KR100377762B1 - Structure for Cooling Air Supplying in Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator cold air supply structure for uniformly supplying cold air to the storage space and maximizing the space efficiency of the storage space.

According to the present invention, the rear side cold air duct 72 in which the cold air discharge port 74 is formed is provided in the rear wall 52a of the storage chamber S, and the cold air discharge port 78 is also provided in the left wall 52b and the right wall 52c, respectively. The left side cold air duct 76 and the right side cold air duct 80 are formed. Each of the cold air ducts 72, 76, and 80 is installed to coincide with the surface of the inner case 54 forming the storage chamber. The left and right side cold air ducts 76 and 80 are installed to seal the space A formed by the extension portion 55 of the door 60 and the inner case 54. As a result of the above configuration, cold air is uniformly distributed throughout the storage chamber, and cold air leakage is reduced, resulting in an effect of reducing power consumption.

Description

Structure for Cooling Air Supplying in Refrigerator

The present invention relates to a refrigerator, and more particularly, to a refrigerator cold air supply structure for supplying uniform and rapid cold air to the entire storage space and maximizing the efficiency of the storage space.

Hereinafter, the related art related to the refrigerator cold air supply structure will be described.

First, FIG. 1 is a front view of the refrigerator in a state where the refrigerator door is opened. As shown, the main body 2 forming the exterior of the refrigerator is composed of an inner case 4 and an outer case 6, and an insulating material for insulation is provided between the inner case 4 and the outer case 6. It is filled. And, (2a), (2b) and (2c) shown are the rear wall, the left wall, and the right wall, respectively, and (8) is the front of the refrigerator main body.

The inner case 4 includes a rear surface 4a, a left side 4b, and a right side 4c, and an outer portion of the inner case 4 is an extension portion 5 formed by extension.

The space formed by the inner case 4 is a storage chamber S. Food is stored in the storage room (S).

In the storage room S, a shelf 20 partitions the storage room S in the transverse direction and is provided on the left side 4b and the right side 4c in multiple stages. Food is placed and stored on the shelf 20. In addition, a lower portion of the storage compartment S is provided with a vegetable compartment 21, which is a space for storing vegetables.

A pair of cold air ducts 22 are provided on left and right sides of the rear wall 2a of the refrigerator main body 2. The cold air duct 22 is a passage through which cold air supplied from a freezing chamber (not shown) moves. 3, the cold air duct 22 protrudes convexly with respect to the back surface 4a. 3 is a cross-sectional view taken along the line B-B in FIG. 1.

The cold air discharge port 24 is provided in the cold air duct 22 corresponding to the storage space partitioned by the shelf 20. The cold air discharge port 24 is an outlet port through which cold air is discharged from the cold air duct 22 to the storage chamber. (C) on the figure shows the flow of cold air.

The right side of FIG. 1 shows a door 10. Like the main body 2, the door 10 also has a heat insulating wall, so that heat exchange with the outside is blocked. The door 10 forms a storage room S together with the inner case 4, and opens and closes the storage room S.

Fig. 2 is a cross sectional view of Fig. 1 A-A 'when the door is closed. As shown in FIGS. 1 and 2, a gasket 12 is installed around an edge of the inside of the door 10. When the door 10 is closed, the gasket 12 is in contact with the front surface of the refrigerator main body 8 to seal the storage compartment S so that cold air does not leak.

A pair of door liners 14 protrude in the longitudinal direction toward the storage compartment S on both sides of the inside of the gasket 12 and the left and right sides of the door 10. As shown in FIG. 2, when the door 10 is closed, the pair of door liners 14 extend 5b of the left side 4b and 5c of the right side 4c. Is installed adjacent to).

When the door 10 is closed, a space A is formed in the longitudinal direction between the door liner 14 and the extension portions 5b and 5c of the left and right side surfaces 4b and 4c.

The door baskets 16 are fitted in the left and right door liners 14. The door basket 16 accommodates food, thereby increasing space efficiency of the refrigerator storage space.

