RU2679053C1 - Grain in capacity storage method in the controlled gas environment and device for its implementation - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the agricultural products, mainly grain, storage technology. Grain storage method involves the use of capacity, which is installed in the container body at the bottom. Capacity is made in the form of a skirt of elastic material, on outer side covering the frame of hollow annular polyethylene rims and vertical hollow aeration polyethylene tubes. Together with the skirt container is tightly closed on top with a plastic lid in the shape of a dome. In the center the lower annular rim is connected to a small hollow ring by means of radial beam polyethylene tubes with holes. Skirt bottom central part is made with a sleeve for the products unloading, located coaxially with a hole in a small hollow ring. Attached to the skirt middle part annular rims are made with fitted with the nozzles system holes. Via the air duct pipe the upper annular rim is connected to the reversing switch with impeller for the cold compressed air supply and performance of the forced air circulation in the skirt with the grain material in height. Air duct pipe is also connected to the second pipe with a reversing switch and a vacuum pump for the atmospheric air removal. At the top the polyethylene cover has a side loading opening with a sealing cover, and is also equipped with the low pressure relief valve and the air pressure sensor. Grain material purging is carried out depending on the its breathing intensity at a relative humidity of air, set in the range of 60–65 %, the average speed of not more than 0.1 m/s, until the grain specified final moisture content achievement, not exceeding 13–14 %.EFFECT: this method and device for its implementation allow to eliminate the grain losses from the mold formation during storage while maintaining its appearance.7 cl, 4 dwg

Description

FIELD OF TECHNOLOGY

The present invention relates to a storage technology for agricultural products, mainly grain in a controlled gas environment, and can be used for temporary preservation, drying and drying of seeds of various crops.

BACKGROUND OF THE INVENTION

The deterioration in the quality of stored grain by insects, molds and myotoxins leads to economic losses among farmers who manage grain storages and processing plants around the world. The development of insects in stored cereals depends on time, moisture content in the grain and grain temperature. The current trend is to reduce dependence on chemicals. Aeration is one non-chemical alternative to reduce insect problems. The use of aeration contributes to safer environmental conditions by reducing residues of chemicals in food products and food supply chains, but it is still limited by its ability to be sufficiently directed at the needs of grain storage, in particular, for various storage methods depending on the amount of grain storage .

If we consider grain mounds in the open air, then grain is stored for periods not exceeding 6 months before the grain is transported or sold. To maintain the quality of grain in the embankment, it is necessary to observe a temperature below 15.5 ° C and a safe moisture content for storage; 15% or less. Sufficiently dried grains stored in mounds only during temperature drops and winter weather may not require coating and aeration. However, when the grain is stored in the following spring and summer, canvas coverings are usually used and technical support for aeration is necessary.

The plastic and canvas cover of the embankment reduces wetting due to rain and snow, but can be an expensive, useless, and time-consuming exercise. The top surface should be smooth to facilitate drainage. The coating is positioned so as to divert water from the bulk grain in order to avoid moisture of the grain. Condensation under the plastic can cause serious problems if it is not properly controlled by aeration. Typically, several fans for aeration pump air from the bottom of the embankment. Air sucked in by fans through the embankment and from the bottom also helps to hold tarps, plastic or other coatings under windy conditions.

The problem of obtaining sufficient distribution of aeration air in the grain is quite obvious. If the central tower is used to fill the storage, aeration pipes and / or exhaust fans may be part of the central structure. Aeration air may be drawn through the perforated retaining wall and pumped out of the central tower.

Aeration requires a mechanical ventilation system that can be used to control the temperature of the grain by transporting air with the desired properties through the mass of grain, preventing the movement and accumulation of moisture, therefore maximizing the shelf life of the grain.

The main goal of aeration is to cool the grain by passing air through the grain mass by suction (negative pressure) or by expulsion (overpressure). In order to achieve cooling as uniformly and quickly as possible, the design of the aeration system must ensure that the air distribution in the grain mass is as uniform as possible.

