RU2491133C1 - Method of detaching buckwheat from wheat seeds - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to agriculture. Proposed method comprises seed processing at bar and sorting screens with oblong holes, in air aspiration channels, cockle cylinder and air sorting table. Larger buckwheat seeds as major impurities are extracted at said bar screen with oblong holes. Buckwheat seeds as short impurities are extracted at cockle cylinder with mesh diameter of 1.05-1.10 of buckwheat seed maximum length. Working edge of cockle cylinder flute is arranged at 45°-55° to its horizontal diameter.

EFFECT: higher efficiency of cleaning.

2 cl, 16 dwg

Description

The invention relates to the field of agriculture, in particular post-harvest grain processing.

Tatar buckwheat infests cereal crops in farms of the Siberian Federal District, and it is the most difficult admixture in wheat seeds. This is because the variation curves of wheat seeds (1) and Tatar buckwheat (2) in thickness (Fig. 1, a), width (Fig. 1, b), length (Fig. 1, c), friction angle (Fig. .1, d), the speed of rotation (Fig. 1, e) and density (Fig. 1, f) overlap to one degree or another. To a lesser extent, their variation curves overlap in length, and the seeds of Tatar buckwheat have a relatively shorter length than the seeds of the main culture. Wheat seeds are cleaned of short impurities in the puppet cylinders of the triers. The working body of the trie is a cylinder (3) rotating around its axis with an internal cellular surface and with a groove (4) located inside the cylinder along its axis (Fig. 2). Short impurities are discharged out by a screw (5). The position of the working edge of the gutter (6) is determined by the angle a and its inclination to the horizontal diameter of the cylinder. The working element of the triera is a cell, which in a longitudinal section has a bucket-like shape (Fig.3a), and in plan-round (OST - 23.2.103.84) (Fig.3b). The cell size is determined by the diameter d.

During trimer operation, short grains (impurities) are deeper than long grains (seeds), sink into the cells and they are thrown into the gutter, from where they are discharged out by the screw. Long grains (seeds) go off the cylinder.

The quality of seed cleaning along the length in the taper cylinder depends on the diameter of the cells and the position of the working edge of its trough (G. Demin and others. Grain cleaning at grain receiving enterprises. - M .: Kolos, 1968, p. 87). If the content of short impurities in the cleaned material is higher than the norm allowed by the standard, it is recommended to lower the working edge of the gutter by turning it counterclockwise. When the working edge of the gutter of the puppet cylinder is low, the seeds come out cleaner, however, some of the seeds are thrown into the gutter by the cells, that is, they get into the waste. The lower the working edge of the gutter is installed, the higher the efficiency of cleaning and seed loss in waste and vice versa. The doll cylinder must be adjusted so that more short impurities and a minimum number of sound seeds get into the gutter. Setting up a triera is a rather laborious work and requires certain practical skills (Chizhikov A.G. et al. Post-harvest grain processing on collective and state farms. - M .: Kolos, 1971, p. 34, 35), (Industrial seed production / ed. I.G. Strons .-- M .: Kolos, 1990, p. 191).

The angle of grain falling out of the cell by tipping around its lower point of support depends on the angle γ of the slope of the longitudinal axis of the grain to the bottom of the cell during the rest period. The higher the value of a given angle of the grain, the lower (at a smaller angle a) it drops out of the cylinder cell and vice versa. The angle γ of inclination of small seeds is less than large, and the angle of inclination of large impurities is greater than small. Therefore, small seeds fall out of the cells higher than large ones, and large impurities fall out of the cells earlier (lower) than small ones.

There is a known method of choosing the diameter of the cells of the triera equal to the maximum length of short grains (impurities) (G. Demin and others. Grain cleaning at grain receiving enterprises. - M .: Kolos, 1968, p. 87). The disadvantage of this technique is the low efficiency of seed purification from short impurities (Tatar buckwheat). This phenomenon is explained by the fact that large seeds of this weed (Fig. 4, a) do not occupy a more stable position in the cells of the trieer than small wheat seeds (γ ₁ > γ ₂ ) (Fig. 4, b), i.e. the angles of their loss from the cells overlap, which does not provide the condition for the effective separation of the components of the grain. To increase the efficiency of cleaning wheat seeds from short impurities, it is necessary to isolate large seeds of Tatar buckwheat, overlapping in length with the seeds of the main culture, on a sieve with oblong holes as large impurities and choose a cell diameter of the doll cylinder equal to 1.05-1.10 of the maximum length of these impurities . This ensures a more stable position of short grains (seeds of Tatar buckwheat) in the cells of the doll cylinder (Fig. 5, a) than wheat seeds (γ ₃ <γ ₄ ) (Fig. 5, b), which leads to their precipitation at different corners and provides the necessary condition for effective seed cleaning.

