KR100196940B1 - Cool air vomitting device of refrigerator - Google Patents

Abstract

The present invention relates to a cold air discharge device of the refrigerator, and to a cold air discharge device of the refrigerator so that the so-called air curtain effect for blocking the interior of the door when opening the door can be more surely and effectively.

The present invention for achieving the above object is to form a duct for the air curtain in the interior of the intermediate space, cross flow fan for sucking the cold air cooled through the evaporator into the inside of the air curtain duct of the inside of the air curtain duct It is characterized by being installed in the center.

In the present invention configured as described above, the air curtain duct provided to block the interior of the air at the time of opening the door is located inside the existing intermediate space to maximize the volume in the interior, and also to force cold air to realize the air curtain A circulating cross flow fan is installed at the center of the air curtain duct to reduce the flow loss due to the flow resistance and at the same time reduce the noise transmission by the drive motor.

Description

Cold air discharge device of the refrigerator

The present invention relates to a cold air discharge device of the refrigerator, and more particularly to a cold air discharge device of the refrigerator so that the so-called air curtain effect for blocking the interior of the door when opening the door can be more surely and efficiently.

Generally, the refrigerator operates on and off of a door switch (not shown) when opening and closing the compressor 1 and the door 2 that are controlled on and off according to the internal temperature in order to maintain a constant internal temperature as shown in FIG. 1. The cold air circulation fan (3) controlled in conjunction with the operation to supply the cold air cooled through the evaporator (4), the cold air discharged by the cold air circulation fan (3) each formed in the duct (5) Discharged into the chamber through the discharge hole 5 ', the cold air discharged into the chamber is returned to the evaporator 4 after lowering the temperature in the chamber while circulating the chamber.

However, when the door 2 is opened to store food in the refrigerator or to use the food stored in the refrigerator, cold air in the refrigerator flows out of the refrigerator and the temperature inside the refrigerator rises. In order to maintain the level, the operation rate of the compressor 1 must be increased, and thus a large amount of power is consumed.

Therefore, when the refrigerator door 2 is opened, it is necessary to suppress the leakage of cold air to the outside. In this regard, air walls for blocking the interior and exterior of the refrigerator door 2 in recent years, so-called air curtains There is provided a refrigerator to form a.

On the other hand, the conventional refrigerator provided with the air curtain is installed in the interior of the interior, as shown in Figure 2 through the partition 11 formed integrally in the center to form the discharge flow path 20 and the cold air chamber 30 in the front and rear, respectively An evaporator cover 10, a plurality of discharge ports 12 perforated on the front surface of the evaporator cover 10, an inlet 13 perforated in the evaporator cover 10 positioned below the cold air chamber 30, and An evaporator 40 installed in the cold air chamber 30, a cold air circulation fan 50 located in the partition 11, and a cold air circulating fan 50 for discharging the cold air flowing through the cold air chamber 30 to the discharge passage 20, and an intermediate space ( 60 is installed inside the one side is in communication with the cold air chamber 30, the other side of the air curtain duct 70 is provided with a discharge port 71 of the lower side, and the discharge port 71 of the air curtain duct 70 It is installed on the side is composed of a cross flow fan 80 for forcibly circulating the cold air cooled through the evaporator (40).

In the refrigerator having the conventional air curtain configured as described above, when the door 2 is closed, although not shown in the drawing, the cold air circulation fan 50 is operated by a door switch that is opened and closed in conjunction with the door 2 to provide an evaporator ( The cool air cooled through the 40 is discharged to the discharge passage 20, and the cold air introduced into the discharge passage 20 is discharged into the inside of the discharge port 12 through the discharge ports 12, and the cold air discharged into the discharge cycle circulates in the inside of the refrigerator. After the temperature in the refrigerator is lowered to the set temperature, the air is returned back to the cold air chamber 30 through the suction port 13.

In addition, when the door 2 is opened, the cold air circulation fan 50 is stopped by the door switch that is opened and closed in conjunction with the door 2, and at the same time, the cross flow fan 80 operates to evaporate the door. Cool air cooled through 40 is introduced into the air curtain duct 70.

The cold air introduced into the air curtain duct 70 is discharged into the air through the discharge port 71 while flowing through the air curtain duct 70.

At this time, the cold air discharged through the discharge port 71 falls toward the inside of the refrigerator as it descends to the bottom of the refrigerator.

