KR19980083026A - Refrigerator to discharge cold air from the door - Google Patents

Abstract

A refrigerator according to the present invention includes a door duct having a cold air inlet and a plurality of cold air outlets installed in an inner side of the door, and a blower fan installed at the cold air inlet to supply cool air in the cooling chamber into the door duct. It includes. The cold air in the cooling chamber is attracted to the door side by the blowing fan, whereby the cold air in the refrigerator compartment is uniformly distributed. In addition, the sucked cold air is supplied to the pocket installed on the inner side of the door through the cold air discharge port, thereby cooling the inside of the pocket effectively.

Description

Refrigerator to discharge cold air from the door

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator for discharging cold air from a door, and more particularly, to a refrigerator capable of sucking and supplying cold air in a cooling chamber from a door side.

1 is a side cross-sectional view of a conventional refrigerator. The refrigerator is installed in the cabinet 10 forming the freezing compartment 21 and the refrigerating compartment 22 partitioned by the partition 27, and the freezing compartment 21 and the refrigerating compartment 22, respectively. It has a freezer compartment door 24 and the refrigerating compartment door 25 which open and close the door.

A compressor 23 is provided at the lower rear of the cabinet 10, and an evaporator 29 is installed at the rear of the freezer compartment 21 to generate cold air by evaporating the refrigerant supplied from the compressor 23. In the upper part of the evaporator 29, a cooling fan 19 is provided which blows cold air generated by the evaporator 29 and supplies it to the freezing chamber 21 and the refrigerating chamber 22.

On the rear wall surfaces of the freezing chamber 21 and the freezing chamber 22, a plurality of cooling mechanisms 16 and 18 are formed. In the closed state of the refrigerating chamber door 25, the cold air generated in the evaporator 29 is blown by a cooling fan 19 installed above the evaporator 29, and the freezing chamber 21 and the refrigerating chamber are passed through the respective cooling mechanisms 16 and 18. (22) is supplied, thereby freezing and refrigerating the food contained in the freezer compartment 21 and the refrigerating compartment 22.

However, in such a typical refrigerator, since the cold air is supplied only from the rear of the refrigerator, the cold air distribution of the refrigerating compartment 22 is not uniform, so that the food stored in the refrigerating compartment 22 is supercooled or low-cooled according to the portion of the refrigerating compartment 22. I have a problem. In particular, it is becoming more difficult to keep the temperature in the refrigerating chamber 22 uniform in accordance with the trend of increasing the size of the refrigerator. Accordingly, in addition to the rear wall surface of the refrigerating chamber 22, a refrigerator employing a so-called three-dimensional cooling method for discharging cold air from both sidewall surfaces of the refrigerating chamber 22 has been devised. In such a refrigerator, ducts for supplying cold air extend to the rear wall surface and both sidewall surfaces of the refrigerating chamber 22 to supply cold air from three surfaces. In the three-dimensional cooling system, the ubiquity of cold air can be largely overcome.

However, such a three-dimensional cooling method of the refrigerator has a problem that the cooling near the door is difficult to achieve efficiently. When the refrigerator door is opened and closed, a portion adjacent to the door, in particular, the inside of the food storage pocket installed on the inner side of the door is directly in contact with the outside air, thereby rising to the temperature of the outside air within a short time. However, in the three-dimensional cooling type refrigerator, it is difficult to achieve rapid uniform cooling because the space adjacent to the door and the space inside the pocket are not directly cooled. Accordingly, a refrigerator has been devised in which cold air is also supplied from the door side so that cold air can be discharged from four wall surfaces in the refrigerating chamber.

Figure 2 is a plan sectional view of a conventional four-sided discharge refrigerator. The refrigerator having a four-sided discharge system includes a refrigerating chamber duct 45 extending to three surfaces in the refrigerating chamber 42 and a door duct 49 for providing a flow path of cold air in the door 47. The door duct 49 and the refrigerating chamber duct 45 are connected by the connecting pipe 50. The refrigerating chamber duct 45 and the door duct 49 have a plurality of cold air discharge ports 53 opened into the refrigerating chamber 42. Cold air from an evaporator (not shown) is supplied to the refrigerating chamber duct 45 and the door duct 49, and the supplied cold air is discharged through the cold air discharge port 53. Accordingly, a four-sided refrigerator is implemented.

However, in the conventional four-sided discharge type refrigerator, there is an effect of supplying cold air to a portion adjacent to the door 47 and inside the pocket of the inner side of the door, but sufficient to maintain the cooling strength in the refrigerating chamber 42 uniformly. The disadvantage is that no effect can be obtained. In particular, in the state in which the food is filled in the refrigerating compartment 42, even if the cold air is discharged from the four sides, the flow of cold air is interrupted by the foods to supply the cold air to the central portion of the refrigerating compartment 42 not sufficiently. In addition, since the door 47 is manufactured independently of the cabinet 40, the connector 50 connecting the door 47 and the cabinet 40 is exposed to the outside, and the connector 50 is used when the refrigerator is used for a long time. There is a risk of breakage and cause leakage of cold air.

