KR20150146213A - Condenser for refrigerator - Google Patents

Abstract

The present invention relates to a condenser for a refrigerator. More specifically, the condenser for a refrigerator simultaneously maintains the condenser to have a compact size and maximizes heat exchanging efficiency since a second tube is disposed in a first separating space of a first tube. To achieve the purpose, according to the present invention, the condenser for a refrigerator comprises: the first tube; the second tube; and a fin.

Description

Condenser for refrigerator

The present invention relates to a condenser for a refrigerator, and more particularly to a condenser for a refrigerator in which a second tube is disposed in a first spacing space of a first tube so that the condenser can be kept compact and the heat exchange efficiency can be maximized.

Korean Patent Laid-Open Publication No. 10-2013-0024210 discloses a refrigerator having two independent cooling cycles. The refrigerator having these two independent cooling cycles has two compressors, a condenser and an evaporator, respectively.

Two condensers should be constructed in the machine room and the product wall, one for forced convection heat exchange, one cycle for natural convection heat exchange, or two condensers inside the machine room.

In the case of the natural convection method, since the efficiency of the heat exchange is lowered, the size of the condenser must be considerably larger than that of the forced convection type, which may cause the deterioration of the assemblability and the cost of the product. In addition, there is a disadvantage in that the outdoor temperature is increased in the summer season and the heat exchange efficiency is lowered and the cooling ability is lowered. When two condensers are separately formed in the machine room by the forced convection method, it is difficult to effectively realize a certain amount of heat dissipation due to the limitation of the size of the condenser due to the space limitation.

To solve this problem, a technique has been proposed in which a refrigerant flow path connected from two compressors is divided into a plurality of spaces in a single condenser in order to minimize a space occupied by the condenser of a refrigerator having an independent cooling cycle.

However, in this case, even if only one compressor is operated, there is a problem that the space in which the refrigerant can circulate is small and the heat exchange performance is poor.

Also, in Korean Patent Laid-Open Publication No. 2014-0006680, a tube connected to each compressor is provided on one side and the other side of a condenser, and a radiator fin is shared. However, when only one compressor is operated because the condenser is biased to one side There is a problem that the space in which the refrigerant can circulate is small and the heat exchange performance is deteriorated.

Korean Patent Publication No. 10-2013-0024210 Korean Patent Laid-Open Publication No. 2014-0006680

The present invention relates to a condenser for a refrigerator, and in particular, a second tube is disposed in a first spacing space of a first tube so as to keep the condenser compact The present invention relates to a condenser for a refrigerator capable of maximizing heat exchange efficiency. The object of the present invention is to provide a condenser for a refrigerator.

According to an aspect of the present invention, there is provided a condenser for a refrigerator including a first tube connected to a first compressor, a second tube connected to a second compressor, and a second tube connected to the first tube and the outer surface of the second tube Wherein the first tube is bent to form a first spacing space and the second tube is bent to form a second spacing space that is narrower than the first spacing space, And the first tube and the second tube are surrounded by the same fin.

The first tube may be bent a plurality of times to form a third spacing space, and the third spacing space may be smaller than the first spacing space.

According to the refrigerator condenser of the present invention as described above, the following effects can be obtained.

The second tube is disposed in the first spacing space of the first tube so that the condenser can be kept compact and the heat exchange efficiency can be maximized. In addition, when only one compressor operates, the entire condenser space is used evenly, so that the heat exchange area can be widened, thereby improving heat exchange performance.

The first tube is bent a plurality of times to form a third spacing space, and the third spacing space is narrower than the first spacing space, thereby maximizing heat exchange efficiency.

1 is a plan view of a condenser for a refrigerator according to a preferred embodiment of the present invention.
2 is a side view of a condenser for a refrigerator according to a preferred embodiment of the present invention.
3 is a perspective view of a condenser for a refrigerator according to a preferred embodiment of the present invention.

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

For reference, the same components as those of the conventional art will be described with reference to the above-described prior art, and a detailed description thereof will be omitted.

