KR20040035228A - Defrosting method and device of refrigerators - Google Patents

Abstract

PURPOSE: A method and a device for defrosting a refrigerator are provided to carry out pre-frosting for reducing the frost stacking on an evaporator by removing moisture from air primarily via a pre-froster. CONSTITUTION: A device for defrosting a refrigerator includes pre-frosters(5) through which air in the refrigerator passes before contacting an evaporator(7). While passing through the pre-frosters, moisture is removed from the air introduced from the outside. Each of the pre-frosters is formed of a plurality of fins. The moisture contained in the air is stacked to the fins as frost. The frost stacked on the pre-frosters and the evaporator is removed by a heater(2) and air circulation in a closed loop.

Description

Defrosting method and device of refrigerators

The present invention relates to a method for removing frost accumulated in an evaporator of a refrigerator during an operation of the refrigerator and an apparatus thereof.

During the operation of the refrigerator, frost accumulates in the evaporator while the air inside the refrigerator passes through the low temperature evaporator and the frost accumulates in the evaporator. To reduce the performance, frost accumulated in the evaporator must be removed in a timely manner in order to operate the refrigerator continuously under constant efficiency.

In connection with this problem, the defrost heater is conventionally attached to the refrigerant pipe to conduct heat generated from the heater through the fins and to remove frost accumulated in the evaporator using the conduction heat. However, in the method in which the heater contacts the fins and removes the frost accumulated on the fins by conducting heat transfer using conduction, in the process of melting the frost accumulated on the fins, the heater starts to melt from the periphery of the heater and the surface of the fin and is relatively far from the heater. The frost does not melt well for a long time, or the heat of the heater is transferred to the fin, the contact between the fin and frost is broken, the excess power is supplied to the frost melting energy consumption is increased. In addition, the contact between the pin and frost is broken, so that the frost does not melt and remains as a mass, or the mass falls down and accumulates in the drip tray and it takes a considerable time to melt it. In order to solve this problem, methods have been devised to remove the frost of the evaporator by circulating the air through the fan by installing a heater separated from the evaporator, but in the conventional defrosting method using air, the flow direction of the air is the evaporator. It is designed from the bottom to the top, and since the heater is located at the bottom of the evaporator, when the air flows from the bottom to the top, the water dissolved in the frost will fall down without any defrosting process and the defrosting effect cannot be seen. However, the residual heat remaining in the heater after the defrosting process was completed could not be blocked from the evaporator and the air in the oven immediately after the defrosting was completed.

The present invention solves the above problems caused by the existing defrosting apparatus, and also by removing the moisture contained in the air primarily by passing the air in the high pass through the pre-froster consisting of a plurality of fins before passing through the evaporator The aim is to make defrosting more efficient by introducing prefrosting which significantly reduces the frost accumulated on the evaporator. In other words, the air in the refrigerator passes through the pre-froster before passing through the evaporator for cooling to remove some of the moisture contained therein.

1 is a part of a schematic side cross-sectional view of a refrigerator equipped with a defrosting device according to the present invention

2 is a perspective view schematically showing the flow of air in the prefroster in a closed loop

3 is a side view showing the circulation of air during normal operation and during defrosting

4 is a configuration diagram of the prefroster (front view, perspective view, side view)

As described above, the present invention is configured to remove some of the moisture contained in the air by passing the prefroster before the air in the refrigerator contacts the evaporator.

The prefroster is composed of a number of fins, like a conventional heat exchanger. This preproster may be composed of a plate provided with a plurality of pins as shown in FIG. In this embodiment, the air in the refrigerator comes into contact with each fin as it descends from the top to the bottom of the prefroster during normal operation of the refrigerator, so that the moisture contained in the air accumulates as frost on the fin. As a result, the air passing through the prefroster contains a relatively small amount of moisture, which reduces the amount of frost that accumulates in the evaporator.

