KR100442999B1 - A method for high-quality containing, refrigeration of grains using winter cooling air and device for performing the same - Google Patents

Abstract

A method of natural cooling, condensation prevention and low temperature storage of grains, which can not only supply high-quality rice to consumers but also improve the competitiveness of rice and at the same time save energy, has been disclosed. According to the present invention, the cooling system includes a grain storage device having a conical roof structure equipped with an exhaust chute having an exhaust fan on one side while covering an upper portion of the grain storage room and an upper side of the grain storage room equipped with an air blower at one lower side thereof. Is mounted on. In this case, the cooling system includes a cooler disposed at a position adjacent to the top of the roof structure with an air supply fan embedded therein, a first guide pipe having one end connected to the air supply fan and the other end penetrated through a radially lower side of the roof structure, and one side of the cooler. And a second guide pipe connecting the upper end of the roof structure, a first damper disposed on the roof structure which is the end of the second guide pipe to control the second guide pipe and the roof structure, and a first guide disposed adjacent to the air supply fan. And a second damper for controlling the pipe and the air supply fan, and a third damper mounted on an upper end of the roof structure to communicate with the inside of the roof structure. As such, by using the cooling system and the blower, the stored grains can be naturally cooled using the natural cold in winter, and condensation prevention and storage management at low temperature due to the rise of grain temperature can be achieved.

Description

Cooling system mounted on grain storage device and method for natural cooling, prevention of dew condensation and low temperature storage management using grains {A method for high-quality containing, refrigeration of grains using winter cooling air and device for performing the same}

The present invention relates to a method of natural cooling, prevention of dew condensation and low temperature storage management of grains, and more particularly, by installing a cooling system in grain storage facilities to prevent natural cooling of grains, low temperature storage management of grains and condensation in grain storage facilities. By this, not only can supply high quality rice to consumers, but also improves the competitiveness of rice and at the same time, it relates to a natural cooling, condensation prevention and low temperature storage management method of grain that can save energy.

In general, mechanization has been carried out from sowing to harvesting during the domestic rice farming process, but since the mechanization from drying and storage after harvesting to lagging is inferior, considerable labor is required and there is a problem of processing and producing high quality rice. . In particular, the drying and storage of the post-harvest processing process is not only the most labor-intensive process but also has a great effect on the quality by drying method, drying time temperature and storage method. To this end, there is a need for dry drying and harvesting operations in a short harvest season, uniform and high-quality drying, and a drying and storage and storage system that can store and store them. In line with the expansion prospects, in addition to reducing production costs and producing high-quality rice that meets consumer preferences in preparation for the full opening of the rice market, it is necessary to improve competitiveness in terms of purchase method, purchase grade adjustment, and consumer As demand for high-quality rice is expected to increase as the standard of living improves, the high-quality storage system is needed to maintain the quality of crops.

However, in a conventional grain storage facility, for example, the siro is properly dried, there is an economic difficulty because a separate cooler is purchased and used to cool the grain. Due to the temperature difference in the condensation and grains caused mold or pests there was a problem that it is difficult to deliver high-quality grain to the consumer.

The present invention has been made to solve the above-mentioned conventional problems, an object of the present invention by installing a cooling system in the grain storage facility by preventing the natural cooling of the grain, low temperature storage management of the grain and condensation in the grain storage facility In addition to providing high-quality rice to consumers, it provides a natural cooling, condensation prevention and low temperature storage management method for grains that can improve the competitiveness of rice and save energy.

1 is a view showing a natural cooling method of grain in a grain storage device using the cooling system according to the present invention,

2 is a view showing a method for preventing condensation of grain in a grain storage device using a cooling system according to the present invention, and

3 is a view showing a method for low temperature storage management of grain in a grain storage device using the cooling system according to the present invention.

Explanation of symbols on the main parts of the drawing

100: cooling system 110: cooler

112: supply fan 114: first guide pipe

116: second guide pipe 118: first damper

120: second damper 122: third damper

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

In the cooling system mounted on a grain storage device consisting of a conical roof structure equipped with an exhaust chute having an exhaust fan on one side while covering the upper portion of the grain storage chamber and the grain storage chamber equipped with an air blower at the bottom of one side. ,

The cooling system includes a cooler disposed at an upper position adjacent to the roof structure with an air supply fan embedded therein, a first guide pipe having one end connected to the air supply fan and the other end penetrated through a radially lower side of the roof structure, and one side of the cooler. A second guide pipe connecting the upper end of the roof structure, a first damper disposed at the end of the second guide pipe to control the second guide pipe and the roof structure, and a first guide pipe disposed adjacent to the air supply fan. And a second damper for controlling the air supply fan and a third damper mounted on the top of the roof structure to communicate with the inside of the roof structure.

