SU1031538A1 - Sieve for screeing loose material - Google Patents

Abstract

1. A SITTING FOR USE MATERIAL GROUNDING, including a screening cloth fixed to the frame, a percussion device, which is identical to that. in order to increase screening productivity by self-cleaning of the screening web and additional grinding of the material, the percussion device is made in the form of metal chains located on the surface of the screening web and mounted on the frame. 2. A sieve according to claim 1, wherein the metal chains are arranged longitudinally and transversely, parallel branches forming the lattice. 3. Sieve on PP. 1 and 2, b t that the longitudinal and transverse branches of the metal chains are fastened at their intersections. SP 4. Sieve on PP. 1 and 2, the fact that metal chains are angled to one another. 00 el 00 00

Description

The invention relates to mineral processing, and in particular to a screen for screening bulk material, is intended for use in sieving processes after crushing of bulk materials in order to isolate more fragile valuable components from solid host rock and can be used in mining and other industries.

Known vibration sieves for the enrichment of ores [1).

The disadvantage of these sieves is that in the processing of ores, for example, mercury crushing after crushing with a large class, quite a lot of exposed ore often leaves, which cannot be separated from large pieces by simple screening. In addition, with wet ores, part of the sieve openings become clogged and. a lot of little things goes to the upper classes, which in turn reduces screening performance and the extraction of a valuable product.

Closest to the proposed: the technical nature and the achieved effect is a sieve for screening granular material, including mounted on the frame sifting canvas and percussion device £ 2].

A disadvantage of the known sieve is that valuable components are removed with a large class, since their separation from the rock is insignificant during screening.

The purpose of the invention is to increase the performance of screening by self-cleaning screening cloth and additional grinding material.

This goal is achieved by the fact that in a sieve for screening bulk material, including a screening cloth fixed to the frame and impact 10 located on the surface of the screening cloth and fixed on the frame.

In addition, metal chains are arranged by longitudinal and transverse parallel branches forming a lattice. The longitudinal and transverse branches of metal chains • are fastened at their intersections.

I Metal chains can be angled to one another.

for the same, with located

In FIG. 1 shows a sieve with parallel chains, a general view; in FIG. 2 metal chains, mi at an angle.

The sieve for screening the material includes a screening cloth 2 fixed on the frame 1 and a percussion device made in the form of metal chains 3. The chains 3 can be arranged in longitudinal and transverse parallel branches, or at an angle to one another. At points 4 of intersection, chains 3 are fastened. The length of chain 3 is selected from the calculation that the midpoints of adjacent chains 3 are in contact at maximum deflection.

When working metal chains 3 Produce shock and sliding. movements on the surface of the screening cloth 2, as well as on material moving along the sieve, and thereby increase the abrasion and destructive effect, and also prevent sticking of the screening cloth 2 during the separation of wet materials.

Thus, the presence of metal chains provides an increase in screening performance by self-cleaning screening

Claims (4)

1. Sieve for screening Of the FILLING MATERIAL, including the screening cloth fixed to the frame, a percussion device, characterized in that, in order to increase screening performance by self-cleaning the screening cloth and further grinding the material, the percussion device is made in the form of metal chains located on the surface of the screening cloth and fixed on the frame. 2. A sieve according to π. 1, with the fact that metal chains are longitudinal and transverse. parallel branches forming a lattice. 3. Sieve according to paragraphs. 1 and 2, characterized in that the longitudinal and transverse branches of the metal chains are fastened at their intersections. 4. The sieve according to paragraphs. 1 and 2, characterized in that the metal chains are located at an angle to one another.