SU1274781A1 - Sieve boot - Google Patents

Abstract

The invention relates to agricultural machinery, in particular to grain cleaning machines, and can be used in the food industry and in agriculture for the primary cleaning of grain crops. The aim of the invention is to increase the productivity and quality of grain cleaning. A1.1 the oscillation amplitude in the loading section is controlled by changing the length of the crank 8 .. The ratio of the amplitudes of oscillations of the duct in the loading and unloading zones is set by link 9. The different inclination angle of the working surface of the sieve 2 is determined by the length of the rod 6. Such a design of the sieve mill allows you to set different ratios the amplitudes of the mill oscillations in the loading and unloading zones, which allows for selecting different separation modes for grain mixtures. 1 il. (L

Description

The invention relates to agricultural machinery, in particular to grain cleaning machines, and can be used in the food industry and agriculture for the primary cleaning of grain crops.

The aim of the invention is to increase the productivity and quality of grain cleaning.

This goal is achieved by the fact that the sieve box is connected to the frame by an adjustable length link, and the drive is made in the form of a crank mechanism with a adjustable crank and connecting rod, which allows setting different ratios of oscillations of the box in the loading and unloading zones and selecting for various grain mixtures effective mode, operation.

The drawing schematically shows a lattice mill, a general view,

A rolling mill consists of duct 1, whose surface in the loading part is made non-perforated and forms a single inclined working surface with racket 2. The sieve mill is connected to the bunker (not indicated) on the side of the loading part, but on the final discharge part of the sieve 2 and the tray 3, installed under the working surface of the box 1, with receivers 4 and 5, respectively, of the separation products of the finished and waste grain parts. From the boot end side, the box 1 is connected pivotally to the frame by means of a drive made in the form of a crank mechanism, which consists of a connecting rod b, connected to the box through the hinge 7 on one side, and on the other hand to the crank 8.

 The distance from the point of attachment of the connecting rod 6 to the crank 8 to the fixed axis of its rotation is perfectly adjustable. The magnitude A of the length of the crank 8 is equal to the amplitude of the oscillations of the point of the working surface of the box I located opposite the hinge 7. To ensure a gradual (linearly) decrease in the amplitude of oscillations of the points of the working surface of the box 1. Towards its unloading part, it is communicated in this part with the frame link 9, which is connected rigidly to the box 1, and through the hinge to the frame. 10. The latter is mounted on with the possibility of movement relative to it, but in each of the selected positions, the hinge 10 is fixed on the frame rigidly. To move it along the frame without changing the position of the box 1, the link 9 is made adjustable in length. By changing the length along the left length, a different character of the decrease in the amplitude of oscillations along the length of the sieve is provided. To increase the degree of difference in the amplitudes of oscillations in the unloading and loading parts in the direction of

its increase requires the length of link 9 to be reduced. The different angle of inclination of the working surface is determined by the length of the connecting rod 6, the CD of changing the amplitude of oscillations, for example, by the value A while maintaining the initial angle of inclination of the working surface, it is required to increase the length of the crank 8 by this value and at the same time reduce the length of the connecting rod 6 by the same value.

The technological process of cleaning the grain mixture, for example, from large light and large heavy impurities (mineral impurities, heads

weeds, scraps of straw, etc.) is carried out as follows.

The source grain material from the hopper is fed in a thick layer to the beginning of the non-perforated surface.

box 1, while the length of the crank 8 and the position of the hinge 7 is set so that an intensive redistribution of the particles of the main culture and impurities, i.e. large light and large heavy particles float to the upper layers, while small heavy particles sink to the lower layers.

The exfoliated mixture is fed to; . Sieve 2 with round holes,

through which the grains of the main culture and small impurities are sifted and 4 grains enter the receiver. By selecting the angle of inclination of the sieve mill by changing the length of the link 9, the maximum sifting capacity of the seeds of the main crop is established.

As you move along the length of the sieve, the thickness of the grain mixture layer decreases to a minimum of a. At the same time whether

The amplitude of oscillations along the length of the sieve is also reduced to a new law. Large light and large heavy impurities in the upper layer

grain mixture, come into direct contact with the working surface only on the final part of the sieve, where the amplitude of oscillations by means of changing the length of the link 9 is set so that particles of impurities move without detachment from the surface of the sieve and cannot pass into the hole. Particles of large light and large heavy impurities enter the receiver 5.

When cleaning the grain mixture from small heavy impurities (puny and crushed grain of the main crop, weed seeds, etc.), whose content in the starting material is insignificant, i.e. does not exceed 20%, and the thickness of the treated layer along the length of sieve 2 varies slightly the amplitude difference at the beginning and end of the sieve 2 is minimal. Increase. the lengths of the link 9 increase the amplitude of oscillations at the discharge end of the sieve mill at a constant opti-

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maximum amplitude of oscillations of the loading part.

Claims (1)

Invention Formula A sieve mill containing a fixed frame, fixed on it with the possibility of moving the sieve box and connected to the box an actuator, characterized in that, in order to increase the productivity and quality of grain cleaning, the duct on the side of the unloading part is connected to the frame, which is hinged on the latter, which is adjustable in direction. the length of the link, and the drive is located on the side of the boot part and is made in the form of a rotor-connecting rod mechanism. a crank and a connecting rod along the length, the link hinge being adapted to move relative to the frame in the horizontal direction in the plane of oscillations of the sieve mill.