KR100518878B1 - Fan controlling apparatus and its method for refrigerator - Google Patents

Abstract

The present invention relates to a fan control apparatus and method for a refrigerator, and more particularly, to a fan control apparatus and a method for attaching a plurality of temperature sensors to enable constant speed and high speed operation according to a temperature change in a refrigerating chamber.

The present invention provides a fan control apparatus for a refrigerator, including a door open / close detection sensor for detecting opening and closing of a door, a fan driving unit for operating a fan in a freezer compartment, and first and second temperatures for measuring a first temperature and a second temperature at a location of a refrigerator compartment. When the sensor receives the closing signal after the door opening signal from the door opening / closing sensor, the first temperature and the second temperature are received from the first and second temperature sensors, respectively. In comparison, according to each comparison result, the fan driver is configured to command the microcomputer to operate at a predetermined speed of the fan.

Description

FAN CONTROLLING APPARATUS AND ITS METHOD FOR REFRIGERATOR}

The present invention relates to a fan control apparatus and method for a refrigerator, and more particularly, to a fan control apparatus and a method for attaching a plurality of temperature sensors to enable constant speed and high speed operation according to a temperature change in a refrigerating chamber.

1 is a front view when the door of the refrigerator according to the prior art is opened. As shown in FIG. 1, the inside of the refrigerator is divided into a freezer compartment 10 and a refrigerating compartment 20 by a barrier 30 filled with insulation. And, behind the freezer compartment 10, an evaporator 12 for cooling the freezer compartment 10 while changing a low-temperature low pressure refrigerant from a compressor (not shown) into a gas state, and controlling the cold air flow of the freezer compartment 10. A refrigeration fan 14 driven by a fan drive unit (not shown) and a damper 22 which controls or controls the refrigerator compartment temperature by supplying or blocking the cold air of the freezer compartment 10 to the refrigerating compartment 20 through the cold air passage 16. ) Is shown.

As the freezing cycle inside the refrigerator is driven, cold air is generated by heat exchange around the evaporator 12. A part of the generated cold air is supplied into the freezer compartment 10 by the freezing fan 14, and the other part of the cold air is supplied to the damper 22 of the refrigerating compartment 20 through the cold air passage 16.

The cold air supplied to the damper 22 of the refrigerating compartment 20 is discharged into the refrigerating compartment 10 along the cold air discharge port 25 formed in the damper assembly 24, and thus inside the refrigerating compartment 20 by natural convection. It comes down. The damper 22 is provided with a baffle for intermitting the supply of cold air to the refrigerating chamber 20, and the baffle is operated according to the temperature inside the refrigerating chamber 20. A temperature sensor 26 for detecting the temperature inside the refrigerating chamber 20 is attached.

FIG. 2 is a configuration diagram of a fan control device installed in FIG. 1. As shown in FIG. 2, the fan control apparatus according to the related art includes a fan driver 15 driving the fan 14, a temperature sensor 26 sensing a temperature in the refrigerating chamber 20, and a refrigerating chamber 20. The door opening and closing detection unit 42 for detecting the opening and closing of the door (not shown) and the door opening and closing detection unit 42 receive information on the closing after opening of the door, and the current temperature after the closing of the door is measured by a temperature sensor ( It is made from the microcomputer 40 which receives the input from 26, and compares it with a predetermined | prescribed threshold temperature, and causes the fan drive part 15 to drive the fan 14 according to the comparison result.

3 is a flowchart of a fan control method implemented by the fan control device of FIG. 2. In the fan control method according to FIG. 3, a step (S31) of determining whether the door of the refrigerating compartment 20 is closed after opening and receiving the present temperature from the temperature sensor 26, comparing the present temperature with the critical temperature ( And step S33 of constant-speed operation of the fan 14 according to the comparison result of step S32 and step S32.

In detail, in step S31, the microcomputer 40 determines whether the closing signal is received after the opening signal of the door from the door opening / closing detection unit 42, and determines whether the door is closed after opening. If no signal has been received or no closed signal has been received after receiving the open signal, it waits. If a closed signal is received after receiving the open signal, the process proceeds to step S32.

In step S32, the microcomputer 40 receives the current temperature inside the refrigerating chamber 20 after the door is closed from the temperature sensor 26, and this current temperature and the memory of the microcomputer 40 (not shown) already. In comparison with the threshold temperature stored in the storage device, if the current temperature is higher than the threshold temperature, the process proceeds to step S33 to drive the fan 14 to supply the cool air to the inside of the refrigerating chamber 20 for a predetermined time, and then the current temperature is Terminate if it is below or below the critical temperature.

In the prior art, when the temperature inside the refrigerating chamber is higher than the critical temperature, the cold air is supplied to the refrigerating chamber, and the cold air is supplied without considering how much the temperature inside the refrigerating chamber is higher than the critical temperature, so that the temperature is significantly higher than the critical temperature. There is a disadvantage that can not quickly supply cold air to the refrigerator.

