KR200235079Y1 - cool container with medium of heat - Google Patents

Abstract

The present invention relates to a cold storage container, the storage container 100 is stored in the contents, the heat insulating material layer 130 is configured to surround the outer wall of the storage container 100, and wraps the outer wall of the heat insulating material layer 130 In the cold storage container having an outer case 140 formed so as to be formed between the storage container 100 and the heat insulating material layer 130 and the refrigerant evaporation pipe 120 is installed to generate in the refrigerant evaporation pipe 120 The cold storage container with a heat medium comprised including the heat medium layer 110 which distributes and distributes cold air to the storage container 100 side is made into a technical subject matter. Accordingly, there is an advantage of keeping the temperature inside the storage container uniformly by even heat transfer to prevent the subcooling phenomenon and defrost.

Description

Cooling container with heat medium {cool container with medium of heat}

The present invention relates to a cold storage container, and more specifically, the cool air generated in the coolant evaporation pipe is transferred to the inside of the cold storage container through the heat medium filled in the cold storage container is made of heat transfer evenly inside the cold storage container inside the cold storage container. The present invention relates to a cold storage container equipped with a heat medium, in which temperature imbalance is eliminated to have an even temperature distribution, and local sexual occurrence or freezing is eliminated.

Generally, the cold storage container keeps the temperature inside the cold storage container constant by introducing cold air into the inside while the storage container is filled with fresh water.

The cold storage container has been used in various ways to keep goods fresh in a modern society such as a refrigerator and a kimchi refrigerator.

A typical example of the cold storage container is a kimchi refrigerator, and the kimchi refrigerator according to the prior art was introduced in Korean Utility Model Registration No. 184636.

As shown in FIG. 1 or FIG. 2, the conventional technique surrounds the storage container 2 at a predetermined interval through the storage container 2 in which the kimchi container 18 is stored, and the heat insulating material 6. In the condenser coil 14, which condenses the refrigerant compressed by the outer case 4, the compressor 5 installed in the machine room 10 disposed under the storage container 2, and the condenser coil 14, Kimchi refrigerator having an evaporator coil (8) for exchanging the refrigerant passing through the coolant is transferred to the inside of the storage container, the kimchi for fixing the evaporator coil (8) through the cooling fin (40) inside the storage container. An evaporator coil assembly structure of a refrigerator.

And the cooling fin 40 is composed of a container fixing part 42 in close contact with the outer wall of the storage container, the coil accommodating portion 44 and the extension portion 46.

However, the above-described conventional technology is fixed to the evaporator coil to the cooling fins to maintain the stability of the evaporator coil, but because the cold air of the evaporator coil is directly transmitted through the storage container contact surface causes a temperature imbalance in the storage vessel, the cooling fins are directly contacted There is a problem that the part is supercooled.

Therefore, the present invention has been devised to solve the above problems, by forming a heat medium layer on the outer wall of the storage vessel and at the same time forming a refrigerant evaporation tube inside the heat medium layer, the cool air of the refrigerant evaporation tube through the fruit layer An object of the present invention is to provide a cold storage container equipped with a heating medium to uniformize the temperature inside the storage container by being delivered to the inside and to prevent subcooling, freezing, and freezing.

1-a cross-sectional view showing the configuration of a kimchi refrigerator according to the prior art.

Figure 2 is a cross-sectional view showing an evaporator coil assembly according to the prior art.

3 is a cross-sectional view of the cold storage container according to the present invention.

4 is a cross-sectional view of the cold storage container according to another embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

100: storage container 101: door

110: heat medium layer 120: refrigerant evaporation pipe

130: insulation layer 140: outer case

The present invention for achieving the above object, in the cold storage container provided with a storage container for storing the contents, a heat insulating material layer configured to surround the outer wall of the storage container, and an outer case formed to surround the outer wall of the heat insulating material layer. In the technical gist of the present invention, a coolant container having a heat medium including a heat medium layer formed between the storage container and the heat insulating material layer and having a coolant evaporation pipe installed therein to disperse and transfer cold air generated from the coolant evaporation pipe to the storage container side is provided as a technical point. do.

Here, the heat medium layer is preferably configured to include at least one of ocher, elvan, gansumite, jade.

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

Figure 3 is a cross-sectional view of the cold storage container equipped with a heat medium according to the present invention, Figure 4 is a cross-sectional view according to a second embodiment.

