JP3075539B2 - Refrigeration equipment - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a refrigeration apparatus that can store refrigerated items such as grains at low temperatures while maintaining appropriate humidity, and particularly to refrigeration suitable for rice bins that can store white rice at low temperatures. It concerns the device.

BACKGROUND ART In recent years, refrigerators for storing vegetables and frozen foods and refrigeration units such as refrigerators for storing grains such as rice for a long time have been rapidly spread in farms and homes so that fresh foods can be obtained even in summer. ing. In the case of rice bins that store polished rice among cereals in particular, a cold-keeping rice bin device that can keep the temperature inside the rice bin low to maintain the freshness of rice is being studied.

The storage section that stores white rice as a cold-keeping rice bin device,
A rice bin device as shown in FIGS. 7 and 8 that cools through the side wall is being studied. FIG. 7 shows a longitudinal section of such a rice bin apparatus, and FIG. 8 shows a transverse section. In the rice bin device 90 shown in these figures, a white rice storage unit 20 is arranged on the front side 2a of the upper part of the housing 2, and a weighing device 31 for dispensing a desired amount of rice is arranged below the storage unit 20. Below the weighing device 31, a container 32 for taking out the dispensed rice is installed so that it can be taken in and out from the front side 2a. In addition, a cooling unit 10 is provided on the rear side 2b of the housing 2 alongside the storage unit 20, and a cooling unit 9 is provided.

The side wall 40 of the storage section 20 is formed of a metal plate having excellent heat conductivity, such as aluminum or copper, and the outside thereof is surrounded by the heat insulating material 3. The rear side 2b of the side wall 40 facing the cooling unit 10 has a double structure, and is connected to the heat absorbing portion of the cooling unit 10. Therefore, the side wall 40 of the storage unit 20 is directly cooled by the cooling unit 10 and functions as a cooling plate for cooling the storage unit 20. That is, the side wall 40
Is made of a metal having excellent heat conductivity, the cooling unit 10 cools the side wall 40, so that the storage unit 20 can be cooled as a whole.

Thus, the rice bin device 90 shown in FIG. 7 and FIG.
The metal plate side wall 40 of the storage section 20 is cooled to lower the internal temperature. As a result, in the conventional rice bin apparatus in which the cool air from the cooling unit directly circulates in the storage section, there is a problem that the temperature of only the white rice directly hit by the cool air rapidly decreases, and the rice is dried to cause a low-temperature failure. Whereas
In the rice bin device 90, the white rice stored in the storage portion is relatively uniformly cooled because the rice is cooled through the side wall 40 having a large area. Also, since the storage unit 20 is almost closed by a metal plate side wall 40 so that the cold air does not directly hit the white rice, the white rice can maintain an appropriate temperature even during the cool keeping, and the quality of the white rice is good. Can be saved.

It is known that in the rice bin device 90, when the temperature inside the storage section 20 is maintained such that the ambient temperature of the white rice is about 20 ° C. or less, the occurrence of pests and mold can be prevented. On the other hand, it is desirable to keep the temperature at about 15 ° C. or higher in order to prevent low-temperature damage such as cracking of the rice and drying and discoloration of the rice. For this reason, in order to store rice for a long period of time, it is desirable to maintain the internal temperature of the storage unit 20 at 15 ° C. to 20 ° C. For this purpose, the internal temperature of the storage unit 20 varies (temperature distribution).
It is important that the temperature be about 5 ° C., preferably less than 5 ° C.

