SU1627283A1 - Vibrating separator - Google Patents

Abstract

This invention relates to a bulk material separation technique. The goal is to increase the productivity and quality of the separation process. The working friction surface (FP) 1 is inclined in the longitudinal direction at the vibrating table 4, and the main 2 and additional 3 reflective FPs in the form of endless conveyor belts are above the main 2 OP 1 installed receivers 9 separation products. The FP 2 and 3 are installed in series with a gap relative to each other along the longitudinal axis of the FP 1. Moreover, the FP 2 is set relative to the FP 1 with a larger gap than the FPZ. The direction of the working rotation of the lower branches of the OP 2 and 3 is opposite and directed respectively to the lower and upper ends of the working OP 1. In the upper part of the OP 3, a loading device 8 is installed above the upper branch of the OP 3. The lower branches of the OP 2 and 3 give an additional impetus, directed in the direction of motion, which leads to an increase in the separator's productivity. A different gap between the OP 2 and 3 relative to the OP 1 is necessary, since in isolated fractions differing in roughness, elasticity and shape, different jump heights. 1 silt, (L

Description

The invention relates to techniques for the separation of bulk materials and can be used in agriculture, as well as in the chemical, mining industries and other sectors of the economy, where it is necessary to separate bulk materials by a set of physical and mechanical properties.

The aim of the invention is to increase the productivity and quality of the separation process.

The drawing shows a structural diagram of a separator.

The vibration separator consists of a frictional non-perforated working inclined surface 1, over which reflective friction surfaces in the form of infinite transposers 2 and 3 are mounted in series with a gap along its longitudinal axis in relation to them. , which is mounted on a cylindrical spring * 5 and is driven in vibrational motion from the vibration exciter 6. The angle of inclination of the vibration table 4 to the horizon can be adjusted longitudinally tikalnoy plane. The direction of the working rotation of the conveyors 2 and 3 is opposite and directed respectively to the lower and upper ends of the surface 1. The conveyor 2 is installed relative to the surface 1 with a gap larger than the conveyor 3. The gap between the working surface 1 and the branches of the endless conveyors 2 and 3 is regulated with using mechanisms 7. The loading device 8 is installed above the upper branch of the conveyor 3 in its upper part. To collect separation products, there are receivers 9 mounted on the exit from the upper and lower ends of the surfaces ~ and 1.

The separator works as follows.

The seed mixture from the loading device 8 enters the upper branch of the endless conveyor 3, where it is preliminarily separated by shape and roughness. As a result, in the loading zone of the working surface 1, located in the gap between conveyors 2 and 3, the components of the seed mixture flow to different places: more round, less rough seeds fall farther from the endless conveyor 3 than less round, more rough seeds. Having received a shock impulse from the frictional vibrating surface 1. such seeds, due to their physicomechanical properties (shape, elasticity and roughness), having a lower coefficient of instantaneous friction, fly towards the conveyor 2; less elastic, rougher, flatter seeds with a large coefficient of instant friction fly to the conveyor 3. Having reached the lower branches of the conveyors, the fractions of the seeds are reflected from them and thus move to the receivers 9.

The lower branches of the endless conveyors 2 and 3 not only perform the function of reflection of the seeds, but also give them an additional impulse directed towards their movement, which leads to an increase in the performance of the separator.

Using the upper branch of the conveyor. located above the loading zone, as a means for preliminary separation of seeds, it is possible to improve the quality of the separation process, since the seeds enter the loading zone already in their characteristic places, which reduces the possibility of their collision and entrainment into fractions uncharacteristic for them.

Installation of conveyors 2 and 3 with a different gap is necessary, since the selected fractions, which differ in roughness, elasticity and shape, have different jump heights.

If you install a reflective surface with a gap optimal for a more elastic fraction, then the speed of movement of seeds of a less elastic fraction up will decrease, and vice versa, when a reflective surface with a gap optimal for a less elastic fraction is installed, the speed of movement of a more elastic fraction down will decrease.

Claims (1)

Claim A vibration separator including a working friction surface mounted on a vibrating table and a reflective friction surface located above it in the form of an endless conveyor belt, separation products receivers installed at the exit from the upper and lower ends of the working friction surface, characterized in that what. in order to increase the productivity and quality of the separation process, the separator is equipped with an additional reflective friction surface mounted above the working surface in the form of an endless conveyor belt, the main and additional reflective friction surfaces are installed in series with a gap relative to each other along the longitudinal axis of the working friction surface, while the main reflective surface set relative to the working friction surface with a larger clearance than the additional 5 the actual direction of the working rotation of the lower branches of the main and additional reflective surfaces is opposite and directed respectively to the lower and upper ends of the working friction surface, and the loading device is installed above the additional reflective surface in its upper part.