A known method of cleaning wheat seeds from Tatar buckwheat using: a sowing sieve with oblong holes 2.0 mm wide and a trie cylinder with a cell diameter of 5.5 mm (Fig.6). By passing through a sieve, small wheat seeds are released (7), and Tatar buckwheat seeds are released in the cylinder as short impurities (8). With the descent from the cylinder are peeled seeds (C). It is proposed in the scheme for cleaning and sorting seeds to use subseeding and sorting sieves with triangular openings with side sizes of 4.0 and 4.5 mm (Kolyshev P.P. et al. Machines for cleaning and sorting seeds. - M .: OGIZ - Selkhozgiz, 1947 . - 204 p.).

A method has been developed for cleaning wheat from Tatar buckwheat in thickness and shape (Fig. 7). By passing through a sieve with oblong holes, small seeds stand out (7). The descent from the sieve is processed on a sieve with triangular openings, where Tatar buckwheat seeds are extracted from the processed material (8) (Lipovtsev A.I. Cleaning wheat from hard to separate impurities / Milling and Elevator Industry. - 1961. - No. 12. - P. 25 -26).

In production lines, seed grain is processed in air-sieve machines of primary and secondary cleaning, in oat and doll doll cylinders with a cell diameter of 9.5 and 5.0 mm and on pneumatic sorting tables where seeds are cleaned according to the transverse size, speed of rotation. length and density. The efficiency of seed purification from Tatar buckwheat in these lines is low. One of the main reasons for this is that large seeds of Tatar buckwheat do not fit in 5.0 mm cells, and they occupy an unstable position in the cells and are not carried into the trench, but go off the cylinder along with the seeds, clogging them.

The disadvantage of these methods of cleaning wheat seeds from Tatar buckwheat and the technology of stream processing of seed grain is the low cleaning efficiency.

The purpose of the invention is to increase the efficiency of cleaning wheat seeds from Tatar buckwheat.

The goal is achieved by cleaning the seeds according to a set of attributes: thickness, length, speed, density, shape and angle of friction, using the correlation between the transverse dimensions and the length of the seeds, choosing a cell diameter of the doll cylinder equal to 1.05-1.10 of the maximum length of short impurities ( Tatar buckwheat), installation of the working edge of its trough in a certain position and the corresponding load.

Analysis of the variation curves of wheat seeds and Tatar buckwheat shows that it is not possible to achieve high efficiency of their separation according to one of the considered signs (see figure 1). The justification of the method (technology) for purifying seeds from difficult to separate impurities and determining the complex of machines for its implementation can be carried out on the basis of the study of the divisibility of the grain mixture. In this case, it is necessary to consider a complex of four, five or more signs (Drincha V.M .. Investigation of the separation of seeds and development of machine technologies for their preparation. - Voronezh: Publishing house of MPO Modek, 2006. - 184 p.), As well as the correlation between the signs (VD Babchenko and others. The study of the signs of divisibility of seeds of wheat and barley / NTB VIM. - M., 1986. - Issue 64. - P.44-46). Machines are selected with working bodies separating the components of grain according to the revealed signs of divisibility. To evaluate the separation efficiency of a two-component mixture according to one or another criterion, the criterion proposed by V.G. Newton and G.V. Newton (Study of the classification efficiency / Separation of loose bodies: Tr. Moscow House of Scientists. - M. - L., 1937. - Issue 2. - S.59-74).

The greatest theoretical separation effect E ^/ = 88% can be achieved by dividing the initial mixture along the length (see Fig. 1, c), and the smallest effect E ^/ = 43-45% can be achieved by dividing the grain mixture by transverse dimensions (see Fig. 1a, b). The greatest separation efficiency of the grain mixture according to the soaring speed is E ^/ = 75% (see Fig. 1, e), the friction angle is E ^/ = 71 (see Fig. 1, d), and the density is E ^/ = 55 (see figure 1, e). By significance, the signs of separation are located in the following sequence: length (E ^/ = 88%), speed of rotation (E ^/ = 75%), angle of friction (E ^/ = 71%), density (E ^/ = 55%) and transverse dimensions ( E ^/ = 43-45%).

In addition, the seeds of Tatar buckwheat and wheat have a difference in shape. Thus, wheat seeds have a smooth rounded shape, and the seeds of the Tatar buckwheat are trihedral in shape with concave faces in the middle and, accordingly, sharp ribs. It is known that seed cleaning in form and angle of friction is carried out on belt friction separators (slides).

