SU503596A1 - Pneumatic mechanical aerator - Google Patents

Description

one

The invention relates to the field of mineral processing and is aimed at developing the design of an aerator installed in the chambers of a pneumomechanical flotation machine in the flotation of ores, coal, and mineral raw materials.

Known pneumomechanical aerator comprising a rotor and a stator. The rotor is a set of radially located trapezoidal plates and is located inside the stator, made in the form of a cylinder with windows for ejection of aerated pulp.

Known aerator does not provide

a sufficient degree of mixing and its aeration characteristics are relatively low, especially when installed in large-sized machines.

1 The advanced pneumo-mechanical aerator is characterized in that the rotor is made in the form of a cone with holes, on the periphery of which rods systems of various sections are installed at an angle relative to each other.

This allows an increase in the degree of per) mixing and aeration characteristics.

The drawing shows the proposed aerator, the cross section.

The rotor consists of a cone 1, on the periphery of which the rods 2 are cantilevered, forming conical surfaces intersecting in space at pg1Ulichnye angles. Cone 1 has a series of holes 3 and a central bushing 4, with which it is attached to a hollow shaft 5 On the casing 6 there is an overlapping flat disk 7 with some cwcio relative to the upper edges of the rods 2. The flat disk 7 has radial blades 8 of the stator.

Rods 2 of the rotor can be made of round or shaped section.

Works aerator as follows.

Air under pressure is fed through the hollow shaft 5 into the internal cavity of cone 1. / The pressure of the forced air and the vacuum created by the rotating rotor ensures the existence of an air boost that limits the circulating flow of the pulp penetrating the rotor through the gap of the lower ends. rods 2 and the bottom of the chamber. A part of the injected air through the hole 3 fills the rotor space formed by the cone 1 and the flat disk 7.

The process of subsequent air dispersion is determined by the conditions of 1.shiping the rods of the rods 2. Turbulent pulp jets resulting from the wrapping of the rods 2, mounted obliquely to the rotor rotor, lead to the ejection of the air phase in the rotor's internal cavity. The crushing of the air phase is carried out mechanically under the conditions of intense vortex formation and the effect of alternating pressure arising from the spatial interaction of rotating rods mounted at an angle.

The rods 2, installed in relation to the cone 1 on both sides, provide the aerator with a higher aeration capacity in terms of quantity, quality and quality of the processed air due to an increase in the interphase surface of the contact of the phases.

The inclination of the rods relative to the rotor axis enhances the intracameral circulation of the pulp, and consequently, the degree of mixing of the pulp-air mixture. This effect is achieved due to the difference in circumferential velocities along the length of the rod and the additional dilution created by the spatial interaction of rotating rods installed relative to each other at some angle.

The intensity of the dispersion process of the air phase is caused by the influence of the near-wall turbulence during the pulp-air flow under the action of the difference in peripheral velocities along the cones forming the rotation. During this movement, the pulp-air mixture for a considerable time is in the zone of action of intense small-scale turbulent pulsations, the frequency of which depends on the number of rods.

All these factors provide improved aeration characteristics as

the amount of air processed and the quality of its dispersion and lead to a significant improvement in the mixing capacity of the aerator.

Installation of radial blades of 8

torus on disk 7 leads to damping of turbulent flows, more uniform distribution of the air phase over the chamber volume and provides a more uniform field-velocity in the upper horizons of the ka: measures with vigorous stirring in

bottom of the camera.

Claims (1)

Invention Formula A pneumatic mechanical aerator comprising a rotor and a stator, characterized in that, in order to increase the degree of mixing and aeration characteristics, the rotor is made in the form of a cone with holes, on the periphery of which systems of rods of various sections are installed, which are angled one relative to another. I) //////// // ///// / / f f / / f f