RU85371U1 - Sieve Screen - Google Patents

Abstract

1. Screen sieve, including a screening surface with rows of holes, the frontal projections of each of which are hexagons, and the walls form a channel expanding from top to bottom, characterized in that, in order to increase screening efficiency and screen productivity by reducing clogging and increasing channel throughput holes, the frontal projections of the holes are in the form of hexagons with sides of different lengths. ! 2. Screen sieve according to claim 1, characterized in that the ratio of the lengths of the adjacent sides of the hexagons is 0.1-0.4, and the angles of inclination of the walls of the channel are 5-7 °.

Description

The device relates to the enrichment of minerals, namely to the separation by size of bulk materials and can be used in industries that extract and process ores and building materials.

The solution closest in technical essence is a screening sieve, including a screening surface with rows of cells, each of which is an equilateral triangle in the frontal projection, and in the longitudinal section is an isosceles trapezoid, the upper base of which faces the sieve working surface, characterized in that the angle of inclination lateral to the lower base of an isosceles trapezoid is from 3 to 5 with an isosceles trapezoid height from 5 to 12 mm. (No. 21362 of 08/14/2001)

The disadvantage of this device is the clogging of its holes (cells) during the sieving of bulk materials, due to jamming of grains in the corners of the triangles, and in this regard, a decrease in screening efficiency. In addition, stresses during sieve oscillations are concentrated in the sharp ends of the triangles, which leads to the formation of cracks in the sieve sheet and accelerate its wear.

The purpose of the proposed device is to improve the quality of screening by reducing clogging, increasing the throughput of the sieve holes and its service life is achieved by the fact that the sieve holes in the frontal projection are hexagons with sides of different lengths, and the side walls of the holes form expanding along the passage through them grain material channels.

Reducing the clogging of sieves with versatile hexagonal cells compared to equilateral triangular cells is achieved due to the fact that in the hexagons there are no sharp angles holding particles in the channels of the holes. Moreover, due to the significant difference in the lengths of adjacent sides, the number of contacts between particles and channel walls is minimized. Elimination of sharp corners in the cells also provides increased wear resistance of the sieve.

Figure 1.2 shows the elements of the proposed sieve.

In Fig. 1, a hexagonal hole is formed by cutting off acute angles in an equilateral triangle by sides perpendicular to the bisectors of the angles. At the same time, the following aspect ratios are optimal from the standpoint of a possible reduction in the area of the holes: AB = SD = EF, BC = ED = AF, AB / BC = 0.1-0.4.

The sowing surface of the screen is formed from several equivalent sieve elements mounted on the screen. Figure 2 shows an element of the proposed screen sieve. Section 1-1 shows the angle of inclination of the side wall of the hole, taken within 5 ° -7 °. These tilt angles are taken to reduce the braking of grains in the channels of the holes, while not allowing a significant expansion of the holes during wear of a sieve made, for example, of polyurethane.

The device operates as follows. When the initial granular mass is fed to the screen during its vibration, grains smaller than the size of the holes pass under the sieve, and larger ones are unloaded at the end of the sieve.

The industrial usefulness of this device is to increase the efficiency of screening of small granular products while ensuring high performance of the screen. A clear separation of products by size on the proposed sieve, while preparing them for subsequent enrichment, will create optimal working conditions for the processing equipment and, accordingly, obtain a significant economic effect.

Claims (2)

1. Screen sieve, including a screening surface with rows of holes, the frontal projections of each of which are hexagons, and the walls form a channel expanding from top to bottom, characterized in that, in order to increase screening efficiency and screen productivity by reducing clogging and increasing channel throughput holes, the frontal projections of the holes are in the form of hexagons with sides of different lengths. 2. Screen sieve according to claim 1, characterized in that the ratio of the lengths of the adjacent sides of the hexagons is 0.1-0.4, and the angles of inclination of the walls of the channel are 5-7 °.