Accordingly, an object of the present invention, in consideration of the above problems, it is possible to supply the cool air from the door side to quickly cool the inside of the pocket and the area adjacent to the door in the cooling chamber, the uniform cooling of the cold air in the cooling chamber It is to provide a refrigerator that can achieve the distribution.

1 is a side cross-sectional view of a conventional refrigerator,

Figure 2 is a plan sectional view of a conventional four-sided discharge type refrigerator,

3 is a side sectional view of a refrigerator according to the present invention;

4 is an inner side view of the door of the refrigerator of FIG.

<Explanation of symbols for main parts of drawing>

71: freezer 72: refrigerator

74: freezer door 75: cold storage door

80: door duct 81: cold air supply port

83: cold air intake 90: blowing fan

91: push switch 93, 95: temperature sensor

The object of the present invention is a refrigerator having a cabinet for forming a cooling chamber and a door provided in the cooling chamber to open and close an opening of the cooling chamber, wherein the inside of the door is provided. A door duct having a cold air suction opening and a plurality of cold air discharge openings opened at a side thereof; And a blowing fan installed at the cold air intake port and supplying the cool air in the cooling chamber into the door duct.

Here, the door opening and closing detection means for detecting the opening and closing of the door is installed in the cooling chamber, the blower fan is controlled to operate only when the closing of the door is detected by the door opening and closing detection means.

In addition, the cooling chamber is provided with a temperature sensing means for detecting the temperature of the portion adjacent to the door and the space in the cooling chamber, the blowing fan is the temperature of the portion adjacent to the door and the door It is preferably controlled to operate when it is higher than the temperature of the spaced apart part and when the temperature in the cooling chamber is below the temperature corresponding to the cooling intensity set by the user.

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

3 is a side cross-sectional view of the refrigerator according to the present invention, and FIG. 4 is an inner side view of the door of the refrigerator of FIG. The refrigerator according to the present invention, like the conventional refrigerator shown in FIG. 1, has a cabinet 60 forming a freezer compartment 71 and a refrigerator compartment 72 partitioned by partition walls 77, a freezer compartment 71 and It is provided in the refrigerating chamber 72, and has the freezing chamber door 74 and the refrigerating chamber door 75 which open and close the freezing chamber 71 and the refrigerating chamber 72. As shown in FIG. Each door 74, 75 is hinged to the cabinet 60. The inner surface of the refrigerating chamber door 75 is formed with a pocket 76 for storing food.

The compressor 73 is provided in the lower part of the rear surface of the cabinet 60, and the evaporator 79 which produces the cold air by evaporating the refrigerant | coolant supplied from the compressor 73 is provided in the rear surface of the freezer compartment 71. As shown in FIG. In the upper part of the evaporator 79, a cooling fan 69 is provided which blows cold air generated by the evaporator 79 and supplies it to the freezing chamber 71 and the refrigerating chamber 72.

A plurality of rear side cooling mechanisms 68 are formed on the rear wall surface of the refrigerating chamber 72, and a plurality of side side cooling mechanisms (not shown) are formed on the side wall surface. In the closed state of the refrigerating chamber door 75, the cool air generated in the evaporator 79 is supplied into the refrigerating chamber 72 through the respective cooling mechanisms, thereby cooling the food contained in the refrigerating chamber 72.

The door duct 80 is provided inside the refrigerating chamber door 75. The door duct 80 is disposed along the up and down direction in the refrigerating chamber door 75, and the cold air openings in the upper and lower portions of the cold air suction opening 83 and the refrigerating chamber door 75 opened at the center of the refrigerating chamber door 75. It has supply ports 81. The blower fan 90 is provided in the cold air intake port 83. The blowing fan 90 supplies the cool air in the refrigerating chamber 72 into the door duct 80. The cold air supplied into the door duct 80 is supplied back into the refrigerating chamber 72 through the cold air supply port 81.

The push switch 91 is provided in the front surface of the refrigerating chamber 72. The push switch 91 is pressed by the refrigerating chamber door 75 when the refrigerating chamber door 75 is closed, and is depressed when the refrigerating chamber door 75 is opened. The microcomputer (not shown) installed in the refrigerator detects that the refrigerating chamber door 75 is opened when the push state of the push switch 91 is released. The blowing fan 90 operates when the closing of the refrigerating chamber door 75 is detected through the push switch 91. Therefore, suction of cold air through the cold air suction port 83 and supply of cold air through the cold air supply port 81 are performed only in the closed state of the refrigerating chamber door 72.

