RU1813581C - Hydraulic cyclone separator - Google Patents

Abstract

Usage: for cleaning petroleum products from mechanical impurities. SUBSTANCE: in a hydrocyclone containing a cylindrical-conical housing 1, a filter element 3 located on the drain pipe 8 is provided mounted concentrically with the possibility of rotation around the last cylindrical casing 2. Vertical plates 4 are attached to the inner wall of the housing 2, adjacent the opposite side to the filter element 3.1 e.p. f-ly, 2 ill.

Description

The hydrocyclone is intended for purification of oil products from mechanical impurities. It can find application in the chemical, oil refining and other industries.

The purpose of the invention is to increase the service life of the device by increasing the efficiency of the regeneration of the filter element.

Figure 1 presents a General view of the hydrocyclone; figure 2 is a section aa.

The hydrocyclone consists of a cylinder-conical housing 1, in which a filter is coaxially mounted, consisting of a cylindrical casing 2 and a filter element 3 made of a filter mesh laid around the frame. On the inner walls of the casing 2 are fixed vertical plates 4 made of an elastic material (e.g. rubber) and adjacent the opposite side to the filter element 3. The filter casing 2 is mounted for rotation around its axis. A conical element 5 is placed in the lower part of the filter casing 2, in the center of which there is a swirler 6. The cleaned liquid is supplied to the hydrocyclone through the tangential inlet pipe 7, the purified liquid is released through the outlet pipe 8, and the main mass of contaminants is removed through the sand pipe 9.

The hydrocyclone works as follows.

The liquid to be cleaned through the tangential inlet pipe 7 enters the housing 1 of the hydrocyclone 1, where it acquires rotational motion, moves to the conical part of the housing 1, then, changing the direction of motion, passes through the swirl 6, where it again acquires the rotational motion in the same direction as the flow liquid entering the hydrocyclone body 1, the passage through the filter element 3 and through the outlet pipe 8 is removed to the consumer. During the movement of the liquid, the particles of pollution having a sufficiently large mass and density under the action of centrifugal forces are thrown to the walls of the housing 1 and

flow down them into the sand nozzle 9. Contaminant particles whose density is low (e.g., inorganic contaminants) are entrained by the fluid flow and are retained by the filter element 3. When the flow of the cleaned liquid after the e-swirl 6 enters the filter casing 2, the latter starts to rotate. In this case, the vertical plates 4 in contact with the filter element 3 clear it of impurities deposited on the filter screen. In addition, the rotation of the filter casing 2 in the direction of rotation of the cleaned liquid, allows to reduce the friction of the liquid

about the walls of the casing of the filter 2, and, therefore, increase the effect of centrifugal cleaning of the hydrocyclone, which also contributes to an increase in the service life of the filter element 3.

The proposed design allows to increase the life of the hydrocyclone and to ensure high-quality liquid purification from both inorganic and organic pollution.

Claims (2)

1. A hydrocyclone comprising a cylindrical-cylinder housing with a tangential inlet, sand and outlet perforated nozzles, a filter element located on the drain nozzle, and vertical plates, characterized in that, in order to increase the resource, it is provided with a cylindrical casing concentrically mounted outside the filter element, to the inner wall of which are attached vertical plates adjacent the opposite side to the filter the element, while the cylindrical casing is mounted to rotate around the filter element. 2. The hydrocyclone according to claim 1, about t and h and damp and so that, in order to increase the efficiency of the regeneration process of the filter element, it is equipped with a conical element in the center of which a swirl is placed, while the cone is located in the lower part of the cylindrical casing. Aa Figure 2