KR19980083076A - Refrigeration room cooling structure of air curtain refrigerator - Google Patents

Abstract

According to the present invention, when opening the refrigerator door of the refrigerator, cold air is injected into the laminar flow from the front side of the refrigerator compartment to form an curtain, thereby preventing external hot air from entering and preventing a rapid temperature rise in the refrigerator compartment, thereby preventing the power of the refrigerator. It is to reduce the loss.

The present invention is installed in front of the upper surface of the refrigerating chamber 16 is operated by the control unit 50 to inject the air in the refrigerating chamber 16 to the front of the refrigerating chamber 16 to form an air curtain and the refrigerating chamber, Cold control passages (48) formed to communicate with the cross flow fan (32) from below both sides of the front surface of the front, and the control unit (50) are installed on the rear of the door (20) and the refrigerating chamber (16) of the refrigerating chamber (16), respectively. And a temperature sensor 42,44 connected thereto.

The present invention improves the cold storage function of the refrigerating compartment 16 to protect the contents of the refrigerating compartment 16 from deterioration due to temperature rise, and shortens the operating time of the refrigerator 22 and the refrigerating compartment circulation fan 24 of the refrigerator. It has the effect of reducing noise generation time and power consumption.

Description

Refrigeration room cooling structure of air curtain refrigerator

The present invention relates to a refrigerating compartment cooling structure of an air curtain refrigerator, and in particular, by installing a crossflow fan in the refrigerating compartment and forming an air curtain on the front side of the refrigerating compartment through a duct connected to the front side of the refrigerating compartment, when the door is opened, the outside air is opened inside the refrigerating compartment. It relates to a refrigerator compartment cooling structure of the air curtain refrigerator to block the flow into the air, and to drop the temperature around the pocket even when the door off.

In general, as shown in FIG. 1, the refrigerator main body 110 is thermally insulated on all sides except the front surface, and is divided into a freezer compartment 114 and a refrigerating compartment 116 by a partition wall 112. Doors 118 and 120 are hinged on the front surfaces of the freezing chamber 114 and the refrigerating chamber 116, respectively.

On the rear side of the inside of the freezer compartment 114 of the refrigerator, a cooler 122 that absorbs ambient heat and obtains a cooling effect is installed, and an upper portion of the refrigerator directly supplies cold air generated by the cooler 122 to the freezer compartment 114. A refrigerator compartment circulation fan 128 is provided to supply cold air to the refrigerator compartment 116 through the multi-duct 126 mounted at the rear side of the freezer compartment gentle fan 124 and the refrigerator compartment 116. In addition, the partition walls 112 between the freezer compartment 114 and the refrigerating compartment 116 are provided with circulation passages 134 and 136 having cold air inlets 130 and 132 for circulating cold air of the freezer compartment 114 and the refrigerating compartment 116, respectively. have.

In the conventional refrigerator having the cooling structure as described above, the refrigeration system is operated when power is applied, and thus the cooler 122 absorbs the heat of the air passing through the surrounding to lower the temperature of the air. As the freezing compartment and the refrigerating compartment circulation fans 124 and 128 are driven in a state where the refrigeration system is operated as described above, air cooled by the cooler 122 is supplied to the freezing compartment 114 and the refrigerating compartment 116, respectively. At this time, the cold air is discharged toward the front from the rear side of the freezer compartment 114 and the refrigerating compartment 116 to freeze or keep the contents stored in the freezer compartment 114 and the refrigerating compartment 116 fresh.

The cold air in the freezing compartment 114 and the refrigerating compartment 116 passes through the cold air inlet 120 and the circulation passage 136 of the partition wall 112 to the cooler 122 to be cooled again and continuously circulated. Therefore, the freezer compartment 114 is kept constant at -18 ℃ so that the contents can be stored in a frozen state for a long time, the refrigerator compartment 116 is maintained at 0 ℃ to 9 ℃ to store up to fish or meat as well as vegetables do.

