KR20070039846A - Refrigerator - Google Patents

Abstract

The present invention provides a refrigerator comprising a main body having a storage compartment, an evaporator for generating cold air to supply cold air to the storage compartment of the main body, and a blower fan for supplying cold air generated by the evaporator to the storage compartment. A cold air discharge duct for guiding the cold air blown by the blowing fan to the storage compartment; And a cold air suction duct having a suction port communicating with the storage chamber and a discharge port provided at a lower side of the evaporator to uniformly discharge cold air of the storage chamber introduced through the suction port to a lower region of the evaporator. Thereby, the heat exchange efficiency of an evaporator can be improved.

Description

Refrigerator {Refrigerator}

1 is a schematic view of a cold air duct of a conventional refrigerator,

2 is a perspective view of a refrigerator according to the present invention;

3 is a longitudinal sectional view of the refrigerator of FIG. 2;

4 is a schematic diagram of a cold air duct of a refrigerator according to the present invention;

Explanation of symbols on the main parts of the drawings

1: refrigerator 10: body

11: 1st storage room 15: 2nd storage room

21: first evaporator 25: second evaporator

31: first blowing fan 35: second blowing fan

41: first cold air discharge duct 45: second cold air discharge duct

51: first cold air suction duct 53: first intake port

55: first outlet 57: first guide

61: second cold air suction duct 63: second suction port

65: second outlet 67: second guide

The present invention relates to a refrigerator, and more particularly, to a refrigerator in which a flow path of cold air flowing into an evaporator is improved.

In general, a refrigerator is a device capable of supplying cold air provided through a refrigeration cycle to a storage compartment to keep food in the storage compartment fresh for a long time.

As shown in FIG. 1, the conventional refrigerator includes an evaporator 121 for generating cold air, cold air ducts 141 and 151 formed to supply cold air generated from the evaporator to the storage compartment, or suck cold air from the storage compartment, and cold air. Blowing fan 131 for forcibly supplying to the storage compartment.

The cold air ducts 141 and 151 include a cold air discharge unit 141 for supplying cold air blown to the blower fan 131 to the storage compartment, and a cold air suction unit 151 for sucking cold air from the storage compartment to the evaporator 121. .

The cold air suction unit 151 is provided at both sides of the upper part of the evaporator 121 to communicate with the storage compartment to suck in the cold air, and is provided at both lower sides of the evaporator 121 to cool the air sucked from the suction port 153 to the evaporator ( And a guide part 157 provided between the discharge port 155 discharged to 121 and the suction port 153 and the discharge port 155 to guide the cold air sucked into the suction port 153 to the discharge port 155.

By such a configuration, the conventional refrigerator may supply the cold air generated by the evaporator 121 to the cold air discharge unit 141 using the blower fan 131, and the cold air in the storage compartment through the cold air suction unit 153. 121).

However, in the conventional refrigerator, the cold air sucked as the cold air sucked from the storage compartment is discharged to the evaporator 121 through the outlet 155 of the cold air suction unit 151 provided at both lower sides of the evaporator 121. There is a problem that the heat exchange efficiency of the evaporator may be lowered since heat exchange is almost not generated in the central region of the evaporator 121 as it passes through both sides of the heat exchanger.

Accordingly, it is an object of the present invention to provide a refrigerator which can improve the heat exchange efficiency of the evaporator.

According to the present invention, there is provided a main body having a storage compartment, an evaporator for generating cold air to supply cold air to the storage compartment of the main body, and a blower fan for supplying cold air generated by the evaporator to the storage compartment. A refrigerator, comprising: a cold air discharge duct guiding cold air blown by the blower fan to the storage compartment; And a cold air suction duct having a suction port communicating with the storage compartment and a discharge port provided at a lower side of the evaporator so as to uniformly discharge cold air of the storage chamber introduced through the suction port to the lower region of the evaporator. Is achieved.

The discharge port may be provided in the lower central area of the evaporator, and the suction port may be provided above the evaporator.

The cold air suction duct is provided in front of the evaporator; A separator may be further included between the cold air suction duct and the evaporator.