Even with the best aeration systems, however, problems still occur for storing a certain amount of grain or all grain can be somewhat reduced. Such problems develop and worsen over time. The full extent of the problems is usually not disclosed until the time comes to move the grain for sale and distribution, and this is also caused by economic losses of grain mass.

Methods of filling atmospheric air, gas tanks are known. Filling is carried out by purging, evacuation, displacement and other methods.

During evacuation, a vacuum is created in the cargo tanks, then a replacement gas or atmospheric air is supplied to them. In the process of substitution, the composition in the tank of a particular gas composition is controlled. The process can be repeated several times until the desired composition of the gas medium in the tanks is obtained.

Known soft container for transportation and storage of bulk cargo, which is placed in the power grid and connected to it in the upper part by means of a detachable connection, the container with the upper loading and lower unloading openings, on which sleeves with tape loops are strengthened to prevent spraying of bulk cargo into the environment for clamping and valve system (Patent RU No. 2132296, B65D 88/22, B65D 33/02, B65D 33/14 from 06/27/1999).

The disadvantage of this container is the imperfection of its design, i.e. not possessing high fluidity, the bulk product freezes and sticks together during transportation, forming a monolith, due to the small bore diameter of the sleeve mounted on the lower discharge opening. In addition, it is difficult to adjust the quality of drying and preserving a given culture, for example, grain mass, by intensifying air exchange in the grain mass during drying, storage and simplifying the design of the tank.

A well-known universal complex for storing biological objects in a regulated gas environment (CO ₂ , O ₂ , N ₂ ), in particular for container storage of fruits (Patent RU No. 2310316, A01F 25/00, A01F 25/14 from 11/20/2007).

A device for storing agricultural products in airtight conditions, containing a soft container with a lid, a water-tight liner and a bottom in the form of petals, providing tightness when tightened with a rope element, while the container body has upper slings for loading, transportation and storage (Patent RU No. 2228287, B65D 88/22, B65D 30/12 dated 05/10/2004).

The known device is difficult to manufacture and assemble the bottom before loading. In addition, a sufficient safety precaution is not provided when unloading the container, since when unleashing a cord tightening the petals of the bottom, the operator should be next to the container. Another disadvantage is that unevenness of drying and storage of the material over the layer is observed, the reserve for increasing the process productivity is not used, and it does not lead to a decrease in the rate of aerobic respiration in the grain mass, and also to prevent the process of anaerobic respiration, i.e. when laying the grain mass in storage with humidity below a critical value, for example, due to partial discharge of air in the tank, and to prevent anaerobic respiration, it is necessary to ventilate the grain mass with the subsequent removal of excess air by vacuum.

Closest to the proposed invention is a method for storing agricultural products under anaerobic conditions, localization of the grain mass by storage volume, excluding supernatal space. Moreover, a device for storing agricultural products under anaerobic conditions, containing a soft container with a lid, a water-tight liner, a bottom and upper slings for unloading products and is installed in the frame through the upper slings (Patent RU No. 2310316, A01F 25/00, A01F 25/14 from 11/20/2007).

Thus, it is known that for storage of grain under anaerobic conditions, metal silos of small and large capacity or trenches are used. The most rapid onset of an oxygen-free state is achieved by their full load, in which there is completely or almost completely no supergrain space. To unload grain from them, special devices are used to ensure storage conditions are preserved (P. A. Trisvyatsky. Storage of grain. M: Kolos, p. 276, 1975).

However, this storage method and its device does not allow to completely maintain the quality of the grain mass, since due to the impossibility of regulating the composition of the gas medium, there is a gradual accumulation of carbon dioxide in the tank, which causes the material to reach a predetermined humidity during drying, subsequently expose it to ventilation in set time, then dosing, in portions to release from the tank. Thus, grain to a greater extent when loading grain into the tank, it has a significant part of the unevenness of humidity along the height of the tank, the absence of active ventilation, this eliminates the effect of grain recirculation, reduces the drying speed of grain, increases the energy intensity of the process. In addition, there is no air suction system by evacuation (removal of excess air). In general, the device does not allow, depending on the initial moisture content of the grain, to regulate the air flow, which reduces the quality of drying.

