KR101419660B1 - Storing Equipment including Integrated Cooling Device - Google Patents

Abstract

An integrated cooling device (100) according to the present invention includes: a condenser housing (101); an evaporator housing (102) arranged separately from the condenser housing (101); a fixing plate (103) for connecting between the condenser housing (101) and the evaporator housing (102); a compressor (110) arranged on the lower part in the condenser housing (101); a main condenser (120) arranged on the upper part in the condenser housing (101); and an evaporator (130) arranged in the evaporator housing (102). A refrigerant pipe connecting the compressor (110), the main condenser (120) and the evaporator (130) is integrally accommodated in the condenser housing (101) and the evaporator housing (102).

Description

[0001] Storage facilities including integrated cooling devices [0002]

The present invention relates to an integrated cooling device technology that can be quickly installed or disassembled into a refrigeration and freezing facility, and more specifically, it can simplify maintenance when installed in refrigeration and freezing facilities, And which can prevent damage to the connection part of the component by preventing external exposure of the pipe through which the refrigerant is circulated.

In general, a cooling system of a refrigerator and a refrigerator is provided with a compressor and a condenser on the bottom of a main body of the refrigerator. The refrigerant liquefied in the condenser is supplied to an evaporator provided in the main body of the refrigerator, The temperature of the inside of the reservoir body is rapidly lowered through the process of absorbing a large amount of heat. At this time, the compressor, the condenser, and the evaporator are connected to each other by the piping line to circulate the refrigerant.

Meanwhile, such a conventional refrigerator and refrigerator has a problem that the compressor, the condenser, and the evaporator are easily damaged as the refrigerant is compressed and used at high temperature and high pressure for a long period of time.

If the capacity is not properly selected during the selection process of the condenser and the compressor, the life of the compressor may be shortened due to overheating and subcooling of the refrigerator and the refrigerator. In addition, if the drainage is not performed well in the rainy season, the possibility of flood damage increases.

Since the compressor, the condenser, and the evaporator are connected to each other by the refrigerant line piped along the main body of the refrigerator, the conventional refrigerator and refrigerator as described above are not connected to the piping line or the like when repairing any one of the compressor, There is an inconvenience that it is necessary to recover the refrigerant filled in the refrigerant recovery container by the separate refrigerant recovery container, to repair the failed component, and then to fill the refrigerant line again in the piping line.

In addition, the cooling system of the refrigerator and the refrigerator in the related art has a problem in that the storage time of the piping line connecting system between the components is considerably long.

The maintenance of the cooling system of the conventional refrigerator and refrigerator is performed by the A / S personnel using a portable tool or the like, so that it is difficult for the operator to perform the maintenance work, There is a problem that the reliability of the maintenance is deteriorated because it is burdened that it is anxiety that the stored product inside the storage body is deteriorated due to a long time.

On the other hand, as a prior art which discloses an independently detachable refrigeration module, it is possible to removably fix the refrigerator compartment to the freezing compartment including the first part and the second part connected to each other, It can be confirmed that the first part is connected to the inside of the freezing compartment and the second part is connected to the outside of the freezing compartment and the first part is capable of moving in relation to the second part .

However, the related art has a problem in that there is no way to remove piping connecting the parts and a method to prevent the cold air in the storage room from leaking to the outside.

It is an object of the present invention to develop an integrated cooling device capable of preventing the deterioration of stored products by performing operations quickly and easily when installed or separated in refrigeration and freezing facilities,

Another object of the present invention is to provide an auxiliary condenser in addition to a main condenser to prevent overheating of the compressor by primarily cooling the auxiliary condenser when the capacity of the condenser is small.

According to an aspect of the present invention, there is provided an integrated cooling apparatus (100) including a condenser housing (101); An evaporator housing 102 spaced apart from the condenser housing 101; A fixing plate (103) connecting between the condenser housing (101) and the evaporator housing (102); A compressor (110) disposed on the lower side in the condenser housing (101); A main condenser 120 disposed on the upper side in the condenser housing 101; And an evaporator 130 disposed in the evaporator housing 102. The refrigerant pipe connecting the compressor 110, the main condenser 120, and the evaporator 130 is connected to the condenser housing 101 and / And is integrally received in the evaporator housing (102).