The suction port may be provided at both sides of the upper region of the evaporator, and the cold air suction duct may further include a guide unit for guiding the cold air sucked from the suction port to the discharge port.

The discharge port may be provided as one under the evaporator corresponding to the size of the lower end of the evaporator.

The guide portion may be provided in a tubular shape that extends inclined to guide the cold air sucked into the suction port to the discharge port.

In addition, the above object is, according to the present invention, the first evaporator for generating cold air to supply the cold air to the main body and the first storage chamber and the second storage chamber are divided up and down, respectively, the first storage chamber and the second storage chamber of the main body; And a second evaporator and a plurality of blowing fans for supplying cold air generated by the first and second evaporators to the storage chamber, wherein the cold air blown by the blowing fan is provided in the first and second evaporators. A first cold air discharge duct and a second cold air discharge duct guiding to the storage chamber; A first suction port communicated with the first storage chamber and a first provided in a lower region of the first evaporator to uniformly discharge cold air from the first storage chamber introduced through the first suction port to the lower region of the first evaporator; A first cold air suction duct having an outlet; A second suction port provided in the lower region of the second evaporator so as to uniformly discharge the cool air of the second storage chamber introduced through the second suction port to the lower region of the second evaporator. It can also be achieved by a refrigerator characterized in that it comprises a second cold air suction duct having an outlet.

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

As shown in FIGS. 2 to 4, the refrigerator 1 according to the present invention includes a main body 10 in which the storage chambers 11 and 15 are formed, doors 5 and 6 which open and close the storage chambers 11 and 15, and , Evaporators 21 and 25 for generating cold air to supply cold air to the storage chamber of the main body 10, and a blower fan 31 for supplying cold air generated by the evaporators 21 and 25 to the storage chambers 11 and 15. 35, cold air discharge ducts 41 and 45 for guiding the cold air blown by the blowing fans 31 and 35 to the storage chambers 11 and 15, and the cold air in the storage chambers 11 and 15; 25) cold air suction ducts (51, 61) to guide the suction.

As an example of the present invention, as shown in FIG. 2, the refrigerator 1 according to the present invention includes four storage compartments 11 and 15 and four evaporators 21 and 25 to correspond to the respective storage compartments 11 and 15. It includes.

The storage chambers 11 and 15 include a first storage chamber 11 provided at an upper portion of the main body 10 and a second storage chamber 15 provided at a lower portion of the main body 10. The first storage chamber 11 is partitioned on both sides to form a freezing chamber 11a and a refrigerating chamber 11b, and the second storage chamber 15 is partitioned on both sides to form an auxiliary refrigerator chamber 15a and an auxiliary refrigerator chamber 15b.

The doors 5 and 6 include a first door 5 for opening and closing the first storage chamber 11 and a second door 6 for opening and closing the second storage chamber 15. In one embodiment of the present invention, the first door 5 is rotatably coupled to the main body 10 around the vertical axis, and the second door 6 is provided in a drawer type. However, the second door 6 may also be provided to be rotatable like the first door 5.

The evaporators 21 and 25 include a first evaporator 21 provided to supply cold air to the first storage chamber 11 and a second evaporator 25 provided to supply cold air to the second storage chamber 15. The first evaporator 21 includes a freezer compartment evaporator and a refrigerator compartment evaporator in response to the freezer compartment 11a and the refrigerating compartment 11b, and the second evaporator 25 corresponds to the auxiliary freezer compartment 15a and the auxiliary refrigerator compartment 15b. Auxiliary refrigerator evaporator and auxiliary refrigerator evaporator.

The blowing fans 31 and 35 include a first blowing fan 31 and a second blowing fan 35 corresponding to the first evaporator 21 and the second evaporator 25, respectively. The first blower fan 31 is provided in pairs to supply cold air to the freezer compartment 11a and the refrigerating compartment 11b, respectively, and the second blower fan 35 is respectively connected to the auxiliary freezer compartment 15a and the auxiliary refrigerator compartment 15b. It is provided in pairs to supply cold air. Thus, the refrigerator 1 according to the present invention may be provided with independent evaporators corresponding to each storage compartment to independently supply the cold air generated from each evaporator to each storage compartment so as not to be mixed with each other.

