SU425669A1 - FRICTION SEPARATOR - Google Patents

Description

one

The invention relates to the technique of post-harvest processing of grain, in particular to vibration friction separators for cleaning seeds from impurities in the form and properties of their surface.

Separators of this type are known, which contain a working body, made in the shape of a truncated cone with an internal friction working surface, making spatial oscillations. Under the influence of vibration, rougher particles are transported up along the surface of the truncated cone, and smooth and rounded particles slide or roll down. Such a separator separates seed mixtures well and has a rather high specific productivity. However, the overall performance of the described hinges is small.

The problem was that it was not possible to increase the performance of simply connecting several identical working bodies, since the working surfaces installed at different heights from the center of gravity of the oscillatory system are in different modes of vibrational motion. The process of separation of seeds on vibratory friction surfaces is very sensitive and proceeds steadily only under strictly defined regime parameters of the vibratory motion. Therefore, in violation of the movement mode of the working surface, the quality of the separation process deteriorates dramatically. The farther away the friction surface

from an optimally operating surface, it appears to be in worse conditions. This is explained by the feature of the law of spatial movement of the working body of a known separator, with

with increasing height of the working surface location from the center of gravity of the oscillating system, the horizontal component of the surface oscillation amplitude increases, while the vertical component of the oscillation amplitude remains constant. Consequently, the angle of the narablip of the oscillations of the working surface in the vertical plane decreases with increasing height, which has a significant effect on the motion parameters of the particle located on the vibrating surface.

Thus, when installing several known identical working surfaces in the separator at different heights from the center

 the oscillating part cannot achieve the same optimal mode of operation for all working surfaces. Therefore, when the separator is operating in a mode that is optimal for one surface, on others

surface x separation process occurs

less qualitative or completely absent.

The purpose of the invention is to improve the performance of the separator.

For this purpose, the working body of the proposed separator is made of several well-established set-up truncated cones with a successively decreasing angle of inclination of their forming to the horizon, receiving individual nourishment and operating in parallel.

The angle of inclination of the generatrix is set equal to the average value of the marginal elevation angles of the rough and smooth seeds. This embodiment allows on each working surface to withstand a given kinematic mode and to obtain ready fractions of the separated mixture from each cone.

The drawing shows schematically the proposed friction separator in two projections and the channel of the feeding device with an adjusting flap.

Vibrating friction separator contains several run-away located friction surfaces 1, made in the form of truncated cones-funnels, and the angle of inclination of the forming each overlying surface is less than the angle of inclination of the underlying funnel-shaped surface. The working funnel-shaped surfaces are fixed by means of the shells 2 on the vibrating table 3, which is mounted on springs 4 mounted on the frame 5. A vibrator 6 is attached to the vibrating table with a vertical axis of rotation of the unbalances 7 brought into rotation from the electric motor 8 through the vibrator 9 turns and the coupling 10.

The power supply device contains a capacity of 11 and several through vertical channels 12 with gates. To adjust the amount of feed of the processed material to the working surfaces, there are flaps 13. Receivers 14 and 15 are provided for receiving separation products.

From the container 11, the processed mixture of seeds enters the channels 12, of which through the tongs it simultaneously enters all working surfaces. The channels 12 during the operation of the machine are constantly completely filled with the material being processed. The amount of material entering the working surfaces is controlled by means of the flaps 13. Spatial oscillations are communicated to the working surfaces by means of the unbalanced vibrator. In this case, a feature of the law of motion of working surfaces is that the higher the working surface is, the higher the horizontal amplitude it oscillates, and therefore the angle of oscillation decreases with increasing height of the surface. In this connection, the higher the working surface, the smaller the angle of elevation of the surface the same particle can overcome. Therefore, the implementation of working surfaces with angles of inclination of each overlying surface, smaller ones and inclination angles of forming underlying surfaces, creates conditions under which the behavior of a particle on a vibrating surface does not depend on the height of the latter, i.e. vibrating

movement. Consequently, on all working surfaces, the particles are flatter and rougher, such as oat seeds, transported up the funnel-like surface of the cones and enter receivers 14 on the working surfaces. The particles are more rounded and smooth, such as wiki seeds, roll down or slide down and fall into a receiver 15 through which the separator leaves.

Subject invention

A friction separator containing a working body, made in the shape of a truncated cone with an internal friction working surface, performs spatial oscillations, characterized in that, in order to increase the separator's performance, the working body is made of several light-mounted truncated cones with their forming angle to the horizon, receiving individual food and working in parallel.