Next, a description will be given of a conventional refrigerator cold air supply process having the configuration as described above.

As illustrated in FIG. 1, the cold air guided by the cold air duct 22 is discharged into the storage chamber S through the cold air discharge port 24. The cold air discharge ports 24 are located at the upper portions of the storage spaces partitioned by the shelves 20, so that the cold air discharged forms the cold air flow C as shown in FIG.

That is, the cold air flow (C) is cold air descends from the upper portion to the lower portion of the storage space in which the cold air outlet 24 is installed, warm air in the lower portion rises to the empty space where cold air descends to form convection. That is, the cold air discharged from the cold air discharge port 24 keeps food in the storage chamber S at low temperature by convection in the storage space.

And, since the cold air outlet 24 is located on the rear surface (4a), the cold air flow (C) will be concentrated in the back and the center of the shelf (20).

The cold air discharged from the cold air discharge port 24 also moves to the space A between the enlarged portions 5b and 5c of the left and right sides and the door liner 14 via the storage chamber S. .

However, in the cold air supply structure according to the prior art having the above configuration and operation, the following problems are raised.

First, since the cold air discharge port 24 is provided only in the back 5a of the storage chamber S, cold air is not uniformly supplied to the whole storage chamber S. As shown in FIG.

That is, the cold air discharged from the cold air discharge port 24 provided on the rear surface 4a is concentrated at the rear and the center of the shelf 20, and the cold air is discharged like the front end of the shelf 20 and the door basket 16. It is not smoothly supplied to the part far from the discharge port 24.

Accordingly, a supercooling phenomenon occurs in a portion where cold air is concentrated, and a weak cooling phenomenon occurs in a portion where the cold air supply is not smooth, and thus, the entire storage chamber S cannot be uniformly cooled.

In addition, since the cold air duct 22 is installed only at one side of the rear wall 2a, the volume of the cold air duct 22 must be large to supply a lot of cold air to the storage chamber S. That is, since the volume of both the cold air duct 22 and the cold air discharge port 24 should be large, the cold air duct 22 has a shape that protrudes convexly into the storage chamber S with respect to the rear surface 4a.

Therefore, since the cold air duct 22 has a shape protruding into the storage chamber S, a closed space is generated in the storage chamber S, and a problem that the actual use space of the storage chamber S is reduced is raised.

On the other hand, when the cool air in the storage chamber (S) flows into the space (A) between the openings (5b, 5c) and the door liner 14 of the left and right side surfaces (4b, 4c), the outside through the gasket (12) Heat exchange occurs and energy loss becomes a problem.

That is, since the gasket 12 is made of rubber, the insulation is not large. Therefore, when cold air in the storage chamber S flows into the space A between the extension portions 5b and 5c and the door liner 14, heat is exchanged with external hot air through the gasket 12 to reduce energy loss. There arises a problem that the power consumption is increased.

The present invention has been made to solve the above problems, an object of the present invention is to provide a refrigerator having a cold air supply structure for supplying uniform and rapid cold air to the entire storage space.

Another object of the present invention is to provide a refrigerator having the maximum storage space efficiency by minimizing the volume of the cold air duct for supplying cold air to the storage space.

Still another object of the present invention is to provide a refrigerator having a cold air supply structure that prevents cold air from leaking between the door and the left and right walls of the main body.

BRIEF DESCRIPTION OF THE DRAWINGS The front view of the refrigerator at the time of the door opening which shows the cold air supply structure by a prior art.

FIG. 2 is a cross-sectional view taken along the line A-A 'of FIG. 1. FIG.

3 is a cross-sectional view taken along the line B-B 'of FIG.

Figure 4 is a front view of the refrigerator at the time of opening the door showing an embodiment of the cold air supply structure according to the present invention.

5 is a cross-sectional view taken along the line A-A 'of FIG.

FIG. 6 is a cross-sectional view taken along the line BB ′ of FIG. 5.