Hereinafter, in the specification, since the refrigerator 1 according to the present invention has a structure substantially symmetrical, a description will be made based on a longitudinal cross-sectional view of the refrigerator of FIG. 2 illustrated in FIG. 3.

The cold air discharge ducts 41 and 45 discharge the first cold air discharge duct 41 and the second cold air discharge that guide the cold air blown by the first and second blowing fans 35 to the first and second storage chambers 15. And a duct 45.

The cold air suction ducts 51 and 61 guide the first cold air suction ducts 51 and 61 to suck the cold air of the first and second storage chambers 11 and 15 into the first and second evaporators 21 and 25, respectively. Two cold air suction duct 61 is included.

The first cold air suction duct 51 may include a first suction port 53 communicating with the first storage chamber 11, and cold air from the first storage chamber 11 introduced through the first suction port 53. It includes a first discharge port 55 provided in the lower side of the first evaporator 21 to be uniformly discharged in the lower region. The first cold air suction duct 51 further includes a first guide part 57 for guiding the cold air sucked from the first suction port 53 to the first discharge port 55.

The second cold air suction duct 61 includes a second suction port 63 communicating with the second storage compartment 15 and a second evaporator 25 in which cold air flows into the second storage compartment 15 introduced through the second suction port 63. And a second discharge port 65 provided below the second evaporator 25 so as to uniformly discharge the lower region. The second cold air suction duct 61 further includes a second guide part 67 for guiding the cold air sucked from the second suction port 63 to the second discharge port 65.

Since the first cold air suction duct 51 and the second cold air suction duct 61 are almost similar, the first cold air suction duct 51 will be described.

The first suction port 53 may be provided above the first evaporator 21. The first suction port 53 is provided in both upper regions of the first evaporator 21 as an example of the present invention. A plurality of first suction openings 53 may be provided at both upper regions of the first evaporator 21, respectively. Thus, when the first blowing fan 31 is stopped, it is possible to prevent the cold air generated by the first evaporator 21 from flowing back to the first storage chamber 11. However, the first suction port 53 may be formed at various positions such as the height of an intermediate region of the first evaporator 21 on one side of the first evaporator 21. The second suction port 63 may also be provided at both upper regions of the second evaporator 25 similarly to the first suction port 53, and in the middle of the second evaporator 25 on one side of the second evaporator 25. Of course, it may be formed in various positions, such as the height of the area.

The first discharge port 55 is provided in the central region of the lower side of the first evaporator 21. The first discharge port 55 may be provided at a lower side of the first evaporator corresponding to the size of the lower end of the first evaporator 21. That is, as shown in FIG. 4, the first outlet 55 may have a size substantially similar to that of the lower end of the first evaporator 21. Thus, the cold air discharged through the first discharge port 55 may be uniformly supplied to the lower region of the first evaporator 21 so that heat exchange may occur. However, it is a matter of course that a plurality of first outlets 55 may be provided below the first evaporator 21 so as to uniformly supply cold air to the lower region of the first evaporator 21.

The second outlet 65 is provided in the central region below the second evaporator 25 similarly to the first outlet 55. That is, as shown in FIG. 4, the second outlet 65 may be provided in a lower portion of the second evaporator corresponding to the size of the lower end of the second evaporator 25.

The first guide portion 57 is provided in a tubular shape to guide the cold air sucked into the plurality of first suction openings 53 to the first discharge opening 55. As shown in FIG. 4, the first guide portion 57 is disposed in front of the first evaporator 21, and extends downward from the plurality of first suction openings 53, similar to the V or U shape. It extends and is connected to one first outlet (55).

Similar to the first outlet 55, the second guide part 67 is also provided in a tubular shape to guide the cold air sucked into the plurality of second suction ports 63 to the second outlet 65. The first guide portion 57 and the second guide portion 57 may be made of a heat insulating material such as styrofoam.

