RU2265988C1 - Method for cleaning of sunflower seeds from white mold sclerotia and line for effectuating the same - Google Patents

Abstract

FIELD: agriculture, in particular, cleaning and sorting of sunflower seeds.

SUBSTANCE: method involves primary cleaning of sunflower seeds followed by size separation of seeds into fractions; sorting out individually each fraction by density on pneumatic sorting table for separating seeds from light fraction; providing secondary cleaning of main seed yield and sorting it out by density for separating main seed yield from heavy fraction on other pneumatic sorting table, with white mold sclerotia being separated in conjunction with heavy fraction. Sunflower seed line has primary seed cleaning machine and machine for size separation of seeds into fractions. Pneumatic sorting table for separation of light fraction and secondary cleaning machine are positioned downstream of machine for separation of seeds into fractions. Other pneumatic sorting table is positioned downstream of secondary cleaning machine and adapted for separating heavy fraction and white mold sclerotia. Said method and line allow optimal operating mode to be selected for secondary cleaning machine and second pneumatic sorting table.

EFFECT: improved quality of seed material.

3 cl, 1 dwg, 1 tbl, 1 ex

Description

The invention relates to agriculture and can be used for cleaning and sorting sunflower seeds.

There is a method of cleaning sunflower seeds from sclerotia, based on immersing the seed mixture in a heated 3% solution of soda ash, mixing the mixture in solution and holding under these conditions for 8-10 minutes. After exposure and mixing of the seed mixture, sclerotia is soaked with water and deposited on the bottom of the tank, and the floating seeds are scooped out and sent for drying. A production inspection showed that in addition to the high cost of drying the seeds, this method does not guarantee the complete separation of sclerotia of white rot, about 0.01% of sclerotia remains in the seed material (Journal of Oilseeds, 1985, No. 1, p. 37).

Another method is known for separating sclerotia in an oblique air flow due to the difference in seeds and sclerotia in terms of sailing properties: heavier sclerotia fall closer than lighter sunflower seeds. This method is also not effective, since about 0.01% of sclerotia remains in the purified material. According to GOST 9576-84, the presence of white rot sclerotia in sunflower seeds is not allowed.

Closest to the proposed group of inventions are a method for cleaning sunflower seeds from white rot sclerotia and a line that implements this method, taken as a prototype (Oilseeds, No. 1, 1985, pp. 37-38). The known method includes the primary cleaning of seed material, its secondary cleaning, separation (calibration) of its size into three fractions, a separate separation of each fraction by density by skipping at least two pneumatic sorting tables, on one of which the main seed yield is separated mainly from heavy fraction, and on the other - mainly from the light fraction. The line implementing the known method includes a primary seed cleaning machine, a secondary seed cleaning machine, a seed cleaning machine for dividing (calibrating) seeds by size into fractions, pneumatic sorting tables for density separation, one of which is configured to separate the main seed output mainly from the heavy fraction and the other to separate the main seed yield mainly from the light fraction.

The disadvantage of the prototype is the large loss of seed: 45.0-55.0% of the seeds goes to waste. The reason for this is that the secondary cleaning machine is overloaded, because seed heap contains a lot of impurities (sclerotia; collapsed, puny, unfulfilled seeds; petioles of leaves, etc.), because of which it is impossible to optimally configure the secondary cleaning machine, which also affects the quality of the material obtained.

The task of the claimed invention is to increase the yield and quality of seed material.

The purpose of the invention is the ability to select more optimal operating modes of the secondary cleaning machine and the second pneumatic sorting table.

The technical result is achieved by the fact that in the known method, including primary cleaning of seed material, dividing (calibrating) it by size into fractions, separately separating each fraction by density by skipping it on at least two pneumatic sorting tables, on one of which the main outlet is separated seeds (main fraction) mainly from the heavy fraction, and on the other mainly from the light fraction, as well as secondary purification, according to the invention, the main yield of each fr ktsii after it passes the first pnevmosortirovalnom table, which is separated from the main output of the light fraction mainly. In addition, the technical result is achieved by the fact that in the known line for cleaning sunflower seeds from white rot sclerotia, including a primary seed cleaning machine, a seed cleaning machine for separation into size fractions, pneumatic sorting tables for density separation, one of which is configured to separate the main output seed mainly from the heavy fraction, and another mainly from the light fraction, as well as a secondary seed cleaning machine, according to the invention, seed cleaning I have a secondary cleaning machine installed after the first pneumatic sorting table, configured to separate the main seed output mainly from the light fraction.