SUMMARY OF THE INVENTION

The technical task of the invention is to improve the quality of drying grain by intensifying air exchange, and an economic method of storing the grain mass in a controlled gas medium in an elastic sealed container and a device for its implementation, which will allow to save the grain material in a container, for example, dry sown grain.

The technical result of the proposed method for storing agricultural products under anaerobic conditions, for example, dry sowing grain, involving the use of containers, localize the grain material, where the outer surface is made of elastic material in the form of a skirt, which is additionally provided with hollow annular rims inside, connect them to each other with using vertical hollow aeration tubes made in the form of a circular lattice, while the skirt is made of elastic material, insulating from the external influences of the bottom and side walls when it is inseparably connected with hollow ring rims and fixed to it, the bottom of the skirt in the center is made in the form of a small hollow ring with radial beam tubes with holes that are rigidly connected to the lower hollow ring rim, and the upper hollow the annular rim is connected by means of an air duct pipe inside the block cavity to the internal hollow annular rims equipped with vertical hollow aeration tubes, while the surface the wall of the rim wall with holes is provided with a system of nozzles uniformly distributed on the inner side of the wall of the rim placed in the middle part of the skirt, and the duct pipe is connected to the injection source of compressed air in the form of an impeller, cold compressed air from the nozzle, which is fed through a reversing switch, moreover, the duct pipe is connected to a second pipe with a reversing switch to remove atmospheric air using a vacuum pump, in addition, the hermetic skirt is purged depending respects from the respiration rate of the grain material at a set relative humidity of 60-65%, an average air velocity of not more than 0.1 m / s and did not exceed a specified value of the final grain moisture of 13-14% and is maintained over time, which can satisfy the requirements of sowing qualities required for a given grain moisture to a predetermined value, while maintaining the pressure of atmospheric air and the circulation of the gas medium is carried out in manual mode or by an automatic control system.

The technical result in the proposed device for storing grain in a controlled gas environment, comprising a container, a lid, a water-tight container installed in the container body to the bottom, a sleeve for a container for unloading products, characterized in that the elastic container is made in the form of a skirt fastened with hollow elements in in the form of annular rims and vertical hollow aeration tubes, with a top-tight lid made of polyethylene material in the form of a dome, which is made with a side hole for loading ki of grain material and has a low pressure relief air valve, with a lid that seals the storage capacity, the skirt is made of elastic material, covering the frame of polyethylene rims and vertical polyethylene tubes from the outside, while the center of the bottom of the frame is equipped with a small hollow ring and has a through opening fastened with a skirt lock, annular rims fixed to the middle part of the skirt are made with holes equipped with a nozzle system designed to inject compressed air guide from the impeller through a reversing switch duct pipe passed through the hole in the cap skirt, with the air tube further attached to the second tube with reversing switch for the removal of air by means of a vacuum pump.

In addition, the container body is made of polyethylene material open from above on one side to ensure that the inside of its elastic skirt with its elements in height during subsequent filling of the skirt with grain material and a wheel for movement.

In addition, the polyethylene cover of the elastic skirt overlaps the upper diameter of the open part of the body wall of the polyethylene container and the interdimensional circular free section between the inner walls of the body and the outer walls of the elastic skirt.

In addition, the plastic cover on top has a mounting loop for connecting it to the hook of the lifting mechanism.

In addition, the plastic cover is equipped with an air pressure sensor.

In addition, a window with a lid for a sampler and grain sampling for controlling the drying process is made in the polyethylene lid, and the lid is sealed.

