KR101149231B1 - Cool-air supplying structure for refrigerator - Google Patents

Abstract

The present invention relates to a cold air supply structure for a refrigerator. In the present invention, the first rib 53 for forming the first cold air supply passage B is provided on the front surface of the shroud 50 provided with the discharge holes 51 through which cold air is discharged. Second ribs 55 having both ends thereof connected to first ribs 53 corresponding to both sides of the inlet part 53a and the outlet part 53b formed by cutting a part of the first rib 53, respectively. The second cold air supply passage B is formed by the 56. The first and second cold air supply passages C serve as a passage for supplying a part of the cold air discharged from the discharge hole 51 to the refrigerating chamber 13, and the first and second baffles 58 It is selectively opened and closed by 59. Meanwhile, cold air discharged through the discharge hole 51 is provided at one side of the grill pan 60 provided in the freezing chamber 11 corresponding to a position spaced apart by a predetermined distance in front of the shroud 50. A discharge port 61 discharged to the freezing chamber 11 is provided. According to the cold air supply structure for a refrigerator according to the present invention as described above, it is possible to efficiently supply cold air to the freezer compartment and the refrigerating compartment of the refrigerator according to the needs of the user.

Refrigerator, shroud, grill pan, first and second cold air supply channels

Description

Cooling air supply structure for refrigerators

1 is a side cross-sectional view schematically showing the interior of a typical refrigerator.

Figure 2 is an exploded perspective view showing a cold air supply structure for a refrigerator according to the prior art.

Figure 3 is an exploded perspective view showing a preferred embodiment of the refrigerator air supply structure according to the present invention.

4A and 4B are operational state diagrams of the embodiment shown in FIG.

Explanation of symbols on the main parts of the drawings

50: shroud 51: discharge hole

52: suction port 53: first rib

53a: inlet 53b: outlet

55, 56: 2nd rib 57a, 57b: guide slot

58: first baffle 58a: lever

59: second baffle 59a: lever

60: grill pan 61: discharge port

62: suction port 63a, 63b: through slot

B: first cold air supply channel C: second cold air supply channel

The present invention relates to a refrigerator, and more particularly, to a refrigerator air supply structure for controlling the amount of cold air supplied to a freezer compartment and a refrigerator compartment according to a user's request.

1 is a schematic diagram illustrating an internal configuration of a general refrigerator, and FIG. 2 illustrates a cold air supply structure for a refrigerator according to the prior art.

As shown in the drawing, a freezer compartment 11 and a refrigerating compartment 13 are provided in the refrigerator body 10. The freezing compartment 11 and the refrigerating compartment 13 are selectively opened and closed by a freezing compartment door 11 ′ and a refrigerating compartment door 13 ′ which are rotatably installed in one side of the main body 10.

The heat exchange chamber 15 is provided at the rear of the freezing chamber 11. The heat exchange chamber 15 is provided with an evaporator 17 and a blowing fan 19. The evaporator 17 generates cold air through heat exchange with the refrigerant flowing therein, and the blower fan 19 supplies the cold air to the freezing chamber 11 and the refrigerating chamber 13.

Meanwhile, a shroud 21 is formed on a front surface of the heat exchange chamber 15, and a grill pan 23 is provided at a rear end of the freezing chamber 11 corresponding to the front of the shroud 21. A flow path through which cold air supplied to the freezing compartment 11 or the refrigerating compartment 13 by the blowing fan 19 flows to the rear end of the freezing compartment 11 corresponding to the shroud 21 and the grill pan 23. A predetermined space is provided.

As shown in FIG. 2, a discharge hole 21a is formed in an upper portion of the shroud 21 corresponding to the blowing fan 19. The discharge hole 21a is a place where cold air supplied to the freezing chamber 11 and the refrigerating chamber 13 is discharged by the blowing fan 19. In addition, a lower portion of the shroud 21 is provided with a suction port 21b through which cold air circulated in the freezing chamber 11 is sucked into the heat exchange chamber 15.

Ribs 21c are provided on the front surface of the shroud 21 adjacent to the grill pan 23. The rib 21c is to form a cold air supply passage A for supplying a part of the cold air discharged from the discharge hole 21a to the refrigerating chamber 13, the front edge of which is the grill pan 23 It is in close contact with the back of the. That is, the cold air supply passage A is formed by the inner surface of the freezing chamber 11, the shroud 21, the grill pan 23, and the rib 21c.

The cold air supply passage A is selectively opened and closed by the baffle 25. The baffle 25 penetrates one side of the rib 21c and linearly moves one end thereof to be in close contact with one side of the inner surface of the freezing chamber 11 to selectively open and close the cold air supply passage A. The front of the baffle 25, the user guides the baffle 25 in a linear motion, for this purpose is provided with a lever (25a) that the user holds by hand.

On the other hand, the upper portion of the grill pan 23 is provided with a discharge port (23a) for discharging the cold air discharged from the discharge port (23a) to the freezing chamber (11). The lower portion of the grill pan 23 is provided with a suction port 23b through which the cold air sucked through the suction port 21b of the shroud 21 is sucked from the freezing compartment 11. One side of the grill pan 23 is provided with a through slot 23c through which the lever 25a of the baffle 25 passes.