FIG. 9A shows the state of the temperature in the refrigerator in the rice bin device 90 described above. In FIG. 9A, the solid line A indicates the temperature of the central portion A of the storage section 20. Also,
The dashed line B indicates the temperature of the lower portion B of the back side 2b of the storage section 20, as shown in FIGS. 9B and 9C.
The dashed line C indicates the temperature of the upper part C of the front side 2a of the storage section 20, as shown in FIGS. 9B and 9C. As can be seen from FIG. 9 (A), when cooling is started, the lower portion B on the back side 2b is cooled well because it is close to the cooling unit 10, and the temperature drops rapidly, and the temperature drops to about 14 ° C. ing. On the other hand, the upper part C of the front side 2a is separated from the cooling unit 10 and the temperature is gradually lowered, so that
Saturated at 20 ° C. The central portion A of the storage section 20 is
As in the upper part C on the front side 2a, the temperature gradually decreases and is saturated at about 19 ° C. From this result, in the rice bin device 90, the internal temperature of the storage unit 20 is distributed (varied) of about 6 ° C., and a temperature distribution close to 5 ° C. is almost obtained. It turns out that it is difficult to reliably keep the temperature at 20 ° C. Therefore, there is a possibility that the temperature of the storage unit 20 may be partially too high or too low depending on the use state or the environment. For this reason, although the rice bin apparatus shown in FIGS. 7 and 8 can store white rice with higher quality as compared with the conventional cold-reserved rice bottles, the quality of the white rice may be deteriorated and the taste may be impaired. ,
It is difficult to ensure long-term preservation of rice.

Even with such a rice bin device 90, the side wall of the storage section 20
If 40 is made very thick and is made of a metal plate having excellent thermal conductivity, there is a possibility that the temperature difference between the side walls 40 can be reduced and the internal temperature distribution of the storage section 20 can be reduced. .
However, since a member for a side wall having good heat conduction such as a thick metal plate is required, the rice bin device 90 becomes heavy and the manufacturing cost increases. For this reason, it is not suitable as a refrigerator for rice bins that can be easily used by farmers and households and can be supplied at low cost.

Therefore, in the present invention, a small-sized refrigeration apparatus that can be purchased and used more easily than the refrigeration apparatus described above in a farmhouse or a home and that can configure a storage unit suitable for storing grains with a simple configuration can be manufactured at low cost. It is intended to be able to supply by. It is another object of the present invention to provide a refrigeration apparatus that can reliably maintain the temperature in the storage unit in an appropriate temperature range without deteriorating the quality of refrigerated items such as white rice.

DISCLOSURE OF THE INVENTION For this reason, in the refrigeration apparatus of the present invention, a circulating portion through which air can circulate in a horizontal direction is provided between a storage portion and a heat insulating material provided so as to cover the periphery of the storage portion for keeping cool. By cooling the air in the circulation section, the storage section is indirectly cooled using the air as a cooling medium. That is, the refrigeration apparatus of the present invention, a storage unit capable of storing refrigerated items such as white rice or other grains in a substantially sealed state, and a heat insulating unit provided so as to surround four side walls of the storage unit, It is characterized by having a circulating portion capable of horizontally circulating air between the heat insulating portion and the storage portion, and a cooling unit for cooling the air in the circulating portion.

In the refrigeration apparatus of the present invention, the air (cool air) cooled by the cooling unit is circulated between the heat insulating section and the storage section, whereby the entire side wall of the storage section is cooled from the surroundings using the cool air as a medium. For this reason, cold air does not directly hit the cold storage object such as white rice stored in the storage unit, but is indirectly cooled via the side wall. Then, by circulating cool air between the storage section and the heat insulating section, not only the side wall facing the cooling unit but also the entire side wall in the other direction is simultaneously cooled. For this reason, it is possible to reduce the temperature difference of the entire side wall forming the storage section, to cool the entire storage section more uniformly, and to reduce the temperature distribution in the storage section. Therefore, it is possible to sufficiently maintain the temperature variation of the storage section when the white rice or the like is refrigerated in the storage section to less than 5 ° C. which is desirable for refrigeration while maintaining good quality.

Furthermore, by providing a space for the circulating unit so as to surround the four side walls of the storage unit and allowing the cool air to circulate in the horizontal direction, a lid that can be opened and closed can be installed above the storage unit. For this reason, it is possible to configure a storage unit that is easy to use and can easily supply grains such as white rice from the upper part, and is particularly suitable for storing grains such as rice bins. In addition, by adopting a lid that can keep the sealing inside the storage section high,
It is also possible to keep the internal moisture (moisture) almost constant. For this reason, moisture enters the inside of the storage unit from the outside,
It is possible to provide a refrigeration apparatus that can prevent dew condensation from occurring near the side wall and can store white rice or the like with high quality for a long time.