A comparative analysis of the claimed technical solutions with the prototype allows us to conclude that the claimed method differs from the well-known new sequence of known operations: in the prototype, all seed material is subjected to secondary cleaning at the same time and it is carried out after its primary cleaning, and in the claimed method, the main yield of each fractions separately and carry out this cleaning after passing each fraction separately on the first pneumatic sorting table, on which the bases are separated th output of the light fraction mainly. And the claimed line differs from the known new arrangement of known elements: in the prototype, the secondary cleaning machine is installed after the primary cleaning machine, and in the claimed invention, the secondary cleaning machine is installed after the first pneumatic sorting table, configured to separate the main seed output (main fraction) mainly from the light fraction . Thus, the claimed technical solutions meet the patentability criterion of "novelty."

Studying the state of the art in the process of conducting a patent search on all types of information publicly available in the press, we have not identified technical solutions that have distinctive features of the claimed inventions from the prototype: the sign “secondary treatment is applied to the main output of each fraction after it is passed on the first pneumatic sorting table on which the main seed yield is separated mainly from the light fraction ”and the sign“ secondary cleaning machine is installed after the first pneumatic sorting table, set up th branch at the primary output light of predominantly seed fraction. " The long-term use of the known method for cleaning sunflower seeds from white rot sclerotia and the line for its implementation did not completely satisfy us in terms of yield and quality of the obtained seed material. Our research and the application of the “do the other way around” invention have yielded positive results, especially when cleaning sunflower seeds with a high content of white rot sclerotia, which are almost impossible to completely separate using known technical solutions. Thus, the claimed technical solutions meet the patentability criterion of "inventive step".

The claimed technical solutions meet the patentability criterion of "industrial applicability", as they can be used in agriculture. And, in addition, the description of the inventions presents the means and methods by which it is possible to implement technical solutions in the form as described in the claims.

The method is as follows.

Seeds containing sclerotia of white rot are fed for primary treatment, where large and light organic impurities are released. After initial cleaning, the seed material is subjected to separation into size fractions. Each size fraction is alternately divided by density on the first pneumatic sorting table to separate the main outlet (main fraction) mainly from the light fraction and from a small amount of the heavy fraction. The main seed yield is fed to secondary treatment. After secondary cleaning, the main output is fed to a second pneumatic sorting table to separate the main seed output mainly from the heavy fraction and from a small amount of the light fraction.

The drawing schematically shows a line that implements the inventive method of cleaning sunflower seeds from white rot sclerotia. The line includes a primary cleaning seed machine 1, a seed cleaning machine 2 for separating seeds into fractions, a pneumatic sorting table 3 configured to separate the main fraction mainly from the light fraction, a seed cleaning machine 4 secondary cleaning, a pneumatic sorting table 5 configured to separate the main output mainly from the heavy fraction .

A line for cleaning sunflower seeds from white rot sclerotia works as follows. A pile of seeds enters the primary cleaning machine 1, where large (pieces of stem, baskets) and lightweight organic impurities (inflorescences, weed seeds, etc.) are released. After the initial cleaning, the seed material enters the seed cleaning machine 2, where the separation of seeds by size into fractions (I, II, III) on sieves takes place. The resulting size fractions are further processed according to one scheme. The fraction to be processed (for example, the 1st) is supplied to separate it by density into the first pneumatic sorting table 3, which is configured to separate the main output mainly from light fractions (LI), i.e. establish an increased high-speed air regime in which the seed material over the entire area of the deck should slightly "boil", increase the longitudinal and transverse angles. Thus, mainly the light fraction (organic impurities, unfinished seeds) and partially heavy fraction (sclerotia of white rot, broken seeds) are separated from the main yield (OBI). The main yield (OBI) is fed to the secondary seed cleaning machine 4, on which small seeds, the remainder of the crushed seeds and organic impurities are released from the main output. After the secondary cleaning machine 4, the processed material enters the pneumatic sorting table 5, configured to separate the main outlet mainly from the heavy fraction (TI), i.e. establish a low speed air regime in which the seed should not "boil", the longitudinal and transverse angles are reduced. Thus, the predominantly heavy fraction (sclerotia of white rot, broken seeds and broken seeds) and partially the light fraction (organic impurities, unfinished seeds) are separated from the main yield.

