SU1020165A1 - Seed separator - Google Patents

Abstract

1. SEPARATOR AIMS, VC, .chakvdiy mounted on the stanitsa through springs sieve mill, consisting of a set of shells, fixed between the sieve shells, located inside the shells pallets, supported on podslch moving frames with cells and elastic balls, vibrator, loading device devices for receiving products. separation, characterized in that, in order to improve the separator performance by high-quality cleaning of the surface of the sieves with different kinematic modes of operation, the pallets are hinged on the shells with the possibility of reciprocating movement relative to the sieves with the Pick-up Adjustment Mechanisms. 2. A separator according to claim 1, characterized in that the adjusting strut of the mechanism 1 is 1 completed in the vi (L de shaft with two brackets and the adjusting clamp with a screw pair.

Description

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The invention relates to a technique for the separation of granular mixtures, namely, seed separators, and can be used in agriculture, chemical, mining industry and other national households. Seed separators with cylindrical sieve mills are known, with top of them helical oscillations around the vertical axis and ball cleaners of sieves. These machines have a high permeability, low energy consumption, and are reliable in operation. They are especially effective in separating fine-grain mixtures. The disadvantages of these separators are the labor-intensive installation and dismantling of the tool and the low efficiency of the sieve cleaner. The closest to the proposed technical essence and the achieved Effect is a seed separator, including a sieve mill mounted on the wall by means of a spring, consisting of a set of shells, fixed between the sieve shells, pallets located inside the shells, supported on pallets under the frames with cells and elastic balls, a vibrator, boot-up with a device, devices for separation products 2. However, the known separator has insufficient capacity, the purpose of the invention is to increase the Separator water resistance by qualitative cleaning of the surface with different kinematic operating modes. This goal is achieved by the fact that in the seed separator, which includes a sieve mill mounted on the frame by means of springs, consisting of a set of shells, a vibrator mounted inside the shells, pallets movable frames with a cell and elastic balls, inside the shells, loading device, devices for receiving separation products, pallets are hinged on shells with the possibility of reciprocating movement relative to the sieves using adjustment mechanisms . In this case, the adjusting mechanisms are made in the form of a shaft with two brackets and an adjusting thrust with a pair, Figure 1 shows the principle of the seed separator; Figures 2 and 3 are a constructive diagram of an adjustment mechanism for fastening the pallet in two projections. The sieve seed separator includes a sieve mill installed on the base 1 by means of springs 2, consisting of a set of shells 3 fixed between the shells of the sieve 4, pallets 5 located inside the shells, which are hinged on the shells 3 with reciprocating movement relative to the sieves 4 by means of adjusting mechanisms, made in the form of a shaft 6, freely turning in a sleeve 7 with brackets 8 and 9 and an adjusting pull 10 with a screw pair 11, supported on pallets, 5 moving frames 12 s cells and elastic balls 13, a vibrator 14, driving. c in motion through the elastic coupling, the variator 15, which is driven by the electric motor 16, the loading device 17 (bunker), the devices 1dl for receiving separation products, made in the form of loading 18 and unloading 19 trays, connecting sleeves 20, pitched cones 21, dividers 22 and observation windows 23. The pallets 5 are connected through the lugs 24 to the adjusting mechanisms 2, 5. From the feed hopper 17 through the loading chutes 18 of the grain, the mixture enters the sieve 4, making helical vibrations. Under the influence of these vibrations of the grain mixture, the mixture is transferred along sieve 4 and is divided into two fractions. A descent fraction, moving in a sieve, encounters a divider 22 and is withdrawn from the separator through unloading trays 19 connected by sleeve 20. The passing fraction, asking through the sieve 4 and pallet 5, enters the pitched cones 21 and through the discharge trays is withdrawn from the separator . At the same time, the elastic balls 13, bouncing on the vibrating pan 5, hit the sieve 4 and clean the holes from the stuck particles. The periodicity of the movement of the balls between the sieve 4 and the tray 5, which determines the quality of operation of the ball cleaner, is observed through the viewing windows 23. If the balls 13 do not hit the sieve 4 during operation of the machine (the sieve is not cleaned due to the large gap between the sieve 4 and the pallet 5), it is necessary to turn the shaft 6 with the brackets B and 9 in a clockwise direction with the screw pair 11 of the adjusting rod 10 smoothly. The pallet 5 will rise and the gap will decrease. When establishing a stable periodic movement of the balls 13 between the sieve 4 and the pallet 5, the adjustment mechanism must be fixed with the help of screw bet 11. Turning the shaft 6 with the brackets 8 and 9 clockwise, lower the pallet 5,

those. increase the gap between sieve 4 and base HC 5.

Thus, the proposed implementation of a seed separator will increase

separator productivity as a result of high-quality cleaning of the surface of sieves by installing an optimal gap between the grate and the tray.

12

Phie.z

Claims (2)

1. SEED SEPARATOR, including a sieve mill mounted on the bed by means of springs, consisting of a set of shells, pallets fixed between the shell shells, pallets located inside the shells, movable frames with cells and elastic balls resting on pallets, vibrator, loading device, devices for receiving products separation, characterized in that, in order to increase the performance of the separator by quality cleaning the surface of the sieves at different kinematic modes of their work, the pallets are articulated insulated on the shells with the possibility of reciprocating movement relative to the sieves using adjusting mechanisms. 2. The separator according to claim 1, wherein the adjusting mechanism * is made in the form of a shaft with two brackets and an adjusting rod with a screw pair.