SU831226A1 - Apparatus for sorting loose materials - Google Patents

Description

A disadvantage of the known device lies in its low productivity, due to the fact that the flow of particles reflected from the spherical surface narrows as it moves toward the receiving tank, therefore there is a possibility of collision of asters. This circumstance necessitates the provision of a high particle flux density from an annular dispenser.

The purpose of the invention is to increase the productivity of the sorting device.

The goal is achieved by the fact that the reflecting surface is formed by the rotation of a circular arc, the arc length being 0.7-J1., Q, the diameter of the circle, and the annular slot of the receiving capacitor of optical particles is located in the zone of the focal line of the reflecting surface.

The drawing shows the proposed device for sorting particles, a general view ,. ,

The device comprises a dispenser with an annular gap 1, a reflector 2 with a reflecting surface 3, a receiving container 4 for spherical particles with an annular gap 5 and a receiving container b for non-spherical particles.

The device works as follows.

The particles to be sorted through the annular gap of the dispenser 1 fall onto the reflecting surface 3. The falling height of the particles is chosen so that the reflected spherical particles reach the focal line of the reflecting surface (an imaginary line formed by rotating the circumference relative to the vertical), while only spherical particles for which the angle of incidence is equal to the angle of reflection. For particles with ceramic coatings, this condition is always fulfilled, since the impact is absolutely elastic. After reflection from the surface 3, spherical particles fall into the annular slot 5 of the receiving tank 4, and non-spherical particles, having other trajectories after the rebound, are collected in the hopper 6. By adjusting the width of the slot 5, the particles are sorted according to the non-sphericity coefficient.

The productivity of the proposed device is increased due to the fact that after reflection from the reflecting surface, the particles form a diverging flow, which reduces the probability of collision of the particles. In the proposed device, the slots of the receiving tanks are formed by faces, the shape of which eliminates the ingress of (4 spherical particles into the zone of flight of spherical particles, which improves the performance of the device and improves the quality of screening.

Example p. A device is tested when sorting particles with a diameter of 0.6-0.8 mm coated with pyrocarbon and silicon carbide. The density of a part is 4.5 kg / cm 3, the average non-sphericity coefficient is 1.06 (maximum 1.25).

A device is used with the following parameters;

The diameter of the surrounding surface (parts

about a circle), mm200

The length of a part of a circle that forms a reflecting surface during rotation, mm150 The diameter of the annular gap is a dose of .tor-, mm 160 Height of falling particles, mm 220 The width of the annular gap of the receiving container for spherical particles,

mm, .1,5

The results of sorting 100 g of particles on the known and proposed devices are presented in the table.

Known - 20 1.05

1.03

Thus, the invention improves productivity and improves the accuracy of screening.

Claims (3)

1.Patent UK No. 1297788, cl. B2M, pub. 1972. 2. USSR author's certificate number 65858, cl. G 01 N 3/52, 1947. 3. USSR author's certificate for application number 2450506/03, cl. B 03 B 13/00, 1977.