KR20000006563U - Drain tank of the refrigerator - Google Patents

Abstract

The present invention relates to a drain tank of a refrigerator, and an object thereof is to improve the drain tank provided under the evaporator to facilitate the installation of the pipe heater.

The drain water tank 30 of the refrigerator according to the present invention is installed below the evaporator 10 so that the defrost water generated in the evaporator 10 is collected and discharged to the outside, and the pipe heater 20 under the drain water tank 30. The mounting groove 31 is recessed in the longitudinal direction so as to be installed therein. Therefore, assembling the pipe heater 20 into the mounting groove 31 facilitates assembly thereof, and also has good thermal conductivity due to the surface contact between the pipe heater 20 and the drain water tank 30 so that the remaining ice is easily melted and removed. There is an advantage.

Description

Drain tank of the refrigerator

The present invention relates to a drain water tank of a refrigerator, and more particularly, to a pipe heater installation structure of a drain water tank in which evaporator defrost water is collected.

Refrigerators are generally configured to supply cold air generated from an evaporator of a refrigeration cycle to a freezer compartment and a refrigerating compartment to maintain freshness of various foods for a long time.

In the general refrigerator having such a function, a storage compartment having an open front is formed in a cabinet constituting an outer body, and a door for opening and closing the storage compartment is hinged to the cabinet front part.

Behind the storage chamber is formed a separate cooling chamber for generating cold air to supply the storage chamber. It includes an evaporator that generates cold air, a circulation fan that flows into the evaporator of the storage compartment, and forcedly blows the generated cold air. In addition, a cold air duct in which cold air outlet holes are arranged to guide the cold air to the storage chamber and a return duct for guiding the storage chamber air sucked by the circulation fan to the evaporator are formed.

When power is supplied from the refrigerator configured as described above and the circulation fan is operated, the storage chamber air flows into the lower part of the evaporator through the return duct, which passes through the evaporator to the cold, and is continuously forced into the storage chamber through the cold air duct, The food stored therein is stored frozen and refrigerated, respectively. The heat exchanged air in the storage compartment flows into the evaporator through the return duct to be cooled again.

On the other hand, in the cold air circulation process, the air introduced from the storage chamber through the return duct is relatively hot and humid. Therefore, when the air in the cold refrigerating chamber is in contact with the evaporator having a relatively low temperature, moisture is condensed and freezing occurs, thereby reducing its heat exchange efficiency and increasing the temperature of the freezing compartment and the refrigerating compartment above a predetermined temperature.

In order to solve this problem, a pipe heater for defrosting is installed in the evaporator, and a drain tank for collecting defrost water under the evaporator is discharged to the outside. Also in the drain water tank 1, the pipe heater 2 is extended as shown in FIG. That is, the pipe heater 2 is wired in the longitudinal direction to the bottom of the drain water tank 1 in which the center part is recessed, and this is fixed using the bracket 3 and the rivet 4. Both ends of the bracket 3 are provided with a fixing portion 3a which is bent to cover the pipe heater 2 from the top, and a rivet fastening hole 3b is drilled in the center thereof. Therefore, the pipe heater 20 is disposed at the bottom of the drain water tank 1, and the bracket 3 is covered on the upper portion thereof. When the end of the rivet 4 is inserted into and fastened to the fastening hole 3b, the pipe heater 2 is firmly wired to the bottom of the drain water tank 1.

In the refrigerator equipped with such an evaporator (not shown) and the drain water tank (1), if the freezing phenomenon is increased in the evaporator, defrosting operation should be performed. First, the operation of the compressor and the circulation fan supplying the refrigerant gas to the evaporator is stopped and the pipe heater ( 2) is operated for the set time to perform defrosting work by indirect heat transfer. And when the defrosting operation of the set time is completed, the compressor is driven first, and after a predetermined time, the circulation fan is operated again to blow the cool air generated in the evaporator to the freezer compartment and the refrigerating compartment.

The defrost water generated in the evaporator during the defrosting operation is guided to the drain tank 1 and discharged to the outside through a drain hose (not shown). At this time, the heat of the pipe heater 2 is transferred to the drain water tank 1, and the remaining ice melts and is discharged to the outside.

However, the conventional drain water tank 1 is in contact with the pipe heater 2 is not in close contact with the bottom, the thermal conductivity is reduced, the residual ice is generated on the surface of the drain water tank 1, due to the accumulation of performance degradation and poor defrosting The phenomenon may occur. In addition, since the pipe heater 2 is fixed by the bracket 3 and the rivet 4, there is a problem that the workability is lowered as well as the production cost thereof is increased.

The present invention is to solve this problem, an object of the present invention is to form a recess recessed in the longitudinal direction through the forming process on the lower surface of the drain tank is installed in the lower part of the evaporator to collect the defrost water and to form a pipe heater It is to provide a drain water tank of the refrigerator which improves the assemblability of the pipe heater, facilitates heat transfer, and removes the residual ice of the drain water tank by internally.

1 is a perspective view schematically showing a conventional drain bath.

Figure 2 is a schematic diagram showing the installation structure of the drain tank and the evaporator according to the present invention.

