KR100340056B1 - Air circulation device of refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator provided with a cold air circulation system capable of recirculating cold air while simultaneously discharging and discharging cold air in a refrigerating compartment.

The cold air circulation system of the refrigerator according to the present invention includes a cold air discharge passage 20a into which cold air transferred from an evaporator flows, a circulating cold air suction passage 20b separated from the cold air discharge passage 20a, and the circulation cold air suction passage. A duct base 20 having a circulating cold air discharge passage 20c connected to the 20b; A plurality of cold air discharge ports 22a are formed around the duct base 20 and connected to the cold air discharge passage 20a on the front surface thereof, and are circulated at a position associated with the circulation cold air suction passage 20b. A duct cover 22 having a cold air inlet 22b and having a plurality of circulation cold air outlets 22c formed at a position associated with the circulation cold air discharge passage 20c; A damper mechanism (30) for adjusting the amount of cold air flowing into the cold air discharge passage (20a) of the duct base (20); And a ventilation fan 40 positioned in the circulation cold air suction flow path 20b of the duct base 20 to re-intake the cold air discharged through the cold air discharge port 22a through the circulation cold air suction flow path 20b.

According to the cold air circulation device of the refrigerator according to the present invention, the cold air discharged into the refrigerating compartment is distributed evenly in the refrigerating compartment in the process of being circulated again in the refrigerating compartment by the recirculation action, thereby reducing the temperature deviation in the refrigerating compartment according to the storage location. Since problems such as overcooling are solved, there is an advantage that a more efficient cooling operation can be performed as a result.

Description

Cold air circulation unit in refrigerator {AIR CIRCULATION DEVICE OF REFRIGERATOR}

The present invention relates to a refrigerator, and more particularly, to a refrigerator having a cold air circulator capable of recycling cold air at a wider range and discharging cold air in a refrigerating compartment.

The refrigerator is used to freeze or refrigerate food and the like, and includes a case forming a storage space separated into a freezer compartment and a refrigerating compartment, and a freezer compartment and a refrigerator compartment door installed at one side of the case to open and close the freezer compartment and the refrigerating compartment. And, by forming a refrigeration cycle, such as a compressor, condenser and evaporator is configured to include a device for lowering the temperature of the freezer compartment and the refrigerating compartment.

In addition, the refrigerator includes a cold air circulation system for lowering the temperature of the freezer compartment by circulating the cold air formed by the evaporator through the freezer compartment, which serves as a passage through which cold air is transferred from the evaporator to the freezer compartment. It comprises a various duct apparatus, and a blowing fan for blowing cold air into the refrigerating chamber through the duct apparatus.

Meanwhile, as shown in FIG. 1, the refrigerating chamber is provided with a multi-duct assembly 10 serving as a direct cold air discharge port from the duct to the refrigerating chamber, and the multi-duct assembly 10 has a cold air inlet toward the evaporator. 12a is a structure in which the duct base 12 (see FIG. 2A) constituting the cold air flow path, the duct cover 14 (see FIG. 2B) surrounding the duct base 12, and the amount of discharge of cold air are provided. It consists of a damper mechanism. A plurality of cold air outlets 14a are formed on the front surface of the duct cover 14 for discharging cold air, and the cold air outlets 14a are arranged in pairs in a space divided by the shelves S installed in the refrigerating chamber. (See Figure 1).

The damper mechanism is formed to communicate with the cold air inlet 12a of the duct base 12 at the inner upper end of the duct cover 14, as shown in Figure 3 and a damper block 15 having an opening 15a on one side, The damper opening and closing plate 16 for controlling the amount of cold air flowing into the duct base 12 by variably contacting the opening 15a of the damper block 15 and the damper is mounted outside the duct cover 14. It consists of a combination of temperature control dials 17 (see FIGS. 1 and 2B) associated with the opening and closing plate 16. Here, the damper opening and closing plate 16 may vary the opening area of the opening 15a according to the degree of close contact with the damper block 15.

According to the conventional cold air circulation system as described above, the cold air transferred from the evaporator is introduced into the duct base 12 through the cold air inlet 12a, and then discharged into the refrigerating compartment through each cold air outlet 14a of the duct cover 14. As a result of the cooling operation of the refrigerating compartment, the temperature of the refrigerating compartment is adjusted in such a manner that the discharge amount of cold air is varied by controlling the opening degree of the opening 16a by the damper opening and closing plate 16 by operating the temperature adjusting dial 17. Control.

However, according to this conventional technology, since the multi-duct assembly 10 is located at the center of the inside of the refrigerating chamber, the duct cover 14 also has a narrow and long shape that cannot widen the space between the cold air discharge ports 14a. In the position and structure of the multi-duct assembly 10, cold air discharged is concentrated to one side. Therefore, as a result, the temperature deviation in the refrigerating chamber is increased, causing problems such as over-cooling of the stored food according to the storage location.

The present invention has been made to solve the above-mentioned problems, and to provide a cold air circulation device of the refrigerator to achieve a more efficient cooling action by recirculating the cold air at the same time to distribute the cold air more widely distributed in the refrigerator compartment. do.

1 is a perspective view showing the interior structure of a typical refrigerator.

2A and 2B are schematic diagrams showing the structures of a duct base and a duct cover, respectively, which constitute a multi duct provided in a general refrigerator.

3 is a perspective view showing the structure of a damper mechanism provided in a general refrigerator.

Figure 4a, 4b is a schematic diagram showing the structure of the duct base and the duct cover, respectively, constituting the cold air circulation apparatus according to an embodiment of the present invention.