Opening the door 120 of the refrigerator compartment 116 of the conventional refrigerator operating in this state, the operation of the cooler 122, the freezer compartment circulation fan 124 and the refrigerator compartment circulation fan 128 by the door switch (not shown) is stopped. The supply of cold air into the refrigerating chamber 116 is stopped. Therefore, as the outside hot air enters from the top of the refrigerating compartment 116 without any resistance and flows downward, the cold air in the refrigerating compartment 116 easily flows out and the temperature of the refrigerating compartment 116 rises. Done.

Accordingly, since the cooling system is operated to lower the temperature inside the refrigerating chamber 116 and continuously supplies cold air into the refrigerating chamber through the multi duct 126, the operation time of the cooling system is increased and power consumption increases. have. In addition, since the multi duct 126 through which cold air is discharged is installed at the rear side of the refrigerating chamber 116, when the contents are placed on the shelf 25 of the refrigerating chamber 126 and the flow path of the cold air is blocked, the cold air is stored in the refrigerating chamber 116. There is a problem that does not reach the pocket 140 provided in the front door 120 does not quickly cool the contents contained in the pocket 140.

The present invention has been made in order to solve the conventional problems, the object of the present invention is to form an echa curtain flowing cold air in the laminar flow in the upper side of the refrigerator compartment of the refrigerator to effectively block the outside hot air inflow when the door is opened. Then, to reduce the power loss of the refrigerator by dropping the temperature of the pocket portion with the air curtain cold when the door off.

The present invention for achieving the above object is installed on the upper surface of the refrigerating chamber to operate by the control unit and the air flow in the refrigerating chamber to form an air curtain on the front of the refrigerating chamber, and from both sides below the front of the refrigerating chamber It can be achieved by providing a refrigerator compartment cooling structure of the air curtain refrigerator having a cold air passage formed to communicate with the cross-flow fan, and the temperature sensor connected to the control unit respectively installed on the rear surface of the refrigerator compartment door and the refrigerator compartment.

1 is a schematic diagram showing a cold air flow of a typical refrigerator.

Figure 2 is a schematic diagram showing the air flow when opening the door of a typical refrigerator.

Figure 3 is a schematic diagram showing the cold air flow of the refrigerator according to the present invention.

Figure 4 is a schematic diagram showing the air flow when the door opening of the refrigerator according to the present invention.

Figure 5 is a cross-sectional view showing the air flow when the door opening of the refrigerator according to the present invention.

<Explanation of symbols for main parts of drawing>

10 body 12 partition wall

14 freezer 16: cold storage room

18,20: door 19,26: pocket

22: cooler 24: freezer compartment circulation fan

25: shelf 28: refrigerator compartment circulation fan

30: multi duct 32: crossflow fan

34, 38, 46,: cold air intake 36, 40: circulation passage

42, 44: temperature sensor 48: cold air passage

50: control unit

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the cold air control structure of the refrigerator according to the present invention will be described in detail.

First, as shown in FIG. 3, the refrigerator main body 10 is thermally insulated on all surfaces except the front surface, and divided into a freezer compartment 14 and a refrigerating compartment 16 by a partition wall 12. Doors 18 and 20 are hingedly installed on the front surfaces of the freezer compartment 14 and the refrigerating compartment 16, respectively, and pockets 26 and 19 are provided on the inner surfaces of the doors 18 and 20, respectively. do.

On the rear surface of the freezer compartment 14, when the cooling system is operated by the control of the control unit 50 and the refrigerant circulates, a cooler 22 which obtains the cooling effect by the latent heat absorption of the refrigerant is installed. The refrigerating compartment (50) is operated through a multi-duct 30 installed at the rear side of the refrigerating compartment circulation fan 24 and the refrigerating compartment 16 which operates under the control of the 50 and directly supplies the air cooled by the cooler 22 to the freezing compartment 14. The refrigerator compartment circulation fan 24 which supplies cold air to 16 is provided, respectively.

In addition, the partition wall 12 between the freezer compartment 14 and the refrigerating compartment 16 has a circulation passage having cold air inlets 34 and 38 for circulating cold air of the freezer compartment 14 and the refrigerating compartment 16 to the cooler 22 side. 36 and 40 are formed, respectively.

