KR100379166B1 - Apparatus for flowage of cool air in side by side type refrigerator - Google Patents

Abstract

The present invention relates to a cold air flow device of the refrigerator, the present invention is provided in the cooling chamber provided on the rear side of the freezer compartment to form cold air, and the cold air formed on the top of the cooling chamber formed through the evaporator in the freezer compartment And a cooling air fan respectively supplied to the refrigerator compartment, a discharge duct formed at an upper end of the partition wall formed between the cooling chamber and the refrigerating chamber, and discharging cold air supplied by the cold fan to the refrigerating compartment, and formed at a lower end of the partition wall. A return duct for supplying cold air circulated to the evaporator side of the cooling chamber, and a return fan installed in the return duct to smoothly flow the air flowing into the refrigerating chamber. By smoothly preventing the flow of cold air into the refrigerating chamber due to the concept of the evaporator is prevented At the same time that the actual temperature is kept constant is one that improves the cooling performance of the refrigerator becomes possible to rapidly cool the refrigerating chamber according to the user's needs.

Description

Cold air flow device of side by side type refrigerator {APPARATUS FOR FLOWAGE OF COOL AIR IN SIDE BY SIDE TYPE REFRIGERATOR}

The present invention relates to a side-by-side type refrigerator, and in particular, by installing a return fan in a return duct formed at a lower end of the partition wall between the refrigerating compartment and the cooling compartment, a cold flow of the side-by-side type refrigerator that facilitates the flow of cold air introduced into the refrigerating compartment. Relates to a device.

Recently, as the demand for a side-by-side type refrigerator having a refrigerator, a freezer, an automatic ice maker, and the like grows, the functions thereof become more diverse. In this case, the complex refrigerator generally refers to a refrigerator having a relatively large capacity and having various functions in combination.

1 is a block diagram showing the structure of a typical side-by-side type refrigerator, Figure 2 is a block diagram showing the cold air flow path of the freezer compartment and the refrigerating compartment in the side-by-side type refrigerator, respectively, (a) is the cold air of the freezer compartment Side view showing the flow path, (b) is a configuration diagram showing the cold air flow path of the freezer compartment and the refrigerating compartment in three dimensions, (c) is a side view showing the cold air flow path of the refrigerating compartment, Figure 3 is a side-by-side type refrigerator according to the prior art The cold air flow device of FIG.

1 and 2, the side-by-side type refrigerator includes a freezing compartment F formed long up and down, and a refrigerating compartment R having the same length on the side surface of the freezing compartment F. Referring to FIGS.

In addition, the rear side of the freezing chamber (F) is provided with a cooling chamber (E) provided with an evaporator (1) for providing cold air through heat exchange with the refrigerant, the upper side of the cooling chamber (E) provided from the evaporator (1) The cold air fan 3 which inhales cold air and supplies it to the said freezer compartment F and the refrigerator compartment R is provided.

In addition, as shown in FIG. 3, the upper end of the partition 5 formed between the cooling chamber E and the refrigerating chamber R discharges the cold air supplied by the cold air fan 3 into the refrigerating chamber R. A duct 7 is formed, and a return duct 9 is formed at the lower end of the partition 5 to supply the cold air circulated inside the refrigerating chamber R to the evaporator 1 side of the cooling chamber E again. .

In the side-by-side type refrigerator configured as described above, when cold air is first formed through heat exchange with the refrigerant in the evaporator 1 of the cooling chamber E, the cold air fan 3 is operated to cool the air by the cold air fan 3. Are supplied to the freezer compartment F and the refrigerating compartment R, respectively.

Thereafter, the cold air circulated in each of the freezing compartment F and the refrigerating compartment R is supplied to the cooling chamber E having the evaporator 1 again along a flow path formed at the bottom of the refrigerator.

At this time, the cool air supplied to the refrigerating chamber (R) is discharged through the discharge duct (7) formed on the upper end of the partition wall (5), and then through the return duct (9) formed on the lower end of the partition wall (5) Return to E).

Thereafter, as the above process is repeated continuously, the temperatures of the freezer compartment F and the refrigerating compartment R are kept at a low temperature.

However, when the phenomenon of the frost is formed on the surface of the evaporator 1 while the refrigerator is operating as described above, the distribution of the air volume supplied to the freezer compartment F and the refrigerating compartment R is changed, and the refrigerator compartment after some time. The pressure of R becomes greater than the suction pressure of the freezing chamber F, so that the flow of cold air to the refrigerating chamber R is blocked.