In order to achieve the second object of the present invention, the present invention is a conical type equipped with an exhaust chute having an upper side and an exhaust fan on one side while covering an upper portion of the grain storage chamber equipped with a blower on one side and an upper side of the grain storage chamber. A cooler disposed at a position adjacent to the top of the roof structure while the air supply fan is built in the grain storage device formed of the roof structure on the top, and a first end connected to the air supply fan and the other end penetrated through the radially lower side of the roof structure; A first pipe connected to a guide pipe, a second guide pipe connecting one side of the cooler to an upper end of the roof structure, and a roof structure that is an end of the second guide pipe to control the second guide pipe and the roof structure; A damper, a second damper disposed adjacent to the air supply fan to control the first guide pipe and the air supply fan, and It is mounted on top of the roof structure comprising: mounting the cooling system of the third damper disposed adjacent to an exhaust chute and communicating with the interior of the roof structure (S1);

Heat-insulating the interior of the grain storage chamber and the roof structure in which the grains harvested using urethane are stored (S2); And

When the outside air temperature falls below -5 ℃, operate the blower to guide the natural cold to the grain storage room, and blow outside air at least 60 minutes up to 10 hours for a total of 100 hours until the grain temperature reaches -3.5 ℃. It provides a natural cooling method of grain using a cooling system mounted on a grain storage device comprising the step of natural cooling (S3).

In order to achieve the third object of the present invention, the present invention is a conical type equipped with an exhaust chute having an upper side and an exhaust fan on one side while covering an upper portion of the grain storage compartment equipped with a blower on one side and an upper side of the grain storage compartment. A cooler disposed at a position adjacent to the top of the roof structure while the air supply fan is built in the grain storage device formed of the roof structure on the top, and a first end connected to the air supply fan and the other end penetrated through the radially lower side of the roof structure; A first pipe connected to a guide pipe, a second guide pipe connecting one side of the cooler to an upper end of the roof structure, and a roof structure that is an end of the second guide pipe to control the second guide pipe and the roof structure; A damper, a second damper disposed adjacent to the air supply fan to control the first guide pipe and the air supply fan, and It is mounted on top of the roof structure comprising: mounting the cooling system of the third damper disposed adjacent to an exhaust chute and communicating with the interior of the roof structure (P1);

Heat-insulating the interior of the grain storage chamber and the roof structure in which the grains harvested using urethane are stored (P2);

When the outside air temperature falls below -5 ℃, operate the blower to guide the natural cold to the grain storage room, and blow outside air at least 60 minutes up to 10 hours for a total of 100 hours until the grain temperature reaches -3.5 ℃. Natural cooling (P3); And

If the outside air temperature is more than 4 ℃ different from the temperature of the upper grain temperature of the grain storage room at a temperature of 15 ° C. or less, the condensation is introduced by introducing fresh air until the difference between the temperature of the upper grain temperature of the grain storage room and the outside air temperature is 2.5 ° C. or less. It provides a method for preventing condensation of grain using a cooling system mounted on a grain storage device comprising a step (P4).

In order to achieve the fourth object of the present invention, the present invention is a conical type equipped with an exhaust chute equipped with an exhaust fan on one side while covering an upper portion of the grain storage chamber having an upper portion and a blower mounted on one side and an upper portion of the grain storage chamber. A cooler disposed at a position adjacent to the top of the roof structure while the air supply fan is built in the grain storage device formed of the roof structure on the top, and a first end connected to the air supply fan and the other end penetrated through the radially lower side of the roof structure; A first pipe connected to a guide pipe, a second guide pipe connecting one side of the cooler to an upper end of the roof structure, and a roof structure that is an end of the second guide pipe to control the second guide pipe and the roof structure; A damper, a second damper disposed adjacent to the air supply fan to control the first guide pipe and the air supply fan, and It is mounted on top of the roof structure comprising: mounting the cooling system of the third damper disposed adjacent to an exhaust chute and communicating with the interior of the roof structure (L1);

Insulating the interior of the grain storage room and the roof structure in which the grain harvested using urethane is stored (L2);

When the outside air temperature falls below -5 ℃, operate the blower to guide the natural cold to the grain storage room, and blow outside air at least 60 minutes up to 10 hours for a total of 100 hours until the grain temperature reaches -3.5 ℃. Naturally cooling (L3); And

In the step (L3), if the temperature of the grain storage room rises above 15 ° C. in order to store low temperature before harvesting the following year, the cooler is operated to provide hot air until the internal temperature of the grain storage room reaches 15 ° C. or less. It provides a low-temperature storage management method of the grain using the cooling system mounted to the grain storage device comprising a step (L4) to prevent the rise of the upper grain temperature by circulating.

