: coal, ore, ash and slag mixtures, etc.

Known enrichment unit, comprising a housing made in the form of two successive hydroclassification chambers with conical bottoms, placed inside the plate chambers, a nozzle for supplying hydraulic mixtures and a drain pipe connected to the conical bottoms of the device for unloading a large fraction [1]
This unit has a low separation efficiency due to the fact that part of the pulp stream falls into the drain.

Closest to the proposed invention is an enrichment unit, comprising a housing made in the form of two successive hydroclassification modules containing plates inclined horizontally at an angle of 35-65 ^about , two storage and unloading chambers with distribution tubes for supplying water, a nozzle for supplying hydraulic mixtures , drain pipe, sand unloading device, conical hydraulic screen with sand and gravel pipe. Hydroclassification modules are inclined towards the drain pipe [2]
A disadvantage of the known technical solution is the low efficiency of the separation of the material due to the fact that part of the flow of the original slurry flows down into the storage and discharge chambers and, bypassing the inclined plates, is unloaded into the drain pipe.

 The purpose of the invention is to increase the efficiency of material enrichment and increase the reliability of its separation into fractions according to a given boundary grain.

 This goal is achieved by the fact that in the processing unit hydroclassification chambers are located one above the other. Inclined plates of the lower module are placed perpendicular to the plates of the upper module. Sand accumulators are equipped with a gate regulating the area of deposition of particles of a given size and equipped with a handle and a lock of its position.

 In patent studies, no analogues were identified whose features are similar to the set of essential features set forth in the claims. The inventive step of the proposal indicates its novelty. The invention is industrially applicable.

 In FIG. 1 enrichment unit, general view; in FIG. 2, section AA in FIG. 1; in FIG. 3 section BB in FIG. 2; in FIG. 4, view B in FIG. 1 (gate); in FIG. 5 section GG in FIG. 4; in FIG. 6 processing unit, axonometry.

 The beneficiation unit includes a conical hydro screen 1 with a screening surface 2 with an inlet pipe for feeding the hydraulic mixture 3 and a pipe for removing gravel 4 with a sieve 5 and a pipe 6 for discharging sand, a pipe 7 for discharge, a distribution and supply chamber 8, a housing including hydroclassification chambers 9 and 10 with inclined plates 11 and 12, a sand accumulator 13 for a coarse fraction, a sand accumulator 14 for a coarse fraction.

Plates 9 and 11 of the upper plate 12, lower 10 chambers arranged at an angle ^of 35-65 to the horizontal perpendicular to each other.

 In the upper part of the sand accumulators 13 and 14 there is a system of distribution tubes 15, where water is supplied through a water conduit 16 with a valve 17. In the lower part of the sand accumulators 13 and 14 there is a gate 18 that regulates the area of deposition of particles of a given size.

 The gate 18 includes a metal plate 19 of a rectangular shape with rubber aprons at the edges 20, fixedly mounted on the rotation shaft 21, a latch 22 with a handle 23.

 The concentration unit operates as follows.

 The initial gravel-sand mixture from the dredger or pulp former in the form of pulp through the inlet pipe 3 enters the conical hydro screen 1, where gravel is released using the screening surface 2 and is discharged through the pipe 4 to the finished goods warehouse. Through a sieve 5, located in the pipe 4, water is removed from the gravel and sand is trapped, which are discharged out of the sand discharge pipe 6.

 The sand slurry, passing through the screening surface 2 of the conical hydro screen 1, enters the distribution and supply chamber 8, from where it flows by gravity to the upper hydroclassification module 9. In the upper chamber 9, the entire pulp stream is distributed along the slots between the inclined plates 11. In this case, the pulp stream is laminated. When the flow is laminar in narrow slots between the plates 11, the suspended particles fall onto the inclined plates. In the laminar flow, the settled particles cannot be weighed again and therefore, accumulating on the plates, slide under the influence of gravitational forces into the chamber 10. In the chamber 10, the particles already in the form of streams fall on inclined plates 12 of the lower chamber 10 located perpendicular to the plates 11 of the upper module 9, and then slide down into the sand accumulators 13 and 14 for coarse and fine fractions.

