RU2694310C1 - Bunker device for irradiation of seeds or grains with low-frequency electromagnetic radiation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Disclosed is a bunker device for irradiating grain seeds with low-frequency electromagnetic radiation, which includes a power supply unit, radiator control unit and a radiating device, which consists of a hopper divided into sections with vertical sectional panels-curtains with electromagnetic emitters placed on them. Each sectional panel-curtain is connected to a control unit to provide an individual operating mode of emitters. Bottom of each section is equipped with a sliding gate, and the bottom of the hopper is inclined and equipped with a tapered exit for grain seeds unloading.

EFFECT: invention enables to perform high-performance pre-sowing treatment of seeds.

1 cl, 3 dwg

Description

The invention relates to the field of agriculture, and in particular, to devices for irradiating grain seeds with low-frequency electromagnetic radiation, to influence their biophysical and biochemical properties.

It is known that seed treatment in a magnetic field has an impact on crop yields [Savchenko V.V. "Installation for magnetic processing of seeds of agricultural crops" Vestnik VIESH 2013, No. 4 (13), p. 12-14].

There is a method of seed treatment by exposure to an electromagnetic field, which causes them to accelerate a number of biochemical processes. For example, exposure to an electromagnetic field in the frequency range of 3-30 Hz allows you to increase germination, seed germination energy and to increase the yield of plants [see RF Patent 2179792 C1, A01C 1/00 (2000.01), RF Patent 2134944 C1, A01C 1/00 (1995.01)].

There is a method of volumetric electromagnetic irradiation of agricultural products, in which they form a flow of irradiated material using irradiators spatially located in accordance with the surface configuration of the absorbing medium, and the irradiation dose is provided by the residence time of the material in the irradiation zone followed by layer-by-layer removal of the irradiated medium [RF Patent 2073527 C1, A61L 2/08 (1995.01)].

However, this method is designed to carry out the irradiation of a limited mass of products in stationary conditions and cannot be applied in the field for the flow of a moving seed mass.

The known method and device for threshing of crops by magnetic processing of freshly ground seeds, where threshing occurs with the separation of the grain-salted mass into the productive and non-grain part of the crop in the threshing process with a threshing drum of a bil type of classical execution. When this is carried out at the same time the magnetic processing of the productive part of the crop in the pass mode [RF patent №2265302, A01C 1/00 (2005.12), patent KZ №25203, A01D 41/00, A01D 45/30, A01D 75/00 (2014.11), patent KZ # 25204, A01D 41/08, A01D 45/30, A01D 91/00 (2013. 12)].

The disadvantages of this method and device is that in the case of magnetic processing of freshly ground seeds, the quality of their processing is reduced due to the unevenness of the magnetization of the grain mass. Irregularity of processing depends on underloading, or overloading of the threshing and separating devices of the harvesting machine, on the type of crop being harvested, and on the variation of its yield and humidity.

The closest in technical essence to the claimed invention is a device for irradiating seeds with low-frequency electromagnetic radiation in the combine bunker when it is working in the field, including a power supply unit, a radiator control unit and an irradiating device, which consists of a bunker divided into sections by vertical sectional curtains placed on them by electromagnetic emitters. A device for electromagnetic stimulation of a bunker grain pile consists of two functional parts: a power supply unit and a special removable structure for magnetizing seeds in the combine bunker. A combine harvester with electromagnetic emitters for harvesting grain crops contains a header, a threshing-separating device, and a bunker for collecting threshed and cleaned grain. The bunker is divided into sections by vertical sectional curtain panels with electromagnetic emitters placed on them, connected to a power unit that is mounted in a steel case and is the same for all emitters as an automatic regulator of radiation mode and time. (Sadykov Zh.S. et al. COMBINE HARVESTER WITH ELECTROMAGNETIC EMITTERS // Catalog of the XII International Salon of Inventions and New Technologies "NEW TIME", Sevastopol 2016, p. 77) (prototype).

A disadvantage of the known device is the low quality grain processing. Electromagnetic stimulation of the bunker grain pile in the combine bunker is carried out semi-stationary and causes non-uniformity of electromagnetic processing of the productive part of the crop in the bunker due to an acute lack of time for the magnetization process. For example, in conditions of increased yield and humidity, the combine bunker is filled ahead of time, as compared with the time required for the magnetization of the average yielding bunker grain.

It is known that the state of grain during storage - the so-called resistance, its quality and the possibility of its intended use largely depend on the conditions and time of irradiation, in which it was located immediately after threshing and harvesting. During the period of harvesting grain of high humidity and temperature, there is a need for immediate processing. Points of reception and processing of grain heap, as a rule, are located at a considerable distance from the fields, the time spent on transportation and waiting for unloading necessitate additional treatment of seeds by irradiation. It must be borne in mind that freshly harvested grain is less stable during storage than past post-harvest ripening. Its late processing leads to increased losses due to significantly increasing contributions of physiological processes (moistening, self-heating, the development of microorganisms, etc.), as a result, there is a need for additional energy costs to bring the grain to a conditioned state. In this regard, additional irradiation and subsequent treatment are necessary in order to reduce the moisture of the grain heap.

An important task is to reduce seed infection. The decrease in seed infection is associated with a decrease in the moisture and temperature of the grain heap. To do this, in the processing line of post-harvest grain processing, active ventilating devices are used (air-grooved, aerolotki, aerodnishch, active ventilating bunkers, etc.). During temporary storage of a pile of grain on asphalt plots and other places that are not equipped with means of active ventilation, its humidity and temperature increase in proportion to its storage time, and this is calculated in just hours. At the same time, the number of insect pests is growing, and there is an intensive development of microflora, since ideal conditions arise for their vital activity.

