RU130887U1 - VIBRATION MULTI-YEAR SCREEN FOR SORTING FINE GRAIN MATERIALS - Google Patents

Abstract

A multi-deck vibrating screen for sorting fine-grained materials, including a block exciter, consisting of two inertial vibrators, creating directed rectilinear vibrations, as well as a movable box mounted on springs on a fixed support frame and containing horizontally mounted frames with sieving screens, characterized in that the vibration exciter is made with the possibility of mounting on the box in various positions so that when changing the angle of the direction of oscillation, the vector The excitation force of the vibration exciter is always directed to the center of gravity of the vibrating screen mass.

Description

The utility model relates to equipment for sorting bulk materials, namely to multi-deck vibrating screens and is intended for separation by size of fine-grained materials.

Known multi-screen vibrating screen (patent RU 2406576, B07B 1/40, publ. 12/20/2010), including kinematically connected to the vibrator box with attached removable sieves, including a frame with a screening surface, loading and unloading devices. Under all sieves, except the lower one, rigid flat gutters are fixed, inclined to the side opposite to the direction of movement of the sorted material with the possibility of overloading the under-sieve product on a lower sieve. The device allows to increase the efficiency of screening and the performance of the screen due to the repeated return of the under-sieve product of the sorted material on each lower sieve to the side of the loading device. The disadvantage of this device is that in order to achieve increased screening efficiency and screening performance, multiple oversizing of the under-sieve product is required.

Known vibrating multi-deck screen for sorting fine-grained materials (patent RU 123350, B07B 1/40, publ. 12/27/2012), adopted as a prototype, including vibration exciter, creating directional linear vibrations and made in the form of a single unit consisting of two inertial vibrators, and also a movable box mounted on the springs on a fixed support frame and containing horizontally mounted frames with screening sieves, with each frame having stops for installing jacks that allow the replacement of . The engine is mounted on a fixed support frame. The disadvantage of this device is the inability to change the angle of direction of linear vibrations to the screening sieves when classifying various types of materials with different properties and, as a result, affect the achievement of optimal parameters of vibrotransport and screening of the sorted material.

The task to which the creation of a utility model is aimed is to ensure the possibility of obtaining optimal technological parameters (productivity and screening efficiency) by classifying various types of materials with different properties by changing the direction of action of the driving force of the vibration exciter.

The fact is that when the position of the vibration exciter on the screen box changes, the angle of the direction of action of the driving force of the vibration exciter changes and the ratio of the vertical and horizontal vector of the direction of vibration of the box. Thus, an increase in the horizontal vector contributes to an increase in the speed of passage of the material and, consequently, in the performance of the screen. An increase in the vertical vector helps to reduce the speed of movement of the material and increase the intensity of the tossing, which contributes to an increase in screening efficiency. Consequently, depending on the set technological task, on a screen with a variable angle of direction of linear vibrations of the box, you can change such technological indicators as productivity and screening efficiency. The straightness of the vibrations is ensured by the passage of the resulting vector of the driving force of the vibration exciter through the center of gravity of the vibrating screen mass.

To solve this problem, the design of a vibrating multi-deck screen (FIG. 1) is proposed. The screen includes a block vibration exciter (1), consisting of two inertial vibrators and creating directional rectilinear vibrations. The vibration exciter is mounted on a box (2) mounted on springs (3) on a fixed support frame (4) and containing frames horizontally mounted in it (5-9) with sieving screens. Unlike the prototype, the vibration exciter can change the angle of direction of rectilinear vibrations to the sieving screens. This is achieved by attaching the vibration exciter to the box using holes and bolted joints located along a radius, the center of which is at the center of gravity of the vibrating screen mass. By reinstalling the vibration exciter on a different row of holes, we change the angle of installation of the vibration exciter relative to the box, but maintain the direction of oscillation through the center of gravity of the vibrating screen mass, which helps to ensure the straightness of the box vibrations.

The device operates as follows: under the influence of unbalanced masses of vibrators rotating in opposite directions, the screen box makes directional vibrations with a given frequency and amplitude. The material in the box under the influence of vibration is evenly distributed on the surface of the upper sieve and then transported along the sieve, divided into sub-sieve and over-sieve products. The under-sieve material, falling on the lower sieve, also moving along its surface, is divided into sub-sieve and over-sieve products and so on to the lower sieve. The products, reaching the edge of the sieve, are poured into a funnel and transported through hoses connected to the outlet pipes to collection containers.

To adjust the screen to achieve optimal technological indicators (productivity and screening efficiency) of sorting the source material into over-sieve and under-sieve products, the angle of the box vibrations is changed on the screen by moving the vibration exciter mount on the box to various positions of the mounting holes.

An advantage of the claimed device is the ability to change the direction vector angle of the resulting driving force of the vibration exciter while maintaining the straightness of the box vibrations to ensure uniform distribution of the sorted material over the entire area of the screening surface and its high-quality sifting.

Claims (1)

A multi-deck vibrating screen for sorting fine-grained materials, including a block exciter, consisting of two inertial vibrators, creating directed rectilinear vibrations, as well as a movable box mounted on springs on a fixed support frame and containing horizontally mounted frames with sieving screens, characterized in that the vibration exciter is made with the possibility of mounting on the box in various positions so that when changing the angle of the direction of oscillation, the vector The excitation force of the vibration exciter is always directed to the center of gravity of the vibrating screen mass.

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