Also, instead of forming a circulating portion that circulates cool air in the vertical direction along the side wall, it is possible to circulate in the horizontal direction, thereby providing a path (air flow path) in which the flow direction of cool air is different. No need.

Further, by providing a fan for forcibly circulating the air in the circulation section in the horizontal direction along the outer periphery of the side wall, the cool air can be circulated in a certain direction, so that the configuration of the circulation section can be simplified.
In addition, since the air circulation efficiency is improved by forcibly circulating the air in the circulation section with a fan,
In addition, it is possible to cool uniformly. Further, by forcibly circulating the air, the temperature of the air itself in the circulating section is also made uniform, so that only the air near the cooling unit is not cooled. Further, since the flow of air increases the heat transfer coefficient between the cooling unit and the heat transfer surface, the cooling efficiency of the cooling unit can be improved, and power can be saved.

Furthermore, air is circulated instead of circulating conventional cooling-dedicated refrigerants such as halogenated hydrocarbons to cool the storage section, so that the configuration of the circulating section can be simplified without laying piping. Can be. For example, a system that can reliably cool the entire side wall only by providing a space for the circulation section between the side wall of the storage section and the heat insulating section can be configured at low cost.
Also, unlike the refrigeration unit, which uses the cooled air as the medium, unlike the refrigeration unit in which the cooling unit is directly in contact with the side wall of the storage unit, the storage unit can be uniformly cooled through the thin side wall. It is. Also in this respect, it is possible to provide a low-cost refrigeration apparatus in which the distribution of the internal temperature of the storage section is small, and to realize a refrigeration apparatus suitable for a rice bin device or the like which can be easily used in homes and farms. Therefore, by commercializing the refrigeration apparatus of the present invention as an insulated rice bottle, the white rice is kept fresh for a long period of time without causing low-temperature damage such as generation of pests and mold, cracking of the rice, and discoloration. It is easy to obtain white rice with excellent taste. Furthermore, an inexpensive rice bin device that can be easily installed in ordinary households, is easy to handle, and can be provided.

As the cooling unit that cools the air in the circulation unit, a cooling unit that expands and compresses the refrigerant can be used, but since the side wall of the storage unit is cooled using air as a medium, the Peltier effect is used. The air in the circulation section can be immediately cooled by the Peltier cooling unit. By adopting the Peltier cooling unit in the refrigeration apparatus of the present invention, it is possible to realize a refrigeration apparatus that can cool a refrigerated object without using a special refrigerant with a simple configuration and a small size. Therefore, it is possible to provide a refrigeration apparatus that can be used safely at home without worrying about environmental pollution due to the release of the refrigerant.

Furthermore, by supporting the side wall of the storage unit from the heat insulation unit via the spacer, a space of an appropriate width for the circulation unit can be secured, and the storage unit and the heat insulation unit are stored in the housing to make the refrigeration device compact. Can be.

In addition, by adopting an arrangement in which the Peltier cooling units for cooling the air in the circulating unit are arranged in a substantially horizontal direction with respect to the storage unit, the cooling unit of the Peltier cooling unit can be located in the circulating unit provided around the side wall. The air in the circulating section can be directly cooled by being exposed to the space. Therefore, since the cooling units are efficiently arranged, the configuration of the refrigeration apparatus is simplified, and a small-sized refrigeration apparatus that can be supplied at low cost can be realized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing the appearance of a rice bin device to which the refrigerator device of the present invention is applied as a rice bin.

FIG. 2 is a longitudinal sectional view showing a schematic configuration of the rice bin device shown in FIG.

FIG. 3 is a cross-sectional view showing a schematic configuration of the rice bin device shown in FIG.

FIG. 4 is an explanatory diagram showing temperature characteristics of a storage section of the rice bin device shown in FIG.

FIG. 5 is a longitudinal sectional view showing an example different from the above of the rice bin device according to the present invention.

FIG. 6 is a cross-sectional view showing a schematic configuration of the rice bin device shown in FIG.

FIG. 7 is a longitudinal sectional view showing a schematic configuration of a rice bin device as a background art, which can store white rice at a low temperature.

FIG. 8 is a cross-sectional view showing a schematic configuration of the rice bin device shown in FIG.