However, in the refrigerator provided with the conventional air curtain, when the cross flow fan for forming the air curtain is installed on the door side, a large amount of noise generated by the driving motor is transmitted as it is and the evaporator located inside the inside of the refrigerator. In order to suck the cool air cooled through the door, the size of the cross flow fan should be increased or the driving force of the driving motor should be increased. On the contrary, if the cross flow fan is installed in the interior of the inside, the cold air introduced by the cross flow fan is introduced. While the flow through the air curtain duct has a disadvantage that the flow rate loss is large due to the flow resistance due to the length of the duct.

In addition, a separate duct for forming an air curtain occupies a portion of the inside of the refrigerator, thereby reducing the volume of the inside of the refrigerator and at the same time, the inner surface of the duct is straight so that the cold air introduced by the cross flow fan is dispersed throughout the duct and does not flow. It was concentrated in the center part and air curtain was not formed in the whole inside.

In addition, since the length of the discharge port through which the cold air is discharged is short, the direction of the discharged cold air cannot be imparted. There was a problem in that the outside air is introduced into the interior, the adverse effect of the air curtain formation.

The present invention has been made to solve the above problems, an object of the present invention is to reduce the amount of noise generated when driving the cross flow fan for circulating the cold air cooled by the evaporator to form the air curtain At the same time, it is possible to reduce the loss of cold air due to flow resistance.

Another object of the present invention is to form a separate flow path in the interior of the intermediate space for the realization of air curtain to prevent the air in the air outflow to the outside when the door is opened to maximize the volume of the inside and at the same time flow along the flow path The cold air is to be discharged to the inside of the whole.

In addition, another object of the present invention is to provide a cold air flow through the duct to be discharged into the refrigerator surely directional discharge of the cold air so that the function of the air curtain to block the inside of the door when the door is opened properly The purpose is to provide a device.

1 is a longitudinal sectional view of a refrigerator showing a cold air circulation structure of a typical refrigerator;

Figure 2 is a longitudinal sectional view showing a conventional air curtain refrigerator,

Figure 3 is a longitudinal sectional view of the refrigerator showing a cold air circulation structure when the door is opened according to the present invention.

Figure 4 is a cross-sectional view of the refrigerator showing the duct for the air curtain according to the present invention,

<Description of the symbols used in the main parts of the drawing>

100: evaporator cover 110710: discharge port

120: suction port 130: bulkhead

200: discharge passage 300: cold air chamber

400: evaporator 500: cold air circulation fan

600: intermediate space 700: air curtain duct

720: if coan 800: cross flow fan

900: Special chamber cover 910: Discharge nozzle

920: Specialty Room Shelf

The present invention for achieving the above object is a cross-flow fan for forcibly circulating the cold air cooled by the evaporator when the refrigerator door is opened, and for the air curtain for guiding the flow of cold air circulated by the operation of the cross flow fan In the cold air discharge device of the refrigerator having a duct and a discharge port for discharging the cold air flowing through the air curtain duct formed on one end of the air curtain duct,

The air curtain duct is formed inside the intermediate space, and the cross flow fan is installed in the center of the inside of the air curtain duct.

In the present invention configured as described above, the air curtain duct provided to block the interior of the air at the time of opening the door is located inside the existing intermediate space to maximize the volume in the interior, and also to force cold air to realize the air curtain A circulating cross flow fan is installed in the center of the air curtain duct to reduce flow loss due to flow resistance, and noise transmission by the driving motor is reduced.

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

3 and 4, the cold air discharging device of the refrigerator according to the present invention is installed in the interior of the refrigerator to form a discharge flow path 200 between the inner wall and the multi-stage discharge port 110 and the suction port 120. ) Is provided with an evaporator cover 100, a cold air chamber 300 formed in the interior of the interior through the partition 130 formed integrally on the central upper portion of the evaporator cover 100, and an evaporator installed in the cold air chamber 300 400 and the cold air circulation fan 500 which is located in the partition wall 130 and sends cold air flowing through the cold air chamber 300 to the discharge passage 200, and is installed inside the intermediate space 600. An air curtain duct 700 communicating with the cold air chamber 300 and having a discharge port 710 directly below, and a co-facing surface 720 formed inwardly convex on the left and right inner surfaces of the air curtain duct 700, respectively. ), And installed in the width direction in the center of the air curtain duct 700, and come in conjunction with the door switch (not shown), It consists of a cross flow fan 800 that is operated off.

In addition, in the case of the refrigerator provided with a special chamber in the interior, a discharge nozzle 910 communicating with the discharge port 710 of the air curtain duct 700 is formed in the special chamber cover 900, and the special chamber shelf ( The operation switch (not shown) controls the on and off operation of the cross flow fan 800 while the on and off operation is performed according to the opening and closing of the 920. When the air curtain is formed in the refrigerator in which the specialty room is provided, when the specialty room shelf is opened, cold air discharged for forming the air curtain is blocked by the specialty room shelf, thereby preventing power consumption.

