KR100404467B1 - Structure for cooling air supply in refrigerator - Google Patents

Abstract

The present invention is formed on the rear side of the refrigerating chamber and the supply duct for supplying the cold air introduced from the freezing chamber; A ceiling surface duct formed on the ceiling surface of the refrigerating compartment from the supply duct toward the front; A ceiling surface discharge port formed at a front end of the ceiling surface duct and configured to discharge cold air supplied below the refrigerating chamber; A door suction port formed on an upper surface of the door of the refrigerating compartment and connected to the ceiling discharge port when the door is closed to receive cold air; A door duct formed inside the door from the door inlet downward; A door discharge port formed at a middle or an end of the door duct and configured to discharge cold air supplied toward the inside of the door; By providing a cold air supply structure configured to include, to form an air curtain when the door of the refrigerator compartment is open to prevent the cold air from flowing out to the outside, and to form a discharge port toward the inside of the refrigerator compartment when the door is closed By presenting, a further advanced cold air supply structure of the refrigerator, which can play its role according to the opening and closing of the door without changing the structure by a separate device or the like, is provided.

Description

Cooling air supply structure of a refrigerator {STRUCTURE FOR COOLING AIR SUPPLY IN REFRIGERATOR}

The present invention relates to a cold air supply structure of a refrigerator, and more particularly, to a cold air duct and a cold air discharge port formed in a door part of a side by side type refrigerator.

In general, the side-by-side type refrigerator has a relatively large capacity and is equipped with various functions, and the freezer compartment and the refrigerating compartment are installed at the left and right sides of the refrigerator such that the freezer compartment and the refrigerating compartment are vertically vertically respectively, and a cooler chamber having an evaporator mounted on the rear side of the freezer compartment. It is provided to suck the air in the freezer compartment and the refrigerating chamber to the lower side and discharged to the upper side at the same time to be configured to perform the refrigerating and freezing functions respectively by circulating into each chamber.

These side-by-side refrigerators are configured to be selectively moved up and down in the shelves for storing foods, etc., respectively in the refrigerator, and among them, a separate food container may be stored in a lower part of the upper shelf. Some food containers are also provided.

1 is a longitudinal sectional view showing the structure of a cold air circulation system of a conventional side-by-side refrigerator.

As shown, the cold air circulation system of the conventional side-by-side type refrigerator is formed in parallel to each other and separated by the trimming section 6, the freezer compartment (F) and the refrigerating chamber (R), and the freezer compartment (F) The cooler chamber 1 which is separated and formed so as to form a space separate from the freezing chamber F at the rear, and the evaporator 2 and the blower fan 3 are installed, and the cold air generated in the cooler chamber 1 is the refrigerating chamber R. The supply duct 4 formed at the upper side of the trimming section 6 so as to be supplied to the cooling section and a passage through which the cold air whose temperature has risen in the refrigerating chamber R is returned to the cooler chamber 1 at the lower side of the trimming section 6. And a damper (8) for adjusting the amount of cold air provided and provided on the refrigerating chamber side of the supply duct (4).

The cold air generated by the evaporator 2 is supplied to the freezing chamber F and the refrigerating chamber R by the blower fan 3, and the cold air that has risen in temperature by heat exchange with the stored foods stored in each chamber is evaporated again. The inside of the refrigerator is cooled while repeating the circulation returned to the side.

On the other hand, in the case of a general refrigerator in which the freezer compartment is located at the upper part of the refrigerating compartment, since the cold air whose temperature has risen in the refrigerating compartment is taken back to the evaporator located at the back of the freezer compartment as the upper part of the refrigerating compartment, it is quite suitable for the configuration of the cold air discharge port and the suction port. In the case of side-by-side refrigerators, the cold air that has risen in the refrigerating compartment only needs to be returned through the cold air inlet formed at any position on the side of the refrigerating compartment, so that the positions of the cold air outlet and the inlet can be freely configured. Has an advantage.

Therefore, it is proposed that a plurality of cold air discharge ports are formed inside the refrigerating chamber R for even cooling of the entire interior thereof, and the rear discharge port 9, the upper discharge port 10, and the side surface as shown in FIG. Discharge port 11 and the like.

By the way, despite the cold air loss caused by the opening and closing of the door in the actual use of the refrigerator, it has been pointed out as a problem that the opening and closing structure of the door is not considered in the conventional cold air supply structure.

In addition, in the case of the side-by-side type refrigerator which can freely configure the positions of the cold air discharge port and the suction port as described above, the necessity of solving the problem has been highlighted.

The present invention is to solve the above problems, to provide a more efficient cold air supply structure of the refrigerator, which can achieve an even temperature distribution inside the refrigerator.

1 is a longitudinal sectional view showing the structure of a cold air circulation system of a conventional side-by-side refrigerator;

2 to 4 show the cold air supply structure of the refrigerator according to the present invention,

Figure 2 is a side cross-sectional view showing a state in which the door is closed.

3 is a side cross-sectional view showing a state in which the door is opened.

