KR19980066040U - Combination structure of air spray nozzle for air curtain refrigerator - Google Patents

Abstract

The present invention relates to a coupling structure of an air spray nozzle for an air curtain refrigerator, and has an arc-shaped curved portion at both lower sides of the discharge port 20 to discharge the airflow film formed by the action of the crossflow fan from the upper portion of the refrigerating chamber R. 11 and 13, respectively, and are rotatably coupled to the insides of the curved portions 11 and 13 to maintain verticality by the elasticity of the torsion springs 1 provided at both ends, and air flow holes in the upper and lower portions. One side of the air spray nozzle 10 having the 10A and 10B formed therein is in close contact with the rear surface of the door 50 when the door 50 is closed, and the protrusion 5 which rotates the air spray nozzle 10 backward. The air curtain is formed in such a way that the air is sprayed directly under the door 50 when the door 50 is opened, and when the door 50 is closed, the air is in contact with the rear surface of the door 50. The angle of the spray nozzle 10 is inward It is configured to prevent the rise of the internal temperature of the upper part of the refrigerating chamber (R) by rapid cooling after opening the door 50 of the refrigerating chamber (R) by discharging cold air into the interior direction of the refrigerating chamber (R) for a predetermined time in a state to be changed to will be.

Description

Combination structure of air spray nozzle for air curtain refrigerator

The present invention relates to a nozzle which is installed on the ceiling of a refrigerator compartment of an air curtain refrigerator to inject air in accordance with the operation of the crossflow fan to form an air curtain. Specifically, when the door is opened, the air is sprayed directly underneath. When the air curtain is formed and the door is closed, the angle of the air spray nozzle is changed inward according to the contact with the back of the door, and the air is discharged to the inside of the refrigerating chamber for a predetermined time, thereby rapidly opening the door of the refrigerating chamber. It is configured to prevent an increase in the internal temperature of the upper part of the refrigerating chamber by cooling.

In general, a refrigerator configured to cool food stored at a low temperature to prevent food deterioration or deterioration of fresh food for a long time to be preserved by a heat exchange of a refrigerant moving through a refrigerant circulation path is performed. .

As described above, the refrigerant having the high internal temperature of the refrigerator is lowered, as in a conventional heat exchanger used for cooling purposes, while the refrigerant having a low temperature and high pressure liquid state expands in the evaporator and converts into a gas state. The temperature of the refrigerator is lowered by the heat of vaporization, and after completion of the above process, the high temperature low pressure refrigerant is converted into the low temperature high pressure refrigerant through the condenser and the compressor as in the initial state, and the above cycle is repeated. As a result, the internal temperature of the refrigerator is lowered.

However, in a refrigerator having a conventional structure, the door is hinged from the refrigerator main body so as to facilitate the storage of food, and thus the opening is configured to have a wide opening angle. Thus, the storage of the food can be facilitated. When the door of the refrigerator is configured to open in the form of a door, when the door is opened, the cool air inside the refrigerating compartment is released from the air circulation path inside the refrigerator and discharged to the outside of the refrigerator. Under the influence of free flowing into the refrigerator to increase the internal temperature to lower the cooling function.

On the other hand, in recent years, the air curtain type refrigerator which prevents the inflow of outside air and the leakage of cold air by using the airflow membrane formed by the operation of the crossflow fan to prevent the cooling power of the refrigerator due to the inflow of the outside air when the door is opened. As shown in FIG. 1, the air curtain refrigerator has a cooler 110 installed at the rear of the freezer compartment F, and cool air supplied from the cooler 110 as an airflow film. The cross flow fan 100 and the induction pipe 120 which guides the airflow film generated from the cross flow fan 100 to the front of the ceiling part of the refrigerating chamber R, and are induced by the action of the induction pipe 120 described above. A discharge port 125 for injecting the airflow membrane to the outside, an inlet 135 for sucking the airflow membrane in multiple stages at the rear wall of the refrigerating chamber R to circulate cold air from inside the refrigerating chamber R, and the inlet 135 as described above. In) It consists of a multi-duct 130 to induce the introduced air to the cross flow fan (100).

And, when the air curtain refrigerator having such a configuration, when opening the door of the refrigerating chamber (R) for the storage of food, the door switch detects the open state of the door and transmits the open state of the door to the control unit (not shown) At the same time, the control unit circulates the refrigerant, and converts the cold air flowing from the distribution duct 105 into a laminar flow airflow film that flows in an orderly manner by the operation of the crossflow fan 100. In addition, the air flow film is injected into the discharge port 125 installed in the upper front of the refrigerating chamber (R) via the induction pipe 120 to block the flow between the front and the outside of the refrigerating chamber (R) or the refrigerating chamber (R). To prevent external leakage of cold air.