* Description of the symbols for the main parts of the drawings *

2,52 ... main body 2a, 52a ..... rear wall

2b, 52b .... left wall 2c, 52c ..... right wall

4,54 ...... Inner Case 4a, 54a .....

4b, 54b .... left side 4c, 54c ..... right side

8,58 ...... Front 10,60 ...... Door

12,62 ..... Gasket 14,64 ...... Doorliner

16,66 ..... Door Basket 20,70 ...... Shelf

21,71 ..... Vegetable Room 22,72 ... back cold duct

24,74 ..... Rear cold air outlet 73 ......... Rear cold duct cover

76 ........ Left side cold air duct 77 ......... Left side cold air duct cover

78 ........ left side cold air outlet 80 ......... right side cold air duct

81 ........ Right side cold air duct cover 82 ......... Right side cold air outlet

84 ........ Cold air discharge hole 85 ......... Cold air inlet hole

86 ........ Door cold air duct 88 ......... Door cold air outlet

5,5b, 5c, 55,55b, 55c ....

6,56 .............. Outcase

The refrigerator cold air supply structure according to the present invention includes: a storage compartment for storing food and having an enlarged portion formed around a leading edge thereof and selectively opened and closed by a door; A rear cold air duct provided on a rear surface of the storage chamber and having a cold air discharge port for discharging cold air to the storage chamber; And a side surface having a cold air discharge port installed at at least one side of both side expansion parts of the storage compartment and cooperating with the door liner at the back of the door to shield the door gasket side and the storage compartment and discharging cold air to the storage compartment when the door is closed. It is configured to include a cold air duct, characterized in that the exposed surface of the cold air duct is installed so as not to protrude from the inner case surface except for the expansion forming the storage compartment.

According to the configuration as described above, the cold air is discharged from the back and both sides of the storage chamber, there is an advantage that the entire storage chamber is uniformly cooled without the weak cooling space, the waste space in the storage chamber is minimized to maximize the actual use space There is an advantage that the cold air in the storage chamber does not leak, thereby reducing the power consumption.

Hereinafter, the present invention will be described in detail with reference to FIG. 4 to FIG. 6 to which an embodiment of the refrigerator cold air supply structure of the present invention is attached.

4 is a front view of the refrigerator with the door open. As shown in FIG. 4, the main body 52 forming the exterior of the refrigerator includes an inner case 54 and an outer case 56. The space between the inner case 54 and the outer case 56 is filled with a heat insulating material to prevent heat exchange with the outside.

An extension 55 enclosing the leading edge of the inner case 54, that is, the leading edge of the space formed inside the main body 52, is molded and expanded outward. 52a, 52b, and 52c shown are heat insulation walls, which are a rear wall, a left wall, and a right wall, respectively.

The space formed by the inner case 54 is a storage chamber (S). Food is stored in the storage room (S). 54a, 54b and 54c shown are the back, left and right sides constituting the storage chamber S, respectively, and 55b and 55c are the left side extension and the right side extension, respectively. .

A shelf 70 is provided in multiple stages in which the storage space S is partitioned in the transverse direction and fitted into grooves (not shown) formed in the left side 54b and the right side 54c. Food is placed and stored on the shelf 70.

In addition, the lower part of the storage chamber (S) is provided with a vegetable compartment (71) for accommodating and keeping fresh vegetables.

A rear side cold air duct 72, a left side cold air duct 76, and a right side cold air duct 80 are provided on the rear wall 52a and the left and right side walls 52b and 56c, respectively. The cold air ducts 72, 76, and 80 are passages through which cold air moves. The cold air supply to the left side cold air duct 76 and the right side cold air duct 80 may be performed in the following manner. That is, the left side cold air duct 76 and the right side cold air duct 80 are in communication with the rear cold air duct 72, so that the cold air generated in the evaporator is once delivered to the rear cold air duct 72 and then left side And the right side cold air ducts 76 and 80. In this case, a separate communication duct (not shown) is required to communicate between the rear wall 52a and the left and right side walls 52b and 56c. In addition, the left side cold air duct 76 and the right side cold air duct 80 may be in direct communication with the evaporator side to receive the cold air supply.