In addition, the plastic cover on top includes a low pressure vent valve.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 is a general diagram of a polyethylene container, inside of which is placed an elastic skirt with frames and with a lid for storing grain; in FIG. 2 is a front view of a carcass of hollow annular rims with vertical hollow aeration tubes for attaching its skirt in the form of an elastic material from the outer surface; in FIG. 3 - view A (bottom of the frame assembly from the bottom with the lock of the skirt); in FIG. 4 is a front view of the impeller from above (connection to the engine is not shown).

DETAILED DESCRIPTION OF THE INVENTION

To implement the method of storing agricultural products, for example, dry grain in a controlled gas environment, the frame device is made of rigid hollow polyethylene ring rims 1, 2, 3, 4, cover 5, also made of polyethylene material in the form of a dome, the lower base of the cover 5 is rigid fastened by means of a shell with the upper ends of the skirt made of elastic material 6, while the upper, middle parts of the skirt are connected by polyethylene ring rims 1, 2, 3, 4 (tubular). The hollow annular rims 1, 2, 3, 4 are connected in height by vertical polyethylene hollow aeration tubes 7 in the form of a circular grid, and the bottom 8 of the skirt 6 includes a hollow polyethylene annular rim 4, to which they are connected via radial beam polyethylene tubes 9 with holes 10, and in the center with a small hollow ring 11, while the holes 10 of the radial radial tubes 9 have holes, the diameter and quantity of which contributes to the most complete release of atmospheric air for uniform injecting into the pores of the grain mass air upwards from the bottom 8, the skirt 6 (hereinafter may be noted as a capacitance). The surface of the frame, including the elements of the hollow annular rims 1, 2, 3, is fastened on the outside (covered) by a skirt made of elastic material 6. The central lower part of the bottom 8 of the skirt 6 with the sleeve fastened by a lock 12, is made by the gap opening coaxially with the hole of the small hollow ring 11. Hollow polyethylene ring rims 2, 3 (tubular) are fixed to the middle part of the skirt 6 from its inner part, which has holes 13 in the side walls into which the nozzles 14 are screwed at right angles to the loading direction and grains into the cavity of the skirt (capacity) made of elastic material 6 when it is inseparably connected with hollow polyethylene ring rims 1, 2, 3, 4 with vertical hollow aeration tubes 7 and bottoms 8 with radial beam hollow tubes 9 with a small hollow ring 11 The nozzles 14 of the hollow annular rims 2, 3 are designed for the injected medium in the form of compressed air coming from the impeller 15, and are removable with the possibility of fixing their length for supplying the inside of the skirt 6 (capacity) formed by polyethylene with annular rims 2, 3 of air supply under pressure, creating a gas-air medium thicker than grain in height, and formed by a corresponding skirt closed in height of elastic material 6 around the outer side of the frame from hollow polyethylene ring rims 1, 2, 3, 4, with hollow vertical aeration tubes 7 in the form of a circular lattice over the entire height of the skirt 6. All frame elements are made of high strength polyethylene material. Compressed air first enters the upper hollow annular rim 1 using the pipe 16 of the duct, passed through the hole 17 in the cover 5 of the skirt, the pipe 16 of the duct, which is connected to the impeller 15.

The pipe 16 of the duct with the impeller 15 is provided with a reversible switch 18 for supplying cold air, and in addition a second portion of the duct 19 with a reversible switch 20 with a vacuum pump 21 to remove atmospheric air, i.e. the presence of a vacuum pump allows air to be pumped out after turning off the impeller 15, as a result of which the speed of pumping air increases in the pores of the grain material along the height of the skirt 6. A device in the form of an impeller 15 is installed for forced circulation of cold air at a set relative humidity of 60- 65%, with an average air velocity of not more than 0.1 m / s, achieving a grain moisture content of 13-14%, which is maintained for the time required for a given moisture content for dry grain, i.e. set value and, accordingly, after airing the grain mass over the entire height saturated with moisture, air, starting from the lower layers with the height of the grain mass, exits through a low pressure relief valve 22 mounted in a polyethylene cover 5, for which a pressure sensor is placed on the cover 5 air 23, which is additionally connected to a graduated scale (the design of the meter for air pressure can be made different).

