KR100210193B1 - Refrigerating room air curtain device and its control method - Google Patents

Abstract

The present invention proposes a temperature control technique of a refrigerator which causes a cold shower to occur when a door is opened, considering the preservability of high-temperature foods due to frequent door opening of the refrigerator.

According to an aspect of the present invention, a cold air passage having a cool air shower part (a slit or a plurality of openings) is formed at an upper end of a door side front part along a partition plate partitioning a freezing chamber and a refrigerating chamber in a refrigerator, And the air curtain fan is driven and controlled by a microcomputer for inputting an on-contact signal of the door switch when the door of the freezing compartment of the refrigerator is opened, And a control method for effectively controlling such an air curtain apparatus.

Description

Refrigeration room air curtain apparatus and control method thereof

The present invention relates to a device for controlling the temperature inside a refrigerator and, more particularly, to a refrigerator which can reduce a temperature deviation near the inside of a door due to frequent opening / closing of the refrigerator door and can minimize the outflow of hot and cold air when the door is opened To an air curtain apparatus and a control method thereof.

FIG. 1 shows a piping diagram for explaining a refrigerant flow process for refrigeration of a general refrigerator.

As referred to here, the high-temperature refrigerant compressed in the compressor 10 is cooled while passing through the auxiliary heat-radiating pipe 11, the hot pipe 12, the thick plate pipe 13 and the wire-condenser pipe 14 in this order, (15).

The refrigerant passing through the dryer 15 is connected to the cooler 17 through the capillary tube 16 so as to be heat-exchanged.

The refrigerant passing through the heat exchanger (17) is connected to the compressor (10) through the accumulator (18).

The refrigeration cycle in this refrigerator will be described in detail as follows.

First, a refrigerant such as a refrigerant gas is compressed into a high temperature and a high pressure in the compressor 10, and the compressed refrigerant is discharged to the auxiliary heat radiation pipe 11.

The auxiliary heat-radiating pipe (11) is disposed in the evaporation vessel for storing the low-temperature water, which is installed at the lower end of the refrigerator.

The auxiliary heat-radiating pipe (11) has a high temperature (70 80 ) Evaporates the dehydrated water collected into the evaporation vessel.

At this time, a double effect of cooling the high temperature refrigerant is obtained.

The refrigerant passing through the auxiliary heat-radiating pipe (11) passes through the hot pipe (12). The hot pipe 12 is installed so as to pass through the front portion of the cabinet of the door side of the refrigerator. The function of the hot pipe 12 is to prevent the dew condensation caused by the inside temperature and the outside temperature difference .

Thereafter, the refrigerant passes through the dryer (15) after being cooled to a liquefied state while further passing through the thick plate pipe (13) and the condenser pipe (14).

The refrigerant cooled from the high temperature while passing through the wire condenser pipe 14 generates moisture in accordance with the temperature difference between the inside and the outside of the pipe through which the refrigerant flows, and is included in the liquid refrigerant. The cooling efficiency is remarkably lowered due to the difference in the exchange coefficient.

As a countermeasure against such a phenomenon, the dryer 15 is installed at the rear end of the wire-condenser pipe 14 so that the moisture component contained in the liquid refrigerant is removed therefrom. The low-temperature and high-pressure refrigerant whose moisture has been removed through the dryer (15) is supplied to a capillary (capillary tube) (16).

In this capillary tube 16, the pressure of the refrigerant is adiabatically expanded from a high pressure to a low pressure, Of the temperature rise. The refrigerant in the liquid phase, which is lowered in temperature and pressure as it passes through the capillary tube 16, is rapidly vaporized in the cooler 17 and takes the ambient temperature to produce the cool air supplied to the freezing chamber and the refrigerating chamber.

The accumulator 18 separates a liquid refrigerant or moisture component that has not sufficiently vaporized in the cooler 17 and serves to supply only pure gaseous refrigerant to the compressor 10 side.

By this refrigeration cycle, the temperature of the cooler 17 is reduced to about minus 40, and the cool air generated in the cooler is mainly supplied to the freezer compartment fan 28 (hereinafter referred to as F fan) And a part of the refrigerant is introduced into the refrigerating compartment by a refrigerating compartment fan (hereinafter referred to as R fan).

Accordingly, the room temperature of the freezing compartment is cooled to about minus 25 degrees, and the room temperature of the refrigerating compartment is cooled to minus 1 or 2 degrees and plus 4 or 5 degrees.

