KR100596524B1 - Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator having a flow path switching valve for guiding a refrigerant to at least one of a refrigerator compartment evaporator and a freezer compartment evaporator.

The refrigerator according to the present invention includes a main body having a machine room open to one side to install a refrigerator compartment and a freezer compartment and a refrigeration cycle component, a condenser installed in the machine compartment and allowing the refrigerant to exchange heat with air, and cooling the refrigerator compartment and the freezer compartment, respectively. The refrigerator compartment evaporator and the freezer compartment evaporator, and the flow path switching valve for guiding the refrigerant to at least one of the refrigerator compartment evaporator and the freezer compartment evaporator, the condenser is provided with a valve mounting portion for installing the flow path switching valve on the open side of the machine room There is an effect that the installation and replacement of the flow path switching valve can be easily made.

Description

Refrigerator {REFRIGERATOR}

1 is a front view showing a schematic configuration of a refrigerator according to the present invention.

2 is a plan sectional view of a refrigerator according to the present invention.

2 is an exploded perspective view showing the machine room configuration of the refrigerator according to the present invention.

Figure 4 is an exploded perspective view showing a flow path variable valve installation state of the refrigerator according to the present invention.

Explanation of symbols on the main parts of the drawings

10: body 11: refrigerator

12: freezing chamber 20a, 20b: cooling chamber

21: refrigerator compartment evaporator 22: freezer compartment evaporator

30: machine room 31: compressor

32: condenser 321: heat exchange refrigerant tube

322: heat exchange fins 323: support plate

324: valve mounting portion 324a: fixed slot

324b: through hole 34: control box

35: second wire harness 35a: second connection terminal

40: flow path switching valve 41: fixed bracket

42: first wire harness 42a: first connection terminal

50: dust cover

The present invention relates to a refrigerator, and more particularly, to a refrigerator having a flow path variable valve for guiding the refrigerant to a refrigerator compartment evaporator and a freezer compartment evaporator.

In general, a refrigerator is provided with refrigeration cycle components such as a compressor, a condenser, an expansion device, and an evaporator to generate cold air through such a refrigeration cycle component to maintain food freshness for a long time.

The refrigerator has a refrigerator compartment for refrigerating food and a freezer for freezing food in a main body forming the exterior, so that food can be stored in one of the refrigerating compartment and the freezing compartment according to its storage temperature.

Recently, the refrigerating compartment evaporator and the freezing compartment evaporator are separately disposed in the refrigerating compartment and the freezing compartment, and the flow path variable valve is included as a component including a flow path variable valve for guiding refrigerant discharged from the condenser to either or both of the refrigerating compartment evaporator and the freezer compartment evaporator. A refrigerator adopting an independent cooling method capable of controlling and cooling the freezer compartment and the refrigerating compartment separately has been proposed.

In addition, such refrigerators are located in the upper part of the main body of the machine room that is used only when the components of the refrigeration cycle, such as failure of the refrigeration cycle needs to be repaired or replaced, thereby making efficient use of the space of the refrigerator. There is.

However, in the case of the refrigerator in which the machine room is located above the main body, there is a problem in that the height thereof is difficult to install the flow opening / closing valve and to replace it in case of failure.

The present invention is to solve such a problem, it is an object of the present invention to provide a refrigerator that can easily install and replace the flow path variable valve.

The refrigerator according to the present invention for achieving the above object, the main body is provided with a machine room opened to one side to install the refrigerating compartment and the freezing compartment and the refrigeration cycle components, and a condenser installed in the machine room to cool the heat exchange with the refrigerant air And a refrigerating compartment evaporator and a freezing compartment evaporator for cooling the refrigerating compartment and the freezing compartment, respectively, and a flow path switching valve for guiding a refrigerant to at least one of the refrigerating compartment evaporator and the freezing compartment evaporator, wherein the condenser has an open side of the machine compartment. It characterized in that the valve installation portion for the installation of the flow path switching valve is provided.

In addition, the machine room is opened toward the front side of the main body, the valve mounting portion integrally extends from the support plate disposed on the front side of the main body of the support plates provided on both ends of the condenser to support both ends of the condenser. It is characterized by being formed.

In addition, the valve installation portion is provided with a fixed slot to have a predetermined length to the side, the flow path switching valve is formed in a plate shape at the front end portion thereof is formed to extend downwards is provided with a fixed bracket fitted to the fixed slot It features.