Thus, the technology of effective cleaning of wheat seeds from Tatar buckwheat is substantiated by a set of attributes: thickness, length, speed, density, shape and angle of friction. Small (unproductive) seeds of the main culture and small impurities, as well as large seeds of Tatar buckwheat, overlapping with the seeds of the main culture in length, and other large impurities are allocated respectively on the sorting and spike sieves with oblong holes. Light impurities, small seeds of Tatar buckwheat are secreted in the pneumo-aspiration channels of air-sieve machines. Short impurities (Tatar buckwheat) are released in doll cylinders with a cell diameter of 1.05-1.10 the maximum seed length of Tatar buckwheat when the front edge of the trough of the doll cylinder with a cylinder rotation speed of 45 rpm to its horizontal diameter depending on grain clogging at an angle α = 45-55 °.

In terms of density, the seeds are cleaned on pneumatic sorting tables, in shape and angle of friction - on tape friction separators. An air-sieve machine for secondary cleaning and sorting of seeds, a puppet trier (puppet collector), a pneumatic sorting table and a friction belt separator make up a complex of machines for cleaning wheat seeds from Tatar buckwheat. Depending on the size of the seeds and their impurities, the air flow rate in the first and second suction channels of the seed cleaning machine is set to 7-8 and 8-9 m / s, respectively, the spike and screening sieve are selected with oblong holes of 3.0-3.5 and 2 wide , 2-2.6 mm, the puppet cylinder is installed with a cell diameter of 5.6-6.3 mm. The proposed scheme for cleaning wheat seeds from Tatar buckwheat is shown in Fig. 8.

Light impurities are released in the first and second suction channels of the seed cleaning machine (9). Large seeds of Tatar buckwheat come off the top (ear) sieve (10), small seeds and impurities pass through the sorting sieve (11). In a puppet cylinder with a cell diameter of 5.6-6.3 mm, Tatar buckwheat is released from the processed material (8). Light impurities and seeds (12) and heavy impurities (13) are released from the processed material on the pneumatic sorting table. Seeds of low categories (SN) after such processing, as a rule, meet the requirements of the standard (for purity) and they go to the warehouse. Seeds of high categories are additionally cleaned by the shape and angle of friction on a belt friction separator, on which the seeds of the Tatar buckwheat are carried up (8), and the cleaned seeds (Sv) come off the separator's working surface.

A production check of the proposed method of seed purification was carried out during the processing of reproductive seeds for the production of marketable products and elite seeds with an average contamination of freshly harvested grain with Tatar buckwheat (0.8%). When processing reproductive seeds, the exit from the pneumatic sorting table met the requirements of GOST R 52325-2005 on the content of weed seeds (52 pcs / kg with an acceptable 70 pcs / kg) with a seed yield of 63.5%. When processing this grain according to the old scheme, a seed line (in frequency) was obtained on the production line only after the second pass through the line, while the yield of seed material decreased and its trauma increased. When processed according to the proposed scheme of elite seeds, in which the permissible seed content of weeds according to the standard is 5 pcs / kg, the seed yield was 54.4%. The seed yield decreased due to the installation of the working edge of the trough of the puppet cylinder in a lower position than in the previous case, in order to ensure the necessary purity of the seed material. The use of a belt friction separator in the seed grain cleaning scheme at the final stage ensured an increase in the efficiency of cleaning and elite seed yield by 8.2% due to the higher position of the working edge of the doll cylinder trough. The cost of processing seeds on a friction belt separator is small compared to the cost of additionally received seeds of a high category. When processing seeds of high categories, it is economically feasible to use a belt friction separator for the final cleaning of seeds from Tatar buckwheat.

The claimed invention provides an increase in the efficiency of seed cleaning by 15-17%, which, in turn, leads to an increase in the quality and yield of seed material.

Claims (2)

1. A method of cleaning wheat seeds from Tatar buckwheat, including the processing of grain on the spike and sorting sieves with oblong holes, in the air-aspiration channels, puppet cylinder and pneumatic sorting table, and large seeds of Tatar buckwheat are emitted as large impurities, seeds of Tatar on the spike sieve with oblong holes buckwheat as short impurities is isolated in a puppet cylinder with a cell diameter equal to 1.05-1.10 of the maximum seed length of Tatar buckwheat and the location of the working edge of the chute lindra to its horizontal diameter at an angle of 45-55 °. 2. The method according to claim 1, characterized in that the final cleaning of the seeds from the Tatar buckwheat is carried out on a belt friction separator.

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