FIG. 9 is an explanatory diagram showing the temperature characteristics of the storage section of the rice bin device shown in FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an example in which the refrigeration apparatus of the present invention is implemented as a rice bin apparatus will be shown with the above-described drawings, and based on this, the present invention will be described in further detail. FIG. 1 is a perspective view showing the appearance of the rice bin device of this embodiment. FIGS. 2 and 3 show a schematic configuration of the rice bin device of the present embodiment using a vertical section and a horizontal section. As shown in these figures, the rice bin device 1 of the present embodiment includes a rectangular parallelepiped housing 2 provided with a lid 26 that can be opened and closed to put white rice in the upper part. Inside the housing 2, a storage unit 20 for storing white rice is arranged on the upper front side 2a, and the storage unit 20 is tapered downward so that white rice can be easily dispensed.
Below the storage unit 20, a weighing device 31 for dispensing a desired amount of rice from the storage unit 20 is installed, and below the weighing device 31, a container 32 for removing the dispensed rice is provided from the front side 2a. It is provided to be removable. On the back side 2b of the housing 2, a cooling unit 10 is housed in a substantially horizontal direction along with the housing unit 20, and a cooling unit 9 is formed. A power supply unit 8 for supplying electric power to the cooling unit 10 and the like is arranged on the bottom surface 2b of the bottom of the housing 2.

The storage portion 20 of the rice bin device 1 of this embodiment has a substantially rectangular parallelepiped shape and four side walls 21, 22, 23, and 24 formed of a relatively thin iron plate having excellent heat conduction. I have. A space is provided between each of the side walls 21, 22, 23 and 24 and the heat insulating material 3 so that air can be circulated.
Are formed. In this example, each side wall 21, 22, 23 and 2
By arranging a plurality of spacers 25 between 4 and the heat insulating material 3, a sufficient space is secured as the circulation unit 30, and the storage unit 20 is supported by these spacers 25. Therefore, by housing the heat insulating material 3 in the housing 2, the housing portion 20 and the circulation portion
30 and the heat insulating material 3 can be stored compactly.

Thus, the four side walls 21, 22, 23 and
By providing a space between the heat insulating material 3 and the circulating unit 30, the opening / closing lid 26 provided with a heat insulating material above the storage unit 20.
Can be covered. Then, by opening the opening / closing lid 26, white rice can be easily put into the storage section 20. In addition, the opening / closing lid 26 can seal the inlet of the storage unit 20 so that the cooling effect is not reduced, and at the same time, the inside of the storage unit 20 is sealed to keep moisture (moisture) almost constant. So that you can keep it. Therefore, the rice bin device 1 of this example
The storage unit 20 has side walls 21, 22, 23 and 24, and an opening / closing lid
26 allows the storage section 20 to be substantially sealed, preventing moisture from entering the storage section 20 from the outside and causing dew condensation to occur near the side walls 21, 22, 23, and 24. At the same time, as will be described in detail below, similarly to the rice bin device described above with reference to FIG. 7 and the like, the cool air for cooling the storage unit 20 does not directly enter the storage unit 20. The rice is not dried too much, creating an environment in which it can be stored for a long time with good quality. As the storage unit 20, for example, a storage unit that can store 30 kg of rice bags, equivalent to about one month for ordinary households, can be used.

Cooling unit 9 arranged on the back side 2b inside the housing 2
In, the cooling unit 10 of the unit type
It is arranged so as to be adjacent to the storage unit 20 with the. The cooling unit 10 includes an electronic refrigerating device 11, and in the present example, the electronic refrigerating device 11 performs the same operation at an electronic heat pump manufactured based on the Peltier effect and other junctions between a semiconductor and a metal. The one provided with the used thermoelectric cooling element 18 is employed. In the cooling unit 10 of the present embodiment, the heat exchanger 12 on the heat removal side of the electronic refrigerator 11 is provided on the back side 2b, and the heat exchanger 13 on the heat absorption side penetrates the heat insulating material 3 and projects inside the circulation unit 30. Is done. The heat exchanger 13 and its tip
It has a cooling surface 17 for cooling air inside. further,
Two cooling fans 15 are provided for circulating external air to the heat exchanger 12 on the exhaust heat side to promote exhaust heat. By arranging the cooling unit 10 in this way, the heat exchanger 13 on the heat absorbing side can directly cool the air in the circulating section 30 serving as the cooling circulating space.

