KR200383444Y1 - A cooling device coercive cycle type a grain storage equipment - Google Patents

Abstract

The present invention relates to a grain storage facility for optimally storing the harvested rice in a large capacity between, and the upper and lower portions of each of the air supply through the air blower to the cold air from the cooler and the suction pipe for sucking the internal air between the The present invention relates to a forced circulation cooling device of a grain storage facility which provides a high quality rice with good taste to consumers by storing and storing harvested rice in an optimal state by forcibly circulating internal air to a cooler.

A feature of the present invention is that the cooler is disposed in the upper roof structure in the passage, and a blower pipe is connected to the lower side of the air supply fan and the upper roof structure of the cooler, and a suction pipe is connected to the top of the cooler and the upper roof structure, In a cooling system of an existing grain storage facility equipped with a blower, a cooler is disposed in the lower part of the path, and a blower tube through which the cool air is blown from the cooler is connected to the lower part installed in the lower part of the path, and the inner air of the path is sucked into the cooler. The suction pipe is connected to the upper roof structure and the cooler in the form of a cone, and is characterized in that the damper is mounted on the blower pipe and the suction pipe, respectively.

Description

A cooling device coercive cycle type a grain storage equipment

The present invention relates to a grain storage facility for optimally storing harvested rice in a large capacity. More specifically, the present invention relates to an air duct and an air duct through which cold air is blown from a cooler at upper and lower portions of a rice storage area. Forced circulation of grain storage facility that provides high quality rice with good taste to consumers by installing and collecting suction pipe where internal air is sucked into cooler and forcibly circulating internal air to cooler to store and store harvested rice in optimum condition It relates to a type chiller.

In general, when the harvested rice is dried in a milling facility (RPC) and stored for a relatively long time, the storage method may vary depending on the condition of the storage facility, the moisture condition of the rice, and the outside temperature. After winter, the temperature is low, so it is relatively easy to store and manage.

However, in the spring and summer, when the temperature is getting higher, special preservation techniques are required for safe storage, and after the drying process in the dryer, the rice is put into a uniform distribution among the large capacity. It is desirable to lower the temperature of the rice to room temperature (less than 20 ° C.) by operation.

If the temperature of the stored rice is less than 15 ℃, there is no problem.However, if the temperature rises above 20 ℃, regular inspection is needed every 1 ~ 2 days. Care should be taken as the storage temperature rises.

Among the large-capacity (1000-2000 tons) for drying the rice harvested from the existing milling equipment and storing it for a long time (10) is a cylindrical shape with a relatively large internal space as shown in FIG. 10a, the lower portion of which the bottom layer 12 is densely ventilated for ventilation is installed at a predetermined height, and the upper part of the conical shape while the blower 11 for ventilation is installed in the lower portion where the bottom layer 12 is installed. The air vent 13 for discharging the internal air is provided, the grain feeder 14 is installed in the upper portion of the roof structure (10a) to disperse grains and to put in a uniform distribution.

In addition, the inside of the path 10 is periodically mixed with a plurality of screws (15) are arranged vertically by mixing the stored rice to improve the ventilation and storage properties are rotated by the drive unit 16 of the upper side to mix the rice. .

Among these existing rice, the dried rice is supplied to the grain feeder at the upper part and distributed and stored in a uniform distribution in the inside of the furnace. The rice stored in the furnace is periodically mixed with the screw and the storage temperature is 20 ℃. If it rises above, the blower operates to maintain the storage temperature below 20 ℃.

However, if the external temperature is higher than 20 ℃ among the existing, there is a problem that the storage temperature can not be lowered below 20 ℃, condensation occurs due to the difference between the external and internal temperature, mold or pests occur By doing so, rice cannot be stored at high quality for a long time.

Accordingly, in order to solve the above problems, Korean Patent No. 10-0442999 (a cooling system mounted on a grain storage device and a natural cooling method of preventing grains, condensation prevention and low temperature storage management using the same) has been proposed in advance.