In the refrigerating chamber 72, two temperature sensors 93 and 95 are provided. The temperature sensors 93 and 95 are disposed adjacent to the inner side of the refrigerating chamber door 75 to detect a temperature of a portion of the refrigerating chamber 72 adjacent to the refrigerating chamber door 75, and the refrigerating chamber 72. It is disposed adjacent to the rear wall surface of the) is composed of a cooling chamber temperature sensor 95 for sensing the temperature of the refrigerating chamber door 75 and the spaced apart in the refrigerating chamber 72. The temperatures detected by the two temperature sensors 93 and 95 are input to the microcomputer. If the temperature detected by the temperature sensor 93, 95 differs by more than a predetermined temperature, the microcomputer detects the temperature near the refrigerating chamber door 75 detected by the door temperature sensor 93 by the cooling chamber temperature sensor 95. When the temperature is higher than a predetermined temperature of one rear surface of the refrigerating chamber 72, the blower fan 90 is operated to supply cold air into the door duct 80.

Hereinafter will be described the operation and effect of the refrigerator according to the present invention.

When the open state of the refrigerating chamber door 75 is detected by the push switch 91, the microcomputer stops driving the blower fan 90 regardless of the temperatures detected by the two temperature sensors 93 and 95. When the closed state of the refrigerating chamber door 75 is detected by the push switch 91, the microcomputer operates the blower fan 90 and the cooling fan 69 based on the temperatures detected by the two temperature sensors 93 and 95. Let's do it. That is, when the temperature in the refrigerating chamber 72 detected by the two temperature sensors 93 and 95 is equal to or lower than a temperature corresponding to the cooling intensity set by the user, and the temperature detected by the door temperature sensor 93 is the cooling chamber temperature sensor ( The blower fan 90 and the cooling fan 69 are operated when the predetermined temperature is higher than the temperature of the inside of the refrigerating chamber 72 sensed by 95. At this time, cold air is discharged from each wall surface of the refrigerating chamber 72 through each cooling mechanism 68 to the refrigerating chamber 72, and the cold air sucked into the door duct 80 according to the operation of the blower fan 90 is a door duct ( It is discharged from the inner surface of the refrigerating chamber door 75 through the cold air supply port 81 of 80. Accordingly, the cold air is supplied to the refrigerating chamber 72 from four surfaces, such as the rear wall surface and both sidewall surfaces of the refrigerating chamber 72, and the inner surface of the refrigerating chamber door 75.

Since the blower fan 90 sucks cold air in the refrigerating chamber 72, the cold air discharged from the inner surfaces of the refrigerating chamber 72 is attracted toward the refrigerating chamber door 75, so that the cold air is evenly distributed in the refrigerating chamber 72. do. In addition, cooling of the food contained in the pocket 76 is performed so that the cool air is also supplied into the pocket 76 of the refrigerating chamber door 45 by the cold air discharged through the cold air supply port 81.

As described above, according to the present invention, the cool air is supplied from the door side to enable rapid cooling of a portion adjacent to the door in the cooling chamber and a pocket installed in the door, and achieve a uniform distribution of the cold air in the cooling chamber. Is provided. In addition, since there is no need to install a separate connector for supplying cold air inside the door, there is no problem such as leakage of cold air due to damage of the connector.

While the invention has been shown and described with respect to certain preferred embodiments, the invention is not limited to the embodiments described above, but the subject matter belongs without departing from the spirit of the invention as claimed in the claims. Anyone of ordinary skill in the art would be able to make various variations.

Claims (8)

A refrigerator having a cabinet forming a cooling chamber and a door provided in the cooling chamber to open and close an opening of the cooling chamber. A door duct installed inside the door and having a cold air suction opening and a plurality of cold air discharge openings opened at an inner side of the door; And And a blower fan installed at the cold air suction port and supplying cool air in the cooling chamber into the door duct. The method of claim 1, And the cold air suction opening is disposed at a central area of the door. The method of claim 2, The cold air discharge port is characterized in that the refrigerator is disposed in the upper and lower regions of the door. The method of claim 1, Further comprising a door opening and closing detecting means for detecting the opening and closing of the door, And the blowing fan is controlled to operate only when the closing of the door is detected by the door opening and closing detecting means. The method of claim 4, wherein The door opening and closing detection means is a refrigerator, characterized in that the pressing switch which is pressed and released when the door is opened and closed. The method of claim 4. Further comprising a temperature sensing means for sensing the temperature of the portion adjacent to the door in the cooling chamber and the portion spaced from the door, And the blowing fan is controlled to operate when the temperature of the portion adjacent to the door is higher than the temperature of the portion spaced from the door. The method of claim 6, And the blowing fan is controlled to operate when a temperature in the cooling chamber is less than a temperature corresponding to a cooling intensity set by a user as a result of the sensing by the temperature sensing means. The method of claim 6, The temperature sensing means, A door temperature sensor disposed adjacent to the door in the cooling chamber; And And a cooling chamber temperature sensor disposed on a side of the cooling chamber opposite to the door.