SU826985A1 - Method of treating seeds with liquid preparations - Google Patents

Description

one

The invention relates to the field of agriculture and can be used in the treatment of seeds of agricultural crops with liquid preparations.

A known method of treating seeds with liquid preparations, including the separate dosing of seeds and the preparation, their simultaneous supply to the working surface of the bowl and mixing 1.

The disadvantage of this method is that the seeds and the preparation are supplied randomly, without first forming their flows into the bowl, where they are mixed due to the movement of the bowl.

The liquid preparation is pumped into the bowl in a trickle and therefore falls into a small portion of the seed, due to which most of them turn out to be untreated, which necessitates their successive mixing in several bowls and, thus, the installation complexity. And even after that, not all families are covered with the preparation, in connection with which separation and feeding of raw seeds for reprocessing is envisaged. In this regard, the process of applying the drug to the seeds occurs spontaneously, which leads to a decrease in the quality of seed treatment and productivity, as well as the irrational use of drugs.

There is also known a method of treating seeds, which involves applying a film of protective-stimulating substances in the form of a liquid preparation using the contact method 2. The disadvantage of this method is the uneven treatment of seeds due to the destruction of the pleiki by the seed flow at the initial moment of operation and the difficulty of completely recovering it later. since the existence of a film is possible only with a high porosity of seeds, i.e., with a low processing performance. Therefore, this technological process causes low productivity. In addition, rupture of the pleiki leads to uneven processing of seeds, i.e., poor quality of processing.

The purpose of the present invention is to improve the productivity and uniformity of seed treatment.

The goal is achieved by applying a film of protective-stimulating

substances are carried out on a rotating solid surface, for example, made in the form of a cup-shaped container, to which a liquid preparation and seeds are supplied. Synchronous feeding and further joint movement under the action of chain-driven forces of the seed of the seeds and rotating around its own axis ensures uniform coverage of the surface of each seed with the preparation.

The drawing shows a diagram of the device that implements the proposed method. The device contains a seed bin 1 with a metering unit 2. Inside the dressing chamber 3, the mixer 4 is installed with a rotating mechanism and is equipped with a drive mixer 4, made in the form of a thicket. A distribution cone 5, rigidly connected to the hopper 1, is mounted inside the mixer 4 under the outlet of the seed dosing unit 2, under which the outlet opening 6 of the dosing unit 7 of liquid preparations is located. There is a gap between the thicket of the mixer 4 and the distribution cone 5.

Example. The wheat seeds were treated with the Panogen liquid preparation. The section of the inner surface of the rotating thicket, protected by a conical shield, which also serves as a seed dispenser, was trickled with a liquid preparation. Moving under the action of centrifugal forces, the drug in the form of an egg covered the surface of the thicket and outside the zone covered by the flap, it met with a flow of seeds coming from the distributor. Further, the seeds and the film moved together, with the result that the seeds, rotating around their own axis, removed the preparation from the surface of the thicket and were evenly coated with the preparation. At the outlet of the bowl, the seeds were picked up by the sampler, the drug was washed from them, and the colorimetric method (see the book. Boboschko I. I. Photocolorimetric analysis. M., Chemistry, 1968) determined the amount of each seed. The unevenness of the treatment of seeds was evaluated by the coefficient of variation. The plant capacity was determined by the gravimetric method. For this, seeds treated in 20 minutes were weighed and recalculated for 1 hour of clean work per shift.

The obtained results showed that the uniformity of seed treatment is 96-98% with a change in the productivity of the plant from 5 to 35 tons / hour. The capacity of the plant was easily controlled with the help of a seed meter, the speed of rotation of the thicket and its dimensions.

Taking this into account, the possibility of implementing the proposed method in installing any practically possible performance is obvious.

5 To obtain comparative data, the treatment of wheat seeds according to method 2 was carried out. To do this, the seeds were fed in streams of different porosity (, 0.3; 0.6; 0.9) perpendicular to the film plane of the preparation.

As a result, the following data were obtained. The uniformity of treatment at 9 was 79%; trie 0,6-50%; at 1 0.3-47%, i.e. an average of 37%

15 lower than when processing the proposed method.

When processing seeds by a known method, the destruction of the preparation film was observed at the initial moment of operation, as a result of which individual drops penetrated into the seed flow. In addition, since the feed rate of the drug was limited to a critical one, at which the film spontaneously collapsed, the performance of the known method 2 in all experiments was 15% or more lower than the proposed one, and depended on the drug delivery rate per 1 ton of seed. Using the proposed method allows

0 to increase productivity by 15 percent or more and the quality of seed dressing by 37%, eliminate losses and make more rational use of preparations, and also significantly simplify the design

3 dressing agent.

Claims (2)

1. USSR Author's Certificate No. 301116, class A 01C 1/06, 1969. 2. USSR author's certificate number 501691, cl. A 01C 1/08, 1973 (prototype).