RU2480284C1 - Line for degermination of germ from corn grain - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is used for degermination from corn grain of the germ destined for production of corn oil. The line of degermination of the germ from corn grain comprises the unit for preparation of corn grain for processing and the unit for degermination of the germ from corn grain. The unit for preparation of corn grain for processing is equipped with a scalping machine, sieve-air separator, stone separator, humidification unit and a container for softening. The unit for degermination of the germ from corn grain is equipped with screening plants and a dryer. In the unit for preparation of corn grain for processing in front of the humidification unit two series-connected photoelectron separators are additionally mounted. The first separator is designed for removal of impurities by colour, and the second - for removal impurities having the same colour with corn grain but different geometric dimensions. After the container for softening two series-connected photoelectron separators are additionally mounted. The first separator is designed to fractionate the grain mass to the surface area for coarse and small fractions, and the second - for separation of the coarse fraction by length by two factions: the oblong and the round shape. The two fractions separated by length are fed to the unit for degermination of the germ from corn grain separately. In the unit for degermination of the germ from corn grain in front of the screening plants the polishing machines are additionally mounted, equipped with aspiration systems. Sequentially connected roller machines and the screening plants are additionally mounted in front of the dryer, the line units are sealed.

EFFECT: line provides a high yield of the germ with minimal content of meal and glume.

1 dwg, 1 tbl

Description

The invention relates to the food industry and can be used to separate the germ from the corn grain, intended for the production of corn oil.

A known line for separating the germ from corn grain, including a unit for preparing corn grain for processing, equipped with a scalper, sieve separators, stone collector, a humidification apparatus and a tank for smoothing, and a node for separating the germ from corn grain, equipped with a two-rotor grinder, de-granulator, de-granulator, , pneumatic sorting tables and a dryer (Chebotarev O.N., Shazzo A.Yu., Martynenko Y.R. Technology of flour, cereals and animal feed. - Moscow: ICT "Mart", 2004. - S.520-523).

The disadvantages of this line include a low degree of separation of the embryo from the corn grain, i.e. low yield of the germinal fraction, a high content of endosperm (flour) in the isolated nucleus and a high content in the isolated shell nucleus, and therefore a low yield of pure embryo.

The objective of the invention is the creation of a highly efficient line that provides maximum yield of the embryo with a minimum content of endosperm (flour) and with a minimum shell content, due to the intensification of technological processes in individual nodes of the line and due to the close relationship of the design features of these nodes.

The problem is solved in that in the line of separation of the germ from corn grain, including a unit for preparing corn grain for processing, equipped with a scalper, a sieve-air separator, a stone sampler, a humidifier and a container for smoothing, and a node for separating the germ from corn grain, equipped with sifters and a dryer, The unit for preparing corn grain for processing in front of the humidifier additionally has two series-connected photoelectronic separators, the first of which is designed chen for removing foreign impurities by color, and the second is designed to remove foreign impurities that have the same color as corn grain, but different geometrical sizes, and after the capacity for breaking, two series-connected photoelectronic separators are additionally installed, the first of which is used to fractionate the grain mass by surface area into coarse and fine fractions, and the second is designed to separate the coarse fraction in length into two fractions: oblong and rounded, with In this case, two fractions separated in length are fed to the unit for separating the embryo from the corn grain separately, and in the unit for separating the embryo from the corn grain before sieving, grinding machines equipped with aspiration systems are additionally installed, and in addition to the dryer, additionally connected roller machines and sieving are installed, while the nodes the lines are sealed.

The technical result is the achievement of a high yield of the embryo with a minimum content of flour and shell.

The drawing shows a schematic flow diagram of a line for separating the embryo from the grain of corn.