At the front end of the partition wall 12 of the upper surface of the refrigerating chamber 16, a long horizontal flow fan 32 which rotates in association with a separate motor (not shown) driven by the control of the controller 50 is installed. In addition, a plurality of cold air inlets 46 are formed in a row on the lower front surface of the refrigerating compartment 16, and the cold air inlets 46 pass through the cold air passages 48 formed in the main body 10 to the front side of the refrigerating compartment 16. It communicates with the installed cross flow fan 32. The crossflow fan 32 is provided such that cold air is sprayed forward by the spray angle θ toward the front of the refrigerating chamber 16, and the spray angle is preferably 15 to 25 degrees.

In addition, the freezer compartment 14 and the refrigerating compartment 16 are provided with a sensor for detecting that each door (18, 20) is closed or open is connected to the control unit 50, the inner surface of the door 20 of the refrigerating compartment (16) Temperature sensors 42 and 44 are also installed on the inner surface of the refrigerating compartment 16 and connected to the controller 50.

Hereinafter, the operation of the present embodiment having the above structure will be described with reference to FIGS. 4 and 5.

In the refrigerator as described above, when the doors 18 and 20 are closed, the cooling system in the main body 10 is operated by the control of the controller 50 so that the cooler 22 installed in the freezer compartment 14 cools the surrounding air. At this time, the freezer compartment and the refrigerating compartment circulation fans 24 and 28 installed on the upper side of the cooler 22 rotate under the control of the controller 50, thereby cooling the air cooled by the cooler 22 and the freezer compartment 14 and the refrigerating compartment ( 16) are supplied to each of the freezer compartment 14 and the freezer compartment (16) to keep the contents stored in the frozen or fresh. When a temperature below a predetermined temperature is detected by the temperature sensors 42 and 44 installed in the freezer compartment 14 and the refrigerator compartment 16, the cooling operation of the cooler 22 is stopped by the control of the controller 50, and the freezer compartment and the refrigerator compartment The circulation fans 24 and 28 are stopped so that cold air is no longer supplied to the freezing chamber 14 and the refrigerating chamber 16.

In this state, when the temperature of the freezer compartment 14 or the refrigerating compartment 16 rises above a certain level, the controller 50 receives temperature information from the temperature sensors 42 and 44 to operate the cooler 22 and to operate the freezer compartment circulation fan. 28) or the refrigerating chamber circulation fan 24 is rotated to supply cold air where necessary to lower the temperature.

In this state, as shown in FIG. 4, when the door 20 of the refrigerating compartment 16 is opened, the controller 50 detects the opening of the door 20 from a sensor installed in the refrigerating compartment 16, and the refrigerating compartment circulation fan 24. ) Is stopped to temporarily stop the cold air supplied to the refrigerating chamber 16. In addition, power is supplied to the motor connected to the cross flow fan 32 to rotate the cross flow fan 32 so that cold air is injected downward from the upper surface of the refrigerating chamber 16. The cold air is sprayed at a speed of 5 kPa or more forward at approximately 15 to 25 degrees forward to form an air curtain while passing through the front surface of the refrigerating chamber 16 in the form of a laminar flow to block the introduction of external hot air.

At this time, the cold air injected from the cross flow fan 32 is sucked from the cold air intake port 46 formed on the lower surface of the refrigerating chamber 16 by the suction force of the cross flow fan 32, so that a more reliable air curtain Is formed. The cold air sucked into the cold air intake port 46 formed at the lower surface of the refrigerating compartment 16 is continuously circulated through the cold air passage 48 and the cross flow fan 32, whereby the cold air in the refrigerating compartment 16 is preserved and the temperature is maintained. To prevent it from rising rapidly.

When the door 20 of the refrigerating compartment 16 is closed in the above state, the control unit 50 detects the closing of the door 20 from the sensor installed in the refrigerating compartment 16 and opens the refrigerating compartment circulation fan 24 installed in the freezing compartment 14. By rotating, the cold air is supplied to the refrigerating chamber 16 through the multi duct 30. On the other hand, the pocket 26 installed in the refrigerating compartment 16 door 20 is in a state in which the temperature is raised by contacting the outside air when the door 20 is opened, and the controller 50 controls the door 20 and the refrigerating compartment ( 16) When the temperature information is received from the temperature sensors 42 and 44 respectively provided on the inner side, and the temperature of the door 20 is different from the temperature inside the refrigerating chamber 16 by more than a predetermined size, the cross flow fan 32 ) To supply cold air continuously to the pocket 26 provided in the door 20.