Accordingly, an object of the present invention is to provide a fan control device and method capable of supplying cold air by determining what the temperature distribution inside the refrigerating compartment is.

In addition, an object of the present invention is to provide a fan control apparatus and method that can supply the cold air from the freezing compartment to the refrigerating compartment at a high speed or a constant speed in accordance with the temperature inside the refrigerating compartment to quickly lower the refrigerating compartment internal temperature below the critical temperature.

The present invention provides a fan control apparatus for a refrigerator, including a door open / close detection sensor for detecting opening and closing of a door, a fan driving unit for operating a fan in a freezer compartment, and first and second temperatures for measuring a first temperature and a second temperature at a location of a refrigerator compartment. When the sensor receives the closing signal after the door opening signal from the door opening / closing sensor, the first temperature and the second temperature are received from the first and second temperature sensors, respectively. In comparison, according to each comparison result, the fan driver is configured to command the microcomputer to operate at a predetermined speed of the fan.

At this time, the first temperature sensor is preferably installed near the cold air outlet in the refrigerating chamber, the second temperature sensor is preferably installed near the lower end in the refrigerating chamber.

In addition, the micom, if the first temperature is less than or equal to the first standard temperature, and if the second temperature is less than or equal to the second standard temperature even if the first temperature is greater than the first standard temperature. The fan driving unit commands the constant speed movement, and when the first temperature is greater than the first standard temperature and the second temperature is greater than the second standard temperature, the fan driving unit commands the high speed movement.

In addition, the first standard temperature is preferably equal to or lower than the second standard temperature.

In addition, the present invention provides a method for controlling a fan for a refrigerator, the method comprising: detecting a closing after opening of a door, measuring a first temperature and a second temperature of a refrigerating compartment, comparing the first temperature with a first standard temperature, and Moving the fan at a constant speed if the first temperature is less than or equal to the first standard temperature and if the second temperature is less than or equal to the second standard temperature even if the first temperature is greater than or equal to the first standard temperature. And when the first temperature is greater than the first standard temperature and the second temperature is greater than the second standard temperature, causing the fan driver to move at high speed.

In this case, the first standard temperature is preferably equal to or lower than the second standard temperature.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings and preferred embodiments. However, the scope of the present invention should not be limited by the following description, and the scope of the present invention will be limited only by what is described in the following claims.

4 is a front view when the door of the refrigerator according to the present invention is opened. 4 shows that the first temperature sensor 27a is installed near the cold air outlet 25 of the damper assembly 24, and the second temperature sensor 27b is installed near the bottom of the refrigerator compartment 20. Except for the same as the refrigerator of FIG.

As shown in the drawing, the first and second temperature sensors 27a and 27b are installed at different places in the different refrigerating chambers 20 so as to grasp the temperature distribution of the entire refrigerating chamber 20.

FIG. 5 is a configuration diagram of a fan control device installed in FIG. 4. As shown in FIG. 5, the fan controller includes a fan driver 15 for driving the fan 14, first and second temperature sensors 27a and 27b for sensing a temperature of a location of the refrigerator compartment 20, The door opening and closing detection unit 42 and the door opening and closing detection unit 42 for detecting the opening and closing of the door (not shown) of the refrigerating compartment 20 are inputted with information about the closing after the door is opened, and the temperature after the closing of the door is input. The fan drive unit 15 causes the fan drive unit 15 to receive inputs from the first and second temperature sensors 27a and 27b and compare them with the first and second standard temperatures stored in an internal memory (not shown). It consists of the microcomputer 50 which drives the fan 14 at high speed or constant speed.

FIG. 6 is a flowchart of a fan control method implemented by the fan control device of FIG. 5. The fan control method includes determining whether the door of the refrigerating compartment 20 is closed after opening (S61), receiving a first temperature from the first temperature sensor 27a, and comparing the first temperature with the first standard temperature (S62). And receiving the second temperature from the second temperature sensor 27b, comparing the second temperature with the second standard temperature (S63), and operating the fan 14 at high speed according to the comparison result of steps S62 and S63. The step S64 and the constant speed operation S65 are included. In this method, the first standard temperature compared with the first temperature is set to a temperature equal to or lower than the second standard temperature compared with the second temperature, which is determined by the first temperature sensor 27a measuring the first temperature. This is because the position to be attached is arranged closer to the cold air discharge port 25 than the position to which the second temperature sensor 27b for measuring the second temperature is attached.

In detail, in step S31, the microcomputer 50 determines whether the closing signal is received after the opening signal of the door from the door opening / closing detection unit 42, and determines whether the door is closed after opening. If no signal has been received or no closed signal has been received after receiving the open signal, it waits. If a closed signal is received after receiving the open signal, the process proceeds to step S62.

