JPH0586163B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a method for storing grain in a silo.

(Prior Art) The storage silos in conventional country elevators simply store grain, and there is no cooling or ventilation of the air in the air layer above the silos.

(Problem to be solved by the invention) If the air in the air layer above the silo is not cooled or ventilated as in the past, the temperature of the air in the air layer above the silo during storage will be close to the grain temperature, and humidity will increase. is the humidity that is in equilibrium with the moisture content of the paddy. If this condition is maintained well, storage will be stable. However, when the outside temperature drops in the fall and winter and falls below the dew point temperature of the air in the upper air layer of the silo, condensation forms on the inner walls of the silo, causing grain to leak and deteriorate. This phenomenon becomes more pronounced as the difference between outside air temperature and grain temperature increases and as the air layer above the silo increases. To avoid this, sheets or straws are laid to isolate the surface of the grain layer from the upper air layer, but this work is complicated and must be done inside a silo. Not only that, but there was also the risk of oxygen deficiency due to the priming effect of grains, which was not desirable.

Further, in spring and summer, when the outside air temperature rises, the temperature of the air in the upper air layer of the silo rises, and so does the grain temperature. At this time, the upper layer of the grain that is in contact with the air layer is particularly susceptible. This is because silos from which some of the stored grain has been removed during storage have a large air layer above the silos, and in addition to this, hot outside air is also infiltrating, making them particularly susceptible to the effects of this. . When grain temperature rises, deterioration and the occurrence of pests and diseases increase, leading to a decline in quality.

Rotation (changing silos) is commonly used as an effective means of lowering grain temperature. However, frequent rotations increase costs and damage to the grain. Also, rotation cannot be performed when the outside temperature is higher than the grain temperature. Similarly, this cannot be done even in high humidity conditions because moisture absorption occurs. Furthermore, there is a difference in temperature between the grains located on the south and north sides of the silo, so care must be taken.

Therefore, the present invention aims to provide a storage system that controls the number of rotations as much as possible by regulating and managing the air in the upper air layer of the silo, thereby making it possible to store grain stably for a longer period of time without deteriorating its quality. It is something to do.

(Means for Solving the Problem) The present invention has been improved in order to achieve the above object, and includes charging grain into a silo, forming an air layer above the silo, and controlling the humidity of the air layer. Or detect the humidity of the air layer and the temperature of each layer of grain,
The grains are stored by cooling and ventilating the air layer and the upper layer of the grains in response to the rise in grain temperature or the temperature and humidity of the outside air.

In addition, conditioned air is sent to the upper part of the silo through an air supply pipe having ventilation holes on the outer periphery, and the exhaust air is guided from the upper end of the silo to pass through a cooling coil and a reheating coil.

(Function) With the above configuration, the humidity at the top of the silo and the temperature and humidity of the outside air are constantly compared and monitored, and the appropriate amount of air is sent in to prevent condensation. If the temperature shifts to an unsuitable temperature, it is possible to prevent the grain temperature from rising abnormally by cooling the upper part of the grain layer.

(Example) Embodiments of the present invention will be described based on the drawings.

Apparatus for carrying out the grain storage method in a silo of the present invention are generally a silo 1 and a temperature/humidity control device 10.
and an air conditioner 20.

The silo 1 has a discharge port 1a at the bottom and an input port (not shown) at the top.

The air conditioner 20 includes an intake port 21 equipped with an air damper 22, an air supply port 23 equipped with a ventilation fan 24, and a return port 25 in one housing _H1. In between, a filter 26, a cooling coil 27, and a reheating coil 28 are arranged from the return port side, adjacent to the housing _H1 ,
Housing H ₂ with inlet 29 and outlet 30
A heat dissipation coil 31 and a heat dissipation fan 3 are installed in this.
2. Compressors 33 are arranged in sequence.

The air supply pipe 2 is connected to the air supply port 23 of the air conditioner 20.
One end of the silo 1 is connected to the silo 1, and the other end extends from the top of the silo 1 toward the middle part. Air supply pipe 2
The other end 2' has a number of ventilation holes around it.
Further, one end of the exhaust duct 3 is connected to the return port 25, and the other end is connected to the upper part of the silo 1.

The temperature and humidity management device 10 has an outside air thermometer 11 and an outside air hygrometer 12 for detecting the temperature and humidity of outside air, and a supply air thermometer 13 for detecting the temperature and humidity inside the air supply pipe 2. It has a hygrometer 14, and a hygrometer 16 for detecting the humidity in the silo. Furthermore, it has a multi-point thermometer 15 for detecting the temperature corresponding to the depth of the approximate center of the silo 1. The temperature and humidity management device 10 is provided to control the air conditioner 20 within a set temperature and humidity range.