However, since the internal temperature of the refrigerator can be maintained by controlling the compressor, the cooling fan, and the like based on the temperature sensing output of the temperature sensor, The temperature of the inside of the furnace is only specified as the average value of the inside temperature.

Although the temperature distribution of the refrigerator is designed to be relatively narrow and the freezing chamber having a small number of openings of the door is low, the overall temperature distribution is maintained because the variation thereof is low. However, the refrigerator is designed to have a relatively large space, The temperature difference in the refrigerating chamber becomes large.

Especially, frequent opening of the door of the refrigerating chamber ultimately makes the temperature of the interior of the door near the inside of the door much higher than the temperature of the other portions of the refrigerating chamber.

It is an object of the present invention to provide a refrigerating compartment air curtain device and a refrigerating compartment air conditioner which can shorten the time required to cool the indoor temperature of the refrigerating compartment of the refrigerator to the set temperature and minimize the partial temperature variation between positions of the indoor temperature even with frequent opening of the door And a control method thereof.

According to an aspect of the present invention, a cold air passage having a cool air shower part (a slit or a plurality of openings) is formed at an upper end of a door side front part along a partition plate partitioning a freezing chamber and a refrigerating chamber in a refrigerator, And the air curtain fan is driven and controlled by a microcomputer for inputting an on-contact signal of the door switch when the freezer compartment door of the refrigerator is opened. And a control method for effectively controlling such an air curtain apparatus.

FIG. 1 is a refrigerant pipe diagram for explaining a refrigeration cycle of a refrigerator; FIG.

FIG. 2 is a schematic explanatory view of an air curtain device installed in a refrigerating chamber of a refrigerator according to the present invention; FIG.

FIG. 3 is a circuit diagram of the air curtain device of the present invention. FIG.

FIG. 4 is a flow chart for explaining a control method of the present invention apparatus. FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

20: Micom 21: Air curtain fan

22: R (cold) fan 23, 24: Amplifier

25: Photo coupler 26: Door switch

27: cool air passage 28: F (frozen) fan

29: cold shower 30: protection circuit

31: rectifier circuit 32: commercial power source

The present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a sectional view of a refrigerator showing a schematic structure of an air curtain apparatus of the present invention.

As shown in the figure, a cold air passage 27 having a cold shower 29 is provided on the upper side of the refrigerating chamber side of the partition plate for partitioning the freezing chamber and the refrigerating chamber of the refrigerator.

An air curtain fan (21) is provided inside the upper cool air passage (27) for forcibly transporting the cool air generated from the cooler (17) to the cool air shower part (29) formed along the upper end of the door side front part.

The air curtain fan 21 is configured to be driven and controlled by a microcomputer 20 which receives an on-contact signal of the door switch 26 when the freezer compartment door of the refrigerator is opened as will be described below.

FIG. 3 is a circuit diagram for driving and controlling the air curtain apparatus of the present invention.

As described herein, a door open detection signal generated from the refrigerator compartment door switch of the refrigerator is applied to the input terminal 11 of the microcomputer 21 for system control of the refrigerator.

Specifically, when the door switch 26 senses the door opening of the refrigerator, the voltage of the commercial AC power source 32 is rectified through the rectifying circuit 31 by the switch-on contact generated by the door switch 26, To the input terminal side (photodiode side) of the coupler 25.

The logic signal output at the Vcc level appearing on the output terminal side (phototransistor side) of the photocoupler 25 is connected to the input terminal of the microcomputer 20 via the CR protection circuit 30 so as to be connected thereto.

Each of the air curtain fan control signals and the refrigerating compartment fan control signals output from the first and second output terminals O1 and O2 of the microcomputer 20 are supplied to the respective controllers And is connected to the air curtain (AC) fan 21 and the freezing (R) fan 22 so as to be transferred.

The operation of the refrigerator air curtain system according to the circuit configuration of the present invention constructed as above will be described with reference to the flowcharts shown in FIGS. 2 and 3 and 4.

The door switch 26 shown in FIG. 3 is a refrigerator door switch. The switch is installed on a partition plate between the freezer compartment and the refrigerating compartment. When the refrigerator compartment door of the refrigerator is opened, a switch contact is generated.

The on-contact signal of the contact signal at this time causes the AC voltage of the commercial power supply 32 to be inputted to the rectifying circuit 310 to be converted into the DC voltage and then inputted to the input side of the photocoupler 25.

Since the input side of the photocoupler 25 is made of a photodiode and its output side is made of a phototransistor, at the output end of the photocoupler 25, the logic level of the Vcc level, which is electrically separated from the input stage side voltage level The output value is obtained.