Thus prepared, a frame of hollow polyethylene elements 1, 2, 3, 4, 7, 9, 11, 14 with a skirt of elastic material 6 is placed inside the polyethylene housing of the high-strength container 24 in the form of a cylinder, the bottom of which is made solid and provided with wheels 25 The open upper part of the container 24, when the entire device of the skirt 6 with the frame is placed in it, the lid 5 closes tightly from above, covering the outer part of the container body 24 along the outer diameter, as well as the interdimensional free section with a gap between the inner the walls of the container body 24 and the outer walls of the skirt of elastic material 6.

The loading of the skirt 6 (container) with the grain product is carried out through the loading side hole in the cover structure 5, which is then sealed additionally with the side opening cover 26. The dome-shaped lid 5 is formed to form an upper mounting loop 27 for hanging by the hook 28 of the lifting mechanism. In addition, the polyethylene cover 5 of the skirt 6 includes a window with a cover 29 for installing the sampler 30 in it; in addition, a gas analyzer can be used to monitor the dynamics of carbon dioxide accumulation in the polyethylene skirt (container) for grain drying (not shown).

Thus, the constructive solution of the polyethylene cover 5 with the skirt 6, which contains the connection elements to the sealed skirt 6 inside and outside the above devices, also supports the temperature regime of storage of the internal volume of grain in the skirt of its integral connection, isolating from external influences of the bottom and side walls in General, and the side walls of the skirt of elastic material 6 are isolated by a gap from the side walls of the polyethylene one-piece container 24, additionally closed from above tightly open Asti, on the one hand, the ends of the plastic cover 5 to the outside (external) to its diameter.

The method is as follows.

Before starting storage of the grain product (material), put the skirt 6 together with the frame tightly connected with the cover 5, the frame is made of devices 1, 2, 3, 4, 9, 14, placed inside the plastic case of the container 24 with hanging to the hook 28 through the loop 27 on the lid 5 allows subsequent lowering directly to the seat from above through the open part of the container 24 and creating a total sealed volume of the device as a whole. The container 24, together with the skirt 6 placed in it with all the above-mentioned elements of the device, is a transport structure and, at the same time, enclosing a reliable protective structure from damage.

Grain through the loading side hole with a sealing cover 26, fill the skirt in the form of a water-tight device. After loading the bulk grain material into the skirt, open the pipe 16 of the duct - air inlet and turn on the impeller 15 for the intake of cold compressed air at a set relative humidity of 60-65%, with an average air speed of not more than 0.1 m / s. Further, the flow of cold compressed air under pressure first enters the upper hollow polyethylene ring rim 1, passes through the vertical hollow polyethylene aeration tubes 7 in the form of a circular grill, while the vacuum pump 21 is turned off, air enters the middle annular rims 2, 3, under pressure passes through nozzles 14 into dense zones of grain material. At the same time, cold air under pressure enters the lower hollow polyethylene ring rim 4 (pipe), rigidly connected with radial polyethylene ray tubes 9 with openings 10, the diameter and quantity of which contributes to the fullest release of atmospheric air up into the grain mound, filling the volume of grain material in the skirt 6. In this case, the radial ray tubes 9 connected to each other by the second ends in the center of the bottom 8 of the skirt 6 with a small hollow polyethylene ring 11 with an opening of the lumen coinciding with the sleeve Fastened by a lock 12 in the bottom 8 skirt 6, i.e., adjacent to the bottom of the small hollow ring 11.