The grain storage method of the present invention will be explained below.

Grain G is put into a silo 1, and an air layer 5 is formed above it.

Normally, air conditioned by an air conditioner 20 is passed through the air supply pipe 2 so that the upper air layer 5 of the silo 1 has a temperature and humidity (10 to 15 degrees Celsius, about 60%) suitable for long-term low-temperature storage. Most of it passes through the upper layer of the grain, and some of it is supplied directly to the air layer for circulation.

If there is no change in the grain temperature or the temperature in the upper air layer, the air conditioner 20 stops supplying air. When the grain temperature or the temperature of the upper air layer 5 rises, the air conditioner 20 is operated.
Thereby, the upper air layer 5 or the upper layer of grains, which is most susceptible to the influence of temperature, can be kept at the optimum temperature and humidity at all times.

When the grain temperature rises, the grain temperature generally rises gradually, so if the temperature and humidity control device 10 detects a rising trend in the grain temperature, the air conditioner 20 is operated until the grain temperature decreases. By catching and dealing with the increase in grain temperature early in this way, abnormal increases in grain temperature can be prevented.

In autumn and winter, or when the outside air temperature drops at night and the air layer 5 above the silo is about to reach the dew point temperature, the air conditioner 20 is operated to supply cooled air to the air supply pipe 2 so as not to reach the dew point temperature. Proper supply and ventilation can also prevent condensation on the inner walls of the silo. The possibility of condensation tends to be higher as the upper air space of the silo is wider.

When there is a lot of grain in the silo 1 and the air layer is small, the other end 2' of the air supply pipe 2 is buried in the upper layer of grain to cool and control the humidity of both the upper layer and the upper air layer 5 of the silo. Further, when there are few grains and many air layers, the other end 2' of the air supply pipe 2 performs cooling and humidity control of only the air layer 5 without being buried in the grains.

During ventilation of the air in the silo, if the temperature and humidity of the outside air is suitable for ventilation, the compressor 33 is stopped and the air damper 22 is opened to introduce outside air.

Even if the grain temperature starts to rise for some reason and the outside temperature is too high for rotation, the grain temperature can be lowered by cooling and ventilating only the upper air layer of the silo or the upper air layer and the upper grain layer. By lowering the grain temperature or suppressing the rise in grain temperature, it is possible to buy time until rotation is possible. This allows continued high quality storage.

(Effects) Since the present invention is based on the method described above, it has the following effects.

(1) It is possible to suppress the temperature rise of stored grains even when the outside air is high, and it is possible to store grains for a long time without deteriorating their quality. Even if the temperature of the grain increases, the increase in grain temperature can be suppressed until the outside temperature drops and rotation becomes possible.

(2) It is particularly effective when there is a small amount of grain, such as when the grain is being shipped from a warehouse, and there is a large air layer above the silo.

(3) It is possible to eliminate condensation on the inner walls of the silo due to changes in outside temperature, thereby making it possible to maintain quality.

(4) Although some air is supplied into the grain, it mainly controls the air in the air layer above the silo, so the power required for the blower equipment is extremely small, resulting in energy savings.

Furthermore, since the air above the silo, whose temperature and humidity are almost constant, is mainly circulated and used, the heat load is small, and the power of the refrigerator equipment is also reduced, resulting in energy savings.

(5) It is possible to eliminate the temperature difference due to the installation status of the silo equipment on the north and south sides.

[Brief explanation of the drawing]

The drawing is a schematic illustration of an apparatus for carrying out the method of the invention. 1... Silo, 2... Air pipe, 3... Exhaust duct, 1
0...Temperature and humidity control device, 20...Air conditioner, 24
...Ventilation fan, 27...Cooling coil, 28...Reheating coil.

Claims (1)

[Claims] 1. Grain is put into a silo, an air layer is formed above the silo, and the humidity of the air layer, or the humidity of the air layer and the temperature of each layer of grain are detected, and the temperature of the grain is determined. A method for storing grain in a silo, characterized in that grain is stored by cooling and ventilating the air layer and the upper layer of grain in response to a rise in temperature or humidity of outside air. 2. The silo according to claim 1, characterized in that an air supply pipe having ventilation holes on the outer periphery is provided protruding inward from the upper end of the silo, and the conditioned air is sent to the upper part of the silo through the air supply pipe. Grain storage method in silos. 3. In order to cool and ventilate the air layer above the silo or the air layer and the upper layer of grain, the exhaust air from these layers is passed through the exhaust duct connected to the top of the silo to the cooling coil and reheating coil of the air circulation system. 2. The method for storing grain in a silo according to claim 1, wherein