The logic output value of the photocoupler 25 will be applied to the input terminal I1 of the microcomputer 20 through the CR protection circuit 30. [

Accordingly, the microcomputer 20 performs the first step of determining whether the door of the refrigerator compartment is open or closed based on whether the door switch 26 has generated a contact.

When the door switch 26 is turned on by the door opening in the first step, the microcomputer 20 controls the air curtain fan 21 via the amplifier 23 for the first operation time T1, 1 output terminal O1.

The first operation time T1 is preferably set to about 30 seconds, and may be set differently as needed or seasonally.

After the air curtain fan 21 is operated for the first predetermined time, the operation of the air curtain fan is terminated regardless of whether the refrigerator compartment door is closed or not.

This is to prevent the occurrence of a trouble in the compressor or the like as the infinite air curtain function is executed when the refrigerator door is not completely closed due to the user's mistake.

On the other hand, if it is not the door opening condition in the first step, the door is closed at this time, so the microcomputer executes the third step of determining whether the refrigeration fan 22 is operating.

If it is detected that the refrigerating fan 22 is operating, the microcomputer 20 performs a fourth step of turning off the air curtain fan 21 and ending the air curtain operating mode.

However, if the refrigerating fan is not operating in the third step, the microcomputer executes the fifth step of operating the air curtain fan during the second set operating time T2.

The second operation time T2 is preferably set to about two minutes, and may be set differently as needed or seasonally.

It is determined whether the refrigerating fan 22 operation signal is on during the operation of the air curtain fan 21 during the second set time T2 in the fifth step. If a cold fan operation signal based on the R sensor is generated, When the operation of the fan is turned off and there is no refrigerating fan operation signal, the sixth step of activating the air curtain fan during a predetermined second operation time and then turning off the fan is terminated, So that it can be reached quickly.

In the present invention described above, the food placed on the door side of the refrigerator is placed in a relatively poor temperature condition as compared with the food placed inside the refrigerator due to frequent closing of the freezer compartment door of the refrigerator. In order to solve the problem of low storage stability, the air curtain device is provided on the quartz plate side of the upper end of the furnace. When the refrigerator user opens the door, the cool air is blown out like a shower by a separate fan for a certain period of time, It is possible to minimize the change in the internal temperature due to the opening of the door through the interception of the inside atmosphere temperature by the curtain and the outside air temperature.

Further, according to the present invention, when the door is closed after the door is opened, the inside temperature rises inevitably more than before the opening. At this time, a cold shower by the air curtain is performed within a range where the cooling fan does not operate immediately after the door closes So that the internal temperature can be quickly reached to the previous temperature value in a very short time, thereby enhancing the preservability of the refrigerated food.

Claims (4)

An apparatus for improving food preservation performance in a refrigerator, the refrigerator having a refrigerating chamber (29) for discharging refrigerating cool air downward along an upper end of a front portion of a refrigerating chamber of a partition plate partitioning a freezing chamber and a refrigerating chamber of the refrigerator An air curtain 27 is provided and an air curtain 17 for forcibly transporting the cool air generated by the cooler 17 to the cool air shower part 29 formed along the upper end of the door side front part, And the air curtain fan (21) is driven and controlled by a microcomputer (20) which inputs an on-contact signal of the door switch (26) when the freezing chamber door of the refrigerator is opened. Curtain device. And a microcomputer (20) for controlling the air curtain fan (21) and the refrigerating compartment fan (22) in response to a door open detection signal from the door switch (26) A second step of operating the air curtain fan during a first predetermined operating time when the door switch-on by the door opening is detected in the first step, A third step of determining whether the refrigerator is operating if it is determined that the door is not opened in the first step; and if the refrigerating fan is operating in the third step, the air curtain fan is turned off, A fifth step of operating the air curtain fan during a second operating time set in advance if the refrigerating fan is not operating in the third step; If the refrigerating fan operation signal is generated, it is determined whether the refrigerating fan operation signal is on during the operation of the air curtain fan during the time. If there is no refrigerating fan operation signal, the air curtain fan is operated immediately after the refrigerating fan operation signal is generated. And a sixth step of turning off the fan after the fan is operated, and then terminating the fan curtain. 3. The method of claim 2, wherein the first operation time of the air curtain fan is set to 30 seconds. 3. The method of claim 2, wherein the second operation time of the air curtain fan is set to 2 minutes.