KR200163961Y1 - Cooling air duct structure of a refrigerator - Google Patents

Abstract

The present invention relates to a cold air duct structure of a refrigerator, and by simplifying the configuration of the cold air flow path so that the side cold flow paths on both sides of the refrigerator compartment and the corner cold flow path therebetween are integrally formed, the cold air flow path and the cold compartment internal structure It is possible to prevent the deterioration of quality due to leakage of the cold air flow path while reducing the workmanship of parts assembly according to the simple beauty, and to install it between the inside of the refrigerator compartment and the insulator as a technical means to form the cold air flow path of the refrigerating compartment. In the cold air duct of the refrigerator, side cold air ducts protruding at right angles to both inner side surfaces of the inner phase are formed at both sides of the main cold air flow path formed in the front inner side of the inside of the refrigerating compartment, and a cold air outlet inner upper plate is connected to the end of the cold air duct. The corner between the flow path and the main cold air flow path is formed integrally with the inner box Characterized in that the outlet edges constituting the cooling air flow path without corners in the top plate.

Description

Cold air duct structure of refrigerator

1 is a cross-sectional view showing a cold air duct structure of a refrigerator refrigerator compartment according to the prior art.

Figure 2 is a perspective view showing the cold air duct structure of the refrigerating chamber in the cross section of the upper side of the refrigerating chamber according to the present invention technology.

3 is a sectional view of the main portion A-A of FIG. 2 showing a cold air duct structure in which the side cold air passage and the edge cold air passage according to the present invention are integrally formed in the main cold air passage.

4 is a cross-sectional view of the upper section of the refrigerator compartment of the present invention.

* Brief description of the main parts of the drawing

10: cold storage box inner 20: cold air duct

36: upper surface of the cold air outlet 52: side cold air flow path

64: main cold air flow path 72: corner cold air flow path

The present invention relates to a cold air duct of a refrigerator, and more particularly, by simplifying the configuration of the cold air duct of the cold air duct by integrally forming the side cold air passages on both sides of the main cold air passage of the refrigerator compartment and the corner cold air passage connecting therebetween. The present invention relates to an in-house integrated cold air duct structure of the refrigerator which makes the internal structure of the cold air flow path and the refrigerating chamber simple and at the same time reduces the man-hours of reforestation while preventing the deterioration of quality due to leakage of the cold air flow path.

As is well known, the refrigerator has a refrigerator compartment and a freezer compartment formed at upper and lower parts thereof, and a cold air duct is formed at the rear of the freezer compartment, and an evaporator of low temperature and low pressure state which absorbs and heats gas of liquefied refrigerant is installed therein. The cold air is supplied to the cold air duct of the refrigerating chamber through the cold air duct of the freezer compartment, thereby forming a cold air flow path inside the inside of the refrigerator to discharge cold air into the refrigerating compartment.

Referring to the structure of the cold air duct installed inside the inner box of the conventional refrigerator compartment, as shown in FIG. 1, a main cold air passage 24 through which cold air from the freezer compartment cold air duct flows into the measurement surface of the inner box 10 of the refrigerator compartment is formed. The side cold air passage 22 is also provided inside the inner box 10 on both sides, and the side cold air passage 22 is not directly connected to the main cold air passage 20, but inside the refrigerating compartment inner box 10. Passed through, to form a cold air discharge port 25 in the corner portion between the old cold air flow path 24 and the side cold air flow path 22, and a separate cold air outlet corner inner plate 30 is attached to the inner phase of these corner portions. .

In particular, in forming the side cold air flow passages 22 on both sides of the inner wound 10, the edge portions and the side cold air flow passages 22 are not directly connected, but the side cold air flow passages 22 pass through the inner wound 10 to the inside edges. The inner side of the side cold air passage 22 on the side contacting the cold air passage 32 forms a cold air passage structure in which the insulator 40 is filled.

Inner side of the side cold air passages 22 of the both sides of the inner wound 10 side is provided with a separate cold air outlet inner upper plate 36, reference numeral 42 is filled between the side cold air passage 22 and the inner wound (10). Insulation.

In this way, by forming the cold air duct 20 between the refrigerator compartment inner phase 10 and the insulator 40, the main cold air flow path 24 and the side cold air flow path 22 of the refrigerating compartment and the corner cold air flow path 32 connecting them. As the side cold air passage 22 is not directly formed toward the inner side of the inner phase and is deflected into the inner side 10, the main cold air passage 24 and the side cold passage 22 of the corner cold passage 32 are formed. In the prior art having a complicated cold air duct structure that forms the cold air outlet 25 on the side wall and attaches a separate cold air outlet corner inner plate 32, the cold air outlet corner inner plate 30 is formed on the edge cold passage 32. Due to the separate installation, the number of work is increased due to the addition and installation of separate parts, and the quality deterioration due to the appearance gap of the edge cold flow path 32 between the main cold flow path 24 and the side cold flow path 22 and these To prevent oil leakage The sealing process is required, and as a result, the structure of the cold air flow passage does not form a simple unitary structure, but a complicated assembly configuration results in problems such as increase in parts and unnecessary workmanship and quality.

