SU586130A1 - Laminated classifier - Google Patents

Description

(54) PLASTIC CLASSIFIER

The mask of the hydraulic resistance of the distributor collector is larger than the value of the hydraulic resistance of the cavity located between the sediment in the sludge bunker and the border of the lower edges of the plates, which leads to the overflow of the suspension from the first reservoir holes through the sludge bunker into the cells. In this case, the suspension flows into the cells again from below, "penetrating the falling precipitate.

A second disadvantage is that the concentrated removal of clarified water is associated with the formation of constricted streams (increased liquid velocity). This reduces, as is known, the utilization rate of the structure.

The aim of the invention is to increase the effectiveness of the separation of the suspension by preventing the formation of counter-flows of the initial suspension with falling sediment (the factor of suspension of the suspension from the supply manifold through the sludge bunker into the cells), creating favorable hydraulic conditions for sliding the sediment over the plates (preventing erosion of the sediment by jets flowing out from the supply line), an increase in the volumetric utilization ratio of the apparatus due to the decentralization of the drainage from the fluid cell.

This is achieved by the fact that the classifier is provided with an inlet pipe placed in a distribution inlet manifold, in the outermost wall of which inlet openings are made.

Such a design provides both uniform distribution of fluid along the length of the collector (high flow rates of fluid from the holes) and quenching of the kinetic energy of the outflowing jets (opening of the jet during flow, its rotation by 180 °, further expansion of the jet as it moves in the transverse direction of the collector to the cell) low and uniform rate of suspension of the suspension into the cells. In order to evenly remove the classified suspension from the cell, the output device is designed as a drainage of large resistance, for example a filtering granular layer, resting on a supporting grid.

FIG. 1 shows the proposed plate classifier, general view; in fig. 2 is a section along A-A in FIG. one.

The classifier consists of a flow perforated pipe 1 placed in a distribution inlet manifold 2, the perforation 3 being directed in the direction opposite to the intake ports, inclined plates 4, the sludge hopper 5 with the discharge nozzle 6, the drainage 7 of great resistance in the form of a granular load, resting on the grid 8, and a branch pipe 9.

The device works as follows.

The suspension through the perforated pipe 1 enters the distribution manifold 2, from where it goes to the classifier cells. In the cells formed by the inclined plates 4, the suspension is separated. The sediment deposited on the plates 4 under the action of gravity forces slides down and enters the sludge bunker 5, from where it is removed under the action of hydrostatic pressure through the discharge pipe 6.

The classified through the drainage device 7 in the form of a layer of granular load, resting on the grid 8, is removed from the apparatus by a branch pipe 9. The large resistance of the inlet and outlet distribution systems ensures uniform distribution of the fluid along the length of the perforated pipe 1 and its collection through the layer of granular load.

The release of the suspension from the perforated pipe into the distribution manifold, the rotation of the jet through 180 ° and its opening before entering the cell provide quenching of the kinetic energy and smoothness of the entrance to the cell.

Claims (1)

Invention Formula A lamellar classifier, comprising a housing with a package of inclined plates located therein, in the lower part of the side walls of which are inlet ports and a distribution inlet manifold, characterized in that, in order to increase the efficiency of separation of the suspension, the classifier is provided with a supply pipe placed in the distribution inlet manifold, in the outermost wall from the inlet windows of which holes are made. And 1g. one A- A fig 2