KR100701932B1 - A 'kimchi' refrigerator - Google Patents

Abstract

The present invention relates to a kimchi reservoir for eliminating the pressure difference inside the refrigerant pipe when restarting after the compressor stops by connecting the refrigerant pipe corresponding to the inlet side of the step valve and the compressor.

Kimchi storage, step valve, bypass pipe

Description

Kimchi storage {a 'kimchi' refrigerator}

1 is a cross-sectional view showing the inside of the conventional kimchi storage.

2 is a refrigerant cycle circuit diagram of a conventional kimchi storage.

3 is a refrigerant cycle circuit diagram showing the flow of refrigerant during operation of the compressor of the kimchi storage according to the present invention.

Figure 4 is a cycle circuit diagram showing the flow of the refrigerant when the compressor stops operation of the kimchi storage according to the present invention.

-Explanation of symbols for the main parts of the drawings-

30: compressor 50: capillary tube

60: evaporator 70: step valve

90: refrigerant pipe 100: bypass pipe

The present invention relates to a kimchi storage, and more specifically, to connect the refrigerant pipe corresponding to the inlet side of the step valve and the compressor by a bypass pipe to remove the pressure difference inside the refrigerant pipe when the compressor restarts after the compressor is stopped. It's about storage.

In general, kimchi storage is equipped with a aging means for aging kimchi inside using a aging heater, and a refrigeration cycle component for maintaining the kimchi matured using the principle of the refrigerator at a low temperature, the taste and taste of kimchi It is a device to maintain freshness for a long time.

As shown in Figure 1 and 2, the conventional kimchi storage is equipped with a kimchi storage room 12 in the interior of the main body 10, the device room partitioned with the kimchi storage room 12 in the inner lower portion of the main body 10 ( 20).

The appliance room 20 is driven by an applied power source to compress a low temperature low pressure refrigerant into a high temperature high pressure refrigerant, and a condenser 40 to condense the refrigerant passing through the compressor 30. And an evaporator 60 for cooling each of the kimchi storage chambers 12 while surrounding the outer circumferential surface of each of the kimchi storage chambers 12.

Among these, the compressor 30 requires a considerable amount of power in the process of compressing the liquid refrigerant flowing in each evaporator 60 into a high-pressure gas state, according to the cooling conditions and room temperature 30) It is necessary to reduce the power consumption by varying the capacity, and for this purpose, the flow rate of the refrigerant is generally controlled by using the step valve 70.

That is, the step valve 70 branched to each capillary tube 50 is connected to the capillary tube 50 to control the flow of the refrigerant flowing around the kimchi storage chamber 12. By appropriately adjusting according to the control signal of the) to make the storage more efficient, and selective storage, that is, to use all or only one of the kimchi storage room 12 to be used.

However, the conventional kimchi storage to maintain the flat pressure by preventing the non-uniformity of the refrigerant generated when the compressor is restarted after using the step valve, there was a problem that the flat pressure maintenance time of the refrigerant due to the step valve is delayed.

The present invention has been made to solve the above problems, an object of the present invention is to connect the refrigerant pipe and the step valve corresponding to the refrigerant inlet side of the compressor by a bypass pipe through the bypass pipe when the compressor stops operating. Filling the refrigerant in the refrigerant pipe to provide a kimchi storage for maintaining the equal pressure of the refrigerant when the compressor restarts.

The present invention for achieving the above object is a compressor for compressing a refrigerant at high temperature and high pressure, a condenser for condensing the compressed refrigerant, a step valve for controlling the flow rate of the condensed refrigerant, and branched from the step valve to cool the refrigerant In the Kimchi reservoir having an expansion capillary and an evaporator connected to each of the capillaries to surround the Kimchi storage chamber to evaporate the refrigerant and exchange heat, the refrigerant pipe corresponding to the refrigerant inlet side of the step valve and the compressor is bypassed. By connecting to guide the refrigerant to the refrigerant pipe when the operation of the compressor to stop the kimchi storage characterized in that the refrigerant can be introduced into the compressor at an equal pressure when the compressor restarts.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a refrigerant cycle circuit diagram showing the flow of the refrigerant during the operation of the compressor of the kimchi reservoir according to the present invention, Figure 4 is a cycle circuit diagram showing the flow of the refrigerant when the compressor operation of the kimchi reservoir according to the present invention.

