KR200415632Y1 - Institution for containing grains using winter cooling air - Google Patents

Abstract

There is disclosed a grain storage facility using natural cold in the winter, which can not only prevent the rise of grain temperature in the grain storage room but also prevent condensation and store grains for a long time at high quality and low cost. The grain storage facility according to the present invention is spaced apart from the inner wall of the main body so as to prevent the temperature rise of the grain adjacent to the inner wall of the summer body, and is formed along the inner wall of the main body to provide a grain storage chamber inside. Between the inner wall of the auxiliary wall for forming a cold air circulation path is provided. In addition, in the grain storage facility, a cold air circulation pipe is installed vertically inside the auxiliary wall so as to prevent the bottom surface of the grain storage room from rising due to the geothermal heat in summer. The lower portion extends through the bottom surface of the grain storage room. The extension end is connected to the lower cold air blower. More preferably, the grain storage facility has a temperature and humidity difference in the interior of the grain input screw device and the roof structure in summer so that condensation occurs at the communication portion of each grain input screw device and the roof structure so that condensation may occur. The roof structure further includes an upper cold air blower that blows cold air inside the communicating portion.

Description

Grain storage facility using natural cold in winter {INSTITUTION FOR CONTAINING GRAINS USING WINTER COOLING AIR}

1 is a view schematically showing a grain storage facility using natural cold in winter according to the present invention, and

2 is a view showing the auxiliary wall and the cold air circulation pipe shown in FIG.

<Description of the symbols for the main parts of the drawings>

100: Grain storage facility using natural cold in winter

110: auxiliary wall 112: cold air circulation

122: cold air circulation pipe 126: lower cold air blower

130: upper cold air blower

The present invention relates to a grain storage facility using natural cold in winter, and more particularly, it is possible not only to prevent the rise of grain temperature in the grain storage room during the summer when the outdoor air rises, but also to suppress the occurrence of condensation so that the grain is stored at high quality and at low cost for a long time. The present invention relates to a grain storage facility using natural cold in winter.

In general, grains such as rice and barley harvested from the mountain region are essential for storage and transportation until reaching the consumer. This is because grains such as rice and barley harvested from the mountain region have too much moisture to be stored and transported without damage. That is, grains such as rice and barley harvested from a mountain region have a water content of about 20 to 30%, and grains having such moisture content are easily deteriorated at the time of storage for storage so that they are stored in a dried state to have a constant water content. Done. As described above, grains dried to contain a constant moisture are mainly stored as they are in general warehouses, yards, silos and the like.

   The grains stored in this way do not have any problems due to natural cold in winter, but from April the following year, as the outside air increases, the grain temperature inside the grain storage facility increases. If the grain is stored continuously in this state, the fatty acid level increases, and there is a problem in that the quality is drastically reduced or deteriorated, such as water loss, pest generation, germination rate decrease, and copper activity increase.

In view of these problems, a separate grain cooler may be installed. However, not only is the cooler expensive, but there is a problem in that the production cost is increased due to excessive consumption of electricity.

In order to solve the above problems, the Applicant not only can maintain the grain in high quality without having a separate cooler, etc., but also register a patent for a storage method using natural cold in winter that can store grain for a long time at low cost. 442999 and Republic of Korea Patent No. 483167).

However, the storage facilities in the above-mentioned Republic of Korea Patent No. 442999 and Republic of Korea Patent No. 483167 are connected to the grain storage facility during the summer season when the outside air rises, that is, the temperature and humidity difference in the inlet to the grain input to the storage facility Due to the condensation (結露) occurs and penetrates into the grain storage facility there was a problem that the grain is partially deteriorated.

In addition, in summer, when the outside air rises, the wall temperature of the grain storage facility rises together, so that the heat is progressively accumulated inside the wall, thereby increasing the grain temperature of the inner part of the wall during storage. In addition, in summer, since geothermal heat is transferred from the bottom of the grain storage facility to the inside of the grain storage facility, there is a problem that the quality of the grain is degraded due to the progressively high temperature at the bottom. In addition, grains stacked at the height of the bottom portion of the grain storage facility are not agitated and have a problem in that their quality is reduced after drying.

The present invention was devised to solve the conventional problems as described above, the object of the present invention is not only to prevent the rise of grain temperature in the grain storage room in the summer when the outer price is rising, but also to suppress the occurrence of condensation, high-quality, low-cost grain It is to provide a grain storage facility using natural cold in winter that can be stored for a long time.