In the present invention configured as described above, when the door is closed, although not shown, the same structure as the cold air circulation structure of the existing refrigerator is made. That is, the cold air circulation fan 500 operated in conjunction with the door switch is turned on to send out the cool air cooled through the evaporator 400 to the discharge flow path 200, and the cold air introduced into the discharge flow path 200 Through each discharge port 110 is discharged into the chamber.

The cold air discharged into the air is circulated in the air and then flows into the cold air chamber 300 through the suction port 120 and continues to circulate as described above.

When the door is closed, the cold air circulation fan 500 operated according to the on / off of the door switch is turned off. At the same time, the cold air circulation fan 500 operates according to the on / off of the door switch. The flow fan 800 is turned on.

The cold air cooled through the evaporator 400 by the on-operation of the cross flow fan 800 is introduced into the air curtain duct 700 without being introduced into the discharge passage 200.

The cold air introduced into the air curtain duct 700 flows along the air curtain duct 700.

The fluid flows while the air is introduced into the interior of the air curtain duct 700 by the coanda effect that flows along the convex surface, while being dispersed as a whole within the air curtain duct 700 along the nose face 720.

The cold air flowing along the air curtain duct 700 communicates with the discharge port 710 of the air curtain duct 700 and flows into the discharge nozzle 910 formed in the special chamber cover 900.

The cold air introduced into the discharge nozzle 910 is discharged having a directivity to move downward.

If the takeout shelf 920 is removed while the door is open, the drawer shelf 920 is in contact with the drawer shelf 920 to be turned on and off according to the opening and closing of the drawer shelf 920 while controlling the on / off operation of the cross flow fan 800. The operation switch is turned off so that the cross flow fan 800 is turned off.

That is, if the special chamber shelf 920 is taken out when the door is opened, the cross flow fan 800 is turned off so that the cool air cannot be introduced into the air curtain duct 7800 so that the air curtain is not formed.

When the special chamber shelf 920 is inserted, the operation switch is turned on and the cross flow fan 800 is turned on.

When the door is closed, the cross flow fan 800 is turned off by the door switch, and the cold air circulation fan 500 is turned on at the same time.

As the cold air circulation fan 500 is turned on, cold air cooled by the evaporator 400 flows into the discharge flow path 200, and then discharged and circulated through the discharge port 110.

Therefore, according to the present invention, when the cross flow fan provided to block the interior of the door at the time of opening the door is less than the amount of noise transmitted at the same time as when located inside the interior of the air curtain rather than when the interior of the interior The loss of cold air due to the flow resistance of the duct is reduced.

In addition, the air curtain duct is inserted into the interior of the intermediate space to maximize the volume of the inside, as well as the cold air is dispersed and discharged throughout the inside through the nose face, and discharge of cold air by the discharge nozzle formed directly below the special chamber cover The directionality of the cold air discharged and extended, ie, the directionality to discharge directly below, is reliably given.

In addition, since the driving of the cross flow fan is controlled according to the opening and closing of the specialty room shelf, unnecessary waste of power generated by the crossflow fan when the specialty room shelf is opened can be reduced.

As described above, the cold air circulated by the driving of the cross flow fan is discharged into the refrigerator without a quantitative change, and the amount of noise transmission generated by the driving of the fan is reduced, and the discharged cold air has a direct downward direction. It is discharged in a state that the interior and the outside of the air is reliably blocked, and as a result, the so-called air curtain effect for blocking the interior of the door when the door is opened provides the advantage that more reliably and efficiently.

Claims (4)

A cross flow fan forcibly circulating cold air cooled by the evaporator when the refrigerator door is opened, an air curtain duct for guiding the flow of cold air circulated by the cross flow fan, and one end of the air curtain duct In the cold air discharge device of the refrigerator having a discharge port formed in the portion for discharging the cold air flowing through the air curtain duct, The air curtain duct is formed inside the intermediate space, and the cross flow fan is installed in the center of the inside of the air curtain duct, the cold air discharge device of the refrigerator. The cold air discharge device of a refrigerator according to claim 1, wherein a nose face is formed on left and right sides of an inside of the air curtain duct. The cold air discharge device according to claim 1, wherein one end of the air curtain duct on which the discharge port is formed extends downward through a special chamber cover. The refrigerator's cold air discharge apparatus according to claim 3, further comprising control means for controlling the driving of the cross flow fan on and off in accordance with opening and closing of the special chamber cover.

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