RU2659904C1 - Seed storage - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention refers to agriculture. Seed storage facility including a housing with internal temperature sensors and an air duct with direct outlets for supplying an ozone-air mixture is proposed. Storage body is made with a cylindrical radius, and the duct is installed along its vertical axis. In this case, the bends are placed on the duct with a step of no more than two meters, forming longlines, in each of which there are bends with nozzles.EFFECT: invention provides a reduction in the effect of condensate on the state of the seeds in the contact zone with the metal wall of the storage.1 cl, 2 dwg

Description

The invention relates to agriculture, namely silo-type storages and can be used in seed storage complexes.

A known complex comprising a horizontal duct located in a closed volume with direct straight perforated pipes, the holes in which increase in the direction of gas movement, an ozonizer installation, a pipe connected to the exhaust fan, the outlet of which is made in the roof or side walls that limit the volume above the mass grain, seed or premises. The complex also has a device for mixing ozone with atmospheric air, a device for preparing a secondary ozone-gas mixture and a destructor. The ozonation installation is made in the form of an oxygen generator, an ozone generator, a high-frequency high-voltage power source and a refrigeration machine. The output of the ozonizer installation is connected to the first input of the mixing device, including a pressure fan. The output of the mixing device is connected to a perforated pipe. The output of the exhaust fan is connected to the input of the preparation of the secondary ozone-gas mixture and the input of the destructor. The output of the preparation device for the secondary ozone-gas mixture is connected to the second input of the mixing device (description of patent RU No. 2315460, IPC A01C 1/00, prototype).

The complex allows venting the entire volume of stored grain with an ozone-air mixture.

A disadvantage of the known complex is the lack of control of the state of grain in the zone of contact with the metal wall of the storage, which can lead to spoilage of grain in this zone due to the formation of condensate at large daily changes in air temperature.

The objective of the invention is to improve storage conditions of seeds.

The technical result is a decrease in the effect of condensate on the condition of the seeds in the contact zone with the metal wall of the storage.

определяемое из условия:

при этом датчики температуры расположены вертикально на расстоянии

от стенки корпуса вдоль радиуса, a s=(1,8÷2,2) - эмпирический коэффициент, зависящий от скважности семенного материала ед. длины.The technical result is achieved by the fact that in the seed storage, comprising a housing with temperature sensors located inside and an air duct with direct branches for supplying an ozone-air mixture, the storage body is made of a cylindrical radius R and the air duct is installed along its vertical axis, while the branches are placed on the air duct in increments of no more than two meters, forming tiers, in each of which bends with nozzles are placed, equally spaced from each other by an angle α not exceeding 2 arcsins / R, and oriented in each subsequent tier offset by an angle α / 2 relative to the respective taps in adjacent tiers, said nozzles at the ends of the tap are removed from the body by a distance

determined from the condition:

while the temperature sensors are located vertically at a distance

from the wall of the body along the radius, as = (1.8 ÷ 2.2) is an empirical coefficient depending on the duty cycle of the seed material lengths.

In FIG. 1 shows a fragment of a rectangular dimetric projection of a longitudinal section of the storage; in FIG. 2 is a transverse section through the storage.

The storage includes a cylindrical body 1 with a radius R. Along the vertical axis of the body 1, an air duct 2 is installed with outlets 3 for supplying an ozone-air mixture from an ozonizer installation (not shown). At the ends of the branches 3 there are nozzles 4 with valves (not shown).

Branches 3 are placed on the duct 2 tiers with a step h of no more than two meters, which provides the necessary concentration of ozone in the ozone-air mixture at all points of contact of the seeds with the housing 1 of the store. In each of the tiers there are N branches, equally spaced from each other by an angle a, not exceeding 2arcsins / R, where s = (1.8-2.2) is an empirical coefficient having a dimension in units of length. S depends on the duty cycle of the seed and is selected from the condition of maintaining the concentration of ozone in the ozone-air mixture supplied to the store, at least 70% of the nominal concentration at all points of contact of the seeds with the wall of the body 1 of the store. For storages of small-seed crops s = 1.8 (millet), medium-seed s = 2.0 (wheat), large-seed s = 2.2 (corn). The taps 3 are oriented with an offset by an angle α / 2 relative to the corresponding taps 3 in the adjacent tiers, which provides a more uniform distribution of the ozone-air mixture flows during ventilation of several adjacent tiers at the same time. The nozzles 4 are provided with valves (not shown).

от стенки корпуса 1 вдоль радиуса.

- расстояние от форсунок 4 на концах отводов 3 до корпуса 1 хранилища. Это обеспечивает контроль температуры семян в зоне их контакта со стенкой корпуса 1 хранилища. Для более точного определения очагов образования конденсата в окрестности каждой форсунки 4 расположено два датчика температуры 5. Шаг размещения датчиков 5 - α/2 со смещением относительно отводов 3 на угол α/4.Temperature sensors 5 are mounted vertically at a distance

from the wall of the housing 1 along the radius.

