RU99729U1 - RESONANCE WAVE CLASSIFIER - Google Patents

Abstract

 A resonant-wave classifier comprising a housing, a sieving device installed with an inclination inside the housing, and a pair of oscillation generators mounted on the walls of the housing and kinematically connected to the sieving device, characterized in that it is additionally equipped with frequency converters located outside the housing and electrically connected to oscillation generators, oscillation generators are mounted on opposite walls of the housing, the screening device is made of a screening mesh and fixed underneath resonating mesh and installed with an inclination toward one of the oscillators, and a kinematic connection of the screening arrangement with the oscillation generator is performed by transmitting the mechanical vibrations at a resonant grid.

Description

The device relates to the field of classification of bulk materials and can be used by processing enterprises.

A device for sorting bulk materials is known, which contains two oscillation generators mounted on the walls mounted on the walls of the housing, suspended horizontally on cable suspensions (see AS USSR N 264049, class B07B 1/36, 1968)

During the operation of the generators, circular vibrations of the body and transportation with screening of material located on the screening surfaces are created.

The disadvantage of this device is that the vibrators create circular or very close to them vibrations and the material on the screening surface for advancement on a horizontal plane is thrown up, which is associated with high energy costs.

This disadvantage is overcome in another known device comprising a housing, a sieving device installed with an inclination inside the housing and a pair of oscillation generators mounted on the walls of the housing and kinematically connected to the sieving device.

(see RF Patent No. 2069590, class B07B 1/40, 1992)

This device by technical nature and the achieved result is the closest to the proposed and, therefore, taken as its prototype.

According to a known technical solution, the resonant wave classifier comprises a housing mounted on suspensions, inside of which a screening device in the form of a box with a screening surface in the form of a grid is suspended obliquely in the direction of movement of the material. Oscillators operating in antiphase are fixed on the sides of the box at the same angle to its longitudinal axis, with the possibility of directing vibrations at the same angle to the longitudinal axis of the box in the plane of the screening surface.

When the device is in operation, oscillation generators are turned into antiphase mode. At the same time, they create a zigzag movement of the material without tossing along the screening surface. This reduces energy costs.

A disadvantage of the known device is its low efficiency, due to the formation of stagnant zones on the screening surface.

The technical result of the development is to increase the efficiency of the device.

The specified technical result is achieved by the fact that the resonant wave classifier, comprising a housing, a sieving device installed with an inclination inside the housing and a pair of oscillation generators mounted on the walls of the housing and kinematically connected to the sieving device, is additionally equipped with frequency converters located outside the housing and electrically connected with oscillation generators, oscillation generators mounted on opposite walls of the housing, the screening device is made of ivayuschey netting attached underneath resonating lattice and installed with an inclination toward one of the oscillators, and a kinematic connection of the screening arrangement with an oscillator, is performed by mechanical transmission of oscillations at a resonant grid.

By providing complex wave oscillations of the resonating grating and the sieving grid associated with it, at which the nodes and antinodes are constantly moving, the possibility of the formation of stagnant zones on the sieving surface is excluded.

The device is illustrated in the drawing.

Figure 1 schematically shows a General view of the classifier.

The resonant-wave classifier comprises a housing 1, a sieving device 2 mounted with an inclination inside the housing, a loading hatch 3 located above the sieving device, a finished product outlet pipe 4 and a screening outlet pipe 5 located under the sieving device, oscillation generators 6 and 7, fixed on opposite walls of the housing, frequency converters 8 and 9, each of which is located outside the housing and is electrically connected to one of the oscillation generators with the ability to control the frequency melting tension. The screening device consists of a screening grid 10 and a more massive resonant grating 11 fixed under it and is installed with a slope in the direction of movement of the screened material to the screening outlet, and the kinematic connection of the screening device with oscillation generators is carried out by mechanical transmission of vibrations to the resonating grid using levers 12 and 13.

The device operates as follows.

In the housing 1 on the screening device 2 through the loading hatch 3 serves bulk material to be sorted into fractions. The material falls onto the screening grid 10 and presses it against the resonating grid 11. At the same time, using frequency converters 8 and 9, the oscillation generators 6 and 7, respectively, are supplied with a supply voltage. The oscillation generators using the levers 12 and 13 form the waves of transverse vibrations in the resonant lattice. To eliminate stagnant zones on the screening surface of the grid, which can be formed in nodes of standing waves, oscillation generators have different frequencies that are not multiple to each other. The frequencies of the oscillation generators are tuned to resonance: one with odd oscillation tones of the resonating grating, and the other with even ones. In this case, 40 and 60 Hz. The final product, the desired fraction is discharged through the pipe 4, and the screening through the pipe 5.

The proposed resonant-wave classifier is highly efficient, simple in design, reliable and economical in operation, which provides a significant economic effect from its use.

Claims (1)

A resonant-wave classifier comprising a housing, a sieving device installed with an inclination inside the housing, and a pair of oscillation generators mounted on the walls of the housing and kinematically connected to the sieving device, characterized in that it is additionally equipped with frequency converters located outside the housing and electrically connected to oscillation generators, oscillation generators are mounted on opposite walls of the housing, the screening device is made of a screening mesh and fixed underneath resonating mesh and installed with an inclination toward one of the oscillators, and a kinematic connection of the screening arrangement with the oscillation generator is performed by transmitting the mechanical vibrations at a resonant grid.