In addition, the machine room is provided with a control box with a built-in microcomputer for the control of the refrigeration cycle, the flow path switching valve is a first connection terminal provided at the end of the first wire harness extending from the flow path switching valve, the control box And a second connection terminal provided at an end of the second wire harness extending from the second connection terminal connected to the first connection terminal and connected to the micom and controlled by the micom.

In addition, a part of the valve installation part is opened to install the first connection terminal and the second connection terminal so that a through hole is provided, and the first connection terminal and the second connection terminal pass through both sides of the through hole. Coupled through the ball is characterized in that installed in the valve installation portion.

In addition, the first connection terminal and the second connection terminal is formed to have a relatively larger size than the through hole, the first connection terminal is connected to the second connection terminal through the through hole through the through hole Is provided, the second connection terminal is characterized in that the recess is formed so as to correspond to the connection projection is provided with a connection groove into which the connection projection is inserted.

In addition, among the first connection terminal and the second connection terminal, the connection terminal disposed on the front side of the main body is provided with a dust cover to reduce the influence of dust contained in the air introduced through the suction port. It is characterized by.

In addition, the dust cover is provided with an accommodating space therein so as to accommodate a connection terminal disposed on the front side of the main body of the first connection terminal and the second connection terminal therein and is opened to the rear side to open the opening portion. It is characterized in that the close contact with the valve mounting portion.

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

As shown in FIGS. 1 and 2, the refrigerator according to the present invention is provided with a pair of storage compartments 11 and 12 in which food is stored inside the main body 10 forming the exterior and opened to the front side and provided therebetween. The left and right divided by the middle wall 13 constitutes a refrigerating chamber 11 for refrigerating and storing food and the freezing chamber 12 for refrigerating and storing food.

Refrigerating chamber doors 14 and freezing chamber doors 15 that open and close them are respectively installed on the front surfaces of the refrigerating chamber 11 and the freezing chamber 12, and the food compartment is provided in the refrigerating chamber 11, the freezing chamber 12, and each door 14, 15. A plurality of shelves 16 are provided for the storage of.

An upper portion of the main body 10 includes a compressor 31 for compressing a refrigerant, a condenser 32 for compressing a refrigerant under high pressure and high temperature, a capillary tube (not shown) for allowing the refrigerant to expand under reduced pressure, and a refrigerant to expand. Refrigeration cycle components, such as evaporators 21 and 22 from which cold air is generated, are installed.

In this case, the refrigerator according to the present invention adopts an independent cooling method in which the refrigerating chamber 11 and the freezing chamber 12 are independently cooled, and the evaporators 21 and 22 are refrigerating chamber evaporators 21 for cooling the refrigerating chamber 11. ) And a freezer compartment evaporator 22 for cooling the freezer compartment 12.

In order to install the components of the refrigeration cycle, the upper rear side of the main body 10 communicates with the refrigerating compartment 11 and the refrigerating compartment 20a and the freezing compartment 12 in which the refrigerating compartment evaporator 21 is installed, and the freezer compartment evaporator 22. ) Is provided with a refrigeration cooling chamber (20b), the upper front side of the main body 10, the compressor 31 and the condenser 32, a blowing fan 33 for cooling them, and a microcomputer for controlling the refrigerator ( A machine room 30 in which the control box 34 with the built-in control device 34 is installed is formed.

The machine room 30 is formed by a machine room cover 30a which is installed at the upper front side of the main body 10 as shown in FIG. 3 and is opened to the front side, and covers the opening of the machine room 30. The cover 17 is hinged to the upper end of the main body 10 to open and close the machine room 30 as necessary to repair and replace the refrigeration cycle components installed in the machine room 30. In this embodiment, the inlet port 17a is provided on one side of the upper surface of the cover 17 so that air can be sucked into the machine room 30, and the air circulated inside the machine room 30 is provided on the other side of the upper surface of the cover 17. A discharge port 17b is provided to be discharged to the outside, and when the blower fan 33 is rotated to cool the condenser 32, as shown in FIG. 2, air is sucked through the suction port 17a and then the machine room ( Moving from one side of the other side 30 to the other side through the condenser 32 to cool the refrigerant passing through the condenser 32 and to continue to be discharged to the outside of the machine room 30 again through the discharge port (17b).

On the other hand, inside the cover 17, a shield plate 18 for reducing noise generated inside the machine room 30 is disposed to be spaced apart from the cover 17 by a predetermined distance, and the shield plate 18 is provided with air inlet 17a. The communication hole 18a is provided so that it may be sucked in from the) side or discharged to the discharge port 17b side. Reference numeral 19 is a partition member 19 for partitioning a flow path through which air is sucked in and a flow path through which air is discharged.