In order to achieve the object of the present invention as described above, the present invention,

The main body is provided with a grain storage chamber on the inside, the roof structure covering the open top of the body, connected to the normal grain input device from the outside of the body grain is connected to the vertical bucket elevator, the top of the bucket elevator into the grain storage chamber Grain feeding screw device for conveying grain, Drying blower which is placed in the lower part of the main body and blows room temperature ventilation to the bottom of the grain storage room made of perforated plate, Natural cold in winter through the structure of the roof, which is placed outside the main body, into the grain storage room A grain storage facility comprising: an auxiliary cooling device for blowing; a stirring device and a control device for agitating grains stored in a dry storage room;

Grain storage facilities;

It is spaced apart from the inner wall of the main body and formed along the inner wall of the main body so as to prevent a temperature rise adjacent to the inner wall of the summer main body, and provides a grain storage facility therein, and forms a cold air circulation path between the inner walls of the main body. To provide a grain storage facility using natural cold in winter is provided with an auxiliary wall.

Preferably, the grain storage facility further includes a cold air circulation pipe inside the auxiliary wall to prevent the bottom surface curved temperature of the grain storage room from rising due to the geothermal heat in summer, wherein the cold air circulation pipe is installed vertically adjacent to the inside of the auxiliary wall. While the lower portion of the elbow pipe extending through the bottom surface of the grain storage chamber and the end is composed of a lower cold air blower.

More preferably, the grain storage facility has a connection structure between the grain input screw device and the roof structure in the roof structure so as to suppress condensation caused by the difference in temperature and humidity inside the grain input screw device and the roof structure in the summer. When the dew condensation conditions are formed, it is further provided with an upper cold air blower to automatically blow the cold air to the grain input screw device side to suppress the condensation generation so that no condensation occurrence conditions are formed.

As described above, according to the present invention, not only can the grain temperature rise in the grain storage room be prevented from rising in the summer but also the grain can be stored for a long time at high quality and low cost.

Hereinafter, with reference to the accompanying drawings will be described for a grain storage facility using natural cold in winter according to an embodiment of the present invention.

1 is a view schematically showing a grain storage facility using natural cold in winter equipped with an auxiliary cooling device according to the present invention.

Referring to Figure 1, the grain storage facility 100 using the natural cold in winter according to the present invention is introduced while covering the open top of the main body 10, the main body 10, the grain storage chamber 12 is provided inside Roof structure 20 equipped with a distributor (22) for distributing grain, vertical bucket elevator (30), bucket elevator (30) which is connected to the grain input hopper (32) outside the main body 10 to guide the grain Drying to be connected to the upper portion of the grain input screw device 40 for guiding the grain toward the distributor 22, the lower portion of the main body 10 to blow the room temperature ventilation to the bottom surface of the grain storage chamber 12 of the perforated plate The air blower 50 and the main body 10 are provided outside the auxiliary cooling device 60 for blowing natural cold air in winter through the roof structure 20 into the grain storage chamber 12.

In addition, the grain storage facility 100 includes a stirring device 70 for stirring the grains stored in the dry storage room 12 and a control device 80 for controlling the overall operation of the grain storage facility 100. The grain storage facility 100 seals the body 10 and the roof structure 20 by using the heat insulating material 14.

At this time, the auxiliary wall 110 and the cold air circulation pipe 122 is further provided on the inner wall of the main body 10 of the grain storage facility 100.

2 is a view showing the auxiliary wall and the cold air circulation pipe shown in FIG.

Referring to FIG. 2, first, the auxiliary wall 110 is formed along the inner wall of the main body 10 while being spaced apart from the inner wall of the main body 10. That is, the grain storage chamber 12 is provided inside the auxiliary wall 110, and between the outer side of the auxiliary wall 110 and the inner wall of the main body 10, the cold air in the upper portion of the grain storage chamber 12 is stored in the grain storage chamber 12. There is provided a cold air circulation path (112) to guide the lower portion.

The auxiliary wall 110 is made of a perforated plate like the bottom surface of the grain storage chamber 12, it is fixed by a support bar 114 extending from the inner wall of the body (10). The cold air circulation pipe 122 is disposed inside the auxiliary wall 110.

