SU1327997A1 - Friction-type vibroseparator - Google Patents

Abstract

Invention m. used to separate the components of the material (M) according to their surface properties, elasticity and shape, and allows to increase the separation performance by increasing the speed of movement of the separated components of the separated M. The vibration exciter is fixed on the inclined plate (P) 1 of the vibration separator with the friction working surface 3. Above P 1 there is a reflective P in the form of a central 5 and side 6 and 7 sections. Section 5 is installed in the loading zone P 1 parallel to it, and sections 6 and 7 on both sides relative to section 5 with an inclination to the FER. From the loading device 9, the separated M enters the loading zone of the vibrating FER. In this zone, a stable mode of motion of the components M between the planes P 1 and section 5 is established. The source M is divided; upward less elastic seeds, downward - more elastic seeds. Seeds from the loading zone enter the concentration zone and collide with sections 6 and 7. Moreover, less elastic seeds are moved for each oscillation period to a smaller distance and mixed into the side receivers of the separation products. The more resilient seeds move with greater speed to the end receivers 10 and 11. 3 sludge. i (L with GO with with Phage 1

Description

The invention relates to bulk material separators and can be used to separate material components according to their surface properties, elasticity and shape, for example, to separate the seeds and clean them from impurities.

The aim of the invention is to increase the separation capacity by increasing the speed of movement of the separable components of the material to be separated.

FIG. 1 shows the basic scheme of a friction vibroseparator; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a diagram of the movement of particles of different fractions in a vibroseparator.

The friction vibroseparator consists of a plate 1 with a friction working surface mounted obliquely at an angle a in the longitudinal direction and at an angle p in the transverse direction on twisted cylindrical springs 2 of compression. A unbalanced vibration exciter 3 of directional action is rigidly fixed to plate 1. It is installed in such a way that the line of action of the disturbing forces created by its unbalances forms an acute angle e with the upper cavity of the working surface of plate 1. Above the working surface of plate 1 along its entire length frame 4, in which the sectional reflective surface is mounted, made in the form of a central plate 5 installed in the loading area of the friction working surface of the plate 1 and the side sectional plates Fig. 6 and 7, installed in frame 4 with an inclination to the middle part of the friction working surface of plate 1. Frame 4 is installed with a gap h relative to the working surface of plate 1, the value of which is less than the minimum height of the seed mixture toss. The size of the gap can be varied by a screw device 8. The friction vibroseparator also has a loading device 9 located in the middle part of the vibroseparator and receivers 10-12 of the separation products.

Friction vibroseparator works as follows.

From the loading device 9, the material to be separated enters the loading area of the vibrating working friction surface of the plate 1, and under the action of vibrations, the material particles collide with the lower plate 1 and the upper central reflective plate 5 installed

parallel to the first. In this zone, a stable mode of movement of the components of the material to be separated is established between the planes of the plates 1 and 5 and, depending on the properties of the seeds, the source material is divided: more crisp and less elastic seeds move upwards, and particles smoother and more elastic. Seeds moving on the working surface I come from the loading zone to the dispersal zone and collide with the side sections of the baffle plates 6 and 7, which are installed with a slope at an angle of the middle part of the friction surface. Such constructive performance side

plates 6 and 7 allows to increase the rebound angle of seeds (b) from the reflective surface and, consequently, increase the displacement of seeds in one oscillation period p (). In addition, an increase in the rebound angle of seeds 6 from the reflective side plates 6 and 7 makes it possible to more fully utilize the elastic properties of the seeds: less elastic seeds move in each oscillation period by a smaller distance and their movement is affected by the component gravity G particles (Gcosp), which displaces these seeds to the side receivers 12 of the separation products (the trajectories of movement of these particles deviate from the longitudinal axis of the working plane 1 to the side crop), and more

the resilient seeds are moved at greater speed to the end receivers 11 and 10.

Claims (1)

Invention Formula A friction vibroseparator for cleaning seeds from impurities, including an inclined plate with a friction working surface, a vibration exciter mounted on a plate, a reflective plate mounted above the inclined plate and a loading device for feeding the material to be separated onto an inclined plate, characterized in that increasing the separation performance by increasing the speed of movement of the separated components of the material being separated; the reflective plate is made in the form of a central and side sections, while the central section is installed in the loading zone of the inclined plate paav to it. and side - on two sides relative to the central section with a slope to the friction of the working surface. fi-d ig. J