The inventive line consists of a receiving tank for corn grain (item 1), a scalper (item 2) for removing coarse impurities, a sieve separator (item 3) for removing large, small and light impurities, a stone sampler (item 4) for removal mineral impurities (pebbles, sand, etc.) and punctured grains, a separator hopper (pos. 5), a photoelectronic separator (pos. 6) for removing extraneous impurities by color, a separator hopper (pos. 7), a photoelectron separator (pos. .8) to remove impurities having the same color as corn grain, but p various geometrical sizes, humidification apparatus (pos. 9), containers for smoothing (pos. 10), a separator hopper (pos. 11), a photoelectronic separator (pos. 12) for fractioning the grain mass by surface area into coarse and fine fractions, above-separator hopper (pos. 13), a photoelectronic separator (pos. 14) for dividing a large fraction into 2 fractions: oblong and round, magnetic separators (pos. 15), buffer tanks (pos. 16), grinders (pos. 17) equipped with aspiration systems (key 18) sifting (pos.19), magnetic separators (pos.20), roller machines (pos.21), sieving (pos.22) and dryer (pos.23).

The inventive line operates as follows.

The grain mass enters the receiving tank (item 1), and then it is subsequently cleaned: from coarse impurities on the scalper (item 2); from large, small and light impurities on a sieve separator (item 3); from mineral impurities and punctured grains on a stone sampler (item 4). Separated impurities and punctured grains are removed from production.

Grain from the stone sampler (item 4) enters the over-separator hopper (item 5), and then into the photoelectronic separator (item 6) to separate foreign impurities (mineral impurities, spoiled grains, seeds of wild plants) from the grain by color, then the grain enters the over-separator hopper (pos. 7) and the photoelectronic separator (pos. 8) to remove impurities that have the same color as the corn grain, but different geometric sizes.

The cleaned grain mass enters the humidifier (pos. 9) for hydrothermal treatment, and then into the retention tank (pos. 10) and the over-separator hopper (pos. 11), from which it is fed to the photoelectronic separator (pos. 12), where grain fractionation by surface area into coarse and fine fractions is carried out.

A large fraction from the photoelectronic separator (item 12) enters the over-separator hopper (item 13), and then into the photoelectronic separator (item 14), in which it is fractionated along the length into two fractions: oblong (fraction 1) and rounded (fraction 2).

The two fractions separated from the length of the photoelectronic separator (pos. 14) and the small fraction from the photoelectronic separator (pos. 12) are fed to the unit for separating the germ from the corn grain separately through magnetic separators (pos. 15), in which the separation of metallomagnetic impurities is carried out, in buffer tanks (pos.16.) and to grinding machines (pos.17), equipped with aspiration systems (pos.18).

On grinding machines (pos. 17), the shell is removed from the grain surface and the embryo is partially removed. The shell through aspiration systems (pos. 18) is taken out of production.

After grinding machines (pos. 17), a mixture consisting of whole grain, coarse crushed, fine crushed, flour and germ is sent for separation into screenings (pos. 19). The embryo from the screenings (key 19) is sent to the dryer (key 23). Large and small crushers from sifting (item 19) are sent to the production of cereals and flour. A sowing meal (item 19) is sent to feed production.

The whole core from sifting (pos.19) through magnetic separators (pos.20) is sent to roller machines (pos.21) to separate the embryo.

After the roller mills (pos. 21), the resulting mixture, consisting of crushed corn, germ and flour, is sent to screenings (pos. 22) to isolate the embryo, which is then fed to the dryer (pos. 23). Crushed corn grain of various sizes from sifting (pos. 22) is sent to the production of flour or cereal, and flour from sifting (pos. 22) is sent to the production of feed.

The solution to the problem of the invention is realized by additionally equipping the unit for preparing corn grain for processing with two photoelectronic separators, in the first of which foreign impurities are removed from the grain mass by color, and in the second, foreign impurities that have the same color as corn grain but different geometric sizes are removed , which makes it possible in the future to obtain an embryo that is practically free of extraneous impurities and, therefore, to obtain high-quality oil-containing raw materials.

