KR200221401Y1 - A heat exchanger for refrigerator - Google Patents

Abstract

The present invention relates to a heat exchanger for a cooling device, the heat exchanger for a cooling device according to the present invention is a plurality of heat exchange fins, the refrigerant pipe disposed through the heat exchange fins, the heat exchange fin and the refrigerant pipe through which air flows into one side. The defrost heater is provided on the heat exchange fin to remove the generated frost, the defrost heater is provided with an extension extending to the outside air inlet side of the heat exchange fin, the heat exchanger of the cooling device according to the present invention the inlet air inlet of the heat exchanger It is possible to effectively prevent freezing of defrost water or ice grains generated during defrosting on the side, and at the same time to reduce defrost time, thereby improving the defrosting efficiency of the heat exchanger and the operating reliability of the cooling device. have.

Description

Heat exchanger for refrigerators {A heat exchanger for refrigerator}

The present invention relates to a heat exchanger for a cooling device, and more particularly, to a heat exchanger for a cooling device to improve the defrosting efficiency by improving the arrangement of the defrost heater.

In general, the cooling device is to be able to store the stored goods stored in a predetermined required space at a low temperature state, for this purpose, the cooling device is installed by a heat exchanger driven by a refrigeration cycle to generate cold air.

As shown in FIG. 1, a heat exchanger installed in a conventional cooling device has a plurality of heat exchange fins 10 arranged in parallel on one layer in a vertical direction, and a refrigerant pipe 20 installed through the heat exchange fins 10. It is provided.

The defrost heater 30 is installed at both sides of the heat exchange fin 10 and penetrates the heat exchange fin 10, and the defrost sensor 40 is disposed below the heat exchanger.

This conventional heat exchanger is to cool the hot and humid air introduced from the lower side during the heat exchange operation. At this time, the introduced air condenses at a low temperature, causing a large amount of frost on the heat exchange fins 10 and the refrigerant pipe 20. And if the frost continues to accumulate, the contact area of the inlet air contacting the refrigerant pipe 20 and the heat exchange fins 10 is reduced, thereby reducing the heat exchange efficiency of the air.

Therefore, if a considerable amount of frost accumulates, the defrost heater is operated after stopping the operation of the heat exchanger to remove frost generated in the heat exchange fins 10 and the refrigerant pipe 20. At this time, the generated defrost water is discharged to the outside through the discharge means not shown.

By the way. Even if the defrost heater 30 operates, the temperature rise in the peripheral portion of the heat exchanger does not occur significantly. Therefore, when the defrost water generated during defrost flows down the heat exchanger, the defrost water is braked at the lower end of the heat exchanger, which maintains a relatively low temperature, and remains in the form of residual ice and icicles. The operating time of) should be longer.

However, if the defrosting time is prolonged, the temperature in the storage compartment is rapidly increased, which not only impairs the refrigeration and freezing state of the stored storage, but also causes problems of dew condensation and sex in the storage compartment.

The present invention is to solve the above-mentioned problems, the object of the present invention is to improve the arrangement of the defrost heater to make the defrost on the air inlet side of the heat exchanger can be more effectively performed to improve the defrost efficiency of the heat exchanger To provide a heat exchanger for the chiller.

1 is a side cross-sectional view showing a heat exchanger for a conventional cooling device.

Figure 2 is a side cross-sectional view showing a cooling device equipped with a heat exchanger according to the present invention.

3 is a front view showing a heat exchanger according to the present invention.

4 is a front view showing another embodiment of the heat exchanger according to the present invention.

Figure 5 is a front view showing according to another embodiment of the heat exchanger according to the present invention.

Figure 6 is a side cross-sectional view showing a heat exchanger according to the present invention.

Figure 7 is an enlarged perspective view showing a lower configuration of the heat exchanger for a cooling device according to the present invention.

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

200 ... heat exchanger

210.Bracket

220 ... heat exchange pin

250 Defrost Heater

251 ... Extension

In order to achieve the above object, a heat exchanger for a cooling apparatus according to the present invention generates a plurality of heat exchange fins through which air flows into one side, a refrigerant pipe disposed through the heat exchange fins, the heat exchange fins and the refrigerant pipe. In the heat exchanger for a cooling device having a defrost heater installed on the heat exchange fin to remove the frost, the defrost heater has an extension extending to the outside air inlet side of the heat exchange fin.