The integrated cooling apparatus 100 includes a first blowing unit 156 fixed to an upper end of the condenser housing 101 in an upper direction of the main condenser 120; And a second blowing unit 151 disposed on the side of the evaporator 130 in the evaporator housing 102.

The integrated cooling apparatus 100 may further include an auxiliary condenser disposed at a lower end of the condenser housing 101. The auxiliary condenser may be interlocked with the main condenser 120. [

The integrated cooling apparatus 100 further includes a heat insulating material 160 coupled to the fixing plate 103. The heat insulating material 160 is used for heat exchange between the condenser housing 101 and the evaporator housing 102 It may be desirable to perform the function of blocking.

According to another aspect of the present invention, there is provided a storage device comprising: an integrated cooling device; And a condenser housing 101 and an evaporator housing 102. The condenser housing 101 and the evaporator housing 102 are installed on one side wall of the main body 1, It may be preferable to be arranged to face the fixed plate 103 to be disposed.

INDUSTRIAL APPLICABILITY The integrated cooling apparatus according to the present invention can simplify maintenance in installation in a refrigeration and freezing facility, minimize time and effort required for various tests after installation, By preventing exposure, it is possible to prevent damage to the connecting parts of the parts.

It is another object of the present invention to provide an integrated cooling device provided with a refrigerated and freeze-dried thermal insulation material which can be maintained very quickly, thereby preventing deterioration of stored products and improving reliability of maintenance.

In addition, the integrated cooling device of the present invention is mounted integrally on a fixed plate installed on one side wall of a storage room, so that it can be easily installed even if it is not an expert, and when the refrigeration and freezing facility fails, So that it can be easily replaced and installed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a plan view showing an overall structure of an integrated cooling apparatus according to the present invention and a storage facility including the same,
FIG. 1B is a front view of the storage facility of FIG.
2 is a perspective view of the integral cooling device according to the present invention,
3 is a cross-sectional view of the integral cooling device according to AA of FIG. 2,
4 is a cross-sectional view of the integral cooling device according to BB of FIG. 2, and
5 is a plan view as viewed along the direction C in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

First, a general schematic view of a storage facility including an integrated cooling device according to the present invention will be described with reference to FIGS. 1A and 1B.

The storage device according to the present invention includes a storage body 1 for storing articles requiring refrigeration or freezing, a door 2 capable of entering and exiting the interior of the main body 1, (5), and an integral cooling device (100) detachably installed on one side wall of the main body (1).

The integrated cooling apparatus 100 includes a condenser housing 101, an evaporator housing 102, a fixing plate 103 connecting between the condenser housing 101 and the evaporator housing 102, (160).

Hereinafter, the integral cooling device 100 will be described in detail with reference to Figs. 2 to 5. Fig.

The integrated cooling apparatus 100 includes a compressor 110 disposed on the lower side in the condenser housing 101, a main condenser 120 disposed on the upper side in the condenser housing 101, A first blowing unit 156 fixed to the upper end of the housing 101, an evaporator 130 disposed at one side in the evaporator housing 102, an accumulator 140 disposed at the side of the evaporator 130, And a second air blowing unit 151 integrally coupled to the air cylinder 140. An auxiliary condenser (not shown) separate from the main condenser 120 may be additionally disposed at the lower end of the condenser housing 101.

4, the integrated cooling apparatus 100 includes a receiver tank 115 disposed at a lower portion of the condenser 120, a filter drier 170 connected to the receiver tank 115, a lower portion of the filter drier 170 A solenoid valve 175 connected to the solenoid valve 175, and a KVL 178 disposed on the lower side of the solenoid valve 175.

The integrated cooling apparatus 100 of the present invention is configured such that the fixing plate 103 is disposed on an opening (not shown) formed in one side wall of the storage body 1, (103). That is, the heat insulating material 160 functions to prevent the cool air in the storage body 1 from leaking to the outside through the open wall surface of the storage body 1. [

On the other hand, the connection between the fixing plate 103 and the heat insulating material 160 is secured by a coupling means such as a hook fastener, thereby preventing the integral cooling device 100 from being separated from the storage body 1.