The present invention has been made to solve the above-mentioned problems of the prior art, by simplifying the configuration of the cold air flow path so that the side cold flow paths on both sides and the corner cold flow path therebetween integrally formed through the cold air flow path of the refrigerating chamber, The purpose of the present invention is to provide a cold air duct structure of the refrigerator that can simplify the internal structure of the flow path and the refrigerating chamber and at the same time reduce the labor of assembly of the parts while preventing the quality deterioration due to leakage of the cold air path.

As a technical means for achieving the above object, the present invention, in the cold air duct of the refrigerator which is installed between the inside of the refrigerator compartment and the insulator to form a cold air passage of the refrigerating compartment, to both sides of the main cold air passage formed on the inside of the front of the inside of the refrigerating compartment. Form side cold air passages protruding at right angles to both inner sides of the inner phase, and install the cold air outlet inner upper plate at the end thereof, and the corner portion between the side cold air passage and the main cold air passage is integrally formed with the inner phase and in a separate cold air outlet corner. It is characterized by constituting the edge cold passage itself without a top plate.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings as follows, the same configuration described in the prior art will be described by specifying the same reference numerals.

2 is a perspective view showing the structure of the cold air duct of the refrigerating compartment in a cross-sectional view of the upper side of the refrigerating compartment according to the present invention, and FIG. 3 is a view of cold air between the side cold air passage 52 and the main cold air passage 64 according to the present invention. A cross-sectional view of the AA portion of the second part showing a cold air duct structure in which the corner cold air passage 72, which is a connecting passage, is integrally formed, and FIG. 4 is a flat cross-sectional view of the upper part of the refrigerator compartment of the present invention. It shows the structure of the cold air duct 20 of the refrigerating compartment in which the corner portion is integrated with the inner box 10 so that both side cold passage 52 is directly connected by the edge cold passage 72.

As shown, the cold air duct structure of the refrigerating compartment according to the present invention is installed between the main body case 80 and the inner case 10, and the inside of the refrigerating compartment inner case 10 forms the main cold air passage 64, A side cold air passage 52 is formed, and an edge portion between the main cold air passage 64 and the side cold air passage 52 forms a corner cold air passage 72.

The corner cold air flow path 72 has an inner portion 10 between the main cold air flow path 64 and the side cold air flow path 52 and is integrated on the front and both sides thereof without a separate cold air outlet corner inner upper plate (30 in FIG. 1). As a molded article, the cold air flow path of the cold air discharge port 25 formed on the side walls of each of the main cold air flow path 64 and the side cold air flow path 52 is formed.

The corner cold air flow passage 72 integrated in the inner phase 10 is integrally connected to the side cold air flow passages 52 on both sides thereof, and each end thereof is connected to the cold air discharge outlet inner upper plate 36.

At this time, the protruding height of the side cold air passage 52 and the cold air discharge port inner upper plate 36 is preferably the same.

An insulator 40 is filled between the cold air duct 20 that forms the cold air flow path and the body case 80.

Thus, in the cold air flow path by the assembly structure of the inner box 10 and the cold air duct 20 of the refrigerating chamber, the corner portion between the main cold air flow path 64 and the side cold air flow path 52 is a separate cold air outlet corner upper plate (30). Without installing), by the structure of the cold air duct 20 in which the edge cold flow path 72 of the inner box 10 itself is integrated, the present invention preferentially separate parts for forming the corner cold air flow path 72. It is not necessary, and the sealing treatment for securing the watertightness of the cold air flow path 72 of the corner portion is not necessary, and structural limitations of the quality deterioration due to the appearance gap are overcome, and the exterior of the cold air flow path 72 is In addition to reducing the additional workmanship according to the shape processing, the appearance of the inner wound 10 can be obtained a simple beauty effect.

Furthermore, since the cold air circulation from the main cold air passage 64 to the side cold air passage 52 is immediately transmitted, a reliable cold air circulation can be secured, and consequently, the efficiency of the refrigerator can be expected.

Claims (1)

In the cold air duct 20 of the refrigerator provided between the refrigerating compartment inner box 10 and the insulator 40 to form a cold air passage of the refrigerating compartment, both sides of the main cold air passage 64 formed inside the front side of the refrigerating compartment inner box 10. Inner side (10) by forming a side cold air flow passage (52) protruding at right angles on both sides inside the connection to the cold air outlet inner upper plate (36), the side cold air flow path (52) and the main cold air flow path (64) Cold air duct structure of the refrigerator, characterized in that the corner between the corners forming a cold air flow passage 72 is formed integrally with the inner box (10).