SU1480185A1 - Centrifugal extractor - Google Patents

Abstract

The invention relates to centrifugal extractors with adjustable hydraulic locks, allows to simplify the design and expand the versatility of the extractor. For this, the hydraulic lock is made in the form of tubes 15, for example two, installed symmetrically in the rotor 3 in a plane perpendicular to its axis of rotation with the possibility of rotation relative to its own axes, with the input end 16 of the tubes 15 placed at the wall of the rotor 3, and the central part of the tubes 15 has a curvilinear section 23, which, when turning the tubes 15, adjusts the radius RT of the overflow of a heavy headgear. The device will find application in the hydrometallurgical, radiochemical, food and medical industries. 3 il.

Description

The invention relates to apparatus for carrying out solvent extraction processes, in particular to centrifugal extractors, in particular to extractors having devices for adjusting the overflow radii of phases.

The purpose of the invention is to simplify the design and expand the versatility of the work of the extracto.

FIG. 1 shows a centrifugal extractor circuit; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 2

The centrifugal extractor consists of a housing 1, a drive 2 and a rotor 3. The housing 1 contains a mixing chamber 4, chambers 5 and 6 for outputting the separated phases (light and heavy, respectively), branch pipes 7 and 8 for supplying original solutions and outlets 9 and 10. The rotor 3 includes a separation chamber 11, an emulsion transporting device 12, light phase outlets 13 and a hydraulic lock 14 for outputting the heavy phase. The lock 14 is made in the form of, for example, ftwo-bent tubes 15, installed symmetrically in the rotor 3, in a plane perpendicular to its axis of rotation at a distance of 1 from it, with the possibility of rotation about its own axes. The inlet end 16 of the tubes 15 is placed at some distance from the wall of the rotor 3 for entering the desired phase into the hydraulic lock 14 from the separation chamber 11,. The opposite end 17 of the tube 15 for withdrawing the heavy phase from the water seal 14 passes through the wall of the rotor 3 and has a stop collar 18 for fastening the tube 15. The rotor 3 for fastening the tube 15 is provided with a threaded sleeve 19 with a stop collar 20, a fastening nut 21 and a gasket 22. Central part

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tubes 15 has a curvilinear section 23 (bend), which, when turning the tubes 15, adjusts the radius RT of the overflow of the heavy phase. (From maxmax The minimum overflow radius of the heavy phase, (RT MYN) will occur when the bend 23 of the tubes 1 is in the vertical plane relative to the axis of the rotor 3, and the maximum overflow radius (Ktmais | when bend 23 is in the horizontal plane relative to the axis of the rotor 3.

The extractor works as follows.

The original solutions through the nozzles 7 and 8 enter the mixing chamber 4 where they are mixed. The emulsion formed is supplied by the transport device 12 to the rotor .3. In the separation chamber 11, centrifugal forces separate the emulsion into phases. The light phase is located closer to the center and through hole 13 enters the output chamber 5, from where it is removed by nozzle 9 by gravity from the extractor. The heavy phase accumulates at the periphery of the separation chamber 11, from which, entering the input end 16 of the tubular seal 14, moves toward the center and, after passing through the bend 23 in the center of the tube 15, moves toward the end 17 and enters the output cell 6 of the heavy phase and further through pipe 10 is removed from the extractor.

The adjustment of the radius RT of the overflow of the heavy phase is carried out in the following sequence. It is necessary to stop the extractor, remove the detachable part from the housing 1 (drive 2 and rotor 3 with the emulsion transporting device 12), loosen the nut 21, turn the tube 15 beyond the protruding end 1 7 to a certain angle ei, thereby changing the overflow radius RT

in heavy phase. The angle ei of rotation of the tube 15 for adjusting RT varies from 0 to 90 °. After the tubes 15 are symmetrically set to the desired angle 6 corresponding to a given Rt, they are fixed relative to the rotor 3 by a nut 21. The adjustment range of the overflow radius RT over the hard phase from R 1 Mindo RJ Myx provides the required position of the phase boundary in separation chamber 11 at different capacities and with different physical properties of the processed solutions.

The proposed extractor, in comparison with the known one, has a simplified rotor design and an increased tightness, which allows changing the diameter of the hydraulic seal and, therefore, the speed of movement of the heavy phase in the hydraulic seal. This allows the extractor to recycle the solutions with the presence of solid impurities, eliminating the clogging of the rotors, thereby expanding the versatility of the extractor.

Claims (1)

Invention Formula A centrifugal extractor comprising a housing with a mixing chamber and phase collection chambers, an actuator, a rotor with a stirrer, a conveyor emulsion device and a hydraulic lock, which, in order to simplify the design and increase the reliability of the extractor, the hydraulic lock is made in the form of tubes with a curved central part, installed symmetrically in the rotor in a plane perpendicular to its axis of rotation, can be rotated about their own axes, with the input end of the tubes placed at the wall rotor. A-l fui.f G-G Fiyo: ъ