SU1373439A1 - Installation for separating materials by size - Google Patents

Abstract

The invention relates to the enrichment of minerals, namely the classification of materials by size in the aquatic environment and m. applied-4- but in the coal, construction and chemical industries. The purpose of the invention is to improve the quality of the separation products by improving the separation conditions in the upper zone of the sieve C and timely cleaning C. The cyclone screening unit (K) is installed from the upper cylindrical part 1 and the lower cylindrical part 2, in

Description

(L

with

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which is installed coaxially with C 3 with a diameter equal to the diameter of part 1 K. In the lid of part 2 K there is a nozzle (a) 9 with a sensor 10 for the value of the pulp flow connected to the water supply through the regulator 11 with the operating device 12 P 13. The latter is installed on the side wall of part 2 K, the screener is supplied with power supply P 4, Peskovy P 5, drain P 6 and P 7 you are the water of the undersize product. Pulp

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enters tangentially through P 4 into part 1 K of the screen, where it is dispersed and divided into sludge discharged through P 6 and the coarse fraction entering C 3 separation. In the case of C 3 clogging, the pulp flow in P 9 decreases below the allowable . The controller And gives the signal to the device 12, which provides water supply through the P 13 in the sublattice space. 1 il.

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The invention relates to the enrichment of minerals, namely the classification of materials by size in the aquatic environment, and can be applied in the coal, building chemical industry.

The purpose of the invention is to improve the quality of the separation products by improving the separation conditions in the upper zone of the sieve and timely cleaning the sieve.

The drawing shows the installation, general view.

An apparatus for separating materials includes a cyclone screen consisting of a body with an upper cylindrical part I and a lower cylindrical part 2, in which a sieve 3 is coaxially mounted, the diameter of which is equal to the diameter of the upper part I of the body, feeding 4, sandy 5 and drain 6 nozzles and nozzle 7 for the output of the undersize product. In the upper part 8 of the cylindrical part 2 there is a nozzle 9 with a flow rate sensor 10 connected via a regulator 11 to an actuator 12, which is mounted on the nozzle 13 attached to the wall of the lower part 2 of the housing.

The installation works as follows.

The pulp enters tangentially through the supply nozzle 4 into the upper part 1 of the body, where it is dispersed and divided into a large fraction and pshamy, which are removed through

drain nozzle 6. The coarse fraction passes into the cylindrical conical part 2 of the body and enters the sieve of screen 3. Fine grains pass through the sieve and the nozzle 7, coming out of the plant as an undersize product. The oversize product is discharged through the sand nipple 5. During

The operation of the installation is the inevitable clogging of the sieve 3 fibrous materials, always present in the pulp. In this case, a change in the values of the pulp flows in the sublattice space and in the nozzle 9 is observed, which is detected by the flow value sensor 10.

When the flow in the pipe 9 is lower than the permissible regulator 11 connected with the sensor 10, the flow rate gives a signal to the actuator 12, which provides water to the sublattice space through the pipe 13. The water supply duration is 1-2 seconds, after which the system returns to its original position. The pressure of the flush water should be 50-100 kPa higher than the pressure in the supply pipe.

The grain size through which the separation takes place is 4 times smaller than the size of the slits in the sieve, which is ensured by filling the undersize space with pulp. Thus, the size of the sieve holes can be four times larger than the grain size, which significantly increases the wear resistance of the sieve.

3

The presence of nozzles in the side wall and in the upper part of the cylindrical conical part avoids clogging of the screen and ensures that the undersize space is filled with pulp, as a result, the separation efficiency of the material in the installation is increased and the fabrication of the screen is simplified.

Claims (1)

Invention Formula A unit for the separation of materials by size, comprising a cyclone screen consisting of a body with an upper cylindrical part and a lower cylindrical conical part with a clap, drain, sand, feed nozzles and a nozzle for the extrusion 73439 a sieve with a diameter equal to the diameter of the cylindrical part of the body, characterized in that, in order to improve the quality of separation products by improving the separation conditions in the upper zone of the sieve and timely cleaning the sieve 10, it is provided with a spout for supplying water with an actuating device installed on the side wall of the cylindrical-conical part of the body and a pipe with a sensor with a value of 15 pulp flow installed in the same part of the body and connected to the Yelnia nozzle device for supplying water.