The cold air circulation pipe 122 is installed vertically adjacent to the inside of the auxiliary wall 110, and the lower portion extends through the bottom surface of the grain storage chamber 12. A pipe cover 124 is detachably mounted on the upper portion of the cold air circulation pipe so as to prevent the introduction of room temperature ventilation during grain drying. The cold air blower 126 is mounted. The lower cold air blower 126 is configured to operate only when the temperature of the lower bottom space of the grain storage chamber 12 rises above a certain level.

Referring back to FIG. 1, an upper portion of the roof structure 20 through which the extension portion of the grain feeding screw device 40 communicates is operated by a signal of the auxiliary cooling device 60 when a difference in temperature and humidity occurs. The cold air blower 130 is mounted. The upper cold air blower 130 suppresses condensation caused by temperature and humidity difference in the communication portion of the grain input screw device 40 and the roof structure 20 in the summer. Preferably, the upper cold air blower 130 is installed on the outside of the roof structure 20 to suppress the generation of condensation on the connection portion of the grain input screw device 40 and the roof structure 20 in the summer.

The following briefly describes the operating state of the grain storage facility 100 using the natural cold of winter formed as described above.

Referring back to FIG. 1, the grain storage facility 100 is automatically driven by a signal from the control device 80. In order to store the harvested autumn harvest until the next year, first, the harvested grain is put into the grain input device (32). The grain introduced into the grain feeding device 32 is guided into the roof structure 20 through the bucket elevator 30 and the grain feeding screw device 40 connected to the bucket elevator 30, and the grain guided into the roof structure 20. Are evenly stacked into the grain storage chamber 12 by the distributor 22.

When the stacking of grains in the grain storage chamber 12 is completed as described above, the dry blower 50 and the stirring device 70 operate to properly dry the grain in the grain storage chamber 12. At this time, the drying is carried out in a state in which the cold air circulation pipe cover 124 is covered on the upper portion of the cold air circulation pipe 122, and the room temperature ventilated by the drying blower 50 is used to supply grain through the bottom surface of the grain storage chamber 12. To dry. Preferably, the drying blower 50 and the stirring device 70 operate until the moisture content of the grains in the grain storage chamber 12 is dried to 16% or less.

In this way, when the drying of the grain in the grain storage chamber 12 is completed, and the outside temperature is lowered below the set temperature (lowest freezing point minimum temperature) to cool, the control device 80 of the grain storage facility 100 is dried The blower 50 is automatically operated to cool the grains in the grain storage chamber 12. At this time, the cold air circulation pipe cover 124 is covered.

The grain cooling time of the grain storage chamber 12 is somewhat different depending on the temperature to be cooled, but cools the grain by blowing cold air to about 4 hours per ton of grain. It is desirable to cool to the lowest temperature possible in the area. When the grain is cooled down, it becomes dormant and can be stored in a high quality state for a long time with the breathing stopped.

As described above, after the grain in the grain storage facility 100 is cooled, the ambient air of the grain storage facility 100 rises by 15 ° C. or more after April of the following year, the grain temperature of the bottom of the grain storage room 12. As the geothermal heat gradually rises, and between the roof structure 20 and the grain feeding screw device 40, the roof structure 20 and the roof structure 20 may differ due to the difference in temperature and humidity of cold cold and warm outside air in the grain storage chamber 12. Condensation occurs in the connection portion of the grain input screw device (40). At this time, after the grain cooling is completed, the operation panel of the sub-cooling device 60 is switched to the automatic ventilation mode, and when the condensation occurs due to the difference in temperature and humidity of the inside and outside air, the sub-cooling device 60 is a lower cooling air blower ( 126 and the upper cold air blower 130 is operated together.

When the upper cold blower 130 is operated, the cold air in the grain storage chamber 12 is blown into the grain feeding screw device 40 to release hot air to the outside to suppress condensation, and the lower cold blower 126 is When operated, the cold air of the upper portion is sucked into the lower space of the grain storage chamber 12 through the cold air circulation pipe 122 to blow the room below the grain storage chamber 12 to prevent high temperature. At this time, the upper cold air circulation pipe cover 124 should be opened.

At this time, the grain stacked at a certain height of the bottom surface of the grain storage room 12 as a companion effect is in a dry state. When the cold air in the upper part of the grain storage room 12 is blown through the cold air circulation pipe 122, a humidification effect is obtained. It exerts the effect of humidifying the dried grain to the proper moisture level (15%) to restore the degraded grain to high quality grain.