In step S62, the microcomputer 50 receives the first temperature, which is the present temperature inside the refrigerating chamber 20 after the door is closed, from the first temperature sensor 27a, and the microcomputer 50 already has the first temperature. Compared to the first standard temperature (eg -2 ° C) stored in the memory (not shown) of the

If the first temperature is equal to or lower than the first standard temperature, the flow proceeds to step S65 to drive the fan 14 at a constant speed (for example, 1150 rpm) to supply cool air to the inside of the refrigerating chamber 20 for a predetermined time. And exit. In this step (S63), when comparing the first temperature and the first standard temperature and proceeds to step (S65) to supply the cold air into the refrigerating chamber 20, the place where the first temperature sensor 27a is already installed is the first Although the standard temperature is satisfied, there is a possibility that the temperature in the vicinity where the second temperature sensor 27b is installed may be high, so that even when cold air is supplied at a constant speed, the temperature in the vicinity where the second temperature sensor 27b is installed can be easily lowered.

In step S63, if the first temperature is greater than the first standard temperature, the microcomputer 50 receives from the second temperature sensor 27b a second temperature which is a current temperature inside the refrigerating chamber 20 after the door is closed. If the second temperature is higher than the second standard temperature compared to the second standard temperature (for example, 0 ° C.) already stored in the memory of the microcomputer 50 (not shown), the step S64 is performed. ), The fan 14 is driven at a high speed (for example, 1450 rpm) to supply cool air to the inside of the refrigerating chamber 20 for a predetermined time, and then ends. This flow means that both the temperature where the first temperature sensor 27a is installed and where the second temperature sensor 27b is installed are higher than the first and second standard temperatures, respectively, i.e., the entire interior of the refrigerating chamber 20 It indicates that all of the temperature distributions are high. Therefore, at this time, it is necessary for the microcomputer 50 to drive the fan 14 at a high speed (for example, 1450 rpm) to quickly lower the temperature inside the refrigerating chamber 20.

If the second temperature is equal to or lower than the second standard temperature, the process proceeds to step S65 and ends. This flow is because the location where the second temperature sensor 27b is already installed meets the second standard temperature, but the temperature in the vicinity where the first temperature sensor 27a is installed is high, so even when cold air is supplied at a constant speed, the first temperature sensor ( It is possible to easily lower the temperature in the vicinity of 27a).

As described above, the present invention has an effect of determining the temperature distribution inside the refrigerating chamber by installing a plurality of temperature sensors inside the refrigerating chamber.

In addition, the present invention has an effect of rapidly lowering the temperature inside the refrigerating chamber to a standard temperature by driving the fan at a high speed or a constant speed according to the elevated temperature inside the refrigerating chamber according to the identified temperature distribution.

1 is a front view when the door of the refrigerator according to the prior art is opened.

FIG. 2 is a configuration diagram of a fan control device installed in FIG. 1.

3 is a flowchart of a fan control method implemented by the fan control device of FIG. 2.

4 is a front view when the door of the refrigerator according to the present invention is opened.

FIG. 5 is a configuration diagram of a fan control device installed in FIG. 4.

FIG. 6 is a flowchart of a fan control method implemented by the fan control device of FIG. 5.

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

10: freezer 12: evaporator

14; Fan 16: Cold Path

20: refrigerator compartment 24: damper assembly

25: cold air outlet 27a, 27b: temperature sensor

42: door opening and closing detection unit 50: micom

Claims (6)

A door opening and closing detection sensor for detecting opening and closing of the door; A fan driver for operating the fan in the freezer compartment; First and second temperature sensors measuring a first temperature and a second temperature at a location in the refrigerator compartment; Receiving the closing signal after the door open signal from the door opening and closing detection sensor, receiving the first temperature and the second temperature from the first and second temperature sensors and compared with the first standard temperature and the second standard temperature, respectively, And a microcomputer for causing the fan driving unit to operate the fans at different speeds according to each comparison result. The fan control apparatus according to claim 1, wherein the first temperature sensor is installed near a cold air discharge port in the refrigerating compartment, and the second temperature sensor is installed near a lower end of the refrigerating compartment. According to claim 1 or 2, wherein the microcomputer is the first temperature is less than or equal to the first standard temperature, and even if the first temperature is greater than the first standard temperature, the second temperature is the first temperature 2 is equal to or less than the standard temperature, the fan driving unit commands the constant speed movement, and if the first temperature is greater than the first standard temperature and the second temperature is greater than the second standard temperature, the fan driving unit is configured to perform high speed movement. Fan control apparatus for a refrigerator, characterized in that the command. The fan control apparatus according to claim 3, wherein the first standard temperature is equal to or lower than the second standard temperature. Detecting closure after opening of the door; Measuring a first temperature and a second temperature of the refrigerating compartment; Comparing the first temperature and the first standard temperature, if the first temperature is less than or equal to the first standard temperature, and even if the first temperature is greater than the first standard temperature, the second temperature is the first temperature. Moving the fan at a constant speed if less than or equal to 2 standard temperatures; And moving the fan driving unit at a high speed when the first temperature is greater than the first standard temperature and the second temperature is greater than the second standard temperature. The fan control method according to claim 5, wherein the first standard temperature is equal to or lower than the second standard temperature.