KR20070107355A - A refrigerator - Google Patents

Abstract

A refrigerator is provided to concentrate air blown by a cooling fan to a condenser since the four sides of the condenser that are spaced from the bottom of a defrost water tray are sealed by an air guide. A condenser and a cooling fan for cooling the condenser are disposed inside a machine room in the longitudinal direction of the machine room, wherein the condenser is positioned on a defrost water tray(50), which collects water resulted from defrost of an evaporator, spaced from the bottom(51) of the defrost water tray. An air guide(80) is provided for sealing a side of the condenser, so that the air blown to the condenser side by the cooling fan can be concentrated to the condenser. The air guide comprises a first guide(81) sealing a gap between the upper and the lateral sides of the condenser and the inner wall of the machine room, and a second air guide(82) sealing a gap between the lower side of the condenser and the bottom of the defrost water tray.

Description

Refrigerator {A REFRIGERATOR}

1 is a schematic diagram showing the internal structure of a machine room in a conventional refrigerator.

2 is a perspective view showing the structure of the defrost water tray in FIG.

3 is a cross-sectional view showing the overall structure of a refrigerator according to an embodiment of the present invention.

Figure 4 is a block diagram showing the configuration of a refrigeration cycle in the refrigerator according to an embodiment of the present invention.

5 is a view illustrating an internal structure of a machine room in a refrigerator according to an exemplary embodiment of the present invention, which is viewed from a different viewpoint from FIG. 3.

FIG. 6 is a perspective view illustrating the structure of the defrosting water tray of FIG. 5 and shows the air guide together.

FIG. 7 is an enlarged cross-sectional view illustrating main parts of FIG. 5 and illustrates a flow structure of air blown by a cooling fan.

Explanation of symbols on the main parts of the drawings

12: machine room 32: condenser

40: cooling fan 50: defrost water tray

80: air guide 81: first air guide

82: second air guide 82a: distributor

The present invention relates to a refrigerator, and more particularly to a refrigerator provided to improve the cooling efficiency of the condenser by the cooling fan in the machine room of the refrigerator.

In general, a refrigerator is a device that cools a storage compartment through an evaporator of a refrigeration cycle so that the storage stored in the storage compartment is stored in a refrigerated or frozen state.

The refrigeration cycle consists of a compressor that compresses the refrigerant into a gaseous state of high temperature and high pressure, a condenser that condenses the refrigerant compressed in the liquid state into a high temperature and high pressure liquid state, and a low temperature low pressure And a capillary tube configured to be a liquid refrigerant of the evaporator, and an evaporator configured to evaporate the low temperature low pressure liquid refrigerant through the capillary tube to a low temperature low pressure gas state, wherein the evaporator is installed inside the rear of the storage chamber.

Therefore, the refrigerant circulating in the refrigeration cycle condenses in the condenser and releases heat to the surroundings, and the evaporator absorbs the heat of the air in the storage compartment while evaporating in the evaporator.

In addition, the condenser and the compressor are partitioned from the storage compartment and installed inside the machine room formed so as to communicate with the outside of the refrigerator, the machine room is equipped with a cooling fan for cooling the compressor and the condenser, Figure 1 shows a machine room structure of such a conventional refrigerator do.

As shown in FIG. 1, a plurality of through-holes 1a are formed in the wall surface of the machine room 1 to allow the inflow of outside air into the machine room 1, and the cooling fan 2 and the condenser 3 are formed. And the compressor 4 are arranged in order along the longitudinal direction of the machine room 1.

When the cooling fan 2 rotates through the structure, the heat exchange efficiency of the condenser 3 is improved while the condenser 3 and the compressor 4 are cooled by the outside air blown by the cooling fan 2.

