CS231424B1 - Sorting sieve from plastics - Google Patents

Abstract

A plastic sorting screen is shown Fig. 1. Fractional sorting is determined of solid abrasive particles. It consists of steel supporting frame and mesh segments. The mesh segment is made of abrasion resistant plastic. Inside the screen body of the segment is a solid mold plastic. Different physical-mechanical properties plastics. with which it is screened The segment is made to cause a mesh the segment shows permanent strain on the screen surface stiffness and stability of geometric shape. A new sorting screen can be used construction material producers, construction in the coal, mining and chemical industries.

Description

The invention solves the type of stretched plastic sorting screen for fractional sorting of solid abrasive materials.

Sorting screens are made of metal (eg from treated steel wire, perforated anti-abrasive steel sheet); not of rubber and of elastomeric polyurethane.

In Czechoslovakia, so far only steel sieves are produced, mostly woven from patent wire.

Their disadvantage is a very short lifetime. Replacement requires labor and reduces equipment productivity. Sieves of non-metallic materials have great advantages over steel sieves in terms of durability, less noise and self-cleaning effects from wedged grains and stickers in holes.

The screen must be tensioned in the screens of the screens to transmit the vibrating effects of the screening machine well. This is particularly important in non-metallic sieves, as they are deformed due to the flow and weight of the screened material. Their application has my design problems in attaching to the screen of the sorter so that the screening surface remains flat and although it is of a flexible and soft material, it has the character of a rigid surface that perfectly ensures the transmission of the vibrating effect of the screening machine.

This requires a special structure of the support frame, which enables the fastening of the screen elements, their tensioning and the ease of replacement of damaged segments or the entire screen surface. The construction of such a frame is demanding, fastening and opening requires a wide edge of each segment, which reduces the free overflow surface.

According to the prior art, the screen surfaces are attached to the support frame by means of retaining pins of different construction, or are branched into a support plastic frame in which the breaking steel ropes are embedded. Therefore, a support frame must be specially prepared for each sorting machine.

These disadvantages are eliminated by the plastic screen according to the invention. The screen consists of screen segments formed of abrasion-resistant plastic in which a rigid plastic frame is sprayed.

The different physico-mechanical properties of the materials cause the sieve to retain its geometric dimension and tension. The screen area is a system of independently switched off network segments.

The attachment to the supporting steel frame is simple and does not need other fastening mounts. At the bottom of the two parallel edges of each screen segment is a shaped recess that corresponds to the profile of the support frame.

The sieve segments are fastened by sliding the shaped recess into the profile of the support frame. The openings of the sieve surface widen conically in the direction of the sink to avoid clogging of the openings.

the ribs of the apertures are provided with braking protrusions, so that the sorted material does not slide over the sieve surface and the individual grains are directed into the apertures. The longitudinal edges of each sieve segment are provided with deflecting protrusions which, when the two sieve segments are joined, form an isosceles triangle profile, not allowing movement of the sorted material across the area without holes.

The advantages provided by the screen according to the invention are as follows. The low weight of the support frame and the sieving screen allows lower power consumption of the sizing machine and reduces production costs. Easily replaceable damaged screen segments or the assembly of a sieving screen reduces labor and increases productivity for the entire machine.

Compared to metal screens, the cost of screen renovation is reduced only by replacing damaged screen segments. Elastomeric plastics have multiple wear resistance compared to steel wire. As a result, the life of the sieves and thus the economy of the screening of the abrasive materials are increased in proportion.

The elasticity of the plasticized plastic allows the self-cleaning of the wedge-shaped or non-woven plastic parts. to a certain degree, eliminating the lower free fall area compared to wire screens. By pre-stressing the mesh segments with a fixed frame, the geometric stability of the mesh is ensured.

This allows the sieve segment to be attached to the support frame of the sorting machine only on two parallel sides, thereby providing a relatively high sink surface. The stiffness of the screen segment ensures good transmission of the vibrating effect of the screening machine to the screen surface.

A sorting screen made up of screen segments independently reinforced by a rigid frame can be mounted on any type of screen used by simple modification of the support frame which is part of the invention.

Adjustment of the supporting frame is carried out by each user of the sorting machine without any special tools. The noise during sorting is reduced.

The screening screen is shown in FIG. I. FIGS. 2 and 3 show the screen segment in cross-section and plan view. The plastic screen is made of a support frame and at least one screen segment.

The production of the screen segment 1 consists in the following technology. The frame 6 is molded from a rigid plastic, e.g. polyamide. This is placed in the mold for the sieve segment 1 and sprayed with softened PVC. The support frame 8 is made of profiled steel with a strength corresponding to the dynamic effects of the sorting machine.

In the longitudinal axis, a gripping device 2 having a corresponding profile as a recess 2 of the sieve segment 1 is fastened to the support frame. This completes the production of the screen.

Any damaged network segment 8 is removed and a new one is inserted in its place. Plastic sorting screen can be used for traction sorting of solid abrasive particles such as crushed and mined aggregates, metallurgical and mining products, semi-finished chemical industry.

Claims (3)

OBJECT OF THE INVENTION A plastics sorting screen comprising a support frame with a fastening profile and at least one sieve segment formed by a frame and a sieve surface of abrasion-resistant plastic, the apertures of which are conically widened in the direction of fall of the sorted material, characterized in that the frame (2) is formed made of rigid plastic and is injected inside the sieve segment body (1). 2. A plastic sorting screen, characterized in that the screen segment (1) is provided with deflection projections (6) located at its longitudinal edges and with braking projections (7) formed on the ribs (8) of the screen surface (3). Plastic sorting screen, characterized in that a recess (9) corresponding to the grip profile of the support frame (4) is formed in the lower part of the two parallel edges of the screen segment (1).