The rear cold air duct 72 is recessed and installed in a pair of right and left on the rear wall 52a. The left side cold air duct 74 is provided along the upper portion 55b of the upper side of the left side 54b and the enlarged portion 55b of the left side of the storage chamber S. In addition, the right side cold air duct 80 is provided along an enlarged portion 55c of the upper side and the right side 54b of the upper side of the rear surface 54a of the storage chamber S.

The cold air ducts 72, 76, and 80 are formed by combining cold air duct covers 73, 77, and 81 in which cold air outlets 74, 78, and 82 are formed. The cold air discharge ports 74, 78, and 82 are outlets through which cold air supplied by the cold air ducts 72, 76, and 80 is discharged into the storage chamber S.

A discharge hole 84 is formed in the right side cold air duct cover 81 for supplying cold air to the door cold air duct 86 described below.

As illustrated in FIG. 3, the cold air duct covers 73, 77, and 81 constituting the cold air ducts 72, 76, and 80 are installed to coincide with the surface of the inner case 54. 3 is a cross-sectional view taken along the line B-B 'of FIG. 1 when the door is closed.

A door 60 for opening and closing the storage chamber S is shown on the right side of FIG. 1. A gasket 62 is installed along the circumference of the inner side of the door 60. When the door 60 is closed, the gasket 62 comes into contact with the front surface 58 of the main body 52 to seal the cold air in the storage chamber S from leaking.

In addition, a pair of door liners 64 protrude from the left and right sides of the door 60 to the storage chamber S inside the gasket 62. A plurality of door baskets 66 are inserted into grooves (not shown) formed in the pair of door liners 64. Food is stored in the door basket 66. As described above, the door basket 66 supplements the food storage role of the storage compartment S by storing food.

When the door 60 is closed, a space A is formed between the door liner 64 and the left side extension 55b. On the other hand, the cold air duct cover 77 of the left side cold air duct 76 has a width d, so that when the left side cold air duct cover 77 is coupled to the left side cold air duct 76, the space ( A) is isolated from the storage room (S).

Similarly, when the right side cold air duct cover 81 is coupled to the right side cold air duct 80, the right side cold air duct 80 is similarly provided with the entrance of the space A between the door liner 64 and the right side opening 55c. By blocking the space (A) and the storage compartment (S) is isolated.

In addition, a door cold air duct 86 is installed below the uppermost door basket 20 of the door 60. The door cold air duct 86 is formed with a cold air inlet 85 for introducing cold air supplied from the cold air discharge hole 84. In addition, a door cold air discharge port 88 through which the cold air introduced through the cold air inlet 85 is discharged into the storage chamber S is formed in the door cold air duct 86.

In the present embodiment, a cold air outlet for supplying cold air to the storage chamber S is provided on the rear surface 54a and the left and right side surfaces 54b and 54c. However, the present invention is not limited thereto, and the rear surface 54a is provided. Even if it is a structure provided in the left side 54b or the back side 54a and the right side 54c, it is enough.

Next, a description will be given of the cold air supply process according to an embodiment of the present invention having the configuration as described above.

Cold air supplied from a freezing chamber (not shown) flows into the rear cold air duct 72 and the left and right cold air ducts 76 and 80. First, the cold air introduced into the rear cold air duct 72 is discharged into the storage chamber S through the rear cold air discharge port 74 as a cold air flow as shown in FIG. 1.

In addition, the rear cold air discharge port 74 is installed at an upper portion of the storage space partitioned by each shelf 70, and the cold air discharged from the rear cold air discharge port 74 is, as shown in FIG. It is discharged with a cold air flow of a trajectory similar to the parabola in the downward direction. The cold air discharged through the rear cold air discharge port 74 is intensively supplied to the rear and the center of the shelf 70.

