KR100590491B1 - A pin-pipe type evaporator for refrigerator - Google Patents

Abstract

The present invention relates to a fin-tubular evaporator of a refrigerator, and more particularly, it is possible to increase the heat transfer area between a plurality of cooling fins and planar heaters spaced apart from the outside of a refrigerant pipe constituting the fin-tubular evaporator of the refrigerator. A fin-tubular evaporator of a refrigerator, wherein the refrigerator is a fin-tubular heat exchanger of a refrigerator in which a plurality of cooling fins contacted with a planar heater are fixed at intervals on the outside of a refrigerant pipe which is repeatedly bent in a sand shape to form a multi-stage coolant tube. By providing a means for extending the contact surface of the cooling fin in contact with the planar heater, not only can the defrosting efficiency of the planar heater to the evaporator be improved, but there is no risk of disconnection to the heating wire of the planar heater, and the cooling fin and the planar heater Adhesiveness between the two is improved to have an effect that can remove the product defects due to the separation between the cooling fin and the surface heater.

Evaporator, Refrigerant Pipe, Cooling Fin, Heater Bonding Collar

Description

A pin-pipe type evaporator for refrigerator

1 is a longitudinal sectional view schematically showing a configuration of a general refrigerator.

Figure 2 is an exploded perspective view showing a pin-tubular evaporator of a conventional refrigerator.

3 is a partially enlarged view of the fin-tubular evaporator of FIG. 2.

Figure 4 is an exploded perspective view showing a pin-tubular evaporator of the refrigerator to which the present invention is applied.

5 is a partially enlarged view of the evaporator showing a contact state between the cooling fin and the surface heater of the present invention.

* Explanation of symbols for main parts of the drawings

6: Evaporator

  61: refrigerant pipe 62: cooling fin

  63: support 64: heater bonding collar

  65: Tanji part

12: surface heater 12a: heating wire

The present invention relates to a fin-tubular evaporator of a refrigerator, and more particularly, it is possible to increase the heat transfer area between a plurality of cooling fins and planar heaters spaced apart from the outside of a refrigerant pipe constituting the fin-tubular evaporator of the refrigerator. So that it relates to a fin-tubular evaporator of a refrigerator.

In general, the refrigerator is configured to be able to freeze and refrigerate food in the refrigerator by changing the state of the refrigerant according to the principle of the refrigeration cycle that continuously performs the process of compression, condensation, expansion, and evaporation. As shown.

1 is a vertical cross-sectional view schematically showing a configuration of a general refrigerator. In the refrigerator main body 1, a freezer compartment 3 and a refrigerating compartment 4 are separated up and down by an intermediate partition 2, and the freezer compartment 3 And a freezing compartment door 3a and a refrigerating compartment door 4a are hinged to the front of the refrigerator compartment 4 and the refrigerator compartment 4, respectively, and a cooling compartment including an evaporator 6 and a blower fan 7 at the rear side of the freezer compartment 3. (5) is formed.

In addition, a freezer compartment return duct 21 and a refrigerator compartment return duct 22 are formed in the partition wall 2 to allow the air in the freezer compartment 3 and the refrigerating compartment 4 to be sucked and returned to the cooling chamber 5. On the rear side of the refrigerating compartment 4, a cold air duct 8 which communicates with the freezing compartment 3 and has a plurality of cold air discharging openings 8a at the front side is provided, and the machine room M at the lower rear side of the refrigerator main body 1 is provided. ), A compressor 9 and a condenser (not shown) are installed.

Meanwhile, air in the freezing compartment and the refrigerating compartment is sucked into the cooling compartment 5 through the freezing compartment return duct 21 and the refrigerating compartment return duct 22 of the partition wall 2 by the blowing fan 7 of the cooling compartment 5 and the evaporator. Heat exchange with (6) is performed, and the process of discharging to the freezer compartment and the refrigerating compartment through the cold air outlet 8a of the cold air duct 8 is repeatedly performed, wherein the surface of the evaporator 6 has the freezer compartment return duct ( 21) and frost are implanted due to the temperature difference with the circulating air in the reflowed air through the refrigerating chamber return duct (22).

In addition, a defrost heater 10 is provided at the lower side of the evaporator 6 to remove frost, and the defrost water is defrosted on the lower side of the refrigerator main body 1 through the defrost water discharge pipe 11 (not shown). ) Will be collected.

As shown in FIG. 2, the evaporator 6 is formed of a plurality of flat plates made of aluminum on the outside of the refrigerant pipe 61 formed in two rows to form a plurality of stages by repeatedly bending one copper pipe in a sand shape. A plurality of cooling fins 62 are fixed at regular intervals, and both ends of the refrigerant pipe 61 are formed by a fin-tubular evaporator supported by the support 63.

In addition, the surface heater 12 is provided as a defrost heater for removing frost formed on the surface of the evaporator 6, the surface heater 12 is in contact with both side portions of the cooling fin (62).

However, since the side surface of the cooling fin 62 forms a vertical straight line with respect to the refrigerant pipe 61 as shown in FIG. 3, the cooling fin 62 and the surface heater 12 are in line contact. Since the heat transfer area is narrow.

Therefore, the defrosting efficiency of the planar heater to the evaporator is not only deteriorated, but when external pressure is applied to the planar heater, the hot wire of the planar heater is likely to be disconnected by the cooling fin, and the contact between the cooling fin and the planar heater is high. There is a problem in that the plane heater is separated from the cooling fins resulting in product defects.

In addition, the conventional evaporator is not provided with a means that can have a support function between the cooling fins while maintaining the gap between the cooling fins so that the cooling fins do not maintain the gap by external force or impact during fin processing or transportation. There was a problem causing product defects such as deformation or collapse.

