RU51534U1 - Sieve Screen - Google Patents

Abstract

A useful model of screening sieve relates to the field of processing and sorting of bulk materials, mainly crushed stone. Screen sieve in the middle, most wear part, reinforced with longitudinal supports. This eliminates the deflection of the surface of the sieve and the formation of a pseudo-groove. Additionally, the middle part of the sieve is raised above the edges to a height not less than the size of the sifted fraction, which, in turn, allows you to evenly use the entire surface of the sieve and, thus, increase the efficiency of screening.

Description

The utility model relates to mining and, in particular, to the processing and sorting of crushed rock.

Screening is the main process for separating bulk materials into bulk products (see Abramov A.A. Processing, enrichment and integrated use of solid minerals vol. 1 M., Moscow State University, 2001, 471 pp.). The main indicator of screening is the efficiency characterizing the accuracy of separation of material by size, and numerically equal to the ratio of the number of under-sieve (waking up) product to the total amount in the original product.

The main unit of the screen is a sieve. Various types of screens are known: grate, stamped, cast, welded, wire and even rubber. For large screening (particle size from 50 to 300 mm), grate grates are used, for medium and small (particle size from 10 to 100 mm), welded and stamped grids are used (RF certificate for utility model No. 21362, RF patent No. 2203148).

At the enterprises of building materials for the production of crushed stone, the most common screens are mechanical types - GIL, GIS and GIT. (Heavy inertial roar GIT - 52M, OJSC Rudgormash., Vorozhnezh, 2004. SMD roar - 121 A, Kostroma Plant, Strommashina, Kostroma, 2004).

The disadvantage of screens in these screens is a decrease in screening efficiency. The reason is that during the operation of the sieve its middle part bends and wears out more intensively with the formation of a pseudo-groove. The edges of the sieve are less worn out. Since the width of the screen is greater than the width of the conveyor belt, the main effect of the unseparated product is on the middle part of the screen. As a result of this, a significant portion of the useful fraction of the rock,

moving in a pseudo-groove stream, it is “erroneously” classified as larger.

The purpose of the utility model is to ensure equal screening efficiency throughout the entire life of the sieve and to ensure that the entire surface of the sieve is fully engaged.

This goal is achieved in that the screen sieve in the middle part is reinforced with longitudinal supports, for example, a corner or channel. The middle part rises above the edges of the sieve to the height of the sifted fraction, i.e. when screening crushed stone fractions of 5 ... 20 mm, this height is about 20 mm.

The proposed design of a screen sieve type GIL-52 is shown in the diagram (Fig.) The screen sieve consists of a screening surface with cells 1, longitudinal supports in the middle part 2 and frame 3.

The specified sieve design is used on screens of crushing and screening plants of OJSC Granit - Kuznechnoye. Its application allowed to increase the efficiency of screening of crushed stone fractions of 5 ... 20 mm and 20 ... 40 mm and to replace screens or repair them 2 times less.

Claims (2)

1. Screen sieve, including a screening surface with rows of cells, characterized in that in the middle of the sieve additionally installed longitudinal support, for example, a corner or channel. 2. The screening sieve according to claim 1, characterized in that the middle part of the sieve is raised above the edges to a height not less than the size of the sifted fraction.