Looking at the pre-registered technology, there is a cooler disposed in the upper top of the conical upper roof structure with a built-in air supply fan, and one side is connected to the air supply fan and the other side is a blow pipe connected to the radially lower side of the upper roof structure; And a suction pipe connecting the cooler to the upper end of the upper roof structure, and a damper installed at each of the blower pipe, the suction pipe, and the upper end of the upper roof structure.

In the existing cooling system, when the external temperature is low, the damper installed in the upper roof structure is opened, and a blower installed in the lower part of the path is operated to naturally cool the interior of the path to the outside air, and when the external temperature is high, it is applied to the upper roof structure. Close the damper installed, open the damper installed in the cooling pipe and the suction pipe and operate the cooler to circulate the internal air to the cooler to keep the internal temperature between the low temperature to store grain.

However, the existing cooling system cools the entire grain stored in the furnace by installing a conduit-type roof structure, which is an upper space into which the air is drawn into the cooler through which the cool air is blown from the cooler and the internal air drawn into the cooler. There was a problem that can not be stored at low temperatures.

That is, as both the blower pipe through which the cool air is blown from the cooler and the suction pipe through which the internal air is sucked into the cooler are installed in the upper roof structure, the internal air circulation between the air flows only in the upper space, so that the grain accumulated at the upper side of the cooler is kept at a low temperature. Cooled, but the grain accumulated in the bottom layer of the passage is not cooled to a low temperature there is a problem that can not be cooled and stored in the optimal state as a whole.

The present invention was devised to solve the problems caused by the cooling apparatus of the existing grain storage facilities as described above, and the inside air between the air duct and the air pipe through which the cool air is blown from the cooler to the upper and lower portions of the rice storage area respectively. The present invention provides a forced circulation cooling device of a grain storage facility that provides high quality rice to consumers by storing and storing harvested rice in an optimal state by forcibly circulating internal air to a cooler by installing a suction pipe. Its main purpose is to

A feature of the present invention for achieving the desired purpose is that the cooler is disposed in the upper roof structure in the passage, the air supply pipe is connected to the lower side of the air supply fan and the upper roof structure of the cooler, and installed on the top of the cooler and the upper roof structure In the cooling system of the existing grain storage facility equipped with a suction pipe is connected to the lower part of the passage, the cooler is disposed in the lower part of the passage, a blower pipe for blowing cold air from the cooler is connected to the lower part of the bottom layer installed in the passage, The suction pipe for sucking the internal air to the cooler is connected to the upper roof structure and the cooler in a conical shape, and the damper is mounted to each of the blower pipe and the suction pipe.

The present invention is to connect the blower and the suction pipe of the cooler to the upper and lower portions of the passage between the rice storage, respectively, to force the circulation of the internal air to the cooler to store rice in an optimal state for a long time, as shown in the drawings 2 to 4 show the configuration according to the embodiment of the present invention in detail.

The main feature according to the embodiment of the present invention is a cooler 20 having a built-in air supply fan is disposed in the upper roof structure (10a) of the conical shape between the passage 20, the air supply fan and the upper roof of the cooler 20 A blower pipe 21 is installed at the lower side of the structure 10a, and a suction pipe 22 is connected to the top of the cooler 20 and the upper roof structure 10a, while the blower 11 is disposed at the lower portion of the passage 10. In the existing grain storage system cooling system,

The cooler 20 is disposed at one lower side of the silo 10, and a blower tube 21 in which cold air is blown from the blower fan included in the cooler 20 is connected to the lower part where the bottom layer 12 is installed in the silo 10. The suction pipe 22 through which the internal air of the passage 10 is sucked into the cooler 20 is connected to the upper roof structure 10a and the cooler 20 in the form of a cone, while the blower tube 21 and the suction pipe 22 are installed. Each of the dampers 21a and 22a is mounted.

