SU1458003A1 - Screw hydraulic classifier - Google Patents

Abstract

The invention relates to the classification of viscous cement raw sludge and similar materials. used in cement, concentration, and other industrial sectors. The purpose of the invention is to increase the efficiency of the classification process and the reliability of the classifier. In the upper part of the casing 1 with the nozzle (P) 2 of the outlets of small and P 3 outlets of large fractions there is a cylindrical receiving chamber (K) 4 with a feeding slotted P 5. Inside the casing 1 is installed

Description

one

The invention relates to the classification of viscous cement raw sludge and similar materials and can be used in the cement, concentration and other industries of the industry.

The aim of the invention is to increase the efficiency of the classification process and the reliability of the classifier.

The drawing shows a screw hydraulic classifier, a general view.

The screw hydroclassifier has a cylindrical case 1 with nozzles of the outlet for small 2 and large 3 fraction-days. In the upper part of the casing 1 there is a cylindrical receiving chamber 4 with a supply slot nozzle 5. Inside the casing 1 there is a screen b, made in the form of a cylinder from a grate-like slit-like grid with vertically arranged grate bars. The sieve 6 is rigidly connected to the unloading cylindrical cup 7 with its base. Inside the sieve 6 a screw auger 9 is mounted on the central tube 8.. The hydraulic classifier is equipped with a vertical movement mechanism of the sieve 6 and its rotation, made in the form of a drive shaft 10 that swivels and moves along its axis, passed through the central tube 8 of the screw 9 and connected to the cup 7 by means of a crosspiece 11. A seal 12 is installed inside the casing 1 in the lower part to prevent the finished product from getting into the grains.

Classifier works as follows.

The original sludge, which is to be divided into two fractions by size, is fed via a pumping pipe 5 (not shown) through the feed pipe 5 to the receiving chamber 4, in which the screw 9 pins 9 are formed into a stream using a screw. The sludge flow formed in the receiving chamber 4 at a predetermined speed through the screw 9 enters the classifying surface of the sieve 6, rotating around its axis in the direction of the sludge flow, is pressed against it by centrifugal forces and is classified. The fine fraction (subsite product) passes through the gaps between the grate into the subcavity cavity, from where, as a finished product, it is discharged through pipe 2, the coarse fraction (the overhead product) passes over the surface of the sieve within the screw guide screw 9 and through the cylindrical cup 7 and pipe 3 is discharged to the ground. During the operation of the classifier, besides rotation, the sieve 6 together with the cup 7 is moved upwards along its axis by means of the crosspiece 11 and the shaft 10, which ensures even wear of the sieve over the entire surface. In this case, a cylindrical discharge cup 7 at all positions of the sieve 6 ensures the entry of grit from the inner surface of the sieve into the discharge port 3.

Rotation of the sieve in the direction of the sludge flow with the optimal speed, which is 0.3-0.8 of the initial flow rate, ensures the laminar nature of filtering the sludge and maintaining the effective width of the slit, which dramatically reduces the efficiency of its separation and obtaining the nominal (calculated) size class finished product. In addition, when rotating the sieve and its vertical movement according to a given program, uniform wear of the sieve is achieved, which significantly increases the time between repairs of the classifier.

Claims (1)

Invention Formula one Screw hydroclassifier, including a casing, a vertically placed cylindrical sieve enclosed in it and a cylindrical cup placed under it, installed inside 14 1458003 a sieve on the central tube of an auger for forming a slurry flow, a cylindrical receiving chamber with a feed inlet and outlet pipes for small and large fractions in the upper part of the casing, which, in order to increase the process efficiency classification and reliability, the hydroclassifier is equipped with a mechanism for the vertical movement of the sieve and its rotation, made in the form of a rotary and movable along its axis a drive shaft passed through the central tube of the auger and connected to a cylindrical glass through a cross, the cylindrical screen being rigidly connected to the cylindrical glass.