As described above, according to the present invention, by installing a cooling system in the grain storage facility, it is possible to supply high quality rice to consumers by preventing natural cooling of the grain, low temperature storage management of the grain and condensation in the grain storage facility. In addition, it can improve the competitiveness of rice and at the same time save energy.

Hereinafter, with reference to the accompanying drawings will be described a cooling system of a grain storage device according to a preferred embodiment of the present invention and a method for natural cooling, preventing condensation and low temperature storage management of grain using the same.

First, the cooling system 100 according to the present invention covers an upper portion of the grain storage chamber 12 and the grain storage chamber 12 in which the top is open and the blower 11 is mounted on one side of the bottom, and an exhaust fan (not shown). And an exhaust chute 14 having a conical roof structure 16 mounted thereon. The cooling system 100 has a cooler 110 disposed at an upper position adjacent to the top of the roof structure 16 while the air supply fan 112 is built therein, and one end of the cooling system 110 is connected to the air supply fan 112, and the other end of the roof structure 16 is provided. End of the second guide pipe 116 and the second guide pipe 116 connecting the first guide pipe 114, one side of the cooler 110 and the upper end of the roof structure 16 connected to the radially lower side of the first guide pipe 114, The first damper 118 disposed on the roof structure 16 and intermittently connected to the second guide pipe 116 and the roof structure 16 and the air supply fan 112 are disposed adjacent to the first guide pipe 114 and the air supply fan. The second damper 120 to control the 112 and the third damper 122 mounted on the upper end of the roof structure 16 to communicate with the interior of the roof structure 16 is provided. In addition, the cooling system 100 is disposed between the upper portion of the grain storage chamber 12 and the lower portion of the roof structure 16, the first sensor 130 for detecting the upper temperature, the agent for detecting the outside air temperature of the grain storage device 11 A second sensor 132 and a third sensor 134 for detecting the outside humidity of the grain drying apparatus 10 is further provided.

Hereinafter, a method of cooling the grain in the grain storage device 10 by using the cooling system 100 formed as described above will be described.

First, after the cooling system 100 is mounted on the grain storage device 10 (step S1), the interior of the grain storage room 12 and the roof structure 16 in which the grains harvested using the urethane are stored are thermally insulated ( Step S2). As such, when the outside air temperature of the grain storage device 10 is lowered to -5 ° C or lower in the state where the cooling system 100 is installed and insulated, the blower 11 is operated until the grain temperature of the grain reaches -3.5 ° C. Natural cooling by blowing air for a total of 100 hours for at least 60 minutes up to 10 hours at a time (step S3). At this time, the cooler 110 and the air supply fan 112 of the cooling system 100 operates in a stopped state, and the first damper 118, the second damper 120, and the third damper 122 are blocked. do. As a result, the winter natural cold air guided into the grain storage chamber 10 by the blower 11 cools the grain while passing the stored grain layer, and the cold air passing through the grain layer is discharged to the outside along the exhaust chute 14.

Hereinafter, a method of preventing condensation in the grain storage device 10 using the cooling system 100 formed as described above will be described.

First, after the cooling system 100 is mounted on the grain storage device 10 (step P1), the interior of the grain storage room 10 and the roof structure 16 in which the grains harvested using the urethane are stored are thermally insulated ( Step P2). As such, when the outside air temperature of the grain storage device 10 is lowered to -5 ° C or lower in the state where the cooling system 100 is installed and insulated, the blower 11 is operated until the grain temperature of the grain reaches -3.5 ° C. Natural cooling by blowing air for a total of 100 hours for at least 60 minutes up to 10 hours at a time (step P3). As the naturally cooled grains, on average, as the outside air increases from March of the following year, the upper grain temperature of the grain layer rises higher than the outside temperature, so that condensation occurs inside the grain storage chamber 12 and the roof structure 16. In order to prevent such condensation, when the outside air temperature is different from the temperature of the upper grain temperature of the grain storage chamber 12 by 4 ° C. or more at a temperature of 15 ° C. or less, the difference between the temperature of the upper grain temperature of the grain storage chamber 12 and the outside temperature is 2.5. Fresh air is introduced until the temperature is lower than or equal to ° C to prevent condensation (step P4). At this time, the air supply fan 112 and the exhaust fan (not shown) operate in the state in which the blower 11 and the cooler 112 are stopped, and the second damper 120 in a state in which the first damper 118 is blocked. And the third damper 122 is opened so that outside air flows into the grain storage chamber 12 after passing through the first guide pipe 114, the air supply fan 112, and the second guide pipe 116. Maintain the difference between upper and outside air temperature below 2.5 ℃.