Therefore, even if the shelf 25 in the refrigerating compartment 16 is filled with contents and blocks the flow of cold air supplied into the refrigerating compartment 16 through the multi duct 30 installed on the inner side of the refrigerating compartment 16, the front of the refrigerating compartment 16 is closed. The cold air is supplied to the pocket 26 provided in the door 20 by the crossflow fan 32 provided in the upper part, and the temperature of this pocket 26 site | part falls rapidly, and the content contained in this pocket 26 is made fresh. Will be maintained.

Subsequently, the controller 50 compares the temperature information provided from the temperature sensor 42 installed in the refrigerating compartment 16 door 20 and the temperature sensor 44 installed in the rear side of the refrigerating compartment 16 to determine the temperature of the door 20 side. When the temperature is close to the rear side, the power supply to the motor connected to the cross flow fan 32 is stopped to stop the rotation of the cross flow fan 32 to the pocket 26 of the door 20 from the front upper side of the refrigerating chamber 16. Shut off the flow of cold air. When the temperature of the refrigerating compartment 16 drops below a predetermined standard, the operation of the refrigerating compartment circulation fan 24 and the cooler 22 is stopped to stop the supply of cold air to the freezing compartment 14 and the refrigerating compartment 16.

Therefore, the refrigerator according to the present embodiment effectively blocks the introduction of external hot air into the refrigerating compartment 16 when the door is opened, and rapidly decreases the temperature in the refrigerating compartment 16 so that the refrigerator 22 operates and the refrigerating compartment circulation fan. The rotation time of 24 is shortened, which reduces the power consumption of the refrigerator.

As described in the above embodiment, the refrigerating compartment cooling structure of the air curtain refrigerator according to the present invention is installed in the refrigerating compartment 16 by installing a cross flow fan 32 for circulating the air cooled by the cooler 22 in the form of laminar flow. An air curtain is formed on the front surface of the refrigerating compartment 16 when the door 20 is opened to prevent external hot air from entering the refrigerating compartment 16 rapidly, and when the door 20 is turned off, By using the structure of dropping the temperature of the pocket 26 portion by using, it improves the cold storage function of the refrigerating compartment 16 to protect the contents inside the refrigerating compartment 16 from deterioration due to the temperature rise, the cooler 22 and the refrigerator By reducing the operating time of the refrigerating chamber circulation fan 24 has the effect of reducing the noise generation time and power consumption.

Claims (2)

The freezer compartment circulation fan 28 is partitioned into the freezer compartment 14 and the refrigerating compartment 16 by the partition wall 12, and is operated under the control of the control unit 50 at the rear side of the freezer compartment and supplies cold air into the freezer compartment 14. In the refrigerator provided with the refrigerating chamber circulation fan 24 for supplying cold air into the refrigerating chamber 16 through the multi-duct (30) installed in the rear of the refrigerating chamber (16), A transverse flow fan 32 installed in front of the upper surface of the refrigerating compartment 16 and operated by the controller 50 to inject air in the refrigerating compartment 16 to the front of the refrigerating compartment 16 to form an air curtain; A cold air passage 48 formed to communicate with the cross flow fan 32 from both side surfaces of the front side of the refrigerating chamber 16; Refrigerating room cooling structure of the air curtain refrigerator, characterized in that it comprises a temperature sensor (42,44) connected to the control unit 50, respectively installed on the rear of the door 20 and the refrigerating chamber (16) of the refrigerating compartment (16). The method of claim 1, wherein the controller 50 detects the opening of the door 20 by information provided from a sensor installed in the refrigerating compartment 16, and the rear surface of the door 20 and the refrigerating compartment 16. Comparing the temperature information provided by the temperature sensor (42,44) installed in the refrigerator compartment cooling structure of the air curtain refrigerator, characterized in that to apply power to drive the cross flow fan 32 when a predetermined value or more occurs.