Air saturated with moisture from the lower layers and lateral layers of high grain mass exits through vertical zones of increased duty cycle, not precipitated in the upper layers of the grain thickness, taking moisture away, then the air stream flows under the dome of the plastic cover 5 and exits through the low pressure relief valve 22 to the outside the atmosphere. The total amount of air entering the under-dome area of the polyethylene cover 5 is determined by the readings of the air pressure sensor 23 mounted on top of the cover 5, and monitoring the dynamics of carbon dioxide accumulation can be additionally carried out using a gas analyzer for grain respiration (not shown). In the drying process, grain is periodically taken through a window with a lid 29 and a sampler 30 to control drying.

The process of regulating the gas composition when removing atmospheric air is carried out after it ceases to flow when the impeller 15 is turned off. The presence of a vacuum pump 21 enables pumping of air through the second section of the pipe 19 with a reversing switch 20, and it is possible to use fixing on the cover 5 on top of the device in a vacuum gauge (not shown for simplicity). The process of pumping out the remaining air continues until all atmospheric air has been removed.

After that, the vacuum pump 21 is stopped and the sampler 30 determines the moisture content of the grain, which should not exceed a predetermined value of the final moisture content of 13-14% and maintained for the time required for a given grain moisture to a predetermined value. In this case, the compressed air supply or air removal cycle can be carried out by the operator manually or with an automatic device switching system. Thus, providing the beginning of a new cycle of the impeller or vacuum pump. Then again sampling is carried out, grain samples to control the storage of grain products in a skirt of elastic material with a skeleton placed in a plastic container, allow the possibility of moving on wheels in the storage.

The unloading of grain from the skirt (container), for example, to prepare it for planting, takes place using the cover 5 with a mounting loop 27, the cover 5, which is made in the form of a dome and fastened along the generatrix plate rigidly with the skirt 6 through the upper hollow annular rim 1, move up, i.e. lifting the skirt together with the frame is a one-piece device and is suspended from the hook 28 of the lifting mechanism with the grain. After that, using a lifting mechanism (not shown), the further process occurs in the following sequence. Take away the container 24 on the wheels 25 directly to the side, open the lock 12, which can have a different design, for example, a screed with a belt or other element, then, freeing from grain, which is freely placed, for example, in a car body or other improvised device, the grain rolls down along the forming skirt, fixed with its flexible (elastic) panel to the frame, consisting of hollow ring rims in height, since the bottom is open enough to pass freely through the opening of the small bus without delay total ring 11.

After this process is completed, the bottom of the skirt below the opening (hole) in the small hollow ring 11 is again closed with a sleeve lock 12 (tied into a tight knot) after unloading grain, then the skirt with the skeleton is freely lowered into the inside (bottom) of the container for 24 s using the mechanism to its original place, and combine along the generatrix of the edge of the lid 5 with the walls of the container 24 from above, and the bottom 8 of the skirt 6 lies on the bottom of the container 24 and is pressed by the lower hollow annular rim 4 with radial radiation tubes 9 with holes 10 associated with small m hollow ring 11, which leads to jamming of the lock 12 of the sleeve at the bottom of the container, and eliminates the violation of the tightness of the skirt of elastic material 6, since everything is done by sequential actions on the suspension of the cover with a frame of polyethylene ring rims fastened together and with the skirt on the lifting hook mechanism (e.g. crane).

The ability to control the operation of the impeller 15, reduce through the nozzle (not shown) the flow of compressed air, by adjusting its speed at a given low power of the applied engine (not shown for simplicity).

Naturally, the constructive use of the proposed method of storage and its device and the relationship of the elements of the skirt (capacity) with the container and with the lid as a whole during the storage of grain, eliminates the loss of grain from mold during storage and is used for sowing, selling, etc.

The strength of the structure as a whole is increased by connecting all the elements together with the connecting to the skirt, and the frame and the container itself are made of modern light and high strength materials, which allows you to reuse the device in the process of loading, transportation, storage and unloading.