In addition, additional staffing of the unit for preparing corn grain for processing after the tank for breaking off with two photoelectronic separators for separating the grain mass into coarse and fine fractions, subsequent fractionation of the coarse fraction in length into two fractions: round and oblong, as well as separate grinding of rounded fractions , elongated shape and fine fraction allows more efficient grinding process with maximum output of the whole core and maximum separation of the shell hi, which, in turn, will generally increase the yield of the embryo and reduce the content of the shell and flour in it.

In the photoelectronic separator (item 6) (PUBU photoelectronic separators of various capacities. Operation and maintenance manual. Manufacturer: South Korean company DAEWON-GS1 CO, LTD, 2007), foreign impurities are removed from the grain by their color difference with obtaining cleaner grain.

In the photoelectronic separator (item 8) (NANTA ACE model photoelectronic separator of various capacities. Manufacturer: South Korean company DAEWON-GSL1), foreign particles are removed that have the same color as corn grain, but different geometrical sizes, which allows to achieve the degree of grain cleaning. from foreign impurities of all types - 95-96% (instead of 60-69% pa of the known line).

In the photoelectronic separator (pos. 12), the purified grain mass is fractionated over the surface area into coarse and fine fractions, which makes it possible to isolate the fine fraction, which is then separately fed to the grinder, which, in turn, provides subsequent grinding to reduce the formation of flour and increased yield of the embryo.

In the photoelectronic separator (item 14) (NANTA ACE model photoelectronic separator of various capacities. Manufacturer: South Korean company DAEWON-GSL1), a large fraction is fractionated in length into two fractions: oblong (fraction 1) and round (fraction 2) shape, which are sent separately to grinding units, which also ensures a reduction in the formation of flour and an increase in the yield of the embryo.

On grinding machines (pos. 17), consisting of two grinding units (Sanding units of the DWMA-30 and DWMF-30 models. Operation and maintenance manual. Manufacturer: South Korean company DAEWON-GS1 СО, LTD), occurs maximum removal of the shell from the surface of the corn grain, which subsequently provides a lower shell content in the target product is in the embryo.

All devices of the inventive line are sealed, which prevents the emission of dust (weed or grain) from the apparatus bodies into the air.

On the inventive line was carried out experimental processing of corn grain with the receipt of the embryo.

Performance indicators of the claimed and known lines are shown in the table.

Name of indicator Indicator value Famous line The claimed line The output of the germinal fraction,% of the feedstock 8.6-9.6 10.5-11.4 Mass fraction of endosperm (flour) in the embryo,% by weight of the embryo 10.0-12.0 3.0-3.5 Mass fraction of the shell in the embryo,% to the mass of the embryo 2.0-3.0 1.2-1.5 Mass fraction of the product affected by diseases,% 0.60-0.64 0.02 The yield of pure germ,% of the feedstock 7.52-8.10 10.04-10.82

Thus, the implementation of the technological process of separating the embryo from the grain of corn on the claimed line in comparison with the known allows to obtain a larger yield of the embryo of higher quality.

Claims (1)

A line for separating the germ from corn grain, including a unit for preparing corn grain for processing, equipped with a scalper, a sieve separator, a stone picker, a humidifier and a tank for draining, and a node for separating the germ from corn grain, equipped with sifters and a dryer, characterized in that in the preparation unit corn for processing in front of the humidifier additionally installed two series-connected photoelectronic separator, the first of which is designed To remove extraneous impurities by color, the second one is designed to remove extraneous impurities having the same color as corn grain, but with different geometrical sizes, and after the trapping tank two additional photoelectronic separators are installed in series, the first of which is used to fractionate the grain mass by area surface into large and small fractions, and the second is designed to separate the large fraction along the length into two fractions: oblong and rounded, with two fractions separated in length are fed to the unit for separating the embryo from the corn grain separately, and in the unit for separating the embryo from the grain of the corn, grinders equipped with aspiration systems are additionally installed before sieving, and in addition to the dryer, roller mills and sieves are additionally connected in series, while the line units sealed.

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