SU1611455A1 - Hydrocyclone - Google Patents

Abstract

The invention relates to the purification of liquids from suspended substances and can be used in the circulating water supply systems of enterprises in various industries. The goal is to increase the efficiency of wastewater treatment. The hydrocyclone contains a cylindrical housing 1 with nozzles for supplying the original 2 removal of purified 3 water, a nozzle 4 for removing sludge, spiral diaphragms 5. The original waste water through nozzle 2 is tangentially supplied to the housing 1, which is clarified from mechanical impurities that are discharged through the nozzle 4. The clarified fluid passes between the diaphragms 5, where it is further divided. At the same time, solid particles precipitate on the walls of the spirals of the diaphragms 5 and are also discharged through the nozzle 4. 3 sludge.

Description

The invention relates to the purification of liquids from suspended solids and can be used in the circulating water supply systems of enterprises in various industries.

The aim of the invention is to increase the efficiency of wastewater treatment.

Figure 1 shows the hydrocyclone, a general view; figure 2 - diaphragm, longitudinal section; on fig.Z - the same, top view.

The hydrocyclone contains a cylindrical housing 1 with pipes for supplying the source 2 and removal of purified 3 water, pipe 4 for cuttings removal, diaphragms 5 made in the form of a spiral, coils 6 of which are displaced relative to each other in height, connected to each other without forming a gap and installed at an angle a to the hydrocyclone axis, each diaphragm forming a straight truncated cone, and the distance h between the diaphragms increases from top to bottom ... hn.

Hydrocyclone works as follows.

Claims (1)

The original wastewater through the nozzle 2 is tangentially supplied to the hydrocyclone body 1, where, rotating, it is clarified from mechanical impurities, which are centrifugally thrown onto the walls of the body 1 and slide into the lower conical part, from which they are removed from the hydrocyclone by nozzle 4 as sludge . The clarified fluid flow, rotating in the central part of the hydro cyclone between the diaphragms 5, which form a thin layer of separation of the liquid and solid phases, is additionally clarified with mechanical impurities, while the fluid flow moves between the diaphragms from their peripheral part to the center, from where it goes through pipe 3 from hydrocyclone. Impurities that are separated from the fluid flow between the diaphragms 5 are centrifugally pressed against their inner surface and accumulate in a concave recess made on the side surface of the coils 6. The vras collected in this way are flushed to the peripheral part of the diaphragms 5 where they fall off from their lower edges to the walls of the hydrocyclone and slide into the lower conical part together with the main stream of sludge. Part of the mechanical impurities contained in the fluid flow moving between the diaphragms 5 to the center of the hydro cyclone is delayed by the recesses of the coils 6 on the outer surface of the diaphragms 5, while they are rotating in the peripheral part of the diaphragms, and some of these contaminants (with their coarsening) is thrown by centrifugal force onto the inner surface of the overlying diaphragm, and then it is driven to their peripheral part. Thus, diaphragms made in the form of a spiral prevent impurities from being carried out with a stream of clarified water and ensure organized removal to the periphery of the diaphragms, from where they are thrown onto the walls of the housing 1. Additional clarification of the fluid between the diaphragms improves the efficiency of wastewater treatment. waters in general. In the upper part of the hydrocyclone, where the flow of the original wastewater is supplied, the distance between the diaphragms is minimal, so in THIS part the minimum cyclone clarification water flows to THIS center and as the wastewater clarifies to the central part of the hydrocyclone An increasing amount of clarified water comes in as the distance between the diaphragms increases. The location of the diaphragms 5 with a minimum of 30 mm between them in the upper part and increasing downward allows for an organized light supply to the central part, which ultimately also improves the efficiency of wastewater treatment. Claims of the invention A hydrocyclone containing a cylindro-conical case with a lid, nozzles for supplying the source and removal of purified water 40 and sludge, diaphragms located one above the other and attached to the roof / ke, is characterized by the fact that water, the diaphragms are made in the form of a spiral and 45 are set in such a way that the distance between them increases from top to bottom, the flat coils of the diaphragms are displaced relative to each other in height, the adjacent coils are connected to each other without a gap and set at an angle to the axis of the hydrocyclone, forming a straight truncated cone, with the lateral surface of the coils made concave, and the coils of the helix directed to the rotation of the fluid. 55  Par.2