SU952348A1 - Hydraulic cyclone - Google Patents

Description

connecting a truncated cone to the body with a smaller base; output devices of the heavy and intermediate fractions; one and a half torso located on the larger base of the truncated cone, in which the output devices of the heavy and intermediate fractions, made in the form of a rod and a coaxially arranged branch pipe, are installed in the upper part Which are equidistantly mounted parabolic elements, with the stem and coaxially located cutting rods installed with the possibility of an iBoro axle displacement relative to each other and the housing. The drawing shows a hydrocyclone, a general view1 A hydrocyclone consists of a cylindrical body 1 and a tangential inlet 2, adjacent to the body with a smaller base of a truncated cone 3, one and a half 4, located on a larger base of a truncated cone, a nozzle 5 of the light fraction output and heavy and intermediate output devices fractions. A heavy fraction output device consists of a nozzle 6, in the upper part of which parabolic element 7 is installed. The intermediate fraction output device consists of a central rod 8, in the upper part of which parabolic element 9 is placed. A receiving chamber 10 with a branch pipe is provided for collecting the heavy fraction. 11 you are water of heavy fractions. The hydrocycle works as follows. The initial mixture of substances that are not uniform in specific gravity is supplied under pressure through the tangential inlet 2 to the cylindrical billet 1 and is re-charged. Under the action of centrifugal force, the yellow fraction with a large specific gravity is thrown against the walls of the apparatus and forms a near-wall layer, which descends along a spiral helical trajectory into a truncated cone 3 and one-and-a-half. weight, smoothly changes the direction of its movement, and due to the additional effect of the forces of inertia caused by the presence of the torus radius, the content of the heavy fraction in the near-wall layer in the lower part of the apparatus increases This stream enters through the annular channel formed by the inner surfaces of one and a half 4 and the parabolic element 7 fixed on the nozzle 6 into the lower receiving chamber 10, from where it is removed through the nozzle 11 of the heavy fraction. The fraction of the substance with a lean specific gravity, forming an internal rotating flow, is removed by the apparatus through the nozzle 5 of the light fraction. The intermediate product, which is a mixture of fractions with different specific weights, flows through an annular channel formed by the outer surface of the parabolic element 7 and the inner surface of the element 9 mounted on the central rod 8 to the nozzle 6 and is removed from the apparatus. Since the intermediate product is close in composition to the original, it can be returned to the hydrocyclone again for separation. The initial mixture can be variable in composition and one of the ways to maintain a high separation rate is to control the volume distribution of the streams. Thus, with a significant content in the starting material of the fraction. With a large specific gravity, the ratio of the flows of the upper and lower discharges decreases as a result of an increase in the amount of product that passes through the lower discharge, i.e. the annular gap in the output device of the heavy fraction increases. Conversely, in the case of a significant content in the initial mixture of a fraction with a lower specific gravity, the ratio of the flows — upper and lower discharges — increases, i.e. the annular gap in the heavy output device is reduced. Similarly, it is possible to adjust the separation efficiency by the size of the annular gap in the output device of the intermediate fraction. For fractions with a significant difference in specific gravity, when the separation process takes place with high efficiency, there is no need to recirculate a large amount of intermediate product, and consequently, the annular gap in the output device of the intermediate fraction is small. With an insignificant difference in specific gravity, a larger annular gap is established, since the separation efficiency is lower and the intermediate product must be recycled so as not to contaminate one of the drains. Thus, by supplying the hydrocyclone with a ½ torn located on the larger base of the truncated cone, in which the output devices of the heavy and intermediate fractions are installed, made in the form of two parabolic elements equidistantly mounted in the upper part of the stem and coaxially located branch pipe with the possibility of axial movement relative to each other and the hull, enriched fractions are obtained by adjusting the volumetric distribution of flows and removal of full faction.

Claims (1)

Claim A hydrocyclone containing a cylindrical body with a tangential inlet pipe and a light fraction outlet pipe and a truncated cone adjacent to the body with a smaller base, heavy and intermediate fraction output devices, characterized in that, in order to increase the separation efficiency by eliminating areas of increased turbulence in the areas adjacent to the output devices, it is equipped with one and a half located on the larger base of the truncated cone, in which the output devices of the heavy and intermediate fractions are installed th, made in the form of a rod and a coaxially located nozzle, in the upper part of which parabolic elements are mounted equidistantly, while the rod and coaxially located nozzle are mounted with the possibility of axial movement relative to each other and the body. 10 ί Sources of information taken into account during the examination 1. A. Povarov Hydrocyclones in processing plants. M., Nedra, 1978, p. 188, fig. 6.4 g. 15 2. USSR Author's Certificate No. 688238, cl. B on 04 3/06, 1979. VNIIIPIZ order 6015/12 Draw 619 Subscription Branch of PPP Patent, Uzhhorod, st. Project, 4