SU1537311A1 - Seed-cleaner - Google Patents

Abstract

The invention relates to the separation of solid materials according to density and can be used to clean and sort grain and seed. The goal is to improve the quality of cleaning seeds. A cylindrical rotor (CR) is vertically mounted on the frame of the machine with the upper air-permeable separating part 12 and the lower unloading part 13. Part 12 is made in a stepped height with inclination of the steps from top to bottom towards the center of the CR. The lower stage is connected to the lower part 13 by its smaller base. The radius of part 13 is equal to the radius of the smaller base of the step. In the upper part of the machine installed on the supports and the frame, there is a spreader for the seed supply unit on the inner surface (П) 14 ЦР, and in the upper part 12 ЦР - grain receiver 8. The CR is driven during rotation by a pulley pulley. Under the action of centrifugal forces of inertia of the rotational motion of the CR, the particles of the mixture are pressed against its separating P 14. Under the action of the forces of inertia of the oscillatory motion, the layer is fluidized and moves from top to bottom. When moving along a stepped П 14 from a larger base to a smaller one, the movement of the seeds is slowed down, and during the transition from stage to stage it is accelerated, which contributes to a better separation of particles in density. On the lower part of the CR, the stratified state of the seed layers is preserved by a smooth II, which ensures the constancy of the force field. The denser seeds are successively sifted through the annular slots 17 on the side Part 13 C

Description

The invention relates to devices for separating solid materials according to density and can be used to clean and sort grain and seed.

The purpose of the invention is to improve the quality of cleaning seeds.

FIG. 1 shows a diagram of the machine, a longitudinal section; in fig. 2 is a structural diagram of the rotor; in fig. 3 shows section A-A in FIG. 2

The seed cleaning machine (Fig. 1) contains a frame 1 mounted on supports 2 and 3 of the skeleton 4, on which with the help of the needles 5 an articulated vertically suspended with the ability to move in the axial direction of the cylindrical rotor 6. In the upper part of the skeleton 4 the spreader 7 is installed the source material on the inner surface of the rotor, and in the upper part of the rotor 6 - grain collector 8. In the lower discharge part of the rotor 6, the blades 9 are fixed to unload the seed mixture fractions. A fan 11 is connected to the collector 10, which can be mounted on frame 1 or separately.

The surface of the upper separating part 12 of the rotor 6 (Fig. 2) is breathable and stepped. The lower cylindrical part 13 of the rotor is rigidly attached to the upper stepped part 12 on the side of the smaller base of the taper step 14. The upper part 12 is formed by several, for example, identical hollow truncated cones 14, which are sequentially arranged along the vertical axis 15 (Fig. 1 and 2) and the large bases 16 (Fig. 2) are facing upwards, i.e. steps inclined from top to bottom to the center of the rotor. The bottom cylindrical portion 13 has on its side surface, for example, two annular slots 17 for exit of the fraction. Each slot 17 is provided with an annular shutter 18, by means of which by moving it in the vertical direction

the slot 17 is changed. The flap 18 is fixed by means of a bolted joint 19. In this case the slot width must be less than the thickness of the seed layers located on the inner surface of the rotor 6. The radius of the lower part of the rotor may be equal to the radius of the smaller base of the step.

The stiffness of the cylindrical part 13 in the area of the slots 17 is provided with U-shaped strips 20. For ease of maintenance, the rotor 6 is made up of two identical sections 21 connected by means of two quick-release clamps 22 (Fig. 2 and 3). To eliminate spillage of the grains, elastic spacers 24 are installed at the joints of the 23 sections 21.

The rotor 6 (Fig. 1) is connected by a connecting rod 25 with a self-balancing crank vibrator 26. The rotor 6 is driven into rotation by a pulley 27, and in an oscillatory movement by a vibrator 26 by means of a pulley 28. The rotor 6 is closed by a casing 29, in the upper part of which There are windows 30. A collector 10 is connected to the internal cavity of the rotor 6 by means of a pipe 31 and a movable seal 32.

Semi-cleaning machine works as follows.

In working condition, the rotor 6 is driven by the pulley 27 into rotational movement around the axis 15, and by means of the vibrator 26 into an oscillating movement

around the specified axis. The air flow generated by the fan 11 passes through the windows 30, the surface of the rotor 6, the pipe 31, the collector 10 and through the fan 11 leaves the machine.

The initial seed mixture entering through the tube 33 by the spreader 7 is fed to the grain receiver 8. Under the action of centrifugal rotational inertia forces

the movements of the rotor 6 of the seed particles are pressed against its internal separating surface, and under the action of the inertial forces of the oscillatory motion, the pressure of the air flow, and the weight of the particles, their layer is brought to a fluidized state and moves from top to bottom.

In this case, the layer, moving on the stepped surface 14 (Fig. 2), during the transition from step to step, breaks down, experiencing significant deformations in the radial direction. As a result of this, the process of redistribution of particles with different physicomechanical properties into the layer is intensified. Immature, diseased, damaged pests, as well as hardly separable impurities float to the surface of the layer, and the heaviest, full-weighted ones sink to the surface of the rotor 6.

When the seeds move along the inner surface of the cones 14 from the larger base to the smaller one, its movement slows down, and when moving from step to step, it accelerates, which additionally loosens the seed layer and contributes to a better separation of particles in density.

On the lower cylindrical part 13 of the rotor 6 (Fig 1) layer. the seed enters the stratified state. This state is maintained with the further movement of the layer by making the surface 13 smooth, without steps, and cylindrical, without

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baking constant force field acting on the seed layer. Through the annular slots 17, more dense particles are sifted out successively, and less dense ones are displaced by descent from surface 13. As a result, the layer of seeds is divided, for example, into three fractions: the top is the most dense seed, the bottom is the least dense and middle with intermediate density. Each fraction is discharged by the paddles 9 into the respective trays 34.

Claims (2)

1. A semi-cleaning machine that includes a frame on which a cylindrical rotor is vertically mounted with an upper air-permeable separation part and a lower discharge part, drives rotary and oscillating rotor movements, and feedstock feedstock on the inner surface of the upper rotor, characterized in that improving the quality of seed cleaning, the upper part of the rotor is made stepwise in height with the steps tilted from top to bottom towards the center of the rotor, while the lower stage is connected to the bottom unloading oh part a smaller base. 2. The machine according to claim 1, characterized in that the radius of the lower part of the rotor is equal to the radius of the smaller base of the stage figure 1 . . il 24 Zo 21 22 Fi.Z