Example.

As the primary cleaning machine, the Petkus-Giant K-531A machine was used. The Selektra K-218/1 machine was used as a seed cleaning machine for separating seeds into fractions. As pneumosorting tables used tables MOS-9N. As a seed cleaning machine secondary cleaning used the machine MVU-1500.

On the inventive line, consisting of the above machines, implementing the claimed method, the seeds of the hybrid of sunflower Kuban-930 were subjected to cleaning and sorting. The research results for the first fraction are presented in the table. From the data given in the table it follows that when cleaning and sorting the seed material according to the proposed method, the yield of seeds is greater and the quality of the main yield is higher than that of the prototype. According to the prototype, the loss of seeds of the main culture in waste amounts to 10 + 21 + 23 = 54%, and according to the claimed inventions 6 + 17 + 19 = 42%, i.e. the seed yield of the main culture is 12% more. According to the prototype, the seed content of the main culture in the main yield is 99.48%, and according to the claimed inventions 99.56%, which is 0.08% higher, which indicates an increase in the quality of the seed material.

Table
Comparative results of cleaning sunflower seeds Indicators Prototype The inventive method and line Secondary cleaning 1st pneumatic sorting table 2nd pneumatic sorting table 1st pneumatic sorting table Secondary cleaning 2nd pneumatic sorting table Loss of seeds of the main culture in waste,% 10 21 23 17 6 19 The seed content of the main culture in the main output,% 97.43 99.35 99.48 98.82 99.37 99.56 The content of sclerotia of white rot in the main output, pcs / kg 35 nine - 19 17 -

Subjecting to secondary cleaning not only the whole seed heap being processed, but the main output of each individual fraction precisely after skipping it on the first pneumatic sorting table, on which its main output is separated mainly from the light fraction, allows the size fraction to be removed from the main mass of impurities before secondary cleaning, and therefore to provide an opportunity for more thorough tuning of the secondary cleaning machine (for cleaning the seed fraction from small seeds, collapsed, sclerotia, organic impurities and radiation of minimal seed loss of the main crop). This allows for a finer adjustment of the second pneumatic table, configured to separate the main outlet mainly from the heavy fraction, including sclerotia of white rot, as well as the remaining “substandard” seeds of the main culture. This provides improved quality of the material obtained. So, these distinguishing features of the claimed group of inventions are necessary and sufficient to enable the selection of more optimal operating conditions of the secondary cleaning machine and the second pneumatic sorting table, which in turn provides an increase in the yield and quality of the seed material, i.e. achieve the goal and solve the problem.

Claims (2)

1. A method for cleaning sunflower seeds from white rot sclerotia, including primary cleaning of seed material, dividing it (calibration) by size into fractions, dividing each seed fraction separately by density by skipping it on at least two pneumatic sorting tables, one of which is separated the main seed yield (main fraction) mainly from the heavy fraction, and on the other, mainly from the light fraction, as well as secondary treatment, characterized in that the main yield is subjected to secondary cleaning each the second fraction after the first pass pnevmosortirovalnom desk on which the main separated from the seed yield of the light fraction mainly. 2. A line for cleaning sunflower seeds from white rot sclerotia, including a primary seed cleaning machine, a seed cleaning machine for dividing into size fractions, pneumatic sorting tables for density separation, one of which is configured to separate the main seed output mainly from the heavy fraction, and the other mainly from light fractions, as well as a secondary cleaning seed machine, characterized in that the secondary cleaning seed machine is installed after the first pneumo-grade rovalnogo section configured to separate the primary output from the seed light fraction predominantly.