Therefore, the cold air flow device of the conventional side-by-side type refrigerator as described above has a cold air flow to the refrigerating chamber (R) due to a change in the air volume distribution supplied to the freezer compartment (F) and the refrigerating chamber (R) when the evaporator (1) is implanted. Because of this blockage, the temperature of the refrigerator compartment R is continuously increased until the evaporator 1 is defrosted, and the flow of cold air is also lost, resulting in deterioration of food stored in the refrigerator compartment R. There was a problem.

The present invention has been made in order to solve the above problems, by preventing the flow of cold air flow into the refrigerating chamber due to the concept of the evaporator by smoothing the flow of the cold air flowing into the refrigerating chamber is maintained a constant temperature of the refrigerating chamber At the same time, an object of the present invention is to provide a cold air flow device of a side-by-side type refrigerator that enables rapid cooling of a refrigerating compartment according to a user's need, thereby improving cooling performance of the refrigerator.

1 is a configuration diagram showing the structure of a typical side-by-side type refrigerator;

2 is a configuration diagram showing the cold air flow path of the freezer compartment and the refrigerating compartment, respectively, in the side-by-side type refrigerator.

(a) is a side view showing the cold air passage of the freezer compartment,

(b) is a block diagram showing three-dimensional cold air flow path of the freezer compartment and the refrigerating compartment,

(c) is a side view showing the cold flow path of the refrigerating compartment,

3 is a configuration diagram showing a cold air flow device of a side-by-side type refrigerator according to the prior art,

4 is a configuration diagram showing a cold air flow device of a side-by-side type refrigerator according to the present invention,

5 is a block diagram illustrating a cold air flow device of a side-by-side type refrigerator according to the present invention.

<Description of the symbols for the main parts of the drawings>

51: evaporator 53: cold fan

55: bulkhead 57: discharge duct

59: return duct 61: return fan

63: Function Key 65: Capacitor

67: refrigeration lamp

According to the present invention for achieving the above object, the evaporator is installed in the cooling chamber provided on the rear side of the freezing chamber to form cold air, and the cold air formed at the upper end of the cooling chamber through the evaporator to the freezing chamber and the refrigerating chamber. A cold air fan to supply each, a discharge duct formed at an upper end of the partition wall formed between the cooling chamber and the refrigerating chamber to discharge cold air supplied by the cold air fan to the refrigerating chamber, and a lower end of the partition wall to circulate the refrigerating chamber. A return duct for returning cold air to the cooling chamber side in which the evaporator is installed, and a return fan installed in the return duct for smoothly returning the cold compartment side cold air to the cooling chamber side. A cold air flow device is provided.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is a block diagram showing a cold air flow device of the side-by-side type refrigerator according to the present invention, Figure 5 is a block diagram showing a cold air flow device of the side-by-side type refrigerator according to the present invention.

4 and 5, the cold air flow device of the side-by-side type refrigerator according to the present invention is provided in the cooling chamber provided on the rear side of the freezing chamber (F) to form cold air, and the cooling A cold air fan 53 installed at an upper end of the chamber to supply cold air formed through the evaporator 51 to the freezing compartment F and the refrigerating chamber R, and a partition wall 55 formed between the cooling chamber and the refrigerating chamber R. The discharge duct 57 formed at the upper end of the cooling fan 53 and discharging the cold air supplied by the cold air fan 53 to the refrigerating chamber R, and formed at the lower end of the partition wall 55 to circulate the refrigerating chamber R. A return duct 59 for supplying one cool air to the evaporator 51 side of the cooling chamber, and a return fan 61 installed in the return duct 59 to smoothly flow the air introduced into the refrigerating chamber. It is composed.

Here, the return fan 61 is reduced intake rate of cold air into the refrigerating chamber (R) due to the change in the distribution of air volume to the freezer compartment (F) and the refrigerating chamber (R) due to the concept of the evaporator 51, the temperature of the refrigerating chamber (R) is reduced It is configured to operate when raised above the set point.

In addition, the return fan 61 is operated by the function key 63 according to the user's needs is configured to enable rapid cooling of the refrigerating chamber (R).

In addition, the return fan 61 is connected to a capacitor 65 which is normally stored by the rotational force of the return fan 61 rotated by the cold air circulating the refrigerating chamber R and the cooling chamber.

In addition, the return fan 61 is configured to operate without an external power supply by receiving power from the capacitor 65 during power failure or forced driving.

