SU1639742A1 - Rotary centrifugal separator - Google Patents

Abstract

The invention relates to the centrifugal enrichment of minerals. The purpose of the invention is to increase the extraction of heavy useful components from a material of different composition due to the possibility of changing the parameters of rotation and oscillation of the bowl. On the basis of 1 separator, a drive with a kinematic transmission and a shaft (B) made of the upper 3 and lower 4 parts are installed. On the upper part 3, a bowl 5 is installed. Inside the lower part B there is a lower B 10 rotational oscillations. A lower platform (U) 11 is connected to the upper part B 10. At 11, grooves 12 are made in which unbalances are installed. moving along the other grooves is located the upper P 15. Inside the upper part of 3 V, the upper 16 rotary oscillations are connected to the P 15. In P 11, it is mounted with the possibility of moving along its grooves perpendicular to the direction of movement of P 15 an additional B 18. In this case, the B 18 is kinematically connected with the upper 3 part B and the middle B 19. With an average B 19 and lower fe

Description

The invention relates to the enrichment of minerals, in particular, to devices for the recovery of noble metals and other heavy mineral components from sand, concentrates and exploration samples.

The purpose of the invention is to increase the recovery of heavy useful components from a material of different composition due to the possibility of changing the parameters of rotation and oscillations of the bowl.

FIG. 1 shows a separator diagram, longitudinal section; in fig. 2 shows section A-A in FIG. one,

The separator includes a base 1, mounted on the base of the actuator 2 with a kinematic transmission and made from the upper 3 and lower 4 parts of the shaft. A bowl 5 is mounted on the upper part 3 of the shaft. The device for unloading the light fraction consists of tray 6, and the device for unloading the heavy fraction is from the hole 7 closed by the stopper 8 and the additional tray 9. Inside the lower part 4 of the shaft is installed the lower shaft 10 fluctuations. A lower platform 11 is connected to the upper part of the lower shaft 10 of rotational oscillations. The lower platform 11 has slots 12 in which unbalances 13 are installed with the possibility of moving along the slots 12. The upper platform 15 is located on the lower platform 11 with the possibility of adjustable transverse displacement along the slots 14. Inside the upper part 3 of the shaft is installed connected to the upper platform 15, the upper shaft 16 of the rotational vibrations. On the lower platform 11, an additional shaft 18 is mounted for movement along the slots 17 perpendicular to the direction of movement of the upper platform 15. A middle shaft 19 is installed on the lower platform on the lower shaft of rotational oscillations. middle shaft 19. The device is equipped with

located with the possibility of moving along the grooves 20 and kinematically connected with the intermediate shaft 19 and the lower shaft part 4 an intermediate shaft 21. On

intermediate shaft 20 has removable pulleys 22. Rifles 23 are located inside the bowl 5 to hold the valuable component.

The separator works as follows.

The rotation from the actuator 2 is transmitted to the lower shaft 10 of rotational oscillations, rigidly connected to the lower platform 11, which in turn is rigidly connected to

the upper platform 15 and the upper shaft 16 rotational vibrations.

In order to regulate the rotational speeds of the bowl 5, since its rotational speed is significantly lower than the frequency of rotational vibrations, rotation is transmitted to the intermediate shaft 21 and the middle shaft 19, from which, bypassing the lower 11 and upper 15 platforms, the upper part 3 of the shaft a bowl 5 rigidly mounted on it. As a result of the kinematic transmission, the bowl 5 receives rotational and rotational movements. The processed material is fed to the bottom of the bowl 5 (Fig. 1, shown by arrows) in the form

water pulp, where the heavy useful component is retained in flutes 23, and the tails are fed to tray 6 and removed.

At the end of the material pass, the stopper 8 in the bottom of the bowl 5 is opened, and the remaining material in the flutes 23 has a heavy useful component that is rinsed through the holes 7 in the bottom of the bowl 5 to the concentrate tray 9. For successful extraction with different compositions of the starting material.

various heavy useful components, the optimization of the parameters of the rotation of the bowl 5 and the amplitude of the rotational oscillations are necessary.

The rotation of the bowl is controlled by removable pulleys 22 of the intermediate shaft 21, and the change in the diameters of the pulleys is compensated by moving the intermediate shaft 21 through the slots 20. The eccentricity of the rotational oscillations is set by shifting the upper platform 15 relative to the lower platform 11 and through the slots 14. To avoid unmanaged additional vibration background negatively affecting the quality of enrichment and drastically reducing the service life of the separator, unbalances 13 are mounted on the lower platform 11 grooves 12 that establish dynamic balancing of the rotation of the bowl 5.

Claims (1)

Claims of the invention: A rotary centrifugal separator comprising a base, a base mounted electric drive with kinematic transmission, an electric drive and a shaft made of upper and lower parts, a bowl mounted on the upper shaft part and devices for unloading light and heavy fractions, characterized in that In order to increase the extraction of heavy useful components from a material of different composition due to the possibility of changing the parameters of rotation and oscillations of the bowl, it is equipped with m inside the lower part of the shaft, the lower shaft of rotational oscillations connected to the upper part of the lower shaft of rotational oscillations of the lower platform located on the lower platform with the possibility of adjustable transverse movement of the upper platform located below the lower platform on the lower shaft of rotational oscillations by the middle shaft installed in. Inside the upper part of the shaft and the upper shaft of rotational oscillations connected to the upper platform, located on the lower platform imbalances, mounted on the lower platform tforme movable perpendicular to the direction peremesche0 or upper platform and associated kinematically with the upper part of the shaft and the middle shaft, an additional shaft mounted movably and kinematically associated with secondary shaft and 5 the lower part of the shaft intermediate shaft and interchangeable pulleys mounted on the intermediate shaft. Editor A. Motyl Compiled by V.Mit nin Techred M. Morgenthal 27 20 1 FIG. 2 Proofreader S.Shevkun