The refrigerator according to the present invention includes a second separator provided between the first suction duct 51 and the first evaporator 21, and a second separator provided between the second suction duct 61 and the second evaporator 25. It may further include a separator plate (69). The first separation plate 59 and the second separation plate 69 serve as rear walls of the first guide part 57 and the second guide part 67, respectively.

Looking at the flow of the cold air of the refrigerator 1 according to the present invention by such a configuration as follows.

First, the coolant circulates through the first evaporator 21 and the second evaporator 25 to generate cold air. The first blower fan 31 and the second blower fan 35 are operated to operate the cold air through the first cold air discharge duct 41 and the second cold air discharge duct 45, respectively. 2 It is supplied to the storage chamber 15. The cold air supplied to the first storage chamber 11 and the second storage chamber 15 is circulated in the first storage chamber 11 and the second storage chamber 15, and then the first cold air suction duct 51 and the second cold air are circulated. It is introduced into the first evaporator 21 and the second evaporator 25 through the suction duct 61. At this time, the first outlet 55 and the second outlet 65 of the first cold air suction duct 51 and the second cold air suction duct 61 are respectively lower sides of the first evaporator 21 and the second evaporator 25. It is provided in the uniformly discharged in the lower region of the first evaporator 21 and the second evaporator 25. Thus, uniform heat exchange occurs over the entire area of the first evaporator 21 and the second evaporator 25 to improve the heat exchange efficiency of the first evaporator 21 and the second evaporator 25.

The first suction port 53 of the first cold air suction duct 51 and the second suction port 63 of the second cold air suction duct 61 are provided above the first evaporator 21 and the second evaporator 25. Cold air generated by the first evaporator 21 and the second evaporator 25 when the first and second blower fans 31 and 35 are stopped flows back into the first storage chamber 11 and the second storage chamber 15. Can be prevented.

As described above, according to the present invention, it is possible to provide a refrigerator which can improve the heat exchange efficiency of the evaporator.

Claims (7)

A refrigerator having a main body having a storage compartment, an evaporator for generating cold air to supply cold air to the storage chamber of the main body, and a blower fan for supplying cold air generated by the evaporator to the storage chamber, A cold air discharge duct for guiding the cold air blown by the blowing fan to the storage compartment; And a cold air suction duct having a suction port communicating with the storage compartment and a discharge port provided at a lower side of the evaporator to uniformly discharge cold air of the storage chamber introduced through the suction port to a lower region of the evaporator. The method of claim 1, The outlet is provided in the lower central region of the evaporator; The suction port is characterized in that the refrigerator provided above the evaporator. The method of claim 2, The cold air suction duct is provided in front of the evaporator; The refrigerator further comprises a separator provided between the cold air suction duct and the evaporator. The method of claim 2, The suction ports are provided at both sides of the upper region of the evaporator, The cold air suction duct further comprises a guide for guiding the cold air sucked from the suction port to the discharge port. The method according to claim 3 or 4, The outlet is a refrigerator, characterized in that one provided on the lower side of the evaporator corresponding to the size of the lower end of the evaporator. The method of claim 5, The guide unit is a refrigerator, characterized in that provided in the tubular shape forming an extended inclination to guide the cold air sucked into the suction port to the discharge port. A main evaporator having a first storage chamber and a second storage chamber divided up and down, a first evaporator and a second evaporator which generate cold air to supply cold air to the first storage chamber and the second storage chamber of the main body, respectively; A refrigerator provided with a plurality of blowing fans for supplying cold air generated by two evaporators to the storage compartment, A first cold air discharge duct and a second cold air discharge duct guiding the cold air blown by the blower fan to the first and second storage chambers; A first suction port communicated with the first storage chamber and a first provided in a lower region of the first evaporator to uniformly discharge cold air from the first storage chamber introduced through the first suction port to the lower region of the first evaporator; A first cold air suction duct having an outlet; A second suction port provided in the lower region of the second evaporator so as to uniformly discharge the cool air of the second storage chamber introduced through the second suction port to the lower region of the second evaporator. And a second cold air suction duct having an outlet.

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