KR100558818B1 - The rexam heater for defrosting and excluding remain ice of a refrigerator - Google Patents

Abstract

The present invention relates to a surface heater of a refrigerator, and more particularly, to remove defrost and defrost on the evaporator by heating the surface heater in contact with both sides of the evaporator and the bottom surface of the lower side drain plate of the evaporator. The present invention relates to a surface heater for removing defrost residue of a refrigerator, which is capable of more reliably removing residual ice by the surface heater, wherein the first defrost heater and the second defrost heater are in contact with both sides of the evaporator, and the defrost water discharge side. In the planar heater consisting of a residual ice removal heater which has a drain hole corresponding to the said defrost water discharge pipe, and which contacted the bottom surface of an inclined drain plate, the concentrated heating part which densely arranged the heating wire near a drain hole in the said residual ice removal heater. The defrosting water drainage can be formed so that the vicinity of the defrost water discharge pipe of the drainage dish at the time of defrosting can be heated. Residual ice near the pipe can be removed more reliably, which can eliminate the clogging and defrosting of the defrost water discharge pipe due to the residual ice, as well as reduce the power consumption by shortening the residual ice removal time due to the concentrated heating. Will have an effect.

First defrost heater, second defrost heater, residual ice removal heater, drain hole

Description

The rexam heater for defrosting and excluding remain ice of a refrigerator}

1 is a longitudinal sectional view schematically showing the internal configuration of a typical refrigerator.

Figure 2 is an exploded perspective view showing a state of use of the surface heater of the conventional refrigerator.

Figure 3 is a plan view of the expanded state showing the structure of the surface heater of a conventional refrigerator.

Figure 4 is an exploded perspective view showing the use of the surface heater of the refrigerator according to the present invention.

Figure 5 is a plan view of the expanded state showing the structure of the planar heater according to the present invention.

* Explanation of symbols for main parts of the drawings

12: cotton heater

121: heating wire 122: first defrost heater

123: second defrost heater 124: residual heater removal

124a: drainage 124b: incision

124c: intensive heating unit

The present invention relates to a surface heater of a refrigerator, and more particularly, to remove defrost and defrost on the evaporator by heating the surface heater in contact with both sides of the evaporator and the bottom surface of the bottom side drain plate of the evaporator. At the time, the present invention relates to a surface heater for removing defrost residue of a refrigerator, so that residual ice removal by the surface heater can be more reliably performed.

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 being discharged to the freezer compartment and the refrigerating compartment through the cold air discharge port 8a of the cold air duct 8 is repeatedly performed. 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).

And, in order to remove the frost defrost heater 10 is provided on the lower side of the evaporator (6), the defrost water is the defrost water receiver (not shown) of the lower side of the refrigerator main body 1 through the defrost water discharge pipe (11a) As the defrost heater 10 is used for collecting various types of heaters, the surface heater 12 having excellent defrost efficiency is mainly used.

FIG. 2 is an exploded perspective view illustrating a defrosting apparatus of a conventional refrigerator, and includes a planar heater 12 in which a thin heating wire 121 is arranged on a plane, and the planar heater 12 is in contact with both sides of the evaporator 6 to be heated. Is formed between the first defrost heater 122 and the second defrost heater 123, and the first defrost heater 122 and the second defrost heater 123 to heat the bottom surface of the drain plate (11). It consists of a heater 124 for removing residual ice.

The drainage plate 11 is formed of an upper opening cylinder in which a lower side is inclined toward the defrost water discharge pipe 11a, and is mounted on the upper side of the drainage plate 11 in a state in which the evaporator 6 is coupled to the surface heater 12. The defrost water falling from the evaporator 6 by heating the planar heater 12 is concentrated to the defrost water discharge pipe 11a and discharged to the outside.

Here, reference numeral 124a is a drain hole formed in the surface heater.

However, in the planar heater, when looking at the heating wire arrangement of the residual ice removing heater 124, it can be seen that the arrangement of the heating wire 121 is a uniform structure on the plane as shown in FIG.

Accordingly, the defrost residue remaining on the inlet side of the defrost water discharge pipe, that is, the drain hole side of the residual ice removal heater may not be completely removed. There was a problem causing waste of power consumption.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of the defrost for the evaporator by the heating of the surface heater in contact with both sides of the evaporator and the bottom surface of the drain plate of the lower side of the evaporator When the residual ice is removed for the over-drain plate, the residual ice by the surface heater can be more reliably removed.