The technical objective of the proposed invention is to improve the quality of grain processing, reduce the time for additional exposure of freshly harvested grain and energy costs for further processing of grain material (irradiation, aeration, defumigation, etc.), reducing its humidity.

To solve this problem in a bunker device for irradiating grain seeds with low-frequency electromagnetic radiation, including a power supply unit, a radiator control unit and an irradiating device, which consists of a bunker divided into sections by vertical sectional curtain panels with electromagnetic radiators placed on them, according to the invention each sectional panel -the curtain is connected to the control unit to ensure individual operation of the emitters, the bottom of each section is equipped with a retractable Aslonka, and the bottom of the bunker is made with a slope and is equipped with a conical gathering for unloading grain seeds.

The claimed invention is illustrated by drawings.

FIG. 1 shows a device for irradiating seeds or grains with low-frequency electromagnetic radiation in a stationary bunker for the variant with general sampling of seeds; in fig. 2 - a general view of the bunker device; in fig. 3 - view of a panel-curtain with a system of electromagnetic emitters.

A bunker device for irradiating seeds or grain with low-frequency electromagnetic radiation consists of a power supply unit 1, a radiator control unit 2 and an irradiating device. The power supply unit 1 emitters creates the voltage required for operation. The control unit 2 includes a radiation time controller and a circuit breaker with the possibility of radial switching on of radiation sources. The irradiating device consists of a bunker, divided into sections by vertical sectional curtain panels 3 with electromagnetic emitters placed on them 4. Each of the curtain panels 3 is placed in the bunker 5 and connected to the control unit 2 by electric wires 6, which ensures individual operation mode and time of exposure radiation sources. Panel-curtains 3 are installed vertically in a stationary bunker 5, fixed in the lower and upper parts of the frame 7, which in turn are installed on the sides of the bunker 5. The panel-curtains 3 divide the bunker 5 into sections, the number of which can be changed by changing the number curtain panels 3 installed along the bunker 5 or the length of the bunker 5 itself. The bottom 8 of the bunker 5 is inclined and equipped with a taper 9 for unloading grain seeds, main pull-out flaps 10, an additional flap 11 for attaching to the mesh bin cottages 12 for collecting grain seeds.

Each of the sectional curtain panels 3 with a system of sources of low-frequency electromagnetic radiation 4 is connected with the control unit 2. Each sectional panel-curtain 3 has an individual mode of operation of sources of low-frequency electromagnetic radiation 4, exposure time and magnetic field energy. This allows you to change the mode of operation of the device and irradiation technology.

The bunker device can operate in two modes. First, the unloading of irradiated cereal seeds can occur from each section into a separate container 12, and a differentiated mode of irradiation of the cereal seeds takes place. Secondly, all grain seeds are irradiated with one of the established modes, which is optimal for each batch. The irradiated cereal seeds from all sections can be unloaded simultaneously through a conical junction 9, for which an inclined bottom 8 of the bunker device 5 is provided. The slope of the bottom 8 exceeds the friction angle of the grain seeds on its surface.

Curtain panels 3 with radiators 4 are installed in section frames 7 across the bunker 5. The possibility of increasing the sections by increasing the number of section frames 7 along the bunker 5 provides for regulation of the volume and mass of the irradiated grain seeds.

The use of panel-curtains 3 with radiators 4 in the bunker 5 allows you to change the conditions of sampling, the number of radiators for additional exposure of freshly harvested grain seeds, to reduce their humidity, reduce time and energy costs for their post-harvest processing. Thus, the inventive device allows you to increase the efficiency of the installation, the throughput capacity for the process of treatment of grain seeds, reduce the time for irradiation and processing in this installation and improve the output parameters of grain seeds.

A device for irradiating grain seeds with low-frequency electromagnetic radiation is intended for operation both in field and stationary conditions.

For work in field conditions the bunker device is installed on the truck. Freshly threshed cereal seed mass fills sections directly on the field from the combine harvester. In the stationary mode, the filling of sections with a mass of cereal seeds is carried out from the granary by means of a technological conveyor.

The time and mode of processing of grain seeds in each section is selected individually, depending on their quality and condition. The frequency of electromagnetic radiation is 16 Hz. Processing time can vary from 10 to 30 minutes. The use of the device for irradiating grain seeds with low-frequency electromagnetic radiation for work in such conditions allows to increase the yield of irradiated wheat seeds by up to 7% compared with the prototype.

The inventive bunker device for irradiating grain seeds with low-frequency electromagnetic radiation is universal. It can be used to stimulate the growth and development of grain seeds, their drying, and suppressing microbiota for storage.

The main advantages of the claimed device and technology of electromagnetic treatment of seeds of cereals before traditional chemical technologies are ecological purity, efficiency and versatility.

Claims (1)

A bunker device for irradiating seeds of grain with low-frequency electromagnetic radiation, including a power supply unit, a radiator control unit and an irradiating device, which consists of a bunker divided into sections by vertical sectional curtain panels with electromagnetic radiators placed on them, each sectional panel curtain connected to the control unit to ensure individual operation of the emitters, the bottom of each section is equipped with a sliding gate, and the bottom of the bunker is performed on a slope and is equipped with a conical gathering for unloading grain seeds.

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