As shown in FIG. 4, the condenser 32 is formed of a heat exchange refrigerant tube 321 through which refrigerant flows, and a metal thin plate having a high heat transfer rate, and is installed to penetrate the heat exchange refrigerant tube 321 so that the heat exchange refrigerant tube 321 may pass through. Heat exchange fins 322 for allowing the refrigerant passing through the heat exchanger to easily exchange heat with the air, and heat exchange fins at both ends of the condenser 32 so as to support the heat exchange refrigerant pipe 321 and the heat exchange fins 322. The support plate 323 is disposed in parallel with the 322, the heat exchange fin 322 and the support plate 323 is a machine room in which the discharge port (17b) is provided at one side of the machine room 30, the air inlet (17a) is provided ( Proceed to the other side of 30) is arranged long to the side to exchange heat.

In the machine room 30, a flow path switching valve 40 for guiding the refrigerant discharged from the condenser 32 to either or both of the refrigerating chamber evaporator 21 and the freezing chamber evaporator 22 is provided. In this embodiment, the flow path switching valve 40 is composed of a three-way valve and the main refrigerant pipe (32a) is delivered to the refrigerant from the condenser 32, and the first branch refrigerant pipe for guiding the refrigerant to the refrigerator compartment evaporator (21) The second branch refrigerant pipe 22a for guiding the refrigerant to the freezer compartment evaporator 22 is connected to each other, and the refrigerant delivered from the condenser 32 through the main refrigerant pipe 32a is connected to the refrigerator compartment evaporator 21. It can be guided to either or both of the freezer compartment evaporators 22.

At this time, in order to facilitate installation and replacement of the flow path switching valve 40, the condenser 32 is provided with a valve installation portion 324 in which the flow path switching valve 40 is installed. The valve installation part 324 is integrally formed laterally from the support plate 323 provided in the condenser 32, and is front of the machine room 30 which is open among the two support plates 323 so that installation and replacement can be easily performed. It extends from the support plate 323 located in the side, and the flow path switching valve 40 is arranged in the rear side. Therefore, when the cover 17 for opening and closing the machine chamber 30 is opened, the flow path switching valve 40 is disposed adjacent to the opening of the machine room 30 so that the flow path switching valve 40 can be easily installed and replaced. It can be done.

The valve installation portion 324 is provided with a fixed slot 324a extending laterally for the installation of the flow path switching valve 40, the flow path switching valve 40 is a plate-shaped fixed bracket (fitted to the fixed slot 324a) ( 41 is formed to extend downward from the front end, the fixed bracket 41 is inserted into the fixed slot 324a by sliding movement, and then fixed to the valve installation portion 324 through a fastening member such as a screw to switch the flow path The valve 40 is to be fixed to the valve installation portion 324.

In addition, the flow path switching valve 40 is controlled by receiving power from the control box 34 is installed microcomputer, for this purpose, the flow path switching valve 40 is provided with a first connecting terminal 42a at the end The first wire harness 42 extends, and the second wire harness 35 provided with the second connection terminal 35a fitted to the first connection terminal 42a is extended to the control box 34 to extend the first wire. The harness 42 and the second wire harness 35 are connected through the first connecting terminal 42a and the second connecting terminal 35a so that the flow path switching valve 40 receives power from the control box 34 to operate. I can do it.

At this time, the connection terminals 42a and 35a of the wire harnesses 42 and 35 are installed in the valve installation part 324 like the flow path switching valve 40 so that the flow path switching valve 40 can be easily installed. To this end, the valve installation portion 324 is provided with a through hole 324b in which two connection terminals 42a and 35a are installed, so that the two connection terminals 42a and 35a are provided in both sides of the through hole 324b. By being coupled to each other through the 324b is to be installed in the valve mounting portion 324 and can be connected to each other at the same time.

In the present embodiment, the first connection terminal 42a and the second connection terminal 35a are formed to be relatively larger in size than the through hole 324b, and thus cannot pass through the through hole 324b. A connection protrusion 42b protrudes from the connection terminal 42a, and a connection groove (not shown) is provided in the second connection terminal 35a so as to correspond to the connection protrusion 42b, so that the first connection terminal 42a is connected. After only the projection 42b penetrates the through hole 324b, it is inserted into and coupled to the connection groove of the second connection terminal 35a so that the two connection terminals 42a and 35a can be installed in the valve installation portion 324. will be.

