SU1479102A1 - Plant for seed separation - Google Patents

Abstract

The invention relates to the separation of materials, in particular the separation of seeds in agriculture. The goal is to increase the sowing qualities of seeds while increasing the efficiency of the process. The installation consists of a sealed working tank 1 with a separating liquid, a loading hopper 2 seeds with dispenser 3 and unloading conveyors 6 and 8 for unloading respectively a heavy and light fraction. Sulfuric diethyl ether is used as separating liquid. When immersed in the ether, heavy full-weighted seeds sink and small ones float. The separated light and heavy fractions of seeds are transported by their unloading conveyor to the filling devices 12 and 13 installed at the outlet of the unloading conveyors. At the same time, the seeds are blown with air coming from the fan 7 to regenerate the ether. 2 Il.

Description

figure 1

The invention relates to agriculture and can be used in crop production for treating sugar beet seeds in seed plants.

The purpose of the invention is to increase the sowing qualities of beet seeds with a simultaneous increase in the efficiency of the process.

FIG. 1 shows the installation; in fig. 2 - packing device.

The installation consists of a sealed working tank 1 filled with sulfuric ether, above which is placed the seed hopper 2 with dispenser 3. To maintain a constant working level of the ether above the working tank 1 there is also a level 4 holding tank with an automatic working valve 5. At the bottom A working tank 1 is provided with an discharge device for removing a heavy fraction of seeds, which is a sealed conveyor 6 with a fan 7 for blowing seeds and completely removing ether vapor from them. In the upper part of the tank there is a conveyor 8 with a seed blower 7 for removing light seeds. An additional blower fan 9 is also installed on the housing.

At the exit of the discharge conveyors 6 and 8, dispensers 10 and 11 and filling devices 12 and 13 with bags 14 and 15 are installed.

The filling devices have devices 16 and 17 for capturing and returning to the ether vapor system.

The filling device consists of two cyclones 18 with dispensers 19, as well as a junction box 20 with a seed feeding screw 21, gate valves 22 for controlling the seed supply, neck 23 for securing the bags during loading, an instrument panel 24 for turning on the filling device, seed lines 25 and 26 for feeding seeds into cyclones, weights 27 for weighing seeds in bags 14, devices 16 for evacuating ether vapor.

The installation works as follows.

Beet seeds (spd. 0.2-1.0 g / cm3) from feed hopper 2 are fed through dispenser 3 to working tank 1 filled with sulfuric ether (spinal weight 0.7135 g / cm3), where they are divided into sinking heavy and pop-up light fraction.

The discharge conveyor 6 removes the heavy seed fraction from the working tank, the fan 7 removes the ether vapors from them, the seeds are directed through the dispenser 10 to the filling device 12 for packaging in bags 14 and used for sowing or for further processing. The discharge conveyor 8 discharges the light fraction, which is blown by air from the fan 9, and the seeds are directed through the dispenser 11 to the filling device 13.

Further, the seeds with air flow into cyclones 8 with dispensers 19, from where they arrive at the junction box 20 with the seed feeding screw 21. Stopping the seed supply to the bags is performed by the valve 22, the neck 23 serves to secure the bag during loading, the instrument panel 24 serves to stop the supply of seeds and turn on the device. Seeds are fed into cyclones via seed lines 25 and 26. Scales 27 control seed filling.

5 bags 14.

Example. A pilot plant was manufactured to separate the sugar beet seeds. The separating working tank was a metal tank with a capacity of 5 liters filled with 2/3 ether and sealed with rubber gaskets. The unloading device served as two canvas conveyors on a wire frame with wooden spoons, catchers and openings with a grid for a stack of 5 ether, a conveyor belt width of 10 cm. The conveyors are driven from a 0.1 kW electric motor. The operation of the plant and the quality of separation of seeds were stable.

The tests showed the following results.

The selection of heavy seeds in sulfuric ether is better than the existing seed treatments on wind-grating machines or pneumatic sorting tables, increases the seed quality of the seeds (laboratory germination, purity, germination energy, weight 1000 seeds, size equality and specific gravity) , which, in turn, leads to an increase in field germination of seeds. Light seeds (sp. Weight 0,7135) have reduced germination. In a seed lot that has been processed at a seed plant, such seeds are 18-24%. When such seeds are removed, the laboratory germination of the remaining (heavy) seeds increases by 7–18%. it

5 means that by sorting by specific gravity in sulfuric ether, it is possible to bring to the sowing conditions of class 1 (80% and above) batches of relatively low seeds, currently going to waste (except batches of seeds that germinate due to improper processing or storage).

The seeds of the Yaltushkivska variety were single-seeded with laboratory germination of 63, 70, 79, 82, 86 and 90%. Separation in the sulfur ether made it possible to increase their laboratory germination, respectively, to 81, 83, 89, 92, 94 and 97%, which, turn, led to an increase in field germination of selected seeds, except for

On the other hand, the seedlings from the seeds isolated in the air were practically not affected by the root grass, which gives grounds to speak about the “etching effect of the ether.

Claims (1)

Invention Formula A plant for separating seeds, including a working tank with a separating liquid, located above the working capacity, a loading hopper of seeds with a metering device and a container holding the level of liquid above the working capacity. an automatic operating valve; discharge conveyors for removing separated fractions of seeds from the working tank; fans of blowing seed fractions on discharge conveyors, characterized in that, in order to increase the seed quality of the seeds while improving the efficiency of the process, as a separating fluid sulfuric diethyl ether is used, while the working tank is equipped with filling devices installed at the outlet of the discharge conveyors, and sealed. 18 I Јfc  l l l l l l l l l l V V V V V V V V 2, / 23 1c 2, J-12 4 ". M About Z- / 2 § i - 13.05 B 10 20 eleven 27