Then, during the defrosting operation of the refrigerator, an appropriate damper is attached around the defrosting device so that the heated air does not flow into the refrigerator during the defrosting process, and the air heated by the heater mounted around the evaporator forms a closed loop. It will cycle around the prefroster. Thus, the frost accumulated in the evaporator and the prefroster can be efficiently removed by the circulating air.

EMBODIMENT OF THE INVENTION Hereinafter, the defrosting method and apparatus of the refrigerator which concerns on one Embodiment of this invention are demonstrated based on FIGS.

As shown in FIG. 1, the defrosting apparatus according to the present invention is located at the rear of the refrigerator 6, and a passage 1 through which air is circulated is provided at the side of the evaporator 7, and the passage 1 The plate (9), which can be divided into compartments, is placed, the heater (2) for heating the air in the defrosting process, the circulation fan (3) for circulating the heated air, and the air in the refrigerator during the defrosting process It includes a rotatable damper 4 located above the evaporator to block air. In addition, it includes a preproaster (5) having a structure in which frost can accumulate in order to primarily remove moisture contained in the air flowing from the refrigerator, and a discharge port (9) for discharging the defrost water.

In normal operation, the position of the damper 4 is moved to the position shown by the solid line so that the air in the refrigerator can circulate back into the refrigerator 6 through the preproster 5 and the evaporator 7 (see FIG. 2 above). The circulation of one air is shown on the preproster 5), and during the defrosting operation, the position of the damper 4 moves to the position shown by the dotted line to circulate the evaporator 7 and the preproster 5. To form a closed loop.

When the defrosting operation is started, the circulation fan 3 is rotated in reverse. At this time, heat is conducted by the heater 2 to the evaporator 7 and the prefroster 5, and at the same time, the air heated by the heater 2 forms a closed loop and circulates (closed loop in FIG. 3). The cycle which makes up is shown by the dotted line). Thus, the frost accumulated in the preproster 5 and the evaporator 7 is removed by the heated air circulating, forming a closed loop and the heat conducted by the heater.

In addition, the shape of the preproster is not necessarily limited to the above embodiment, but may be possible as long as there are a plurality of pins so that frost can accumulate thereon. That is, in the above embodiment, the preproster is integrally formed with the heater, but the preproster, which is the invention of the present invention, has a function capable of primarily removing moisture in the air before frost accumulates in the evaporator. It may be separated from the heater and may be formed integrally with the evaporator.

By rotating the circulation fan in a reverse direction to direct the flow of air from the top to the bottom, the water generated in the process of melting the frost accumulated in the evaporator flows from the top of the evaporator to the bottom of the evaporator. The heat can be used to secondaryly remove the frost remaining at the bottom of the evaporator.

Furthermore, the air in the refrigerator is first defrosted by the pre-froster to reduce the moisture content of the circulated air and then pass through the evaporator, thereby reducing the amount of frost accumulated in the evaporator, and consequently extending the operating time of the refrigerator and reducing the number of defrosts. Due to this has the effect of reducing the energy consumption of the refrigerator.

Claims (4)

In the defrosting method of the refrigerator to remove frost accumulated in the evaporator of the refrigerator, A method of defrosting a refrigerator, characterized in that the air in the refrigerator passes through a prefroster and passes through an evaporator during normal operation of the refrigerator. In the defrosting method of the refrigerator according to claim 1, The defrosting method of the refrigerator characterized by circulating the air heated by the heater in the defrosting operation to the surroundings of the evaporator and the preproster, wherein the air circulating around the evaporator and the preproster and the air in the refrigerator are blocked. . In the defroster of the refrigerator for removing the frost accumulated in the evaporator of the refrigerator, The defroster includes a prefroster, A defroster of a refrigerator, characterized in that the air in the refrigerator passes through the prefroster and passes through the evaporator during normal operation of the refrigerator. In the defrosting apparatus of the refrigerator according to claim 3, The defrosting device includes a blower for circulating air around the evaporator during the defrosting operation; A heater for heating air circulating around the evaporator, And a damper to block air circulating around the evaporator and air in the refrigerator.