In the circulation unit 30 of the present example, a fan 35 is installed between the heat exchanger 13 of the cooling unit 10 and the side wall 22 on the back surface 2b of the storage unit 20. By forcibly circulating the air in the circulating section 30 by the fan 35, the circulating efficiency is improved, and the storage section 20 can be rapidly and uniformly cooled. The circulation unit 30
By forcibly circulating the air, the heat absorption efficiency of the heat exchanger 13 is improved, the efficiency of the cooling unit 10 can be increased, and power can be saved. Furthermore, in this example, since the fan 35 is installed near the heat exchanger 13, the cool air can be circulated reliably and rapidly, and the heat absorption from the side wall 22 of the back side 2b of the storage unit 20 can be achieved. Only the temperature rises and only the temperature of the side wall 22 suddenly decreases, thereby preventing a problem.

In the rice bin device 1 of this embodiment, the air in the circulation section 30 is cooled by the cooling unit 10, and this cool air is cooled by the fan 35 along the outer circumference of the side walls 21, 22, 23 and 24 as shown by the arrow H in FIG. And is circulated almost horizontally. Therefore, the side walls 21, 22, 23, and 24 of the storage unit 20 formed of a metal material such as an iron plate having good heat conductivity are cooled by circulating cool air, and are cooled through these side walls 21, 22, 23, and 24. Storage
The inside of 20 is cooled. Thus, the rice bin device 1 of this example
In this example, the side walls 21, 22, 23, and 24 are cooled using air as a medium, and the storage section 20 is indirectly cooled using the side wall having a large area as a heat radiating section. Therefore, the cold air hits the white rice directly, the white rice can be kept fresh for a long time without causing the low temperature damage such as cracking or discoloration of the rice, and it is easy to obtain white rice with excellent taste. it can.

In addition, the air in the circulation section 30 is
And 24 circulate in the same direction so as to surround the same, the air circulation path is simple, and the cool air cooled by the cooling unit 10 spreads uniformly to the circulation part 30 in a short time, and the respective side walls 21, 22, 23 And 24 can be cooled in almost the same condition. Furthermore, a fan 35 provided in the circulation section 30
The air is forcibly circulated by each side wall 21, 22, 23
And 24 are almost the same, and the storage section 20 is almost uniformly cooled from the side. Further, by circulating, the circulation efficiency of the circulation unit 30 is also improved. As described above, in the rice bin device 1 of the present embodiment, the entire storage unit 20 can be uniformly cooled.

Further, the rice bin device 1 of this example is different from the rice bin device described above with reference to FIG. 7 and the like in that the cooling unit 10 is not directly cooled by bringing the cooling unit 10 into contact with the side wall of the storage unit 20, and is not transmitted through the side wall. The heat transfer is performed via the air in the circulation layer 30. Therefore, even if the side walls 21, 22, 23, and 24 are thinned, the storage unit 20 can be cooled substantially uniformly as a whole, and the rice bin device 1 in which the distribution of the internal temperature of the storage unit 20 is small can be lightened. It can be realized at low cost.

FIG. 4A shows the storage unit 20 measured at the same point as in FIG.
3 shows the distribution of the internal temperature. In FIG. 4A,
The solid line A indicates the temperature of the central portion A of the storage section 20. On the other hand, an alternate long and short dash line B indicates the temperature of the lower part B of the back side 2b of the storage section 20 as shown in FIGS. 4B and 4C, and the broken line C indicates the temperature of FIGS. As shown in FIG. 4C, the temperature of the upper part C of the front side 2a of the storage part 20 is shown. As shown in FIG. 4 (A), in the rice bin device 1 of the present example, the temperatures of the portions A, B and C decrease in substantially the same state, and each of the portions A, B and C is saturated at a temperature suitable for long-term storage of rice. ing. That is, the central portion A of the storage section 20 is approximately
19 ° C, the lower part B of the back side 2b of the storage section 20 is about 17 ° C,
The upper part C of the front side 2a of the storage part 20 is saturated at about 20 ° C. Therefore, it is possible to provide the rice bin device 1 in which the distribution width of the internal temperature of the storage section 20 is as small as about 3 ° C. The rice bin device 90 of the type that directly cools the side wall of the storage section 20 described with reference to FIGS. 7 and 6 has a temperature distribution width of about 6 ° C. Compared to this, the temperature distribution width of the rice bin device 1 of the present example is almost halved, and the temperature distribution width that is less than 5 ° C., which is a desirable temperature distribution width for refrigerated white rice, can be sufficiently cleared, and a temperature distribution nearly uniform can be obtained. .