The main point of the present invention is to install a blower tube 21 for blowing cold air in the cooler 20 connected to the lower or upper portion of the siro 10 while the suction tube for sucking the internal air of the siro 10 to the cooler 20. Grain stored in the silo 10 by connecting (22) to the top or bottom of the silo 10 to force circulation of the entire internal air of the silo 10 from the bottom to the top or from the top to the bottom by the cooler 20. It is to ensure that the grain is stored at an optimal temperature by cooling it uniformly throughout.

In the present invention, between the milling facilities in which the harvested grain (rice) is stored, the inner space 10 is a relatively large cylindrical shape, the upper part of which constitutes the roof structure 10a in the form of a cone, and the lower part is a predetermined height to give a ventilation space. A bottom layer 12 having a ventilation hole is installed, and a blower 11 is connected to a lower side of the lower space given a ventilation space, and an air vent 13 equipped with a damper 13a is installed on the upper roof structure 10a. do.

On the other hand, a grain feeder 14 for dispersing and dispersing grains is installed inside the upper center of the roof structure 10a, and a screw 15 and a driving device 16 for periodically mixing the stored grains are installed.

In the embodiment of the present invention, as shown in FIG. 2 of the existing siro 10 as described above, by installing the cooler 20 disposed on the lower side of the siro 10, the air blower built in the cooler 10 A blower tube 21 in which cold air is blown from a fan is connected to and installed between the passages 10, and a blower tube 21 is connected to and installed at a lower portion of the ventilation space, and a damper 21a that opens and closes at one end of the blower tube 21. )).

In addition, the suction pipe 22 which sucks the internal air of the passage 10 to the cooler 20 is connected to the upper portion of the upper roof structure 10a in the form of a cone, and a damper that opens and closes at one end of the suction pipe 22. 22a).

Looking at the process of cooling the inside of the furnace 10 using the cooler 20 according to this embodiment, first, when the outside temperature is higher than 20 ℃, the internal temperature of the furnace 10 by the operation of the blower 11 is 20 ℃ or less Since it can not be lowered to a low temperature of the grains stored in the silo 10 using the cooler 20 in such a climatic condition is to be stored by cooling to a low temperature of less than 20 ℃.

Next, the operation of the cooler 20 will be described. Cool air blown from the blower fan of the cooler 20 is blown to the bottom ventilation space of the bottom layer 12 provided in the lower portion of the passage 10 through the blower tube 21. The air is blown into the inside of the path (10) between the grains are stored through the vent hole densely formed in the bottom layer 12, the cold air blown into the path (10) is blown upward through the gaps of the grains, between the paths (10) As the internal air is sucked into the cooler 20 through the suction pipe 22 in the space in the upper roof structure 10a, the internal air of the silo 10 is forced to be circulated by the cooler 20 so that the entirety of the silo 10 can be reduced. By cooling the internal air to a low temperature it is possible to store grain at low temperatures.

In the above operation of the cooler 20, first, the damper 13a mounted on the plurality of air vents 13 and the damper mounted on the blower 11 are blocked, and the cooler 20 operates to operate the inside of the silo 10. Air is forcedly circulated to keep it at a low temperature (below 15 ° C).

Next, another embodiment of the present invention will be described with reference to FIG. 3 in the drawing. The internal air of the blower tube 21 and the passage 10 through which the cool air is blown from the blower fan of the cooler 20 is sucked into the cooler 20. The suction pipe 22 is installed upside down in the siro 10, the blower tube 21 is connected to the upper roof structure (10a) of the siro 10 is installed, and the suction pipe 22 between the given ventilation space ( 10) Connect to the bottom of the installation.

The embodiment of the present invention is that the air circulation process inside the passage 10 from the top to the bottom, the cold air blown from the blower fan of the cooler 20 through the blower tube 21, the upper roof structure 10a is blown into the inside of the air passage 10 by sucking the internal air of the air passage 10 through the suction pipe 22 in the ventilation space of the lower bottom layer 12 of the air passage 10 by the cooler 20. By forced circulation from the top to the bottom through the cooler 20 to cool the entire internal air of the path 10 to a low temperature (15 ℃ or less) it is possible to store the grain at low temperatures.