Unexplained reference numeral 21d is a guide slot for guiding the linear motion of the baffle 25. A guide protrusion (not shown) provided in the baffle 25 is inserted into the guide slot 21d to move along it.

However, the cold air supply structure for a refrigerator according to the prior art has the following problems.

As described above, most of the cold air discharged from the discharge hole 21a is supplied to the freezing chamber 11 through the discharge port 23a, and only a part of Y of the cold air flows into the cold air supply flow path A. It is supplied to the refrigerating chamber 13. Therefore, when the cold air is not sufficiently supplied to the refrigerating compartment 13, food stored in the refrigerating compartment 13 may not be kept fresh.

The present invention is to solve such a conventional problem, it is an object of the present invention to provide a cold air supply structure for a refrigerator configured to be supplied with sufficient cold air as a whole to the storage space of the refrigerator.

According to a feature of the present invention for achieving the above object, the present invention is provided with a shroud provided in the rear of the first storage space, the discharge hole for discharging cold air to the first storage space and the second storage space; A grill fan provided at a rear end of the first storage space spaced apart from the shroud by a predetermined distance, and having a discharge port through which cold air discharged from the discharge hole is discharged into the first storage space; And first and second flow paths provided between the shroud and the grill pan to flow a part of the cold air discharged from the discharge hole into the second storage space, and selectively open and close. It is configured to include.

The second channel is characterized in that a portion of the cold air discharged from the discharge hole flows to the first channel.

The first flow path is formed by a first rib provided between the shroud and the grill pan and an inner surface of the first storage space, and the second flow path is formed by cutting a portion of the first rib. And an outlet portion formed by a pair of second ribs connected to each end.

The first flow path is selectively opened and closed by a first baffle that linearly moves to penetrate one side of the first rib so that one end thereof is in close contact with one side of the inner side surface of the first storage space. It is characterized in that the penetrating through one side of any one of the ribs is selectively opened and closed by a second baffle in close contact with the other side of the second rib.

One side of the first and second baffles may be provided with a lever extending through the through slot formed in the grill pan to the inside of the first storage space, respectively.

According to the cold air supply structure for a refrigerator according to the present invention as described above, there is an advantage that the cold air is sufficiently supplied to the first and second storage space.

Hereinafter, a preferred embodiment of the cold air supply structure for a refrigerator according to the present invention will be described in more detail with reference to the accompanying drawings. For the same configuration as in the prior art, reference numerals of FIG. 1 will be used.

3 shows a preferred embodiment of a cold air supply structure for a refrigerator according to the present invention.

As shown in this, the shroud 50 is provided with a discharge hole (51). The discharge hole 51 is a heat exchange in the heat exchange chamber 15 to discharge cold air supplied to the freezing chamber 11 and the refrigerating chamber 13, and the shroud 50 corresponding to the blowing fan 19. It is formed at the top of the. In addition, a lower portion of the shroud 50 is provided with a suction port 52 through which cold air circulated in the freezing chamber 11 is sucked into the heat exchange chamber 15.

In addition, a first rib 53 is provided on the front surface of the shroud 50. The first rib 53 is for forming the first cold air supply passage B, and is formed in a substantially '-' shape. The first cold air supply passage B serves as a passage for supplying some of the cold air discharged from the discharge hole 51 to the refrigerating chamber 13.

In addition, a portion of the first rib 53 is cut to form an inlet 53a and an outlet 53b. Each of the inlet portion 53a and the outlet portion 53b includes the inlet through which the cold air flows into the second cold air supply passage C and the second cold air supply passage C, which will be described below. It serves as an outlet discharged to the supply passage (B).

Meanwhile, a pair of second ribs 55 and 56 is provided on the front surface of the shroud 50. The second ribs 55 and 56 are for forming the second cold air supply passage C, and are formed in a substantially N-shape. One end of the second ribs 55 and 56 is connected to the first ribs 53 corresponding to both sides of the inlet portion 53a, and the other end thereof corresponds to both sides of the outlet portion 53b. It is connected to the first rib 53.

The second cold air supply passage C serves as a passage for supplying a part of the cold air discharged from the discharge hole 51 to the refrigerating chamber 13. In more detail, a part of the cold air discharged from the discharge hole 51 by the second cold air supply passage C flows into the first cold air supply passage B, whereby the second cold air supply passage (B) serves to flow cold air into the refrigerating chamber (13).

In addition, first and second baffles 58 and 59 are provided to selectively open and close the first and second cold air supply passages B and C. The first and second baffles 58 and 59 respectively linearly move left and right to selectively open and close the first and second cold air supply passages B and C.

To this end, the front of the shroud 50 is provided with a pair of guide slots (57a) (57b) for guiding the linear movement of the first and second baffles (58) (59), corresponding to the first One side of the first and second baffles 58 and 59 is provided with a guide protrusion (not shown). And the front surface of the first and second baffles 58 and 59 guides the linear movement of the first and second baffles 58 and 59, and at the same time, the levers 58a and 59a to be held by the user. Is provided.