Hereinafter, a method of low temperature storage management of the grains in the grain storage device 10 at 15 ° C. or lower by using the cooling system 100 formed as described above will be described.

Similarly, after the cooling system 100 is mounted on the grain storage device 10 (step L1), the interior of the grain storage room 12 and the roof structure 16 in which the grains harvested using the urethane are stored are thermally insulated (step L1). L2). As such, when the outside air temperature of the grain storage device 10 is lowered to -5 ° C or lower in the state where the cooling system 100 is installed and insulated, the blower 11 is operated until the grain temperature of the grain reaches -3.5 ° C. Natural cooling by blowing air for a total of 100 hours for at least 60 minutes up to 10 hours at a time (step L3). In order to store the naturally cooled grains until the harvest of the following year, when the upper temperature of the grain storage chamber 12 rises by 15 ° C. or more, the cooler 110 is operated to warm the air until the internal temperature of the grain storage chamber 12 reaches 15 ° C. or less. Circulating to prevent the rise of the upper grain temperature (step L4). In this case, the blower 110, the air supply fan 112, and the exhaust fan (not shown) are stopped and the cooler 110 operates, and the third damper 122 blocks the first damper 118. And the second damper 120 is opened to circulate until the upper air of the grain storage chamber 12 is 15 ° C. or less.

As described above, according to the present invention, by mounting the cooling system 100 in the grain storage device 10, it is possible to maintain the same level as when harvesting the grains by allowing natural cooling, condensation prevention and low temperature storage. In other words, the low-drying reduces the share rate and maintains good quality throughout the year, which can increase the income of farmers.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art can be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims You will understand.

Claims (8)