In addition, the machine room 1 is provided with a defrost water tray 5 for collecting the defrost water generated in the defrost process of the evaporator (not shown), the defrost water collected in the defrost water tray (5) is usually a condenser (3). Evaporates through the heat released from

To this end, the defrost water tray is installed at the bottom side of the lower machine room 1 of the condenser 3, and the condenser 3 is disposed at the bottom of the defrost water tray 5 so as to prevent corrosion of the condenser 3 by the defrost water. A support frame 6 is installed on the defrost water tray 5 to be spaced apart from the bottom surface of the water supply tray 5 by a predetermined distance, and is also removed through the heat of the high temperature refrigerant passing through the condenser 3. A refrigerant pipe (7) for guiding the high temperature refrigerant passing through the condenser (3) to evaporate the water is arranged to pass through the bottom side of the defrost water tray (6).

On the other hand, when a part of the air blown by the cooling fan 2 is to pass through between the inner wall of the machine room 1 and the condenser 3 without directly passing through the condenser 3, the condenser by the cooling fan 2 Cooling efficiency of (3) is reduced, in order to prevent this, as shown in Figure 2, the middle of the condenser (3) outside the sealing between the upper and left and right ends of the condenser (3) and the inner wall of the machine room (1) An air guide 8 is installed, and the air guide 8 is fixed through the defrost water tray 5.

Therefore, when the air guide 8 is installed, it is possible to prevent the air blown through the cooling fan 2 from escaping through the upper and left and right ends of the condenser 3 and the inner wall of the machine room 1.

However, the conventional refrigerator prevents the air blown by the cooling fan 2 through the air guide 8 from escaping between the upper and left and right ends of the condenser 3 and the inner wall of the machine room 1. However, since the escape between the lower end of the condenser 3 and the bottom surface 5a of the defrost water tray 5 cannot be prevented, a small amount of defrost water is collected in the defrost water tray 5. In this case, the air blown by the cooling fan 2 is discharged between the lower end of the condenser 3 and the defrost water surface of the defrost water tray 5, so that the cooling efficiency of the condenser 3 is lowered.

The present invention is to solve such a problem, it is an object of the present invention to provide a refrigerator to more effectively improve the cooling efficiency of the condenser by the cooling fan in the machine room of the refrigerator.

Refrigerator according to the present invention for achieving this object is a condenser and a cooling fan for cooling the condenser is disposed along the longitudinal direction of the machine room inside the machine room, so that the condenser collects defrost water generated during the defrost of the evaporator It is installed so as to be spaced apart from the bottom of the defrost water tray on the top of the defrost water tray, the air guide surrounding the one side of the condenser to concentrate the air blown toward the condenser by the cooling fan to the condenser do.

The air guide may include a first air guide for sealing between the upper and both ends of the condenser and an inner wall of the machine room, and a second air guide for sealing between the bottom of the condenser and the bottom of the tray.

In addition, the defrost water tray is provided in a box shape with an open top, the second air guide is characterized in that the defrost water tray is integrally provided with the defrost water tray to partition the defrost water tray to both sides along the blowing direction of the cooling fan. do.

In addition, the second air guide is characterized in that the distribution hole is provided for distribution between the defrost water on one side and the other side of the second air guide.

In addition, the distribution hole is characterized in that a plurality of spaced apart from each other by a predetermined interval along the height direction of the defrost water tray.

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

As shown in FIGS. 3 and 4, the refrigerator according to the present exemplary embodiment includes a main body 10 in which a refrigeration cycle component is installed, and a storage compartment 11 open to the front is formed in the main body 10. And, the front of the main body 10 is provided with a door 20 is hinged rotatably to open and close the storage compartment (11).

In addition, the refrigeration cycle is provided so that the compressor 31, the condenser 32, the capillary tube 33 and the evaporator 34 to form a closed circuit through the refrigerant pipe 36, the capillary tube 33 is of another type such as an expansion valve It may be replaced by an expansion means.

The dual compressor 31 compresses the refrigerant into a gaseous state of high temperature and high pressure, and the condenser 32 condenses the refrigerant transferred from the compressor 31 into a liquid state of high temperature and high pressure. The compressor 31 and the condenser 32 are installed in the machine room 12 partitioned with the storage compartment 11 at the lower part of the main body 10, the machine room 12 is the air outside the main body 10 machine room 12 Is formed to enter and exit inside.