Therefore, in the rice bin device 1 of this example, it is desirable to prevent the generation of pests and molds, and further to prevent the low-temperature damage such as cracking of the rice and drying and discoloration of the rice, and to preserve the rice for a long period of time. The distribution of the internal temperature of the storage section 20 can be kept within the range of 15 ° C. to 20 ° C. with a margin. For this reason, even when the use condition and the installation environment change in individual homes and the outside temperature fluctuates, it is possible to control the internal temperature of the storage unit 20 to an appropriate temperature range, causing a high-temperature or low-temperature failure. The white rice can be kept fresh for a long time without any change. Therefore, by using the rice bin device 1 of this example, it is possible to easily obtain white rice excellent in taste easily at home or the like.

As described above, the refrigeration apparatus of the present invention can prevent white rice from the occurrence of pests and molds, and can keep rice fresh for a long time without causing low-temperature damage such as cracking or discoloration of rice. The present invention can be applied to a rice bin device, and white rice having excellent taste can be easily obtained even in a season in which long-term storage of white rice is difficult, such as in summer. And since the rice bin apparatus of this example circulates air to cool the side wall, it is easy to handle and inexpensive, and can be easily installed even in ordinary households.

In this example, an electronic refrigerator (Peltier cooling device)
The cooling unit 10 using the eleventh embodiment can realize the rice bin device 1 having a more compact and simple configuration.
Instead of the Peltier cooling device 11, it is of course possible to employ a cooling unit of a type that compresses and expands a dedicated refrigerant with a compressor to cool the air. However, the refrigerating device of the present invention can cool the side wall using air as a medium. By adopting the Peltier cooling device, the refrigerating device can take advantage of the advantage and reduce the cooling capacity without using a special refrigerant such as halogenated hydrocarbon. A high refrigerator can be realized. Furthermore, since the refrigeration apparatus of the present invention does not use a special gas such as a halogenated hydrocarbon, the configuration of a circulating section for circulating cool air is extremely simplified, and a system capable of cooling the inside of the refrigerator from the entire side wall is reduced. Can be built at cost. In addition, even if the side wall of the storage unit is thinned, the storage unit can be cooled almost uniformly.

Further, the circulating unit 30 is provided with the side walls 21, 22, 23 and
Although it is formed so as to surround 24, it may be formed so as to cover the entire area including the payout portion of the storage section 20 by expanding this range. Further, the number of fans for forcibly circulating the air in the circulating unit 30 is not limited to one, and two or more fans may be provided. Of course, the mounting locations of the fans are not limited to the above examples. Absent.

FIG. 5 and FIG. 6 show an example of a rice bin device according to the present invention in which an arrangement different from the above is adopted. The rice bin device 1 shown in these figures has almost the same configuration as the rice bin device shown above, but first, a portion below the heat absorbing heat sink (heat exchanger) 13 of the Peltier cooling unit 11 arranged in the circulation section 30. In addition, a collection tray 61 for receiving the drain 60 generated in the circulation unit 30 is installed, and a drainage pipe 62 is provided between the heat-dissipation-side heat sink (heat exchanger) 12 and the power supply device 8 disposed therebelow. Is connected to an evaporation tray 63 provided in the storage device. The evaporating tray 63 is made of a metal or the like having excellent thermal conductivity, and can use the exhaust heat of the power supply device 8 to evaporate the drain 60 discharged. Further, in the rice bin device 1 of this example, a fan 15 for exhaust heat is provided between the tray 63 for evaporation and the heat sink 12 on the heat-dissipating side. The side heat sink 12 is dried and exhausted out of the housing 2. As described above, the rice bin device 1 of the present embodiment can self-process the generated drain by the heat radiation of the power supply device 8 or the heat radiation of the heat-dissipating heat sink 12.