The first baffle 58 linearly reciprocates from side to side through one side of the first rib 53, and one end thereof is in close contact with an inner side surface of the freezing chamber 11 so that the first cold air supply passage B Is shielded. In addition, the second baffle 59 linearly moves left and right through the second ribs 55 on the left side of the second ribs 55 and 56, and one end of the second ribs 55 and 56 is disposed in the first ribs 53. The second cold air supply passage C is shielded by being in close contact with one side.

On the other hand, the grill pan 60 is provided in front of the shroud 50, that is, a position spaced apart by a predetermined distance in the direction in which cold air is discharged through the discharge hole 51. That is, the grill pan 60 is provided at the rear end of the freezing chamber 11 to be spaced apart from the shroud 50 by a predetermined distance, and the flow of cold air is provided between the shroud 50 and the grill pan 60. A predetermined space is formed.

An upper portion of the grill pan 60 corresponding to the discharge hole 51 is provided with a discharge port 61 through which cold air discharged through the discharge hole 51 is discharged to the freezing chamber 11. In addition, a suction port 62 through which the cold air sucked into the heat exchange chamber 15 through the suction port 52 of the shroud 50 is circulated through the freezing chamber 11 at the lower portion of the grill pan 60. It is provided.

In addition, the grill pan 60 is provided with a pair of through slots 63a and 63b. The through slots 63a and 63b pass through the levers 58a and 59a of the first and second baffles 58 and 59, respectively. The levers 58a and 59a are the through slots. It penetrates 63a and 63b and extends into the freezer compartment 11 by a predetermined length.

Hereinafter, with reference to the accompanying drawings in the process of supplying cold air according to a preferred embodiment of the cold air supply structure for a refrigerator according to the present invention will be described in more detail.

4A and 4B show an operating state of the preferred embodiment of the cold air supply structure for a refrigerator according to the present invention.

First, as shown in FIG. 4A, when the supply of cold air to the refrigerating compartment 13 needs to be reduced, for example, when a small amount of food is stored in the refrigerating compartment 13, the first cold air supply passage B is provided. Is opened, and the second cold air supply passage C is shielded. That is, the second cold air supply passage C is shielded by the second baffle 59, and the cold air is supplied to the refrigerating chamber 13 only through the first cold air supply passage B.

As shown in FIG. 4B, in order to increase the supply of cold air to the refrigerating chamber 13, the second cold air supply passage C is opened. That is, when the lever 59a of the second baffle 59 extending into the freezer compartment 11 is moved to the left side in the drawing state, the second baffle 59 moves linearly to the left side in the drawing. The second cold air supply passage C is opened.

Therefore, the cold air flowing through the first cold air supply passage B and the cold air flowing through the second cold air supply passage C are supplied to the refrigerating chamber 13, thereby increasing the amount of cold air supplied. . At this time, the second cold air supply passage C flows cold air introduced through the inlet portion 53a through the outlet portion 53b to the first cold air supply passage B, thereby substantially into the refrigerating chamber 13. This increases the amount of cold air supplied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the above teachings. will be.

According to the cold air supply structure for a refrigerator according to the present invention configured as described above is expected the following effects.

According to the present invention, since cold air is supplied to the refrigerating chamber by the first and second cold air supply passages, a large amount of cold air can be supplied to the refrigerating chamber. Further, by selectively opening and closing the first and second cold air supply passages, the amount of cold air supplied to the refrigerating compartment can be adjusted. Therefore, the refrigerator can be used more economically by supplying cold air to the freezing compartment and the refrigerating compartment efficiently according to the needs of the user.

Claims (5)

A shroud provided at a rear side of the first storage space and having discharge holes for discharging cold air into the first storage space and the second storage space; A grill pan provided at a rear end of the first storage space spaced apart from the shroud by a predetermined distance, and having a discharge port through which cold air discharged from the discharge hole is discharged into the first storage space; And First and second flow paths provided between the shroud and the grill pan to flow a part of the cold air discharged from the discharge hole into the second storage space and to be selectively opened and closed; Refrigerator air supply structure configured to include. The method of claim 1, And the second channel flows a part of the cold air discharged from the discharge hole into the first channel. The method according to claim 1 or 2, The first flow path is formed by a first rib provided between the shroud and the grill pan and an inner surface of the first storage space. And the second flow path is formed by a pair of second ribs connected at both ends of the inlet portion and the outlet portion formed by cutting a portion of the first rib. The method of claim 3, wherein The first flow path is selectively opened and closed by a first baffle that linearly moves to penetrate one side of the first rib so that one end thereof is in close contact with one side of the inner surface of the first storage space. The second flow path passes through one side of any one of the second ribs, one end of the cold air supply structure for a refrigerator, characterized in that the opening and closing selectively by a second baffle in close contact with the other side of the second rib. The method of claim 4, wherein Cooling air supply structure for a refrigerator, characterized in that each side of the first and the second baffle is provided with a lever extending through the through slot formed in the grill pan to the inside of the first storage space.

Images