SU1695999A1 - Vibration screen - Google Patents

Abstract

The invention relates to the separation of materials into fractions and m. used in food, chemical, mining promet, industrial construction materials, and other industries of the national economy. The aim of the invention is to increase the productivity of the screen and improve the quality of screening. The vibrating screen contains a case with screens fixed in it one behind the other (C), resiliently mounted in the case on both sides of the C traverse with attached vibrating actuators and associated with the Pushers (T). In this case, T are combined into groups and located on both sides of C at the corners of the rectangles and at the intersection points of the diagonals of these rectangles. T are located at the nodal lines of natural vibrations With low orders. The amplitude of the oscillations from the upper C to the lower decreases, and the frequency of the oscillations increases. In the course of operation T, vibration excitation pulses are transmitted in a direction perpendicular to plane C from different sides. The material supplied to the upper C under the influence of vibration is sifted through several C with different size of holes. 2 Il. (Ls

Description

The invention relates to the separation of materials into fractions and can be used in the food, chemical, mining, construction materials and other industries of the national economy.

The purpose of the invention is to increase the productivity of the screen and improve the quality of sieving.

Figure 1 shows the proposed roar, frontal section; Fig. 2 shows the layout of the pushers over the area of the sieve, the position of the nodal lines of natural oscillations of the sieve of low orders (from the first to the seventh), the rectangles formed

parallel parallel lines and diagonals of these rectangles.

The vibrating screen includes a case 1 with 2-5 screens fixed to it one above the other, traverse 6–9 resiliently mounted in the case with electromagnetic vibrators 10–13 attached to it. The pusher groups 14 and 15 are attached to the cross bars adjacent to the screens from below and above. The lower pushers 14 are located at the corners of the rectangles, and the upper pushers 15 are located at the intersection points of the diagonals of the rectangles. Moreover, they both are located near the nodal lines of the natural oscillations of the screens. Each overhead traverse with respect to the underlying has

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the amplitude of oscillation is lower, the oscillation frequency is higher. In the diagram of figure 2, the letter H denotes the pushers adjacent to the bottom of the sieves, and the letter B - to the top of the sieves.

The roar works as follows.

Vibrators 10-13 cause the oscillatory movement of the crossheads 6-9, with the groups of pushers 14 and 151 attached to them. In connection with the fact that the pushers are adjacent directly to the sieves, they transmit the vibration-generating pulses in the direction perpendicular to the sieve plane from different sides. Since the material is classified on the upper edge of the system by a larger separation boundary, the oscillation of this sieve has a large amplitude and a lower oscillation frequency. As the material passes through the sieves, the larger particles are screened out and the separation size of the underlying sieve is reduced. For a more efficient classification process with clear separation boundaries, the amplitude of the sieve oscillations is reduced and the frequency is increased. The material fed to the upper sieve under the influence of vibration is sifted through several sieves with different size of openings, divided into fractions and sent to the corresponding collections (loading and unloading bins are not shown conventionally in the drawing).

Ф орм ул а and з о б р ё te n and

Vibrating screen, comprising a body with a screening surface fixed in it, elastic bars mounted in the body on both sides of the screening surface, traverses with electromagnetic vibrators attached to them and connected to both sides of the screening surface, combined in groups of pushers, the lower ones of which are located

at the corners of the rectangles, and the upper corners at the intersection points of the diagonals of these rectangles, characterized in that, in order to increase the performance of the screen and to improve the quality of sieving,

the screening surface is made in the form of sieves located one below the other, while the lower and upper pushers are located at the nodal lines of natural oscillations of the sieves, each overlying

the traverse with respect to the underlying is set with the possibility of oscillations in amplitude below, and in frequency of oscillations aushe.

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Claims (1)

Claim Vibrating screen, comprising a housing with a screening surface fixed to it, elastic cross members installed on both sides of the screening surface of the traverse with electromagnetic vibrators attached to them and connected to both sides of the screening surface, pushers combined in groups, the lower of which are located at the corners of the rectangles, and the upper - at the points of intersection of the diagonals of these rectangles, characterized in that, in order to increase the performance of the screen and improve the quality of sifting, the sieving surface is made in the form of sieves located one under the other, with the lower and upper pushers located at the nodal lines of the natural oscillations of the sieves, with each overlying crosshead relative to the lower one being installed with the possibility of oscillations in amplitude lower and higher in frequency of vibrations. FIG. 1