In addition, the high temperature and high pressure liquid refrigerant condensed in the condenser 32 is axially expanded in the course of passing through the capillary tube 33 to become a low temperature low pressure liquid refrigerant, and the evaporator 34 has a low temperature and low pressure through the capillary tube 33. The liquid refrigerant is evaporated to a low temperature low pressure gaseous refrigerant. The evaporator 34 is installed inside the rear of the storage chamber 11, and a circulation fan 13 for circulating the cooled air to the storage chamber 11 is installed at one side of the evaporator 34 in the main body 10. For reference, reference numeral 35 is a dryer installed in the middle of the refrigerant pipe 36 connecting between the condenser 32 and the capillary tube 33, and the dryer 35 is included in the refrigerant gas condensed in the condenser 32. It removes the moisture.

Therefore, the refrigerant circulating through the refrigeration cycle is condensed by heat exchange with the air in the machine room 12 in the condenser 32 to discharge heat to the surroundings, and evaporator 34 is evaporated by heat exchange with the air in the storage compartment 11 in the storage compartment ( 11) absorbs the heat of the internal air, the air in the storage chamber 11 is converted to cold while heat-exchanging with the evaporator 34 in this way.

In addition, in the machine room 12, a cooling fan 40 for cooling the compressor 31 and the condenser 32 together with the compressor 31 and the condenser 32 is generated during the defrosting process of the evaporator 34. Defrost water tray 50 for collecting the defrost water is installed together, the defrost water collected in the defrost water tray 50 is usually evaporated through the heat discharged from the condenser 32, such as FIG. The structure of the machine room 12 is shown.

As shown in FIG. 5, a plurality of through holes 12a are formed on the wall surface of the machine room 12 to allow the inflow of outside air into the machine room 12, and the cooling fan 40 and the condenser 32 and The compressor 31 is arranged in order along the longitudinal direction of the machine room 12 so that the condenser 32 and the compressor 31 are cooled together through the outside air blown to the cooling fan 40.

The condenser 32 is a tube 32a, which is provided as a conventional refrigerant pipe, is bent and bent in multiple stages to have a generally rectangular parallelepiped shape, and the heat exchange fins are provided in the tube 32a to increase the heat exchange area of the condenser 32. 32b is combined.

The defrost water tray 50 has a box shape with an open top and a width thereof corresponds to the width of the machine room 12 so as to be installed at the bottom of the machine room 12 below the condenser 30, and the condenser 32 by defrost water. Support frame for condenser (3) is installed on the defrost water tray 50 in a state spaced apart from the bottom surface of the defrost water tray (50) on the bottom surface of the defrost water tray (50) to prevent corrosion 60 is installed. Here, the cooling fan 40 is installed on one end of the defrost water tray 50 through the mounting table 41.

In addition, the refrigerant pipe 36 for guiding the high temperature refrigerant passing through the condenser 32 is extended to the bottom of the condenser 32 so that the defrost water can be evaporated even through the heat of the high temperature refrigerant passing through the condenser 32. It is arranged to pass through the bottom side of the water supply tray (50). For reference, reference numeral 70 is a defrost drain pipe 70 for guiding the defrost water generated in the defrost process of the evaporator 34 to the defrost water tray 50.

On the other hand, in the present embodiment, the air blown in the defrost water tray 50 toward the condenser 32 by the cooling fan 40 is concentrated in the condenser 32 without escaping out of the condenser 32. The air guide 80 is installed, this air guide 80 is provided to surround one side of the condenser 32.

The air guide 80 has air blown by the cooling fan 40 between the upper and left and right ends of the condenser 32 and the inner wall of the machine room 12, as well as the lower end of the condenser 32 and the defrost water tray ( Cooling of the condenser 32 by the cooling fan 40 by allowing the air blown by the cooling fan 40 to concentrate on the condenser 32 so as not to escape through between the bottom surfaces 51 of the 50. The efficiency is greatly improved.