As shown in Figures 3 and 4, the kimchi storage according to the present invention is formed in the body of the kimchi storage chamber (not shown), the evaporator 60 is installed on the outer peripheral surface, the compressor 30, the condenser 40 ), A capillary 50 includes an instrument chamber (not shown) formed therein.

The gist of the present invention is that the refrigerant pipe 90 corresponding to the refrigerant inlet side of the step valve 70 and the compressor 30 is connected to the bypass pipe 100.

Here, the bypass pipe 100 is closed so as to be closed when the compressor 30 is operating, and is controlled to be opened when the compressor 30 is stopped, and the refrigerant pipe 90 corresponding to the refrigerant inlet side of the compressor 30. Control the flow rate of the flowing refrigerant.

Hereinafter, an embodiment of the refrigerant control device of the kimchi storage according to the present invention having the above configuration will be described with reference to the accompanying drawings.

First, FIG. 3 is a cycle configuration diagram in which the compressor 30 is in operation. The evaporator 60, which surrounds and cools a pair of kimchi storage chambers, is connected to each other by a capillary tube 50 so that the amount of refrigerant is increased by the step valve 70. It constitutes a cycle to control.

In this case, the refrigerant pipe 90 corresponding to the refrigerant inlet side of the step valve 70 and the compressor 30 is connected to the bypass pipe 100.

Since the refrigerant pipe 90 is always filled with the refrigerant passing through the step valve 70, the bypass pipe 100 is controlled to be closed in the step valve 70.

That is, the refrigerant compressed to a high temperature and high pressure state passing through the compressor 30 flows to the condenser 40 to condense, and the condensed refrigerant is one of a pair of capillaries 50 through the step valve 70. The refrigerant flows into the capillary tube 50 or all the capillary tubes 50.

Then, the refrigerant expanded through each capillary tube 50 is guided to the evaporator 60 surrounding each kimchi storage chamber.

Then, the refrigerant passing through the evaporator 60 is introduced back into the compressor 30 through the refrigerant pipe 90 and is phase-changed to a high temperature and high pressure state.

At this time, the step valve 70 closes the bypass pipe 100 to block the refrigerant flowing into the bypass pipe 100.

The reason why the bypass path 100 is closed is because the pressure of the refrigerant flowing into the compressor 30 is constant because the refrigerant always circulates in a cycle when the compressor 30 operates.

In addition, as shown in FIG. 4, when the compressor 30 is stopped, the step valve 70 controls to immediately open the bypass pipe 100.

Since the bypass pipe 100 connects the step valve 70 and the refrigerant pipe 90 corresponding to the refrigerant inflow side of the compressor 30, the refrigerant passing through the step valve 70 immediately after the compressor 30 is stopped is compressed. Guide to the refrigerant pipe (90) connected to the refrigerant inlet side of (30).

At this time, the step valve 70 blocks the movement of the refrigerant to the capillary tube 50.

Thus, the refrigerant moves along the bypass pipe 100 and remains in the refrigerant pipe 90. When the refrigerant is restarted, the refrigerant flows into the compressor 30 immediately.

The refrigerant remaining on the refrigerant pipe (90) is guided to the compressor (30), and at the same time, the step valve (70) blocks the movement of the refrigerant to the bypass pipe (100) and moves the refrigerant to the capillary tube (50). As a result, the refrigerant is moved to the compressor 30 at a uniform pressure.

Unexplained reference numerals are replaced with those described above.

As described above, the Kimchi reservoir according to the present invention connects the refrigerant pipe corresponding to the refrigerant inlet side of the compressor and the step valve by a bypass pipe to move the refrigerant to the refrigerant pipe when the compressor is stopped, thereby remaining the refrigerant upon restarting the compressor. It is effective to maintain the equal pressure.

Claims (1)

A compressor for compressing the refrigerant at a high temperature and high pressure, a condenser for condensing the compressed refrigerant, a step valve for controlling a flow rate of the condensed refrigerant, a capillary branch branched from the step valve to expand the refrigerant, and the capillary tubes respectively connected to each other. In the Kimchi storage having an evaporator to heat exchange while evaporating the refrigerant wrapped around the Kimchi storage room, The refrigerant pipe corresponding to the refrigerant inlet side of the step valve and the compressor is connected to the bypass pipe to guide the refrigerant to the refrigerant pipe when the compressor is stopped, thereby regenerating the refrigerant into the compressor at equal pressure when the compressor is restarted. Kimchi storage characterized in that the inflow.

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