And the extension portion is provided with a support member for maintaining the installation state of the end of the extension portion spaced apart from the outer portion of the heat exchange fin, preferably the support member is one end is bound to the refrigerant pipe and the other end is And a support band coupled to the end of the extension.

In addition, preferably a bracket for supporting the installation state of the heat exchange fin and the refrigerant pipe is provided on the outer side of the heat exchange fin, the support member protrudes from one end of the bracket so that the extension of the defrost heater is supported Side support.

In another state, the support member includes a heat exchange fin side support portion which extends from the heat exchange fin positioned at the lowermost side of the heat exchange fin to support the extension portion of the defrost heater.

And a portion located on the air inlet side of the refrigerant pipe is characterized in that the defrost sensor provided to detect the temperature for the air passing through the extension.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the drawings.

One embodiment of the present invention illustrates a state in which the heat exchanger of the present invention is applied to a conventional home refrigerator. According to the illustrated figure, as shown in Figure 2 is installed inside the main body 100 wall of the cooling device. First, the cooling device will be briefly described. The cooling device includes a main body 100 that forms an exterior and a storage chamber 110 which is provided separately from an upper side and a lower side of the main body and stores food therein.

In addition, a shelf 130 and an ice storage box 140 are installed in the storage compartment 110 to accommodate or store food and iced ice. It is installed, the blowing fan 150 for blowing the cooling air cooled through the heat exchanger 200 into the upper side of the heat exchanger 200 is installed.

Meanwhile, the heat exchanger 200 includes brackets 210 at both ends, as shown in FIGS. 3, 6, and 7, and a plurality of heat exchange fins 220 are disposed in parallel between the brackets 210. It is provided to form a multilayer up and down.

The bracket 210 and the heat exchange fins 220 are provided with a refrigerant pipe 230 and a defrost heater 250. The coolant pipe 230 is bent to the outside of the bracket 210 and then installed through the heat exchange fin 220 while penetrating the bracket 210 and disposed along the interlayer of the heat exchange fin 220. In addition, the defrost heater 250 is bent to the outside of the bracket 210 to the side of the coolant tube 230 and then penetrated through the heat exchange fin 220 while penetrating the bracket 210.

In particular, the defrost heater 250 is the bottom of the heat exchanger 200, that is, the lower side of the portion where external air is first introduced into the heat exchanger 200, that is, the bracket 210 and the heat exchange fin 220 and the refrigerant pipe 230 The extension part 251 arrange | positioned further extended below the installed position is formed.

The extension part 251 is bent from the bottom end of the bracket 210 to the lower side again and consists of a configuration extending along the parallel arrangement direction of the heat exchange fins 220 on the lower side of the heat exchange fins 220, the extension part 251 ) Is supported by the refrigerant pipe 230 located above the extension part 251 by the support member.

In the first embodiment of the present invention, the support member surrounds the extension part 251 of the defrost heater 250 and the refrigerant pipe 230 together to support the extension part 251 of the defrost heater 250. Is implemented with a bend 260.

In another embodiment, as shown in FIG. 4, the support member implements the bracket side support part 211 further extending downward to the left bracket 210 in the drawing to extend the extension part 251 of the defrost heater 250. The extension part 251 may be supported by being inserted through the bracket side support part 211.

In another embodiment, as shown in FIG. 5, the support member has a heat exchange fin side support part 221 extending downward from the heat exchange fin 220 provided at a position where an end portion of the extension part 251 is positioned. The extension part 251 may be supported by this support part 221 by implementing the following.

Meanwhile, a defrost sensor 240 is installed above the extension part 251 of the defrost heater 250 to measure the temperature of the flow air passing through the extension part 251 to control the operation of the defrost heater 250. Installation of the defrost sensor 240 is to be bound to the refrigerant pipe 230 by the fastener 270.

Hereinafter will be described the operating state of the heat exchanger of the cooling apparatus according to the present invention.

The heat exchanger 200 according to the present invention performs cooling on the inlet air by cooling the air introduced into the lower side of the heat exchanger 200 from the inside by the blower fan 150 in a normal cooling operation.

And the air cooled through the heat exchanger 200 is supplied back into the storage compartment 110 by the blower fan 150 to perform the freezing and cooling of the storage stored in the storage compartment 110.