That is, the air guide 80, as shown in Figure 6, the first air guide 81 and the condenser 32 provided to seal between the upper and both ends of the condenser 32 and the inner wall of the machine room 12, The second air guide 82 is provided to seal between the bottom and the bottom surface 51 of the defrost water tray 50 to partition the inner space of the defrost water tray 50 to both sides along the blowing direction of the cooling fan 40. It is configured to include.

Here, the second air guide 82 is formed integrally with the defrost water tray 50 so as to cross one side of the defrost water tray 50, and the first air guide 81 has a lower side of the defrost water tray. Bonded to the left and right sidewalls of the 50 is coupled. Of course, the first air guide 81 may be installed such that the upper end and the left and right both ends are bonded to the inner wall of the machine room 12.

Therefore, in the state where the air guide 80 is provided, the four sides of the condenser 32 is sealed and the air blown toward the condenser 32 by the cooling fan 40 is concentrated more effectively on the condenser 32. Cooling efficiency of the condenser 32 through the cooling fan 40 is greatly improved.

In particular, at this time, since the bottom surface 51 of the defrost water tray 50 and the lower end of the condenser 32 are sealed through the second air guide 82, a large amount of defrosting portion is formed in the defrost water tray 50. As well as in the collected state, as shown in FIG. 7, even if a small amount of defrost water of a predetermined amount or less is collected in the defrost water tray 50 so that the surface of the defrost water is less than the bottom of the condenser 32, the cooling fan 40. It is possible to effectively prevent the air blown in the direction of the condenser 32 by the escape through the bottom surface 51 of the condenser 32 and the bottom surface 51 of the defrost water tray (50).

In addition, when the internal space of the defrost water tray 50 is partitioned to both sides through the second air guide 82, a second air guide to which the defrost drainage pipe 70 is connected among the internal spaces of the defrost water tray 50. Defrost water may be collected only on one side of (82), so that the evaporation of the defrost water may be difficult.

Therefore, the second air guide 82 is provided with a distribution hole (82a) so that the defrost water on one side and the other side of the second air guide 82 can be mutually distributed, the distribution hole (82a) is a defrost water tray ( It is preferable to provide a plurality of spaced apart from each other by a predetermined interval along the height direction of 50) so that the defrost water on both sides of the second air guide 82 smoothly flows even when the amount of the defrost water inside the water supply tray 50 is large or small. Do.

As described above in detail, in the refrigerator according to the present invention, four sides of the condenser installed on the upper part of the defrost water tray inside the machine room to be spaced apart from the bottom surface of the defrost water tray are sealed through the air guide to the condenser direction by the cooling fan. As the blown air is concentrated more effectively on the condenser, the cooling efficiency of the condenser through the cooling fan is greatly improved.

Claims (5)

A cooling fan for cooling the condenser and the condenser is disposed in the machine room along the longitudinal direction of the machine room, and the bottom of the defrost water tray is disposed on an upper portion of the defrost water tray provided to collect defrost water generated during defrosting of the evaporator. It is installed to be spaced apart, the refrigerator characterized in that it comprises an air guide surrounding the one side of the condenser to concentrate the air blown toward the condenser by the cooling fan to the condenser. The method of claim 1, The air guide comprises a first air guide for sealing between the upper and both ends of the condenser and the inner wall of the machine room, and a second air guide for sealing between the bottom of the condenser and the bottom of the tray. The method of claim 2, The defrost water tray is provided in a box shape with an open top, The second air guide is a refrigerator, characterized in that integrally provided with the defrost water tray to partition the defrost water tray to both sides along the blowing direction of the cooling fan. The method of claim 2, The second air guide is a refrigerator, characterized in that a distribution hole for distribution between the defrost water on one side and the other side of the second air guide. The method of claim 4, wherein The distribution hole is provided with a plurality of spaced apart from each other by a predetermined interval along the height direction of the defrost water tray.

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