As shown, the cold storage container equipped with a heat medium according to the present invention is large, the storage container 100, the heat medium layer 110, the refrigerant evaporation pipe 120, the heat insulating material layer 130 and the outer case 140 It consists of.

The storage container 100 is a storage container 100 of a general cold storage container is accommodated therein. The door 101 of the cold storage container is installed on the upper portion of the storage container 100 to be opened.

Here, the door 101 is not limited to being installed on the upper portion of the storage container 100, but may be installed on the front of the storage container 100, and belongs to the scope of the present invention.

In addition, a heat medium layer 110 is formed on an outer wall of the storage container 100, and the heat medium layer 110 distributes and transfers cool air generated in a refrigerant evaporation pipe 120 to be described later to the storage container 100. .

In addition, the heat medium layer 110 is composed of each of a far infrared ray generating material such as ocher, elvan, macsumite, jade or a mixture of the above materials. In the heat medium layer 110 configured as described above, far infrared rays are generated due to the characteristics of the material, and the generated far infrared rays are transferred to the storage container 100 to maintain the freshness of the storage accommodated in the storage container 100.

The heat evaporation layer 110 is provided with a coolant evaporation pipe 120 for generating cold air, and the coolant evaporation pipe 120 is connected to a compressor and a condenser coil installed outside so that the refrigerant compressed by the compressor is used to form a condenser coil. Condensed while passing, and is delivered to the refrigerant evaporation pipe 120 to transfer cold air to the heat medium layer 110 in a heat exchange form with the heat medium layer 110.

The cold air transferred to the heat medium layer 110 is transferred to the storage container 100 by heat transfer from the heat medium layer 110 and simultaneously cools the storage container 100. In this process, the cool air generated in the refrigerant evaporation pipe 120 is distributed and transferred in the process of being transferred to the storage container 100 through the heat medium layer 110, so that even cold air is transferred to each part of the storage container 100. By doing so, the supercooling of the specific part and the occurrence of frost can be prevented and at the same time, it serves to maintain the temperature inside the storage container 100 uniformly.

In addition, the outer wall of the heat medium layer 110 insulates heat from the outside and at the same time, an insulation layer 130 is formed to block the outside stepless transfer of cold air generated from the refrigerant evaporation pipe 110 to block heat transfer from the outside and the inside. Increase the cold effect. The outer case 140 is formed on the outer wall of the insulation layer 130 to surround the insulation layer 130 to form the overall shape of the cold storage container. Since the outer case 140 is a general one, detailed description thereof will be omitted.

The operation effect by the above configuration is as described later.

After the user accommodates the storage inside the storage container 100, the compressor and the condenser coil are operated by the operation of an external motor and at the same time, the cold air generated in the refrigerant evaporation pipe 120 installed in the heat medium layer 110 is provided. The heat medium layer 110 is transferred to the heat medium layer 110 by heat exchange. The delivered cold air is delivered to the storage container 100 through the heat medium layer 110 and transferred to the storage housed in the storage container 100 to refrigerate and freeze the storage and at the same time the heat medium layer 110. Far-infrared rays generated from) are transmitted to the storage to maintain the freshness of the storage.

In addition, the insulation layer 130 blocks the cold air inside the storage container 100 from being released to the outside at the same time and prevents external heat from being transferred to the storage container 100 side to the storage container 100. Plays a part in keeping the temperature constant.

In addition, the heat medium layer 110 also prevents unauthorized heat exchange to the outside of the storage container to increase the storage efficiency of the storage container 100.

According to the present invention, the heat medium layer is formed between the heat insulation layer and the storage container to uniformly cool the temperature inside the storage container by distributing and transferring the cool air generated from the refrigerant evaporation tube to the storage container side, and at the same time, to identify the inside of the storage container. There is an advantage of preventing overcooling of the spot.

In addition, far infrared rays are generated in the heat medium layer to keep the storage stored in the storage container fresh.

Claims (2)

The storage container 100, the contents of which are stored, the insulating material layer 130 is formed to surround the outer wall of the storage container 100, and the outer case 140 formed to surround the outer wall of the insulating material layer 130 is provided In cold storage container, The heat medium layer 110 is formed between the storage container 100 and the heat insulating material layer 130 and the refrigerant evaporation pipe 120 is installed to distribute and transfer the cool air generated by the refrigerant evaporation pipe 120 to the storage container 100. Cold storage container with a heat medium characterized in that comprises a). The heat storage container according to claim 1, wherein the heat medium layer (110) comprises at least one of ocher, elvan, maculite and jade.