RU2233713C2 - Rotary vibrating sieve - Google Patents

Abstract

FIELD: civil engineering, mechanical engineering, pharmaceutical, varnish and paint and chemical industries.

SUBSTANCE: proposed rotary vibrating sieve has stationary plate-foundation with fastened on plate-foundation by means of springs. Drum is installed through frame on vibroplate. Drum is divided in volume by shutters with cells decreasing in size in direction of material flow and is divided into sections with volume decreasing in direction of material flow. Rotary vibrating sieve is provided with electric motors, one of which is connected with vibroplate in lower part of plant to create vibrating action. Step-by-step motor is secured in upper part of plant to provide periodical turning of drum.

EFFECT: intensified screening.

1 dwg

Description

This device allows you to separate bulk materials by particle size and can be used in construction, engineering, pharmaceutical, paint and varnish and chemical industries.

A vibration sieve is known, which is a flat sheet with holes that vibrates in a direction perpendicular to the sieve sheet. The frame of the vibrating sieve rests on the springs and oscillates under the action of the inertial force of the unbalanced mass rotating on the shaft, the bearings of which are mounted on the frame [Aksenov PN Foundry equipment. M.: Engineering, 1977, 504 p.].

The disadvantages of this device are its low productivity due to clogging of the sieve cells, as well as the difficult selection of separated particles.

Known vibration sieve with an electromagnetic vibrator on the frame. In this design, the oscillation is transmitted to the light moving part of the frame, on which sieves with different mesh sizes are fixed [Aksenov P.N. Foundry equipment. M.: Engineering, 1977, 504 p.].

The disadvantages of this device are the complex mechanism of unloading the material and a small amount of sifted product due to clogging of sieve cells.

The aim of the invention is a vibratory rotary sieve, which allows to intensify the process of sifting of the material. The proposed design of the vibratory rotary sieve implements a double effect on the separated particles of various ground substances and materials under the action of vibration and rotation. When the screens of the sieve dampers oscillate, the material is thrown up and moves in a direction approaching perpendicular to the sieve sheet. This direction of movement of the particles of the material is most favorable for sieving. In addition to this effect, a step-by-step rotation of the sieve occurs, which leads to a shift of large particles, the release of space between them, where smaller particles fall, thereby freeing the sieve cells.

Due to the complex chaotic vibrational rotation of the particles, they are constantly mixed, and the displacement of the particles relative to the sieve cells and each other under the action of rotation allows to avoid clogging of the sieves.

The design of the vibratory rotary sieve is a fixed foundation plate, on which a vibrating plate with a drum mounted on it is fixed using springs. The drum of the vibratory rotary sieve has a conical shape and is divided by shutter-sieves into several sections with different volumes (from 6 or more). Section “a” has the largest volume, since it is initially loaded with undivided material. Section “b” occupies a smaller volume, since medium-sized particles will be collected in it. Section “c” occupies the smallest volume of the drum, since particles smaller than the average remain in it, and section “g” is through, and the smallest particles are immediately removed from it (the design allows you to add additional sections).

The drawing 1 shows a diagram of a vibratory rotary sieve.

In the drawing are indicated:

1 - loading funnel, 2 - loading shutter, 3 - shutter in the form of a sieve with a large mesh size, 4 - shutter in the form of a sieve with a small mesh size, 5 - shutter in the form of a sieve with a small mesh size, 6 - vibrating plate made in the form a pallet, 7 - a stepper motor, 8 - a frame, 9 - a coupling, 10 - a conical drum, 11 - an electric motor with unbalances installed on its shaft, 12 - springs, 13 - a fixed foundation plate.

The operation of this device is as follows. Through the feed hopper 1, the material with the feed gate 2 open is fed to section “a” of the conical drum 10. Then, the charge gate 2 is closed. When you turn on the vibrator 11 there is a shaking of the vibrating plate 6, mounted on the springs 12 on a fixed base plate 13 with the possibility of movement relative to the latter. In turn, the vibrating plate 6 acts on the frame 8, by means of which the drum 10 is fixed in a vertical position. The stepping motor 7 located in the upper part of the installation at certain intervals by means of the coupling 9 rotates the drum 10, providing additional movement of material particles along the horizontal plane of the sieve and so In this way, “clogged” sieve cells are released. As the particles are separated according to their particle size distribution, they pass through the screen sieves 3, 4, 5 and accumulate in sections “b” (medium size) and “c” (less than average), and the smallest are immediately removed from section “d”. When reducing the yield of fines, the installation is turned off and the sieve shutters are sequentially removed in the following sequence 5, 4 and 3. Thus, the material-sized particles are unloaded. To accelerate the sequential unloading of material from each section after removing the sieve damper 5, 4, 3, the vibrator 11 is turned on.

The proposed design also allows you to clean the sieves in automatic mode. To do this, turn the screen sieves “clogged” side down, insert into the drum and turn on the vibrator.

Claims (1)

Vibrating rotary sieve, including a fixed base plate, on which a plate is mounted using springs with a drum mounted on it by means of a frame, dampers divided by volume with dampers decreasing in the direction of movement of the material, the mesh size that divide the drum into sections with decreasing volume in the direction of movement of the material, as well as with placed electric motors, one of which is connected to a vibrating plate at the bottom of the installation to create a vibration effect, and a stepping motor fixed in The upper part of the installation to ensure periodic rotation of the drum.