Furthermore, in the rice bin device 1 of this example, a Peltier cooling device
The heat sink 13 on the heat absorbing side of 11 is provided with a base 51 of a flat plate and a plurality of fins 52 mounted on the surface thereof in a vertical direction (up-down direction) so that their longitudinal directions extend substantially horizontally. Then, the heat sink 13
The air in the circulating portion 30 flows along the longitudinal direction of the fins 52 and is cooled by the circulating fan 35 provided in the horizontal direction of the heat absorbing heat sink 13 so as to be arranged in a horizontal direction. Further, each of the fins 52 is inclined downward toward the tip, so that the drain 60 generated in the fins 52 easily flows toward a drain pan (drain collection tray) 61 prepared below. Therefore, the drain does not accumulate on the surface of each fin 52, and the heat exchange efficiency can be maintained high.

As described above, the rice bin device 1 of the present example is configured such that the air in the circulation unit 30 can be cooled more efficiently by the Peltier cooling unit 11, and the rice bin device with a small size, high cooling efficiency, and low power consumption can be used. Can be provided. Then, the white rice 70 inserted from the input port 20b of the storage 20 is cooled indirectly through the side walls 21 to 24 in the same manner as the rice bin device described above, so that the white rice 70 can be stored for a long time while maintaining appropriate humidity. Can be held. Therefore, delicious white rice kept fresh at any time can be obtained from the outlet 20a of the storage 20. In the rice bin device 1 of the present embodiment, the drain generated in the device is self-evaporated, and can be discharged to the outside by dry exhaust. Therefore, it is necessary to provide a pipe for drain treatment and trouble of drain treatment. And can be installed more easily at home. Further, since the drain is automatically processed, the drain can be safely used without overflowing the drain or flowing back into the storage to wet the white rice and deteriorate the quality.

INDUSTRIAL APPLICABILITY The refrigeration apparatus of the present invention cools the storage section evenly by circulating cool air between the storage section and a heat insulating section provided to cover the circumference of the storage section for keeping cool. It is possible to keep the temperature distribution in the storage section small and keep the humidity at a suitable level, so it is possible to use rice bin equipment that stores white rice and many other items such as other grains and fresh food products. Applicable to refrigeration equipment for refrigeration.

Continuation of the front page (56) References JP-A-5-157436 (JP, A) JP-A-7-227363 (JP, A) JP-A-5-340661 (JP, A) JP-A-3-28679 (JP) JP-A-9-108128 (JP, A) JP-A-4-158822 (JP, A) JP-A-54-152763 (JP, U) JP-A-5-66490 (JP, U) (58) Surveyed field (Int.Cl. ⁷ , DB name) A47J 47/04-47/06 F25D 11/00 101 F25D 17/08 311

Claims (6)

(57) [Claims] A storage portion capable of storing the object to be cooled in a substantially sealed state; a heat insulating portion provided to surround four side walls of the storage portion; and a space between the side wall of the storage portion and the heat insulating portion. A refrigeration apparatus, comprising: a circulating section through which air can circulate in a horizontal direction; and a cooling unit for cooling air in the circulating section, wherein the cooling unit and the storage section are arranged substantially horizontally. 2. The refrigeration apparatus according to claim 1, further comprising a fan for circulating the air in the circulation section in a horizontal direction. 3. The refrigerator according to claim 1, wherein the cooling unit is a Peltier cooling unit. 4. The refrigeration apparatus according to claim 3, wherein the heat absorbing side of the Peltier unit is located in the circulation section. 5. The refrigeration apparatus according to claim 1, wherein a lid capable of substantially sealing the storage section is provided above the storage section, and a dispensing device is provided below the storage section. 6. The refrigeration apparatus according to claim 1, wherein a side wall of the storage section is supported from the heat insulating section via a spacer.