Meanwhile, the cold air discharged through the cold air discharge ports 78 and 82 provided in the left and right side cold air ducts 76 and 80 cools the storage chamber S while forming the cold air flow as shown in FIG. 4.

That is, the cold air discharged through the left and right side cold air discharge ports 78 and 82 is intensively supplied to the front end portion and the left and right edge portions of the shelf 70 to compensate for the blind spot of the cold air discharged from the rear surface 54a.

Therefore, the cold air discharged from both sides 54b and 54c of the cold air dead zone of the storage chamber S, which is not responsible for the cold air discharged from the rear surface 54a, is responsible for cooling the entire storage chamber S uniformly and quickly. .

A portion of the cold air moved through the right side cold air duct 80 moves to the door cold air duct 86. The cold air moved to the door cold air duct 86 intensively supplies cold air to the door basket 66 through the door cold air discharge port 88.

On the other hand, since the cold air supplied to the storage chamber S is shared by the back surface 54a and the both side surfaces 54b and 54c, the volume of each cold air duct becomes remarkably small compared with the prior art. That is, the conventional cold air duct has a configuration in which only one side of the storage chamber is supplied, and thus the volume of the cold air duct is large. The volume of the cold air duct installed is not sufficient.

Therefore, as described above, the sizes of the cold air ducts 72, 76, and 80 are reduced, so that the cold air ducts 72, 76, and 80 do not protrude into the storage chamber S and are not installed.

That is, in this embodiment, as shown in Figs. 2 and 3, the rear cold air duct 72 and the left and right cold air ducts 76 and 80 are respectively disposed on the rear wall 52a and the left and right side walls 52b and 52c. Molding, the rear cold air duct cover 73 and the left and right side cold air duct covers (77, 81) are installed so as to coincide with the surface of the inner case (54).

As described above, by installing the cold air ducts 72, 76, and 80 to coincide with the inner case 54, the space efficiency of the storage compartment S may be maximized.

Meanwhile, as shown in FIG. 2, the left and right side cold air duct covers 77 and 81 form the cold air ducts 72, 76 and 80 as described above, and at the same time, the door liner 64 and the left and right side expansion parts. It is provided in the structure which blocks the entrance of space A which 55b, 55c forms.

As described above, when the thickness d of the left and right side cold air duct covers 77 and 81 is formed larger than the inlet width of the space A and the left and right side cold air duct covers 77 and 81 are installed, the space A ), The inlet is sealed, so that the cold air of the storage compartment (S) does not leak.

The above embodiments of the present invention are merely one embodiment of the technical idea of the present invention, and of course, other modifications are possible within the technical idea of the present invention.

The refrigerator cold air supply structure according to the present invention having the configuration and operation as described above is expected the following effects.

First, by adopting a configuration in which cold air is discharged from all sides of the storage compartment, it is possible to prevent overcooling or weak cooling of a specific portion and to supply cold air uniformly and quickly to the entire storage compartment. Therefore, there is no cold blind spot in the storage room there is an advantage that can be stored fresh whole food.

In addition, since the cold air supply is distributed by cold air ducts installed on the slopes instead of one side, the size of the cold air ducts is reduced, so that the waste space in the storage room is minimized and the actual use space can be maximized.

In addition, by providing the cold air duct to the entrance of the space formed by the door and the left and right walls on the left and right sides, the cold air leakage is reduced, resulting in an effect of reducing power consumption.

Claims (2)

A storage compartment for storing food and having an extension formed around the leading edge and selectively opening and closing by a door; A rear cold air duct provided on a rear surface of the storage chamber and having a cold air discharge port for discharging cold air to the storage chamber; And, Side cold air ducts provided on at least one of the two side expansion parts of the storage chamber and having a cold air discharge port for cooperating with the door liner on the rear surface of the door when the door is closed, shielding between the door gasket side and the storage chamber and discharging cold air to the storage chamber. It is configured to include, And an exposed surface of the cold air duct is installed so as not to protrude from an inner case surface except for an enlarged portion forming the storage compartment. delete