Figure 3 is a bottom perspective view of a drain tank equipped with a pipe heater according to the present invention.

Figure 4 is a cross-sectional view taken along the line AA of Figure 3, showing the mounting structure of the pipe heater.

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

10. Evaporator 20. Pipe heater

30. Drain water tank 31. Mounting groove

The present invention for achieving the above object is an evaporator for generating cold air supplied to the storage compartment, a refrigerator provided with a drain tank provided in the lower end of the evaporator is a defrost water is collected and the pipe heater is wired to remove residual ice,

The drain bath is characterized in that the pipe heater is fitted is coupled to the surface contact is provided with a mounting groove formed concave in the longitudinal direction.

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

2 is a front view showing an installation state of the evaporator and the drain tank according to the present invention, Figures 3 and 4 are a cross-sectional view showing a perspective view of the drain tank and the mounting structure of the pipe heater according to the present invention.

As shown in the evaporator 10 for generating cold air supplied to the freezer compartment and the refrigerating compartment, a plurality of heat exchange fins 11 stacked at regular intervals, and a refrigerant tube 12 and a refrigerant tube banded to pass through the same several times. (12) is made up of a large number of side plates (13) which are penetrated several times and screwed to the cooling chamber. And a pipe heater 20 for defrosting is installed, which is wired in the transverse direction to the heat exchange fin 11 of the evaporator 10, a part of which extends to the drain tank 30 provided under the evaporator 10. .

The lower part of the evaporator 10 is configured with a drain water tank 30 for collecting defrost water generated during defrosting operation and a drain hose 40 for discharging the defrost water to the outside. The drain tank 30 is spaced apart from the lower end of the evaporator 10 by a predetermined interval, the upper end is open to accommodate the entire lower end, and the center is recessed to recess the end of the drain hose 40 is coupled.

The drain water tank 30 is equipped with a pipe heater 20 to prevent freezing of the surface of the drain water tank 30 when the evaporator 10 is defrosted, and for this purpose, mounting grooves 31 recessed in the lower surface thereof are formed in parallel. have. Mounting groove 31 is a characteristic element of the present invention is formed in the longitudinal direction on the lower surface of the drain tank 30, the pipe heater 20 extending to a predetermined length is formed into a semi-circular shape so that the surface contact is combined Is done. Therefore, when the pipe heater 20 is inserted into the mounting groove 31 and fixed with aluminum tape, the assembly thereof is simple and the remaining ice generated during defrost is melted by the heat conducted from the pipe heater 20 and discharged to the outside.

Next, the operation of the refrigerator evaporator and the drain tank configured as described above and the effects thereof will be described. First, when the refrigerator equipped with the evaporator 10 and the drain tank 30 according to the present invention is operated for a long time, since the air introduced from the refrigerating chamber to the lower part of the evaporator 10 is relatively high in temperature and humid, the evaporator ( In contact with 10) moisture condenses. As a result, freezing is formed on the heat exchange fins 11 and the refrigerant pipe 12, thereby reducing the thermal efficiency and increasing the freezing compartment and the refrigerating compartment above a set temperature.

Therefore, the pipe heater 20 installed in the evaporator 10 is operated to perform defrosting operation. That is, after the operation of the compressor and the circulation fan is stopped, the pipe heater 20 is operated for a predetermined time to perform defrosting of the heat exchange fins 11 and the refrigerant pipe 12 of the evaporator 10 as conductive heat. This defrosting operation is programmed in advance in the microcomputer (not shown). When the defrosting operation is completed, the compressor operates first, and after a predetermined time, the circulation fan is operated again to supply the cold air to the freezing compartment and the refrigerating compartment.

Meanwhile, defrost water and residual ice generated during defrosting operation are collected in the drain water tank 30 and discharged to the outside through the drain hose 40. In addition, since the pipe heater 20 is also embedded in the drain tank 30, the remaining ice is easily melted and drained to the outside. Residual ice removal is made because the pipe heater 20 is in surface contact with the mounting groove 31, the heat conduction to the surface of the drain tank 30 is good, and the freezing phenomenon does not occur on the surface of the drain tank (30).

The pipe heater 20 embedded in the drain water tank 30 is easily assembled through the mounting groove 31, and due to the surface contact of the pipe heater 20, good thermal conductivity does not leave ice in the drain water tank 30. .

As described above in detail, the drain tank of the refrigerator according to the present invention is installed in the lower part of the evaporator so that defrost water generated in the evaporator is collected and discharged to the outside. A groove mounting groove is formed.

Therefore, assembling the pipe heater into the mounting groove facilitates assembly thereof, and also has good thermal conductivity due to the surface contact between the pipe heater and the drain bath, so that residual ice is easily melted and removed.

Claims (1)

In the refrigerator having an evaporator 10 for generating cold air to be supplied to the storage compartment, a drain tank 30 is provided in the lower end of the evaporator 10, the defrost water is collected and the pipe heater 20 is wired to remove the remaining ice, The drain tank 30 is a drain tank of the refrigerator, characterized in that the pipe heater (20) is fitted is coupled to the surface contact is provided with a mounting groove 31 formed concave in the longitudinal direction.