Hereinafter, the overall driving process of the storage facility including the integrated cooling device will be described with reference to FIGS. 1A to 5.

The user can set the temperature through the control panel 5 of the storage body 1. Meanwhile, as another embodiment for setting the temperature, it is possible to arrange a separate temperature controller in the integrated cooling apparatus 100 itself.

The evaporator 130, the condenser 120, the compressor 110, etc. are operated in the control panel 5 in order to reach the set temperature. In the evaporator 130, the refrigerant flowing in the evaporator 130 is evaporated to allow the refrigerant to absorb the heat inside the storage body 1. The heat absorbed refrigerant travels to the compressor 110 through a refrigerant pipe connecting between the evaporator housing 102 and the condenser housing 101. In the compressor 110, the evaporated refrigerant is compressed to a high temperature and a high pressure state. Thereafter, the refrigerant in the high-temperature and high-pressure state is liquefied and converted into the low-temperature and low-pressure state in the condenser 120.

In the integrated cooling device 100 of the present invention, a pipe connecting the evaporator 130, the condenser 120, and the compressor 110 to allow the refrigerant to flow is not exposed to the outside of the integrated cooling device 100 State.

That is, in a state where the evaporator 130, the condenser 120, and the compressor 110 are integrally coupled with the fixed plate 103 as a center, the refrigerant pipe is interposed between the evaporator housing 102 and the inside of the condenser housing 101 So that it is possible to eliminate the difficulty of maintenance due to the refrigerant pipe at the time of installation and separation.

In the present invention, an evaporator 130 is disposed on the inner side of the reservoir body 1 with respect to the fixed plate 103, and a compressor 110 and a condenser 120 are disposed on the outer side of the storage body 1.

The present invention can easily detach the integral cooling apparatus 100 from the storage body 1 when a problem occurs in the integrated cooling apparatus 100. In this case, the fixing plate 103 is detached from the storage body 1 It can be easily repaired through a process.

As described above, since the integrated cooling device of the present invention is integrally mounted on the fixed plate installed on one side wall of the storage room, it can be easily installed even if it is not an expert, and when the refrigeration and freezing facility is broken, the fixed plate is separated from the storage It is effective to make it possible to replace and install easily.

1: storage body
2: Door
5: Control panel
100: Integrated cooling system
101: condenser housing
102: Evaporator housing
103: Fixing plate
110: compressor
120: main condenser
130: Evaporator
140: Accumulator
151: second blowing unit
156: first blowing unit
160: Insulation

Claims (4)

A storage body 1; And
And an integrated cooling device (100) disposed on one side wall of the storage body (1)
The integrated cooling apparatus (100)
A condenser housing (101);
An evaporator housing 102 spaced apart from the condenser housing 101;
A fixing plate 103 disposed on an opening formed in one side wall of the storage body 1;
A heat insulator 160 coupled to the inside of the fixing plate 103 to close the opening;
A compressor (110) disposed on the lower side in the condenser housing (101);
A main condenser 120 disposed on the upper side in the condenser housing 101; And
And an evaporator (130) disposed within the evaporator housing (102)
The refrigerant pipe connecting the compressor 110, the main condenser 120 and the evaporator 130 is integrally accommodated in the condenser housing 101 and the evaporator housing 102,
The condenser housing 101 and the evaporator housing 102 are disposed to face each other with respect to the fixing plate 103,
Wherein the heat insulating material (160) functions to prevent heat exchange between the condenser housing (101) and the evaporator housing (102). The method according to claim 1,
The integrated cooling apparatus (100)
A first blowing unit 156 fixed to an upper end of the condenser housing 101 in an upper direction of the main condenser 120; And
Further comprising a second blowing unit (151) disposed in the evaporator housing (102) at a side of the evaporator (130). 3. The method of claim 2,
The integrated cooling apparatus (100)
Further comprising an auxiliary condenser disposed at a lower end of the condenser housing (101), the auxiliary condenser interlocking with the main condenser (120). delete

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