Next, another embodiment of the present invention will be described with reference to FIG. 4 in the drawings, and by using the blower 11 installed in the lower part of the passage 10 to force the internal air of the passage 10 to cool the structure to a low temperature. As a cooler 20, a blower tube 21 through which cold air is blown from the blower fan is connected to the blower 11 installed at the lower part of the siro 10, and the internal air of the siro 10 is sucked from the cooler 20. The suction pipe 22 is connected to the upper side of the upper roof structure (10a) of the through (10).

The embodiment of the present invention is to operate the cooler 20 and the blower 11 at the same time to maintain the internal air of the path 10 at a low temperature, the cold air blown from the blower fan of the cooler 20 blower tube 21 The air is sucked into the blower 11 and blown into the ventilation space of the bottom layer 12, and the internal air of the sieve 10 through the suction pipe 22 in the upper roof structure 10a of the sieve 10 is cooled by the cooler 20. By being sucked into the cooler 20 and the blower 11 is forced to circulate the entire air in the interior (10) to maintain a low temperature to store the grain at low temperatures.

Therefore, the present invention by using the cooler 20 to force the entire internal air of the siro 10 from the bottom to the top or from the top to the bottom to cool the whole grain stored in the siro 10 evenly to store at low temperature Therefore, the harvested rice can be stored in high quality for a long time.

The preferred embodiments of the present invention have been described above with reference to the present invention, and are not limited to the above embodiments, and those skilled in the art to which the present invention pertains through the above embodiments do not depart from the gist of the present invention. Can be implemented in a variety of changes.

As described above, according to the present invention, a blower pipe through which cold air is blown from the cooler and a suction pipe through which the internal air is sucked into the cooler are respectively installed on the upper and lower portions of the harvested rice to be stored therein. By forced circulation to the chiller harvested rice in an optimal state for a long time to store and store the effect is to provide high-quality rice with good taste to consumers.

Figure 1 is a state diagram installed between the existing grain storage facilities

Figure 2 is an operating state showing the forced circulation from the bottom to the top from the cooler according to the present invention

Figure 3 is an operating state showing the forced circulation from the top to the bottom from the cooler according to the present invention

Figure 4 is an installation state of the cooling device using an existing blower in the embodiment of the present invention

[Description of Symbols for Main Parts of Drawing]

10: inter 11: blower

12: bottom layer 13: air vent

14: grain feeder 15: screw

16: drive 20: cooler

21: blower tube 21a: damper

22: suction line 22a: damper

Claims (3)

A cooler 20 having an air supply fan therein is disposed in the upper roof structure 10a having a conical shape in the passage 20, and an air blower 21 is disposed below the air supply fan and the upper roof structure 10a of the cooler 20. In the cooling system of the existing grain storage facility is installed, the suction pipe 22 is connected to the top of the cooler 20 and the upper roof structure (10a) while the blower (11) is installed in the lower part of the path (10). , The cooler 20 is disposed at one lower side of the silo 10, and a blower tube 21 in which cold air is blown from the blower fan included in the cooler 20 is connected to the lower part where the bottom layer 12 is installed in the silo 10. The suction pipe 22 through which the internal air of the passage 10 is sucked into the cooler 20 is connected to the upper roof structure 10a and the cooler 20 in the form of a cone, while the blower tube 21 and the suction pipe 22 are installed. Forced circulation cooling device of a grain storage facility, characterized in that each damper (21a) (22a) is mounted. The method of claim 1, A blower tube 21 of the cooler 20 is installed on the upper roof structure 10a of the siro 10 connected to the grain, characterized in that the suction pipe 22 is connected to the lower portion of the siro 10 given the ventilation space is installed Forced circulation cooling system in storage facility. The method of claim 1, The blower tube 21 of the cooler 20 is connected to the blower 11 installed in the lower part of the siro 10, and the suction pipe 22 is connected to the upper side of the upper roof structure 10a of the siro 10. Forced circulation cooling device for grain storage facility.