As described above, the grain storage facility 100 using the natural cold in winter according to the present invention by arranging the auxiliary wall 110 to be spaced apart from the inner surface of the main body 10, the main body 10 and the inner surface in the summer The temperature rise of adjacent grains can be prevented, so that the grain quality can be minimized.

In addition, by arranging the cold air circulation pipe 122 penetrating the bottom of the grain storage chamber 12 between the inner surface of the main body 10 and the auxiliary wall 110, and by mounting the lower cold air blower 126 at the end of the circulation pipe , To prevent the grain temperature rise of the bottom portion of the grain storage chamber 12 due to the geothermal heat in summer, to minimize the fall of the quality of the grain, and to humidify the stacked dry grains of a kind height in the bottom portion of the grain storage chamber 12 By restoring to moisture, the weight loss of the grains can be minimized and the quality degradation can be minimized as well.

In addition, by mounting the upper cold air blower 130 to the connection portion of the grain input screw device 40 connected to the roof structure 20, it occurs in the connection portion of the roof structure 20 and grain input screw device 40 in the summer By preventing condensation to prevent condensation water from entering the grain storage chamber 12, it is possible to block the deterioration of grain.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the present invention described in the utility model registration claims. It will be appreciated.

Claims (7)

The main body is provided with a grain storage chamber inside, a roof structure covering the open top of the body, a vertical bucket elevator connected to a conventional grain input device from the outside of the body to guide grain, connected to the top of the bucket elevator A grain feeding screw device for guiding grain into a grain storage chamber, a dry blower disposed at a lower portion of the main body to blow dry hot air to the bottom surface of the grain storage chamber made of a perforated plate, and disposed outside the main body through the roof structure. In the grain storage facility comprising an auxiliary cooling device designed to prevent the rise of the upper space temperature of the naturally cooled grain in winter, a stirring device and a control device for stirring the grain stored in the drying, storage room, The grain storage facility is; It is formed along the inner wall of the main body and spaced apart from the inner wall of the main body so as to prevent the temperature rise of the grain adjacent to the inner wall and the inner wall in the summer to provide the grain storage chamber inward, the inner wall of the main body Grain storage facility using natural cold in winter, characterized in that the auxiliary wall is formed between the forming a cold air circulation path. According to claim 1, wherein the auxiliary wall is made of a perforated plate is fixed by a support bar extending from the inner wall of the main body, the upper portion of the cold air circulation path is a perforated surface so that the input grains do not penetrate, the lower portion is open Grain storage facility using natural cold in winter. According to claim 1, The grain storage facility further comprises a cold air circulation pipe and the lower cold air blower to prevent the temperature of the lower bottom space of the grain storage chamber by the geothermal heat in summer, the circulation pipe is the auxiliary pipe The upper part is opened and closed by a cover while being disposed adjacent and vertically inside the wall, and the lower part includes a normal elbow pipe extending through the bottom surface of the grain storage chamber and a lower cold air blower connected to the end of the elbow pipe. Grain storage facility using natural cold in winter, characterized in that the cold air of the minute to be sucked down. According to claim 1 or claim 3, Grain storage facility using natural cold in winter, characterized in that the auxiliary cooling device and the lower cold air blower is interlocked if a constant temperature, humidity difference is formed. According to claim 1 or claim 3, when the temperature and humidity difference of a certain condition is formed, the auxiliary cooling device and the lower cold air blower is interlocked to give a humidifying effect on the dried grains at the bottom of the lower grain storage compartment, the initial appropriate moisture A grain storage facility using natural cold in winter, characterized in that the quality reduction is minimized by restoring. According to claim 1, wherein the grain storage facility condensation is formed in the connection portion of each of the grain input screw device and the roof structure in a certain temperature, humidity difference between the inside of the grain input screw device and the inside of the roof structure in the summer. In this case, the roof structure further comprises an upper cold air blower to operate in conjunction with the sub-cooling device so as to blow cold air toward the connection part to prevent condensation from occurring. facility. The grain storage facility of claim 6, wherein the upper cold air blower is installed outside the roof structure to suppress condensation at the connection portion between the grain input screw device and the roof structure in summer. .

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