KR19990038585U - Rice bucket structure with refrigeration - Google Patents

Abstract

The present invention relates to an improved design of a rice container having a refrigerating function, and in the related art, a cooling chamber was formed between an inner and an outer cylinder to be indirectly cooled using a freezer compressor. The wall (8) is formed by inserting the heat insulating material (6) in the upper part of the inner cylinder (4), the aluminum material cooling plate (16), the thermoelectric cooling element (18) and the heat sink (20) in turn overlapping and securely connected to each other and the heat sink ( A heat dissipation fan 34 is installed between the inlet 32 at the rear of the case 2 so that the inner cylinder 4 is directly cooled, thereby simplifying the construction, thereby reducing manufacturing costs and making it smaller. It also avoids cold air and power loss, resulting in an economical product.

Description

Rice bucket structure with refrigeration

The present invention is designed to improve the receptacle having a refrigerating function, in detail, manufacturing cost is reduced, can be miniaturized, and the power consumption is low, so that it can be used economically.

I have already devised a rice container structure with several refrigeration functions, such as Patent Application No. 97-63138, Utility Model Registration No. 97-33899, and No. 97-33900.

However, all of them form a heat insulating material in the outer cylinder to form a cooling chamber between the inner passages, and then install a cooling tube cooled by the compressor in the cooling chamber, and consider the convection phenomenon in the cooling chamber, As it is installed by installing a blower, the cooling chamber is occupied in all directions so it is bulky and occupies a lot of installation space, and the configuration is complicated, which requires a lot of manufacturing cost, and small products cannot be obtained.

In addition, the operation of the compressor for cooling generates a lot of noise, so the installation must be taken into consideration the distance from the bedroom, many restrictions are placed upon installation.

In particular, the indirect cooling method through the cooling chamber had a lot of problems such as loss of cold air and uneconomical power consumption.

The present invention adopts a direct cooling method using a thermoelectric cooling element in order to solve the above-described problems, the manufacturing cost can be reduced and the size of the rice can be reduced in a simple configuration, and the refrigerating function that can reduce the noise loss and reduce the power loss. The purpose is to provide a rice bucket structure having a.

In order to achieve the above object, the present invention is to superimpose the thermoelectric cooling element and the heat sink in turn on one side of the inner cylinder of the heat insulating material, and install a heat dissipation fan on the outside of the heat sink.

1 is a cross-sectional view of the subject innovation

2 is a cross-sectional configuration of the main portion of the present invention in an enlarged and disassembled state

Explanation of symbols on the main parts of the drawing

(2)-case (4)-inner

(6)-Insulation (8)-Wall

(10)-plate (12)-space

(16)-cooling plate (18)-thermoelectric cooling element

(20)-heat sink (22)-insulation

(24)-Vertical (26)-Screw

(28)-Insulation Ring (30)-Screw

(32)-Suction Inlet (34)-Heating Fan

(36)-Outlet

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view of the present invention, the present invention comprises a wall (8) by inserting a heat insulating material (6) of the appropriate thickness between the case (2) and the inner cylinder (4), the case (2) is a diaphragm (10) The rear portion 8 is partially extended to form a space portion 12 having an appropriate width between the rear wall 8 and the rear wall 8.

In the rear of the wall 8, the heat insulating material 6 and the diaphragm in close contact with the aluminum material cooling plate 16 made of a trumpet tube shape on the outer surface of the inner cylinder 4 before forming the wall 8 as shown in FIG. The wall 8 is constructed using (10).

On the outer surface of the cooling plate 16, a relatively small and flat thermoelectric cooling element 18 and a relatively large heat sink 20 are sequentially stacked and fixed, and an insulating material having insulation between the wall 8 and the heat sink 20. Insert (22).

The cooling plate 16, the thermoelectric cooling element 18, and the heat sink 20 form a through hole 24 and a screw hole 26 passing through the cooling plate 16 and the heat sink 20, and the insulating ring 28. It is fixed with several screws 30 which are fitted.

The inlet 32 is formed on the rear surface of the case 2 facing the heat sink 20 so that a heat dissipation fan 34 is installed between the heat sink 20 and the inlet 32, and discharge holes are provided on both sides of the space 12. It was made by forming (36).

Unexplained code

(38)-lid

40--selection button

(42)-control

(44)-It is a rice bowl.

The present invention configured as described above is filled with rice in the inner barrel (4) and presses the selection button 40, the amount of rice falls to the rice tray 44 to fulfill the function as a rice bucket and filled with rice The silver is stored at about 13 ° C. to 15 ° C., which is an optimum temperature for cooling, to prevent rice bugs and prevent aging of rice, thereby obtaining fresh, nutrient-rich rice.

However, the present invention is to cool the rice to a storage optimum temperature of about 13 ~ 15 ℃ ℃ when the power is applied to the thermoelectric cooling element 18 through the control unit 42 resulting in the cold air generated by the cooling plate ( 16) directly to the inner cylinder (4).

In addition, since the cold plate 16 is formed in a fallopian tube shape when the cold air is discharged through the cold plate 16, the cold air diffuses rapidly through the inner cylinder 4, so that the cooling rate is increased.

At this time, the heat generated from the heat sink 20 draws the outside air through the inlet 32 as the heat radiating fan 34 is operated to cool it quickly, and the hot heat is discharged out through both outlets 36.

As described above, the present invention has a simple configuration, which reduces manufacturing costs and enables miniaturization, as well as almost no noise, and in particular, a direct cooling method, which allows for economical products due to low cold and power loss.

Claims (1)

A through hole 14 is formed in the rear of the wall 8 interposed between the inner and outer cylinders to insert the cooling plate 16 into the through hole 14, and the thermoelectric cooling element 18 on the outer surface of the cooling plate 16. And the heat sink 20 in order to be integrally connected and fixed to each other, and the inlet port 32 is formed on the rear surface of the main body 2 facing the heat sink 20 to install a heat dissipation fan 34 therebetween. Rice bucket structure with function.