The air flowing into the heat exchanger 200 during the cooling operation is relatively hot and humid than the temperature of the heat exchanger 200 side. Therefore, a considerable amount of frost is generated when the air is cooled in the heat exchanger 200. The castle is attached to the refrigerant pipe 230 and the heat exchange fins 220 of the heat exchanger 200 by the cooling action of the heat exchanger 200, and accumulates. When the accumulated amount becomes a considerable amount or more, the heat exchanger 200 is accumulated. ) The heat exchange efficiency is reduced.

At this time, if the defrost sensor 240 that senses the temperature of the inlet air by the continued cooling action is measured that defrost action is necessary, after the operation of the heat exchanger 200 is stopped, to remove the frost defrost heater 250 It works.

The defrost heater 250 is melted in the castle accumulated in the refrigerant pipe 230 and the heat exchange fin 220 of the heat exchanger 200 to flow down to the lower side of the heat exchanger 200, the defrost water flowed down It is drained to the outside through the discharge means not shown.

On the other hand, the extension portion 251 of the defrost heater 250 disposed under the heat exchanger 200 and performing defrosting with the defrost heater 250 is raised to a considerable temperature. For example, the temperature of the lower part of the heat exchanger was about 0 ° C.-2 ° C. in the state where the extension part 251 of the present invention was not implemented. However, the temperature of the surrounding part is increased by installing the extension part 251 of the present invention. It will rise to approximately 5-8 ° C.

Therefore, the defrost water and ice particles removed by the defrost heater 250 are not re-frozen under the heat exchanger 200 by the extension 251 of the defrost heater 250 raising the temperature of the bottom of the heat exchanger 200. It will be removed smoothly. And since the extension part 251 of the defrost heater 250 is implemented on the lower side of the defrost sensor 240, the defrost water is also blocked again to the defrost sensor 240 side.

The heat exchanger 200 for a cooling device according to the present invention can prevent the frost from being frozen in the lower part of the conventional heat exchanger by placing the extension part 251 of the defrost heater 250 under the heat exchanger 200. In addition, the time for completely removing the frost frozen again at the bottom of the heat exchanger can be reduced by approximately 50% or less than the time required in the conventional configuration.

That is, the defrost heater 200 extension part 251 of the present invention allows to reduce the defrost time with the rapid recovery of the function of the heat exchanger 200.

On the other hand, the detailed description of the present invention describes an improved configuration for the heat exchanger of the cooling device. It is described in the above detailed description that the heat exchanger 200 of the present invention can exert a definite effect by applying it to a conventional household refrigerator.

However, the configuration of the present invention may be applied to the refrigerated warehouse, and the air conditioner, and other various kinds of other cooling devices in a modified state, and the degree of difference may occur, but the effect of the present invention It will be predictable enough. Therefore, all such modified embodiments should be considered to be included in the technical scope of the present invention if the defrost heater basically forms an extension on the outside air inlet side of the heat exchanger.

The heat exchanger of the cooling apparatus according to the present invention as described above can effectively prevent the defrost water or ice particles generated during the defrost on the outside air inlet side of the heat exchanger, and at the same time to reduce the defrost time There is an effect to further improve the defrosting efficiency of the machine and the operating reliability of the cooling device.

Claims (6)

Cooling provided with a plurality of heat exchange fins through which air flows into one side, a refrigerant pipe disposed through the heat exchange fins, a defrost heater installed in the heat exchange fins to remove frost generated in the heat exchange fins and the refrigerant pipe In the heat exchanger for the device, The defrost heater is a heat exchanger for a cooling device, characterized in that it has an extension extending to the outside air inlet side of the heat exchange fin. The heat exchanger of claim 1, wherein the extension part is provided with a supporting member to maintain an installation state in which the end of the extension part is spaced apart from an outer portion of the heat exchange fin. 3. The heat exchanger of claim 2, wherein the support member includes a support band having one end coupled to the refrigerant pipe and the other end coupled to an end of the extension portion. According to claim 2, Outside of the heat exchange fin is provided with a bracket for supporting the installation state of the heat exchange fin and the refrigerant pipe, the support member protrudes from one end of the bracket so that the extension of the defrost heater is supported Heat exchanger for a cooling device comprising a bracket side support. 3. The heat exchanger of claim 2, wherein the support member includes a heat exchange fin side support portion extending from a heat exchange fin positioned at a lowermost side of the heat exchange fin to support an extension of the defrost heater. The heat exchanger of claim 1, wherein a defrost sensor is provided at a portion located on the air inlet side of the refrigerant pipe to detect a temperature of air passing through the extension part.