On the other hand, in the air curtain refrigerator as described above, the airflow film is formed in accordance with the opening of the door, and as shown in Table 1, the degree of increase in the internal temperature due to the inflow of outside air or the external leakage of the cold air is set at a temperature of 30 ° C. As a result of measuring the high temperature after opening the door for 1 minute while being exposed to outdoor air, the upper shelf maintains 6.3 ° C at 18.8 ° C and the intermediate shelf maintains 5.3 ° C at 10 ° C. In addition, in the case of the lower shelf, it was possible to obtain a visible effect such as maintaining 3 ℃ at 9.1 ℃ conventional.

High temperature distribution when the refrigerator door is opened for 1 minute in an outdoor air of 30 ℃ Measuring position Old refrigerator Air curtain refrigerator Upper shelf 18.4 ℃ 6.3 ℃ Middle shelf 10.0 ℃ 5.3 ℃ Bottom shelf 9.1 ℃ 3.0 ℃

However, in the air curtain refrigerator as described above, after opening the door, a part of the outside air is introduced into the refrigerating chamber R, while the temperature of the upper shelf is higher than that of the lower shelf by the convection of the introduced outside air. There is a problem such as having a temperature distribution, so that separate cooling for the upper portion of the refrigerating chamber (R), such as the upper shelf is required.

The present invention is conceived in view of the above problems, the technical problem of the present invention is to make the spray of the airflow film in the downward direction when the door is opened so that the air curtain by the airflow film as in a conventional air curtain refrigerator When the door is closed, it has a relatively high temperature distribution after opening the door of the refrigerating chamber by discharging cold air through the air jet nozzle for a predetermined time in a state in which the angle of the air jet nozzle is changed inward according to the contact with the door. An object of the present invention is to provide a means for rapidly cooling the upper direction of the refrigerating chamber to prevent an increase in the internal temperature.

The technical problem as described above is to form an arc-shaped curved portion at each of the lower sides of the discharge port for discharging the airflow film formed by the action of the cross flow fan from the upper portion of the refrigerating chamber, and rotatably coupled to the inside of the curved portion. Maintaining vertical by the elasticity of the torsion springs provided at both ends, one side of the air injection nozzles with air distribution holes formed on the upper and lower sides are in close contact with the rear surface of the door when the door is closed to rotate the air spray nozzles backward. It is achieved by providing a coupling structure of the air injection nozzle for the air curtain refrigerator, characterized in that the structure is formed by forming a protrusion.

Hereinafter, the coupling structure of the air injection nozzle for the air curtain refrigerator according to the present invention will be described in detail with the accompanying drawings.

1 is a schematic structural diagram of an air curtain refrigerator having a conventional structure;

Figure 2 is an exploded perspective view of the subject innovation cut a part,

3 is a perspective view showing a combined state of the present invention,

4 is a longitudinal sectional view of the present invention,

5 is a view showing an operating state of the present invention, Figure 5a is a view showing a state in which the door is open, Figure 5b is a view showing a state in which the door is closed.

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

1: torsion spring 5: protrusion

10: air spray nozzle 10A, 10B: air distributor

11,13: curved portion 11A: protrusion

20: discharge port 50: door

Cold Room: R

2 is an exploded perspective view of the present invention, Figure 3 is a perspective view showing a combined state of the present invention, the coupling structure 30 of the air injection nozzle for air curtain refrigerator according to the present invention, by the action of the crossflow fan An arc shape in which both sides of the lower portion of the discharge port 20 for discharging the formed airflow film from the upper portion of the refrigerating chamber R are in close contact with the outer circumferential surface of the air jet nozzle 10 to rotatably support the air jet nozzle 10. Bends 11 and 13 of the bent portions, respectively, and as described above, the sides are bent by the elasticity of the torsion spring 1 provided on both sides of the bent portion 11 and 13 so as to be rotatable. 13) one side of the air injection nozzle 10 is formed in close contact with the bottom of the one side and the air distribution holes (10A, 10B) formed in the upper and lower portions in close contact with the rear surface of the door when the door is closed Pivoting (10) backward It is made of a structure in which a protrusion 5 is formed.