In order to achieve the object of the present invention, the first defrost heater and the second defrost heater in contact with both sides of the evaporator, and the drain hole in contact with the bottom surface of the drain plate inclined toward the defrost water discharge pipe and corresponding to the defrost water discharge pipe In the planar heater composed of a residual ice removal heater having, the concentrated heating portion in which the heating wires near the drain holes are densely arranged in the residual ice removal heater is configured so that the vicinity of the defrost water discharge pipe of the drainage dish at the time of defrosting can be concentratedly heated. A surface heater for removing defrost residue on a refrigerator is provided.

In addition, the concentrated heating unit is characterized in that 50% of the heating wire is arranged within 30mm of the left and right sides of the drain hole.

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

Figure 4 is an exploded perspective view showing a state of use of the surface heater of the refrigerator according to the present invention.

Typically, the planar heater 12 is composed of a first defrost heater 122 and a second defrost heater 123 for heating in contact with both sides of the evaporator (6), between the bottom plate of the drainage plate 11 The residual ice removing heater 124 which is in contact with and heated is integrally formed. The residual ice removing heater 124 has a drain hole 124a corresponding to the defrost water discharge pipe 11a of the drainage plate 11 and has an incision. The three sides are cut by 124b and only one side is connected.

The first defrost heater 122, the second defrost heater 123, and the remaining ice removing heater 124 are formed in a structure in which thin hot wires 121 are arranged on a surface thereof.

In the surface heater of such a refrigerator, the present invention is characterized in that the heating wire 121 is intensively arranged at a portion where the drain hole 124a is located as shown in FIG. 5.

In general, since the lower side of the drainage plate 11 has a structure inclined toward the defrosting water discharge pipe 11a, the remaining ice away from the upper side evaporator 6 during the defrosting rides down the slope of the drainage plate 11 and the defrosting water discharge pipe 11a. Since it is concentrated on the side of the defrost water discharge pipe (11a) is required a large amount of heat for the actual residual ice removal.

Accordingly, in the present invention, three surfaces are cut off by the cutout 124b between the first defrost heater 122 and the second defrost heater 123 that are in contact with both sides of the evaporator 6 and are heated. The concentrated heating part 124c was formed by intensively arranging the heating wire 121 by 50% within 30 mm on both sides of the drain hole 124a of the removal heater 124, that is, the left and right sides of the drain hole 124a. The figures of 30 mm and 50% are not limited or characterized, so it is possible to change the figures somewhat.

The planar heater 12 of the present invention configured as described above has a first defrost heater 122 and a second defrost heater 123 formed at both left and right sides, as shown in FIG. One side defrost heater 124 connected to the first defrost heater 122 and the second defrost heater 123 is formed, the first defrost heater 122 and the second defrost heater 123 is an evaporator. In contact with both sides of the (6) to perform a defrost function for the evaporator (6), the residual ice removing heater 124 is in contact with the bottom surface of the drain plate (11) by heating The remaining ice removal function for the water discharge pipe 11a is performed.

At this time, the concentrated heating unit 124c formed in the residual ice removing heater 124 separates the residual ice concentrated on the defrost water discharge pipe 11a side of the drainage plate 11 away from the upper side evaporator 6 during defrosting. It is possible to reliably remove defrost residue.

As described above, the present invention can reliably completely remove the residual ice near the defrost water discharge pipe by configuring a heater for removing the residual ice of the surface heater so that the vicinity of the defrost water discharge pipe of the drainage plate where the residual ice is concentrated can be heated intensively. Not only can the clogging phenomenon and the defrosting of the purified water discharge pipe due to residual ice be solved, but also the power consumption can be reduced by shortening the residual ice removal time due to the concentrated heating.

Claims (2)

Surface heater comprising a first defrost heater and a second defrost heater in contact with both sides of the evaporator, and a residual ice removal heater having a drain hole corresponding to the defrost water discharge pipe and in contact with the bottom surface of the drain plate inclined toward the defrost water discharge pipe. To The surface heater for removing defrost residue on a refrigerator, characterized in that the concentrated heating unit is formed in the heater for removing residual ice, in which a heating line in the vicinity of the drain hole is densely arranged so that the vicinity of the defrost water discharge pipe of the drainage dish during defrosting can be concentrated. The method of claim 1, The concentrated heater is a surface heater for removing the defrost remaining ice of the refrigerator, characterized in that 50% concentrated heating wires within 30mm of the left and right sides of the drain hole.

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