A cooling system mounted on a grain storage device comprising a grain storage chamber having an upper portion and a blower mounted at one lower side thereof, and a conical roof structure equipped with an exhaust chute having an exhaust fan on one side while covering an upper portion of the grain storage chamber. In The cooling system includes a cooler disposed at a position adjacent to an upper end of the roof structure with an air supply fan embedded therein, a first guide pipe having one end connected to the air supply fan and the other end penetrating through a radially lower side of the roof structure; A second guide pipe connecting one side of the cooler to an upper end of the roof structure, a first damper disposed on the roof structure which is an end of the second guide pipe to control the second guide pipe and the roof structure, and the air supply A second damper disposed adjacent to the fan to control the first guide pipe and the air supply fan, and a third damper mounted on an upper end of the roof structure to communicate with an interior of the roof structure. Cooling system mounted in storage. The method of claim 1, wherein the cooling system is disposed between the upper portion of the grain storage compartment and the bottom of the roof structure and a first sensor for sensing the upper temperature of the grain storage chamber, and a second air temperature for sensing the grain storage device Cooling system mounted to the grain storage device characterized in that it further comprises a sensor and a third sensor for sensing the humidity of the outside air of the grain drying apparatus. An air supply fan is provided in a grain storage device including a grain storage chamber having an upper opening and a blower mounted at one lower side thereof, and a conical roof structure equipped with an exhaust chute having an exhaust fan on one side while covering an upper portion of the grain storage chamber. A cooler disposed at an upper position adjacent to the upper end of the roof structure, a first guide pipe having one end connected to the air supply fan and a second end connected to the radially lower side of the roof structure, and one side of the cooler and an upper end of the roof structure A second guide pipe connecting the first guide pipe, a first damper disposed on the roof structure which is an end of the second guide pipe to control the second guide pipe and the roof structure, and disposed adjacent to the air supply fan. A second damper that regulates a guide pipe and the air supply fan, and a roof damper mounted on an upper end of the roof structure. The step of mounting the cooling system of the third damper, while communication with the interior disposed adjacent to the exhaust chute (S1); Heat-insulating the interior of the grain storage chamber and the roof structure in which the grains harvested using urethane are stored (S2); And When the outside air temperature falls below -5 ℃, operate the blower to guide the natural cold to the grain storage room, and blow outside air at least 60 minutes up to 10 hours for a total of 100 hours until the grain temperature reaches -3.5 ℃. Natural cooling method of grain using the cooling system mounted to the grain storage device characterized in that it comprises the step of natural cooling (S3). 4. The blower of claim 3, wherein in the step S3, the blower is operated while the cooler and the air supply fan are stopped, and the first damper, the second damper, and the third damper are shut off by the blower. The natural cooling method of the grain using the cooling system mounted to the grain storage device, characterized in that the introduced natural cold cools the grain while passing through the grain layer and is discharged to the outside through the exhaust chute. An air supply fan is provided in a grain storage device including a grain storage chamber having an upper opening and a blower mounted at one lower side thereof, and a conical roof structure equipped with an exhaust chute having an exhaust fan on one side while covering an upper portion of the grain storage chamber. A cooler disposed at an upper position adjacent to the upper end of the roof structure, a first guide pipe having one end connected to the air supply fan and a second end connected to the radially lower side of the roof structure, and one side of the cooler and an upper end of the roof structure A second guide pipe connecting the first guide pipe, a first damper disposed on the roof structure which is an end of the second guide pipe to control the second guide pipe and the roof structure, and disposed adjacent to the air supply fan. A second damper that regulates a guide pipe and the air supply fan, and a roof damper mounted on an upper end of the roof structure. The step of mounting the cooling system of the third damper, while communication with the interior disposed adjacent to the exhaust chute (P1); Heat-insulating the interior of the grain storage chamber and the roof structure in which the grains harvested using urethane are stored (P2); When the outside air temperature falls below -5 ℃, operate the blower to guide the natural cold to the grain storage room, and blow outside air at least 60 minutes up to 10 hours for a total of 100 hours until the grain temperature reaches -3.5 ℃. Natural cooling (P3); And If the outside air temperature is more than 4 ℃ different from the temperature of the upper grain temperature of the grain storage room at a temperature of 15 ° C. or less, the condensation is introduced by introducing fresh air until the difference between the temperature of the upper grain temperature of the grain storage room and the outside air temperature is 2.5 ° C. or less. Method of preventing condensation of grain using a cooling system mounted to the grain storage device, characterized in that it comprises a step (P4) to prevent. The method of claim 5, wherein in the step (S4), the air supply fan and the exhaust fan is operated while the blower and the cooler are stopped, and the second damper and the third damper in a state in which the first damper is blocked. Method of preventing condensation of grain using a cooling system mounted to a grain storage device, characterized in that for opening the damper to allow the outside air to flow into the grain storage chamber through the first guide pipe, the air supply fan and the second guide pipe. . An air supply fan is provided in a grain storage device including a grain storage chamber having an upper opening and a blower mounted at one lower side thereof, and a conical roof structure equipped with an exhaust chute having an exhaust fan on one side while covering an upper portion of the grain storage chamber. A cooler disposed at an upper position adjacent to the upper end of the roof structure, a first guide pipe having one end connected to the air supply fan and a second end connected to the radially lower side of the roof structure, and one side of the cooler and an upper end of the roof structure A second guide pipe connecting the first guide pipe, a first damper disposed on the roof structure which is an end of the second guide pipe to control the second guide pipe and the roof structure, and disposed adjacent to the air supply fan. A second damper that regulates a guide pipe and the air supply fan, and a roof damper mounted on an upper end of the roof structure. The step of mounting the cooling system of the third damper, while communication with the interior disposed adjacent to the exhaust chute (L1); Insulating the interior of the grain storage room and the roof structure in which the grain harvested using urethane is stored (L2); When the outside air temperature falls below -5 ℃, operate the blower to guide the natural cold to the grain storage room, and blow outside air at least 60 minutes up to 10 hours for a total of 100 hours until the grain temperature reaches -3.5 ℃. Naturally cooling (L3); And In the step (L3), if the temperature of the grain storage room rises above 15 ° C. in order to store low temperature before harvesting the following year, the cooler is operated to provide hot air until the internal temperature of the grain storage room reaches 15 ° C. or less. Cold storage management method of the grain using the cooling system mounted to the grain storage device, characterized in that it comprises a step (L4) to prevent the rise of the upper grain temperature by circulating. The method of claim 1, wherein in the step L4, the cooler is operated while the blower, the air supply fan, and the exhaust fan are stopped, and the first damper and the second damper are blocked. Low temperature storage management method of the grain using a cooling system mounted to the grain storage device, characterized in that the damper is opened.