SU1088805A1 - Hydraulic cyclone - Google Patents

Abstract

A HYDROCYCLONE containing a cylindrical housing with a tangential inlet, drain and Peskov fittings mounted along the axis of the housing with the possibility of axial movement of the rod with a regulator located in the drain connecting pipe, in order to ensure the separation efficiency by eliminating the possibility of driving the sand fitting and obtaining separation products with a predetermined granulometric composition and concentration of the solid phase, the rod is equipped. in the lower part, a disk to which a sand connection is attached by means of a flexible coupling, made in the form of a set of plates that form straight and reverse truncated prisms articulated with one another by large bases, while the upper base of the straight prism is attached to the conical parts of the body, and its lower base by means of a flexible connection — with a large base of a reverse truncated prism. oo oo 00 o ate

Description

The invention relates to a device for separating suspensions in the center of a bend field and can be used in the chemical, mining, oil-extracting and other industries. A hydrocyclone with a fine hydrodynamic body, an elastic element with a spring, and a device for compressing it, designed to regulate the sandy sand. JB, -1-hydrocyclone and 1 J holes. The device operation is controlled by changing the diameter of the sand nozzle by compressing the elastic element. This changes the ratio of the diameter of the drain and sand pipes and indicators of separation of suspensions. Famous-hydrocyclone containing a cylindrical body with a tangential inlet nozzle, a drain nozzle and a sand nozzle, made of elartic material and equipped with a crimping device. The adjustment of the separation indicators of the hydrocyclone is carried out by changing the flow area of the elastic sand packing, and the change is made with the help of two-sided squeeze rollers driven by a special C2 device. A disadvantage of the known hydrocyclone is the unpredictable change in separation performance when the nozzle is compressed due to asymmetry, its deformation, and the complexity of the actuator is excessive. The closest to the proposed technical essence and the achieved result is a hydrocyclo containing a cylindrical body with a tangential inlet, drain and Peskovy nozzles, mounted along the axis of the body with the possibility of axial movement of the rod with a regulator located in the drain nozzle ts. A disadvantage of the known device is the possibility of driving a sand tube. The purpose of the invention is to increase the separation efficiency by eliminating the possibility of driving a sand pipe and obtaining separation products with a predetermined grain size distribution and concentration of the solid phase. The goal is achieved by the fact that in a hydrocyclone containing a cylindrical body with a tangential inlet, drain and sand pipes, installed along the axis of the body with the possibility of axial movement of the rod with a regulator located in the drain pipe, the rod is equipped with a disk to which through a flexible connection, a sand nozzle is made in the form of a set of plates that form a forward and reverse truncated prism articulated with one another by means of large bases, with the upper base A straight prism is connected via a flexible coupling to the conical part of the housing, and its lower base is connected via a flexible coupling to a large base of a reverse truncated prism. FIG. 1 shows a hydrocyclone, a general view; in fig. 2 - sand pipe, general view; Fig. 3 is the same embodiment. The hydrocyclone consists of a cylindrical housing 1 with a tangential inlet 2, a central drain nozzle 3 and a sand nozzle 4, made at the end of a set of plates 5, forming a direct and reverse truncated prisms, with the upper base straight through The flexible connection 6 1 is connected to the conical part 7 of the housing 1. The lower base of the straight through the flexible connection 8 is connected to the large base of the reverse truncated prism. A disk, 10, connected by a flexible connection to the Peskov nozzle 4, is attached to the lower part of the rod 9. In the upper part of the rod 9 there is a float 11 located in the drain nozzle 3. The hydrocyclone works as follows. The initial suspension enters under pressure through the tangential inlet 2 to the housing 1, where it is intensively rotated. Under the action of centrifugal forces, the suspension is divided into condensed and clarified products. At the same time, the latter forms an internal upward flow discharged through the drain pipe 3, and the condensed product is discharged through the sand pipe 4 (through the vertical slots

between plates 5). By changing the axial position of the plates by means of the rod 9, the area of the passage section of the slots is adjusted and the ratio of the separation products is changed. Moreover, the adjustment can be carried out in a wide range smoothly, and the minimum change can be arbitrarily small, which allows adjustment with a high degree of accuracy.

A float 11 is provided on the rod 9 to prevent clogging of the sand pipe.

When clogging sand pipe float 11 pops up, raises a set of plates 5, which leads to an increase in the size of the vertical slots

between the plates. The solid phase is reset through the vertical slots, after which the apparatus automatically returns to normal operation.

The use of the proposed hydrocyclone is especially promising in the process of separation of heterogeneous systems with unstable content and particle size distribution of the solid phase in the original product, and a single adjustment of the apparatus is sufficient for its further stable operation.

So, with the thickening of abrasive micropolishing powders on such a device, the reduction of powder loss from 3.4 to 1% was achieved compared to the device-prototype.

Claims (1)

A HYDROCYCLONE containing a cylinder-conical body with a tangential inlet pipe, a drain and sand pipes installed along the axis of the body with the possibility of axial movement of the rod with a regulator located in the drain pipe, about ^{1 - 1} characterized in that, in order to increase the separation efficiency by eliminating the possibility of clogging sand branch pipe and obtaining separation products with a given particle size distribution and solid phase concentration, the rod is equipped with a disk in the lower part, to which by means of a flexible connection and a sand nozzle is attached, made in the form of a set of plates, forming large prism jointed with one another; direct and reverse truncated prisms, while the upper base of the direct prism is connected via a flexible connection to the conical part of the housing, and its lower base, via flexible connection, is connected to a large base of the reverse truncated prism. 1 1088805 2