The reliability of the results of air pressure and pumping it out of the skirt with grain is accompanied by instrument control in the form of an air pressure sensor, the readings of which are displayed outside, as well as the use of a sampler, grain samples to control drying and storage, respectively, and grain diagnostics in a controlled gas environment, where the main the parameter is the final grain moisture of 13-14% to the germination class. It is possible to control the drying and storage of grain, which is especially important for planting material, i.e. to improve the quality of seeds of seed to the level of 1 class for germination, allows the introduction of production. Thus, the present invention will simplify the design for drying and storage of products through the use of modern plastic materials and the design of the skirt itself from an elastic material with a frame made of hollow elements, placed as a whole in a polyethylene container, to significantly reduce material consumption, while the entire structure is made as a single module , which in size corresponds to the specified storage of grain material in any warehouse in the form of a series of modules.

Claims (7)

1. A method of storing grain in a container in a controlled gas environment, involving the use of a container in which the grain material is localized by storage volume, excluding supergrain space, characterized in that the outer surface of the container is made of elastic material in the form of a skirt, which is additionally hollow inside annular rims, connect them together using hollow aeration tubes made in the form of a circular lattice, while the skirt is made of elastic material the bottom and side walls lining from external influences, when it is inseparably connected with the hollow rims fixed in it, the bottom of the skirt in the center is made in the form of a small hollow ring with radial beam tubes with holes that are rigidly connected to the lower hollow ring rim, and the upper hollow the annular rim is connected by means of an air duct inside the block cavity to the internal hollow annular rims provided with vertical hollow aeration tubes, while the wall surface of the rim The holes with holes are provided with a system of nozzles uniformly distributed on the inner side of the wall of the rims located in the middle part of the skirt, the duct of the duct being connected to the discharge source of compressed air in the form of an impeller, from the nozzle of which cold compressed air is supplied through a reversing switch, and the duct of the duct is connected to the second pipe with a reversing switch to remove atmospheric air using a vacuum pump, in addition, the hermetic skirt is purged depending and from the respiration rate of the grain material at a set relative humidity in the range of 60-65%, an average air velocity of not more than 0.1 m / s and, not exceeding a predetermined value of the final grain moisture of 13-14%, support over time to meet the sowing requirements qualities necessary for a given grain moisture of a given value, while maintaining atmospheric air pressure and gas medium circulation are carried out in manual mode or by an automatic control system. 2. A device for storing grain in a controlled gas environment, containing a container, a lid, a water-tight container installed in the container body at the bottom, a sleeve of a container for unloading products, characterized in that the elastic container is made in the form of a skirt fastened with hollow elements in the form of ring rims and vertical hollow aeration tubes, overlapping tightly on top with a dome made of polyethylene material, which is made with a side opening for loading grain material and has a reset low pressure air valve, with a cover that seals the storage capacity, the skirt is made of elastic material, covering the frame of polyethylene rims and vertical polyethylene tubes from the outside, while the center of the bottom of the frame is equipped with a hollow small ring and has a through opening secured by the lock of the skirt, annular rims fixed to the middle part of the skirt are made with holes provided with a system of nozzles designed to inject compressed air coming from an impeller with reverse eklyuchatelem through duct pipe passed through the hole in the cap skirt, with the air tube further attached to the second tube with reversing switch for the removal of air by means of a vacuum pump. 3. The device according to p. 2, characterized in that the container body is made of polyethylene material open from above on one side to ensure that the inside of its elastic skirt with its elements in height during subsequent filling of the skirt with grain material and wheels for movement. 4. The device according to p. 2, characterized in that the polyethylene cover with an elastic skirt overlaps the outer diameter of the open part of the body wall of the polyethylene container and the interdimensional circular free section between the inner walls of the body and the outer walls of the elastic skirt. 5. The device according to p. 2, characterized in that the polyethylene cover on top has a mounting loop for connecting it to the hook of the lifting mechanism. 6. The device according to claim 2, characterized in that the polyethylene cover is equipped with an air pressure sensor. 7. The device according to claim 2, characterized in that a window with a cover for a sampler and sampling grain to control the drying process is made in the polyethylene cover and the cover is installed with the possibility of sealing it.

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