In addition, the first connection terminal 42a is connected to the connection terminal 35a disposed at the front side of the machine room 30 among the two connection terminals 42a and 35a due to the dust contained in the air introduced through the suction port 17a. And a dust cover 50 covering the connection terminal 35a so as to prevent the connection portion between the second connection terminal 35a and the defect from being contaminated. Dust cover 17 is formed of a flexible plastic material, a predetermined space is provided inside to accommodate the connection terminals (42a, 35a) and open to one side of the open end side of the valve mounting portion 324 In close contact, the connection terminals 42a and 35a can be prevented from being contaminated by dust.

In this embodiment, the dust cover 17 is to cover only the second connecting terminal 35a of the second wire harness 35 disposed in the front side of the machine room 30, which is the valve installation portion 324 Since it is disposed at the lower rear side of the inlet 17a, the air introduced through the inlet 17a first enters the machine room 30 via the front side of the valve mounting unit 324, so that the front of the valve mounting unit 324 Since the second connection terminal 35a disposed on the side is likely to be contaminated by the dust contained in the air, the second connection terminal 35a is intended to prevent contamination of the second connection terminal 35a.

As described above in detail, the refrigerator according to the present invention is provided with a valve mounting portion in which a flow path switching valve is installed at one side of the support plate disposed on the front side of the support plate of the condenser, so that the flow path switching valve can be installed. There is an effect of the installation and replacement can be made easily.

Claims (8)

A main body having a machine room open to one side to install a refrigerating compartment and a freezing compartment and a refrigeration cycle component, a condenser installed in the machine compartment and allowing refrigerant to exchange heat with air, and a refrigerating compartment evaporator for cooling the refrigerating compartment and the freezing compartment, respectively. And a freezer compartment evaporator and a flow path switching valve for guiding a refrigerant to at least one of the refrigerating compartment evaporator and the freezer compartment evaporator, wherein support plates are provided at both ends of the condenser to support both ends of the condenser. And a valve mounting portion for mounting the flow path switching valve is provided on a support plate disposed on the machine room opening side. The method of claim 1, The machine room is opened toward the front side of the main body, And the valve mounting portion is integrally formed to extend toward the side of the support plate disposed on the open side of the machine room.        A main body having a machine room open to one side to install a refrigerating compartment and a freezing compartment and a refrigeration cycle component, a condenser installed in the machine compartment and allowing refrigerant to exchange heat with air, and a refrigerating compartment evaporator for cooling the refrigerating compartment and the freezing compartment, respectively. And a freezing chamber evaporator and a flow path switching valve for guiding the refrigerant to at least one of the refrigerating chamber evaporator and the freezing chamber evaporator, wherein the condenser is provided with a valve installation unit for installing the flow path switching valve on the open side of the machine room. ,  The valve mounting portion is provided with a fixed slot to have a predetermined length in the side, the flow path switching valve is formed in a plate shape at the front end portion thereof is extended downwards is provided with a fixing bracket fitted to the fixed slot Refrigerator. The method of claim 2, The machine room is provided with a control box with a built-in microcomputer for the control of the refrigeration cycle, the flow path switching valve is a first connection terminal provided at the end of the first wire harness extending from the flow path switching valve, and extends from the control box And a second connection terminal provided at an end of the second wire harness that is connected to the first connection terminal and connected to each other and controlled by the micom. The method of claim 4, wherein A portion of the valve installation portion is opened to install the first connection terminal and the second connection terminal so that a through hole is provided, and the first connection terminal and the second connection terminal connect the through hole at both sides of the through hole. The refrigerator characterized in that the coupling is installed through the valve installation unit. The method of claim 5, The first connection terminal and the second connection terminal are formed to have a relatively larger size than the through hole, the first connection terminal is provided with a connection projection coupled to the second connection terminal through the through hole. The second connecting terminal is formed in a concave shape corresponding to the connecting projection, the refrigerator characterized in that the connection groove is provided with the connecting projection is inserted. The method of claim 6, A dust cover is provided at a connection terminal disposed on the front side of the main body among the first connection terminal and the second connection terminal in order to reduce the influence of dust contained in the air introduced into the machine room. Refrigerator. The method of claim 7, wherein The dust cover has an accommodating space therein so as to accommodate therein a connection terminal disposed at the front side of the main body among the first connection terminal and the second connection terminal, and is opened to the rear side so that the opening part is opened. Refrigerator, which is in close contact with the installation unit.

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