4 is a rear view showing the inner surface of the door;

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

D: Door R: Cold Room

4: supply duct 5: suction duct

7: back duct 9: back discharge port

10: top discharge port 22: ceiling surface duct

23 ceiling discharge port 24 door suction port

25 door duct 26 door discharge port

In order to achieve the object as described above, the present invention is formed on one side of the rear of the refrigerating chamber, the supply duct for supplying the cold air introduced from the freezing chamber; A ceiling surface duct formed on the ceiling surface of the refrigerating compartment from the supply duct toward the front; A ceiling surface discharge port formed at a front end of the ceiling surface duct and configured to discharge cold air supplied below the refrigerating chamber; A door suction port formed on an upper surface of the door of the refrigerating compartment and connected to the ceiling discharge port when the door is closed to receive cold air; A door duct formed inside the door from the door inlet downward; A door discharge port formed at a middle or an end of the door duct and configured to discharge cold air supplied toward the inside of the door; It proposes a cold air supply structure of a refrigerator configured to include.

In addition, the door duct is formed in the central portion of the door, it is preferable that the plurality of door discharge port is formed in the middle and the end of the door duct.

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

2 to 4 show the cold air supply structure of the refrigerator according to the present invention, FIG. 2 is a side cross-sectional view showing a state in which the door is closed, and FIG. 3 is a side cross-sectional view showing a state in which the door is opened, FIG. Is a rear view showing the inner surface of the door.

As shown, a refrigerator air supply structure of the refrigerator according to the present invention includes: a supply duct 4 formed at one rear side of the refrigerating chamber R to supply the cold air introduced from the freezing chamber F; A ceiling surface duct 22 formed on the ceiling surface of the refrigerating chamber R from the supply duct 4 toward the front; A ceiling surface discharge port 23 formed at the front end of the ceiling surface 22 duct and discharging cold air supplied below the refrigerating chamber R; A door suction port 24 formed on an upper surface of the door D of the refrigerating compartment and connected to the ceiling discharge port 23 when the door D is closed to receive cold air; A door duct 25 formed inside the door D from the door suction port 24 downward; A door discharge port 26 formed at the middle or the end of the door duct 25 to discharge cold air supplied toward the inside of the door D; It is configured to include.

In addition, for even cooling in the refrigerating chamber R, a plurality of door ducts 25 are formed at the center of the door D, and a plurality of door outlets 26 are formed at the middle and end of the door duct 25. It is preferable.

Hereinafter, the operation of the cold air supply structure of the refrigerator according to the present invention will be described.

When the door D of the refrigerating compartment is closed as shown in FIG. 2, since the ceiling surface discharge port 23 and the door suction port 24 are opposed to each other, the cold air supplied from the supply duct 4 is the ceiling surface of the refrigerating compartment. Passed through the duct 22 and the ceiling surface discharge port 23 to the door intake port 24 formed on the upper surface of the door (D), the cold air delivered in this way through the door duct 25 formed in the interior of the door It is discharged toward the back and bottom of the refrigerating chamber R through the door discharge port 26 formed in the middle or the end of the duct.

On the other hand, when the door D of the refrigerating chamber is opened as shown in FIG. 3, the ceiling surface discharge port 23 and the door suction port 24 are released from the above-butted state, and thus, the ceiling surface discharge port 23 is provided. Cold air delivered to is discharged downward as it is.

The cold air discharged as described above forms a so-called air curtain in the state in which the door D of the refrigerating chamber is opened, thereby preventing the cold air inside the refrigerating chamber from leaking to the outside.

That is, the cold air supply structure according to the present invention as described above is configured to be able to change its role (air curtain, the cold air discharge of the door portion) according to the opening and closing of the door, without changing the structure by a separate device or the like, more efficient It is a cold air supply structure.

In the above, the case in which the present invention is applied to the side-by-side type refrigerator has been described as an example, but is not necessarily limited thereto, and the basic technical idea of the present invention may be applied to other types of refrigerators.

The present invention forms an air curtain when the door of the refrigerating chamber is opened to prevent the cold air inside the refrigerating chamber from leaking to the outside, and to form a discharge port toward the inside of the refrigerating chamber in the closed state of the refrigerator compartment. It proposes a more advanced cold air supply structure of the refrigerator, which can play its role according to the opening and closing of the door without changing the structure.

Claims (2)

A supply duct formed at one rear side of the refrigerating compartment and supplying the cool air introduced from the freezing compartment; A ceiling surface duct formed on the ceiling surface of the refrigerating compartment from the supply duct toward the front; A ceiling surface discharge port formed at a front end of the ceiling surface duct and configured to discharge cold air supplied below the refrigerating chamber; A door suction port formed on an upper surface of the door of the refrigerating compartment and connected to the ceiling discharge port when the door is closed to receive cold air; A door duct formed inside the door from the door inlet downward; A door discharge port formed at a middle or an end of the door duct and configured to discharge cold air supplied toward the inside of the door; Cold air supply structure of the refrigerator including The method of claim 1, The door duct is formed in the central portion of the door, the plurality of door outlets are formed in the middle and the end of the door duct cold air supply structure