- the distance from the nozzles 4 at the ends of the taps 3 to the housing 1 of the store. This provides control of the temperature of the seeds in the area of their contact with the wall of the housing 1 of the store. For a more accurate determination of foci of condensation in the vicinity of each nozzle 4, there are two temperature sensors 5. The placement of the sensors 5 is α / 2 with an offset relative to branches 3 by an angle α / 4.

During seed storage, changes in the environment occur. The greatest influence on the state of seeds in metal silo-type storages is exerted by changes in external temperature and the formation of condensate in the zone of contact of seeds with the case 1 of the storehouse associated with temperature changes. The accumulation of moisture as a result of the formation of condensate leads to spoilage of seeds in the contact zone with the housing 1 of the store. To prevent spoilage of seeds in the contact zone with the storehouse 1, it is necessary to ventilate the peripheral layers of seeds with ozonized air, since ozone accelerates the process of removing excess moisture from seeds without additional heating of the air. With increasing humidity of the seeds due to the formation of condensate, the process of respiration of seeds in the zone of formation of condensate is intensified, which leads to self-heating of seeds in this zone.

The temperature change is recorded by temperature sensors of 5 automated temperature control systems (thermal suspensions of the ASKT-01 system), determining the zone of self-heating of seeds. For this, next to each nozzle 4 there are two temperature sensors 5, which monitor the temperature of the seed embankment in increments of one meter. The signal from the temperature control system enters the control devices of the seed ventilation system with ozonized air.

The ozonizer installation generates the ozone-air mixture and feeds it into the duct 2. From the duct 2 along the taps 3 with nozzles 4, the ozone-air mixture enters the site of the seed mound, in which there was an increase in humidity and temperature. For this, each nozzle 4 is equipped with an electromagnetic valve (not shown), which allows the ozone-air mixture to be supplied only to the zone with increased seed moisture. Ozonated air is pumped into the zone of increased humidity of the seeds until the temperature sensors 5 come to the normal range specified by the operator. The spent ozone-air mixture with undecomposed residual ozone is sent again to the storage after passing through the filter elements, an air dryer and a mixing device, which allows maintaining a constant concentration of ozone in the ozone-air mixture fed to the seed storage. The reuse of undecomposed residual ozone for venting seeds reduces energy costs for ozone generation.

An example of the placement of taps 3 and nozzles 4 in the housing 1 of the silo-type storage with a radius of R = 3,667 m. In the calculations, the value s = 2 was taken (for medium-seed crops).

For this storage, the angle α between branches 3 with nozzles 4 in the same tier will be no more than α = 2arcsin (2 / 3,667) = 1,153 radians = 66.1 °. From the condition that the angles between adjacent branches 3 with nozzles 4 in the tier are the same, the number of nozzles is determined as N = 2π / α = 6.28 / 1.153 = 5.45. The final number of taps 3 with nozzles 4 in the tier is N, we get by rounding the resulting number up to the nearest whole number N = 6 taps 3 with nozzles 4 in the tier. The angle between branches 3 with nozzles 4 - α = 2π / 6 = 1.05 radians = 60 °. The offset of branches 3 with nozzles 4 in adjacent tiers is determined from the condition α / 2 = 1.05 / 2 = 0.52 radians = 30 °. The distance from the wall of the housing 1 of the store to the nozzles 4 along the radius

смещение относительно оси отводов 3 с форсунками 4 - α/4=1,05/4=0,26 радиан = 15°.The position of the temperature sensors 5 relative to the wall of the storage housing 1 and nozzles 4 is determined from the conditions: the distance from the wall of the storage housing 1

offset relative to the axis of branches 3 with nozzles 4 - α / 4 = 1.05 / 4 = 0.26 radians = 15 °.

The number of tiers of taps 3 with nozzles 4 on the duct is determined based on the height of a particular storage. For a storehouse with a conical bottom and roof, with a total height of 16.3 m, there are 6 tiers of branches 3 with nozzles 4 in the cylindrical part of the body 1 of the storehouse.

Claims (1)

Seed storage, including a housing with temperature sensors located inside and an air duct with direct branches for supplying an ozone-air mixture, characterized in that the storage body is made of a cylindrical radius R and the air duct is installed along its vertical axis, while the bends are placed on the air duct in increments not more than two meters, forming tiers, in each of which bends with nozzles are placed, equally spaced from each other by an angle α not exceeding 2arcsins / R, and oriented in each subsequent tier with an offset of y goal α / 2 relative to the corresponding taps in adjacent tiers, and the nozzles at the ends of the taps are removed from the housing wall by a distance

determined from the condition:

while the temperature sensors are located vertically at a distance

from the wall of the casing along the radius, and s = (1.8 ÷ 2.2) is an empirical coefficient depending on the duty cycle of the seed material lengths.

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