In addition, the capacitor 65 may be connected to the refrigerating lamp 67 of the refrigerating chamber R, and may be configured to operate by supplying power to the refrigerating lamp 67 when the refrigerating chamber door is opened during a power failure. 67) It may be used in connection with other electrical equipment.

The cold air flow device of the side-by-side type refrigerator according to the present invention configured as described above is operated as follows.

First, when the phenomenon of the frost is formed on the surface of the evaporator 51 occurs, the distribution of the amount of air supplied to the freezer compartment F and the refrigerating chamber R by the cold fan 53 is changed, the refrigerator compartment R after some time ) Pressure is greater than the suction pressure of the freezing chamber (F) is blocked the flow of cold air to the refrigerating chamber (R).

As described above, when the flow of the cold air to the refrigerating chamber R is blocked, and the temperature of the refrigerating chamber R rises above the set value, the return fan 61 is operated.

Thereafter, the cold air inside the refrigerating chamber R sucked by the return fan 61 is discharged to the cooling chamber through the return duct 59, so that the pressure of the refrigerating chamber R is lowered. When lowered, the flow of cold air flowing into the refrigerating chamber (R) through the discharge duct 57 is smooth, so that the temperature of the refrigerating chamber (R) is lowered to the reference temperature.

At this time, the return fan 61 is ready to operate when 4 hours have elapsed after the defrost of the evaporator 51 is made, the temperature of the freezer compartment (F) is maintained at a reference temperature or less than -13 ℃ and the refrigerating compartment (R ) Is activated when the temperature of 10 ° C or more or 3 ° C per hour, and stops when the temperature of the refrigerating chamber (R) reaches the reference temperature lower limit.

In addition, the temperature of the freezer compartment (F) is sensed by the freezing sensor 69 installed in the freezer compartment (F), the temperature of the refrigerating compartment (R) is the upper refrigerating sensor installed on the upper and lower sides of the refrigerating compartment (R), respectively Detected by the 71 and the lower refrigeration sensor 73, the temperature of the refrigerating chamber (R) when the return fan 61 is stopped based on the temperature detected by the lower refrigeration sensor (73).

On the other hand, if it is necessary to quench the food stored in the refrigerating chamber (R) during operation of the refrigerator, the user operates the function key 63 mounted on the surface of the refrigerator.

When the function key 63 is operated as described above, the return fan 61 is operated to increase the amount of cold air suction into the refrigerating chamber R, thereby rapidly cooling the refrigerating chamber R.

At this time, the return fan 61 operated by the function key 63 is stopped when the temperature of the freezing chamber F becomes -11 ° C or the temperature of the refrigerating chamber R becomes -3 ° C.

In the cold air flow apparatus of the side-by-side type refrigerator according to the present invention as described above, since the flow of cold air flowing into the refrigerating chamber R is smoothed by the return fan 61, the refrigerating chamber R due to the conception of the evaporator 51. The cold air flow blocking phenomenon to the) is prevented, so that the temperature of the refrigerating compartment (R) is kept constant, as well as rapid cooling of the refrigerating compartment (R) according to a user's need, thereby improving the cooling performance of the refrigerator.

Claims (6)

An evaporator installed in a cooling chamber provided at a rear side of the freezing chamber to form cold air, a cold air fan installed at an upper end of the cooling chamber to supply cold air formed through the evaporator to the freezing chamber and the refrigerating chamber, and between the cooling chamber and the refrigerating chamber. A discharge duct formed at an upper end of the partition wall formed in the upper wall to discharge cold air supplied by the cold air fan to the refrigerating chamber, and returning the cold air formed at the lower end of the partition wall to circulate the refrigerating chamber to the side of the cooling chamber provided with the evaporator. And a return fan installed at the duct and the return duct to smoothly return the refrigerating chamber side cold air to the cooling chamber side. The cold air flow apparatus of claim 1, wherein the return fan is configured to operate when the temperature of the refrigerating compartment rises above a set value. The cold air flow system of claim 1, wherein the return fan is configured to be operated by a function key according to a user's need. The cold air flow apparatus of the side-by-side type refrigerator according to claim 1, wherein the return fan is connected to a capacitor stored by a rotational force of a return fan rotated by cold air circulating in the refrigerating chamber and the cooling chamber. The cold air flow apparatus of the side-by-side type refrigerator of claim 4, wherein the return fan is configured to receive power from the capacitor during power failure or forced driving. 5. The cold air flow apparatus of claim 4, wherein the capacitor is connected to a refrigerating lamp of a refrigerating compartment and configured to supply power to the refrigerating lamp and operate when the power failure occurs.