SU816572A1 - Screen - Google Patents

Description

one

The invention relates to a technique for separating materials by size and can be used in the ore-dressing, construction, chemical and other industries.

Bibration screens with circular oscillations of working bodies are known, including a duct with a vibrating vibrator attached to it and a screening surface, and an OPO1S elastic, on which the duct I is mounted.

The main disadvantages of such screens are the S uneven distribution of dynamic loads in the duct elements excited by an unbalance vibrator. This disadvantage necessitates strengthening the duct at the points of attachment of the vibrator bearings, and, consequently, to an increase in its metal capacity; the impossibility of implementing intensive dynamic modes, since the currently existing mechanical vibrators do not provide the required durability when intensifying the operation of mass-produced screens.

A gyration screen is also known, consisting of a box with sieves, a vibration-proof frame, on which a box is installed by means of springs. Circular oscillations of the screen are excited by means of an eccentric shaft, the support bearings of which are fixed on the frame, and eccentric shaft: on the duct, 2.

The disadvantages of this screen are the complexity of the drive mechanism (vibrator), the uneven distribution of dynamic loads on the elements of the metal structures of the box, which leads to its premature destruction, and the impossibility of implementing dynamic modes and building large sizes on the basis of this screen layout.

The purpose of the invention is to reduce the metal intensity of the duct and to provide an automatic vibration cleaning of the hopper.

The goal is achieved by the fact that the vibrator is mounted on a vibration-insulated frame in the center of gravity of the oscillatory system, while the vibration-proof frame is made in the form of a bunker.

FIG. 1 shows a crash, general view; in fig. 2 - coupling unit with frame.

The screen consists of a duct 1 on which a working surface (sieve) is fixed, a frame 2, an unbalance-type vibrator 3, whose bearings are installed in the side walls of the frame, elastic shock absorbers 4 having a cylindrical shape with a central 1st hole and trunnions 5 evenly distributed along the beads the box, fastened from its outer sides, vibration isolators, 6, on which frame 2 is installed.

During the operation of the screen, the box 1 performs circular oscillations in a vertical plane. The transfer of the disturbing force from the rotating unbalance vibrator 3 to the box 1 is carried out through the frame 2, shock absorbers 4, trunnions 5. The inertia forces of the oscillating box 1 are perceived by elastic shock absorbers 4 evenly distributed along the sides of the box 1.

The unbalance vibrator 3 is set at the center t gesture of the oscillating system. This condition must be fulfilled so that when the screen is running the minimum of ramming Rama 2 does not practically participate in the technological process, therefore its amplitude should be minimal. This is achieved by adjusting the stiffness of the shock absorbers 4 such that the screen is operating in the antiresonant mode.

When this mode is implemented, frame 2 practically does not oscillate and plays the role of a link transmitting and uniformly distributing the force from the vibrator 3 to the box. 1. Subframe vibration insulators 6 serve to reduce the dynamic forces transmitted to the supporting structures. Since the frame 2 practically does not oscillate during operation, there will be no dynamic loads on the supporting structures.

In a real oscillatory system, the dynamic parameters are not. constant values. For example, on screens, sticking of a difficult material occurs, the weight of the duct increases, the vibration frequency decreases, with its own oscillation frequency. The operating mode of the screen leaves the antiresonance zone and approaches the resonant mode. At the same time, the amplitudes of oscillations of the duct and frame are increased, a more intensive mode of oscillation is established, the speed of movement of the material increases, the roar relieves the excess technological load. As a result, the duct mass is reduced and the initial mode of oscillation is established. This property can be used more fully if the frame is made in the form of a bunker for receiving the undersize product. As you know, the undersize product contains a large number of small wet particles adhering to the walls of the bunker. Normally cleaning

0 bins are made by hand. In the proposed screen, the cleaning of the bunker will be performed automatically at the moments when the screen rumbles out of the antiresonant mode.

Reducing the metal box

This is accomplished by mounting the vibrator on the frame and evenly distributing the bearing pins along the sides of the box.

Claims (2)

1. Operation and repair of coal preparation equipment. M., Nedra, 1973. 2. Reference enrichment ore.M., Bowels, 1972, t. 1, p. 63-67 (prototype). iUi.Z