Accordingly, the present invention has been made to solve the conventional problems as described above, the purpose of which is the heat transfer between the cooling fins and the surface heater fixed a plurality of intervals on the outside of the refrigerant pipe constituting the fin-tubular evaporator of the refrigerator To increase the area.

In addition, it is an object of the present invention to maintain the distance between the cooling fins while increasing the contact area between the cooling fins and the surface heater as described above.

In addition, it is an object of the present invention to prevent the cooling fins from being deformed by an external impact applied to the cooling fins together with the increase of the contact area and the space between the cooling fins as described above.

In order to achieve the object of the present invention, in the fin-tubular heat exchanger of the refrigerator, in which a plurality of cooling fins contacted with the planar heater are fixed at intervals on the outside of the refrigerant pipe which is repeatedly bent in a sand shape to form a multi-stage. A fin-tubular heat exchanger of a refrigerator is provided, which comprises means for expanding the contact surface of the cooling fins in contact.

In addition, the expansion means is characterized in that it comprises means for supporting the cooling fins with each other.

In addition, the expansion means is characterized in that it comprises a buffer means for the cooling fins.

In addition, one end of the heater bonding collar is fixed to the contact surface of the cooling fins; The other end of the heater bonding collar is formed to have a length corresponding to the interval between the cooling fins is configured to support the adjacent cooling fins; The other end of the heater bonding collar is bent inwardly to be inclined to constitute a carbon portion.

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

4 is a perspective view of an evaporator showing one embodiment of the present invention.

In general, the evaporator 6 of the refrigerator has a plurality of cooling fins 62 made of an aluminum flat plate on the outside of the refrigerant pipe 61 formed in two rows by repeatedly bending one copper pipe in a sand shape. A plurality of fixed intervals are provided, and both ends of the refrigerant pipe 61 are formed by a fin-tubular evaporator supported by the support 63.

In addition, the surface heater 12 is provided as a defrost heater for removing frost formed on the surface of the evaporator 6, and the surface heater 12 is in surface contact with both side portions of the cooling fin 62.

In the fin-tubular evaporator of such a refrigerator, the present invention provides a means for expanding the contact surface of the cooling fins 62 in contact with the planar heater 12, and for this purpose, the contact surfaces of the cooling fins 62. Heater adhesive collar 64 is formed integrally to extend the contact surface of the cooling fins in contact with the planar heater 12, the heater adhesive collar 64 is the same material as the cooling fins 62 formed of aluminum In addition to being formed to have a length corresponding to the cooling fins (62).

And, as a means for having a support function between the cooling fins 62 by using a heater bonding collar 64, one side of which is fixed to the cooling fins 62, the heater bonding collar 64 is cooled It is formed to a length corresponding to the interval between the fins 62, and formed to form a right angle with respect to the cooling fins 62 will have a structure that can support each other cooling fins 62.

In addition, when an external force acts on the cooling fins 62, a means for supporting the cooling fins 62 with an elastic force corresponding to the force, one side is fixed to the cooling fins 62, the other side is the cooling An end side of the heater bonding collar 64 formed at a length corresponding to a distance between the cooling fins 62 at right angles with the fins 62 is formed to be inclined inward to constitute the tungsten part 65. 65 is to be in contact with the adjacent cooling fins 62 by folding the length of 2mm to 30 °, it is possible to change without being limited thereto.

According to the present invention configured as described above, since the cooling fins 62 including the heater bonding collar 64 and the planar heater 12 are in surface contact, the heat transfer area may be increased, and the contactability may be improved.

In addition, the heater bonding collar 64 is formed at a length corresponding to the distance between the cooling fins 62 at a right angle with the cooling fins 62 to support the adjacent cooling fins 62 to thereby support the cooling fins 62. It is possible to maintain the interval between 62).

In addition, the support part 65 formed on the end side of the heater attaching collar 64 elastically supports the cooling fin 62 at all times, thereby providing a cushioning function against external force or impact applied to the cooling fin 62. By having it will be able to prevent deformation of the cooling fins together.

As described above, the present invention allows the cooling fin and the surface heater to be in surface contact to increase the heat transfer area of the surface heater with respect to the cooling fin, thereby improving the defrosting efficiency of the surface heater for the evaporator as well as the surface heater. There is no risk of disconnection to hot wires, and the adhesion between the cooling fins and the planar heaters is improved, and thus there is an effect of eliminating product defects due to the separation between the cooling fins and the planar heaters.

In addition, as described above, the heat transfer area of the cooling fin with respect to the surface heater is increased, thereby reducing the width of the cooling fin so that the same performance as the existing fin-tubular evaporator can be exhibited. There is an effect that the efficiency of space utilization and the size of the device can be reduced.

In addition, the present invention can prevent the deformation or collapse of the cooling fins generated during processing or transportation of the fins by providing a support function between the cooling fins while maintaining the interval between the cooling fins can improve the quality of the product There is also an advantage.

Claims (4)

delete delete The cooling fins and means for extending the contact surface of the cooling fins in contact with the planar heater are fixed at intervals on the outer side of the refrigerant pipe forming a multi-stage repeatedly bent in a sand shape, and the cooling fins In a fin-tubular heat exchanger of a refrigerator comprising means capable of supporting each other, The expansion means is a fin-tubular heat exchanger of the refrigerator, characterized in that the buffer means for the cooling fins. The method of claim 3, The expansion means is configured such that one end of the heater bonding collar is fixed to the contact surface of the cooling fins; The support means is configured to support the adjacent cooling fins by forming the other end of the heater bonding collar to a length corresponding to the interval between the cooling fins; The buffer means is a fin-tubular heat exchanger of the refrigerator, characterized in that the other end of the heater bonding collar bent inclined inward to constitute a carbon portion.

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