5 is a state diagram showing a state in which cold air is circulated by the action of the cold air circulation apparatus according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

20: duct base 20a: cold air discharge flow path

20b: circulation cold air suction flow path 20c: circulation cold air discharge flow path

22: duct cover 22a: cold air discharge port

22b: circulating cold air inlet 22c: circulating cold air outlet

30: damper mechanism 40: ventilation fan

The cold air circulation system of the refrigerator provided in accordance with the present invention provides a plurality of cold air discharge passages through which cold air transferred from an evaporator is introduced, a circulating cold air suction passage separate from the cold air discharge passages, and the circulation cold air suction. A duct base having a circulating cold air discharge flow path connected to the flow path; A plurality of cold air discharge ports are formed at a position associated with the cold air discharge passage on the front surface of the duct base, and a circulating cold air suction port is formed at a position associated with the circulation cold air suction passage; A duct cover having a plurality of circulating cold air discharge ports formed at an associated position; A damper mechanism for adjusting an amount of cold air flowing into the cold air discharge port of the duct base; And a ventilation fan positioned in the circulation cold air suction flow path of the duct base and re-suctioning the cold air discharged through the cold air discharge port through the circulation cold air suction flow path.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 4A to 5, and the same reference numerals will be given to the same parts as those in the prior art.

The cold air circulation system of the refrigerator according to the embodiment of the present invention is mounted on the duct base 22 and the duct base 20 surrounding the duct base 20 and the duct base 20 as shown in FIGS. 4A and 4B. A damper mechanism 30 for adjusting the flow rate of cold air and a combination of components such as a ventilation fan 40 mounted on the duct base.

The duct base 20 includes a plurality of cold air discharge passages 20a through which cold air transferred from the evaporator through the damper mechanism 30 flows, and a circulating cold air suction passage 20b separated from the cold air discharge passage 20a. A circulating cold air discharge passage 20c connected to the circulating cold air suction passage 20b is provided.

In addition, a plurality of cold air discharge ports 22a are formed at a position associated with the cold air discharge passage 20a on the front surface of the duct cover 22, and a circulating cold air intake hole is formed at a position associated with the circulation cold air suction passage 20b. 22b) is formed, and a plurality of circulating cold air outlets 22c are formed at a position associated with the circulating cold air discharge passage 20c. The circulating cold air inlet 22b is positioned at the center of the duct cover 22, and It is made larger than the discharge ports 22a and 22c. In the drawing, the dotted line on each of the flow paths 20a, 20b, and 20c indicates the arrangement of the discharge outlets 22a and 22c and the circulating cold air intake port 22b with the duct base 20 and the duct cover 22 coupled. Indicates a location.

In addition, the damper mechanism 30 is configured to variably open / close a passage through which cold air flows from the evaporator to the duct base 20 in the same manner as in the related art, and as a result, can control the discharge amount of the cold air.

Referring to the operation of the cold air circulation device according to an embodiment of the present invention as described above are as follows.

First, the action of the cold air circulation system according to the present embodiment is to discharge the cold air conveyed from the evaporator side into the refrigerating compartment, to control the amount of cold air discharged through the damper mechanism 30 to cool the refrigerating compartment and to control the cooling temperature at the same time. The cold air control action is divided into a so-called cold air recirculation action in which cold air discharged into the refrigerating chamber is sucked and discharged to the cooling chamber again so that cold air is evenly distributed throughout the refrigerating chamber.

Here, the cold air control action is performed by discharging the cold air introduced into the cold air discharge passage 20a of the damper base 20 from the evaporator side through the cold air discharge port 22a of the duct cover 22 to the refrigerating compartment. By operating the damper mechanism 30 to control the discharge amount of the cold air flowing into the cold air discharge passage 20a, the temperature of the refrigerating chamber is maintained in an appropriate state.

And, the cold air recirculation action is the cold air discharged through the cold air outlet 22a is sucked into the circulating cold air suction flow path 20b through the circulating cold air suction port 22b again by the action of the ventilation fan 40, and then the circulating cold air suction The cold air in the refrigerating compartment is transferred to the circulating cold air discharge passage 20c connected to the oil passage 20b and re-ejected into the refrigerating compartment through the circulating cold air discharge port 22c (see FIG. 5). The flowability of the cold air is improved in the circulation process, and as a result, the temperature difference in the refrigerating compartment is reduced because the cold air is evenly distributed and distributed in the refrigerating compartment.

According to the cold air circulation device of the refrigerator according to the present invention, the cold air discharged into the refrigerating compartment is distributed evenly in the refrigerating compartment in the process of being circulated again in the refrigerating compartment by the recirculation action, thereby reducing the temperature deviation in the refrigerating compartment according to the storage location. Since problems such as overcooling are solved, there is an advantage that a more efficient cooling operation can be performed as a result.

Claims (1)

A duct base including a plurality of cold air discharge passages through which cold air transferred from an evaporator flows, a circulating cold suction passage separated from the cold air discharge passage, and a circulating cold air discharge passage connected to the circulating cold air suction passage; A plurality of cold air discharge ports are formed at a position associated with the cold air discharge passage on the front surface of the duct base, and a circulating cold air suction port is formed at a position associated with the circulation cold air suction passage; A duct cover having a plurality of circulating cold air discharge ports formed at an associated position; A damper mechanism for adjusting an amount of cold air flowing into the cold air discharge passage of the duct base; Ventilation fan located in the circulating cold air suction flow path of the duct base to re-intake the cold air discharged through the cold air discharge port through the circulating cold air suction flow path Cold air circulation device of the refrigerator comprising a.