 The lower chamber 10 with plates 12 located perpendicular to the plates 11 of the upper chamber 9, promotes the steady movement of the pulp stream, since at the beginning of the stream it does not allow it to deviate downward, and in the end it prevents the other stream from connecting to the sand accumulator 14.

 The presence of the lower chamber 10 provides uniform unloading of material deposited in the sand storage 13 and 14.

 In hydroclassification chambers 9 and 10, sequential separation of particles by size is carried out: at the beginning of the chambers, larger particles are emitted, in the tail part smaller ones. Depending on the flow rate or flow rate, either clean water or water with small particles of sand can enter the drain, depending on the flow rate or flow rate in the slots between the 11 m 12 plates.

 Additional flushing water is supplied to the upper part of the sand accumulators 13 and 14 through a conduit 16 to a distribution pipe system 15 that provides a uniform upward flow of water, increasing the efficiency of the process of enrichment and separation of sand into fractions.

 In the upper part of the sand storage 13 and 14 mounted gate 18, which regulates the area of deposition of particles of a given size. Thanks to this control device at the extreme left position of the gate 18, one fraction of sand is released, which enters the sand accumulator 14.

 At any other position of the gate 18, two fractions are distinguished, large and small, each of which enters its own sand storage.

The desired particle size separation is provided by installing the gate 18 in the desired position using the latch 22 with an adjustment angle of 0-60 ^about . The gate is equipped with a handle 23 and a scale 24, made in the form of a sector.

 The material deposited on the plates 12 of the lower module 10 slides into the sand accumulators 13 and 14, where it accumulates to a certain level, which is detected by the minimum level sensors 25 and the maximum level 26, which are connected through the electronic transducer 27 to the vibration exciter 28 of the dewatering device 29. The sifters are mounted in the dewatering devices 29 surface 30 with water collectors 31.

 The lower edges of the sand storage 13 and 14 using elastic connecting casing 32 are attached to the upper edge of the dewatering devices 29.

 For the removal of finished products of the dewatering device 29, valves 33 and trays 34 are provided. For the removal and suction of water from the dewatering devices 29, nozzles 35 with water ducts 36, an air cleaner 37 and a vacuum pump 38 are provided.

 When filling the sand accumulators 13 and 14 to the level of the sensors 26, a signal is sent from them to the control panel to automatically or manually turn on the vacuum pump 38, open the shutter 33 and turn on the vibration exciter 28. After turning on the latter, the condensed material through the elastic connecting casing 32 enters the dewatering device 29 .

 Under the influence of gravitational forces, as well as inertial forces created by the vibration exciter 28, the material moves to the tray 34 and through the open shutter 33 is unloaded to the outside.

 When the material moves in the dewatering device 29, water is squeezed out through the perforated surface 30 into the water collector 31 and through the nozzle 35, the water duct 36, the air purifier 37 is sucked off with the help of a vacuum pump 38. The solid particles of the material accumulated in the air purifier 37 are discharged to the outside.

 When the material crawls in the sand accumulators 13 and 14 to the minimum level sensor 25, a signal is sent from it to the control panel for sequential automatic shutdown of the vibration exciter 23, closing the shutter 33 and turning off the vacuum pump 38.

 The high efficiency of enrichment and separation into fractions of the material in the beneficiation unit is achieved due to the fact that hydroclassification chambers located one above the other contribute to a stable movement of the feed slurry stream in the upper chamber, eliminates the possibility of deviation of a part of the stream down and cause uniform removal of material settled in the upper chamber in storage and unloading chambers (sand storage).

 The presence of a gate equipped with a handle and a fixator for its position makes it possible to provide any given size of material separation and to control the yield of coarse and fine fractions, which helps to increase enrichment efficiency and increase the reliability of material separation into fractions.

Claims (1)

 CONCENTRATING UNIT, including a conical screen with a nozzle for supplying a hydraulic mixture, a nozzle for removing gravel and a collector of sand fraction, a housing with a drain port communicated with a collector of sand fraction, made of two classification chambers with inclined plates with inclined plates, sand collectors devices for unloading sand and distribution pipes for water supply, characterized in that the classification chambers are located one above the other, while inclined Lastin lower chamber perpendicular to the plates of the upper chamber, and adapted for sand drives regulating damper.

Images