Then, by forming the protruding end 11A on one side of the curved portions 11 and 13 formed on both sides of the discharge port 20, the external force applied to the protruding portion 5 in accordance with the opening of the door is removed, so that the air injection nozzle 10 When rotating by the elasticity of the torsion spring 1, one side of the air injection nozzle 10 is limited to the rotation in accordance with the contact with the protrusion 11A described above to maintain the vertical, and the air injection nozzle 10 Protruding portion (5) formed on one side of the) is properly adjusted in consideration of the shape and size of the air spray nozzle 10, the rotation of the air spray nozzle 10 according to the closing pressure of the door in the state that the door is closed It is possible to maintain an angle of 45 degrees to the rear, and also in the open state of the door by the elasticity of the torsion spring (1) as shown in Figure 4 the air jet nozzle 10 is located vertically from the lower end of the discharge port 20 And lower air distribution holes (1 While 0A and 10B are maintained vertically, the airflow film generated according to the operation of the crossflow fan is discharged to the upper and lower directions of the refrigerating chamber R to form an air curtain as in a conventional air curtain refrigerator. In the state in which the door is closed, the protrusion 5 formed on one side of the air injection nozzle 10 is in close contact with the rear surface of the door, and rotates at an angle of 45 degrees to the rear to discharge the cold air toward the upper direction of the refrigerating chamber R. .

Meanwhile, when the door is closed, the air is sprayed for about 30 seconds through the air spray nozzle 10 according to the operation of the controller. As such, the controller is configured to spray cold air through the air spray nozzle 10 after the door is closed. Since the configuration of the already known technology, a detailed description thereof will be omitted.

Referring to the operation of the present invention made of a structure as described above, the coupling structure 30 of the air injection nozzle for air curtain refrigerator according to the present invention, the door by discharging the airflow film from the discharge port 20 in accordance with the operation of the cross flow fan According to the opening of the air curtain to form an air curtain is applied to the refrigerator.

When the door of the refrigerating chamber R is opened, the present invention as shown in FIG. 5A, the air injection nozzle 10 is formed by the elasticity of the torsion spring 1 and one side of the discharge port 20. While maintaining a vertical state by being in close contact with each other, the air distribution holes 10A and 10B formed in the upper and lower portions of the air injection nozzle 10 have a vertical state, so that air generated by the operation of the crossflow fan 100 is operated. Air is drawn forward through the induction pipe 120, and is sprayed in a state of forming an airflow film in a downward direction through the air injection nozzle 10 via the discharge port 20, thereby providing air as in a conventional air curtain refrigerator. A curtain is formed to prevent the inflow of outside air and to prevent the leakage of cold air.

And, when the coupling structure 30 of the air-jet nozzle for air curtain refrigerator according to the present invention to close the door of the refrigerator when the food storage is completed, the back of the door 50 and the air constituting the present invention As the protrusion 5 of the injection nozzle 10 comes into close contact, the air injection nozzle 10 is varied at an angle of 45 degrees in the opposite direction to the door 50 as shown in FIG. By spraying the cold air to be supplied by the time in the upper direction of the refrigerating chamber (R) to rapidly cool the upper portion of the refrigerating chamber (R) having the highest temperature distribution in accordance with the opening of the door 50 to lower the temperature of the refrigerating chamber (R). Will be.

As described above, the coupling structure 30 of the air spray nozzle for the air curtain refrigerator according to the present invention has an air spray nozzle 10 rotatably coupled to the lower portion of the discharge port 20 when the door 50 is opened. The torsion spring 1 is positioned vertically by the elasticity of the torsion spring 1 so that the jet of the airflow film is made downward, thereby forming an air curtain by the airflow film as in a conventional air curtain refrigerator.

In addition, when the door 50 is closed, the protrusion 5 formed at one side of the air spray nozzle 10 presses the air spray nozzle 10 backward in accordance with contact with the door 50 to change the angle of the control unit. The cooling air supplied under the control is discharged to the upper direction of the refrigerating chamber R for a predetermined time immediately after the door 50 is closed, thereby rapidly cooling the upper direction of the refrigerating chamber R that is most sensitive to the influence of outside air, thereby By lowering the temperature, it is possible to prevent the rise of the internal temperature of the refrigerating compartment R, thereby improving the cooling efficiency of the refrigerating compartment R, and to maintain the freshness of the food stored in the refrigerating compartment R for a long time. .

Claims (2)

Arc-shaped curved portions 11 and 13 are formed on both sides of the lower portion of the discharge port 20 to discharge the airflow film formed by the action of the cross flow fan from the upper portion of the refrigerating chamber R, and the curved portions 11 and 13 are described above. It is rotatably coupled to the inner side of the to maintain the vertical by the elasticity of the torsion spring (1) provided at both ends and the air injection nozzle (10A, 10B) formed in the upper and lower portions on one side of the door The air spray for the air curtain refrigerator, characterized in that the projection formed in close contact with the rear surface of the door 50 when the 50 is closed to rotate the air spray nozzle 10 to the rear (5). Nozzle combination structure. The discharge port 20 is characterized in that the protrusion end 11A is formed on one side of the curved portions (11, 13) formed on both sides to limit the rotation of the air injection nozzle (10). Combination structure of air spray nozzle for air curtain refrigerator.