1 to 3, the refrigerator condenser of the present embodiment includes a first tube 21 connected to a first compressor (not shown), a second tube 21 connected to a second compressor (not shown) And a pin 24 installed on an outer circumferential surface of the first tube 21 and the second tube 22. The first tube 21 is bent to form a first spacing space 21a, And the second tube 22 is folded to form a second spacing space 22a that is narrower than the first spacing space 21a and the second tube 22 is spaced apart from the first spacing space 21a , Wherein the first tube (21) and the second tube (22) are surrounded by the same pin (24).

The refrigerator body in which the condenser of the present embodiment is installed includes a first storage chamber and a second storage chamber that is independent of the first storage chamber. The first storage room and the second storage room may be provided in a large capacity.

The refrigerator in which the condenser of this embodiment is installed includes a first cooling device for cooling the first storage room and a second cooling device for cooling the second storage room.

The first and second cooling devices have respective independent cooling cycles.

The first and second cooling devices include first and second compressors for compressing refrigerant, a first tube connected to the first compressor, a second tube connected to the second compressor, A first condenser 20 connected to the first and second tubes 21 and 22 and a pin 24 installed on an outer circumferential surface of the second tube 22, (Not shown).

The first and second compressors and the condenser 20 are disposed in a machine room disposed at the upper portion or the lower portion of the refrigerator.

A condenser (20) is disposed between the first compressor and the second compressor.

The condenser 20 further includes a cooling fan (not shown) disposed on one side of the first and second tubes 21 and 22 and the pin 24.

The first tube 21 is bent in the horizontal direction to form a first spacing space 21a.

The first tube 21 is bent in the horizontal direction a plurality of times to form a third spacing space 21b. The third spacing space 21b is narrower than the first spacing space 21a.

The third spacing space 21b may be disposed in front of the first spacing space 21a.

The second tube 22 is bent in the horizontal direction to form a second spacing space 22a that is smaller than the first spacing space 21a.

Preferably, the second spacing space 22a is formed to have a width similar to or the same as the third spacing space 21b.

The second tube 22 is disposed in the first spacing space 21a and the first tube 21 and the second tube 22 are surrounded by the same pin 24.

Preferably, the space between the second tube 22 and the first tube 21 has a width similar to or the same as the second and third spacing spaces 22a and 21b.

Accordingly, the first tube 21 and the second tube 22 are arranged at equal intervals so that heat transfer can be effectively performed.

In addition, the second tube 22 is disposed in the middle of the pin 24 so that even when the second compressor is operated, heat can be evenly exchanged through both sides of the pin 24.

The first and second tubes 21 and 22 are formed to have the same cross-sectional shape. For example, the sectional shapes of the first and second tubes 21 and 22 may be circular.

The first tube (21) and the second tube (22) each include upper and lower bent portions bent in the vertical direction.

Accordingly, the first tube 21 and the second tube 22 are stacked in the vertical direction.

The pin 24 is provided as a rectangular plate, and is arranged vertically in the longitudinal direction.

The pin (24) disposed on the left side of the condenser (20) is formed so that the height decreases toward the left end.

Accordingly, the capacitor 20 is formed so that the horizontal cross-sectional area becomes smaller as it goes toward the upper part.

The first tube 21 and the second tube 22 are cooled by one cooling fan.

The second tube 22 is disposed in the first spacing space 21a of the first tube 21 so as to keep the condenser 20 compact and to maximize the water flow disposed in the one pin 24 So that the heat exchange efficiency can be maximized. In addition, when only one compressor operates, the entire condenser 20 space is used evenly, so that the heat exchange area can be widened, thereby improving heat exchange performance.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims .

DESCRIPTION OF REFERENCE NUMERALS
20: condenser 21: first tube
22: second tube 24: pin

Claims (2)

A first tube connected to the first compressor;
A second tube connected to the second compressor;
And a fin disposed on the outer circumferential surface of the first tube and the second tube,
The first tube is bent to form a first spacing space,
The second tube is bent to form a second spacing space smaller than the first spacing space,
The second tube is disposed in the first spacing space,
Wherein the first tube and the second tube are surrounded by the same fin. The method according to claim 1,
The first tube is bent a plurality of times to form a third spacing space,
Wherein the third spacing space is smaller than the first spacing space.

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