SU814471A1 - Binary hydraulic cyclone - Google Patents

Description

The invention relates to devices for the separation of suspensions and can be used in the chemical food, paper and other industries. A hydrocyclone is known, which includes a lindro-conic case with a tangential inlet, drainage and -electric patches. To eliminate the harmful effect of the air column on the separation efficiency, the sand tube is made arcuate. A disadvantage of the known hydrocyclone is that during the operation of the hydro cyclone there is a blockage of air. consistent sand pipe. . Also known is a hydrocyclone that includes a cylinder-conical case with a tangential inlet nozzle and nozzles for removing clarified and condensed fractions, a rod mounted along the axis of the case with the possibility of vertical movements, on which control valves are rigidly fixed and slotted to eliminate negative effect column 2. The disadvantage of the known hydrocyclone is that the separation efficiency achieved in it is insignificant due to the disturbance of the hydrodynamic 1 "of the primary situation in the cone of the hydrocyclone, due to the presence of & her mechanical devices. The closest in technical essence and the achieved result to the proposed is a binary hydrocyclone containing two conjugate cylindro-conical hulls with a common inlet nozzle located in the zone of their conjugation with Sand Pipes and drain nozzles, a drain chamber located above the drain nozzles 3. A disadvantage of the known binary hydrocyclone is the low separation efficiency. The purpose of the invention is to increase the separation efficiency by eliminating the rotational movement of the air flow. The goal is achieved by the fact that the hydrocyclone is provided with an arcuate tube movably mounted in the axial direction, with the convex part of the tube placed anutri of the drain chamber, and the ends of the tube are concentrically mounted inside the drain nozzles.

Figure 1 shows the binary hydrocyclone, a general view of / in figure 2 - rae. Cut And yes in figure 1.

The hydrocyclone consists of two mating cylindrical-conical bodies 1 and 2, and a common drain chamber 3. In the interface zone 1 and 2 there is a common inlet 4 and a divider 5. In each cylindrical-conical body 1 and 2, there are drain 6 and bulky 7 nozzles. Inside the discharge chamber 3 there is an arcuate tube 8, and its convex part is fixed in the holder 9. The holder, in turn, consists of an axis 10, a handle 11 and a guide 12. The holder is secured with a screw 13. To enter the clarified fraction from the slit chamber 3 Preset; Pipe 1

Binary hydrocyclone works as follows.

The initial suspension under pressure enters the inlet 4, where it is divided into two streams, which enter the adjoining housings 1 and 2. In each case, the suspension is divided into clarified and thickened fractions. The condensed stream is led out through the sand pipes 7, and clarified through the drain pipes b into the drain chamber 3 and pipe 14.

When the flow of the initial suspension is rotated due to the discontinuity of the flow continuity, an air column is formed in the central part, rotating and moving in the same direction as the drainage flow. The air flow from each hydrocyclone enters the corresponding end of the arcuate tube 8.

Due to the fact that the divider 5 divides the initial stream into two streams, rotates in opposite directions, the air streams will rotate in hydrocyclones in opposite directions.

Due to the arcuate shape of the tube 8, two rotating in opposite directions of the air flow are directed towards each other. When they meet, one stream is neutralized by another. The internal diameter of the arcuate tube should be chosen according to the size of the air column and taken equal to O, the diameter of the discharge pipe b.

Thus, by supplying the hydrocyclone with an arcuate tube mounted in the holder with axial displacement, placing the convex part of the tube inside the drain chamber and installing the ends of the tube concentrically inside the drain nozzle, a 5-8% increase in separation efficiency is achieved by eliminating the harmful effect of the air column.

Claims (3)

1. The patent of Germany No. 2051357, cl. 12 d 1/01, 1973. 2. USSR author's certificate number 566633, cl. B 04 C 5/181, 1976. 3.Baturov V.I. and Leibovsky MG Hydrocyclones, designs and applications. TsINTIHIMNEFTEMASH, HM-1 series, M., 1973. B} (od suspension Fig. 2