KR19990032139A - How to control the low noise operation of the refrigerator - Google Patents

Abstract

The present invention relates to a low-noise operation control method of a refrigerator capable of performing the quiet operation control as continuously as possible in response to the load of the freezer compartment when the quiet operation control for sleep at night is selected by the user. If there is a compressor, compressing the low-temperature, low-pressure gaseous refrigerant and outputting the high-temperature, high-pressure gaseous refrigerant to the normal operation state in the sleep mode, and determining whether the compressor has been turned on or off. If not, detect the amount of load stored in the freezer and set the number of consecutive sleep modes that can be carried out in proportion to the load.If the current sleep mode is less than the set number of possible sleep modes, the compressor and the fan that discharge cold air to the freezer and the freezer are driven. To stop and display sleep mode Switching to increasing sleep mode; clearing the sleep mode number of times when the compressor has been on / off; switching to sleep mode; and detecting opening or closing of a refrigerator door after a predetermined time has elapsed after switching to sleep mode Normal operation control of the compressor and the fan and releasing the sleep mode display to stop the compressor and the fan, which discharges the cool air, which are the main causes of noise generation in the refrigerator, to stop the drive as much as possible in response to the load of the freezer compartment. It can help you get a good night's sleep.

Description

How to control the low noise operation of the refrigerator

The present invention relates to a low noise operation control method of a refrigerator. In particular, when the quiet operation control for sleep at night is selected by the user, the low noise of the refrigerator is performed so that the quiet operation control can be continuously performed in response to the load of the freezer. It relates to a driving control method.

In general, a refrigeration cycle of a refrigerator includes a compressor that compresses and outputs a low-temperature, low-pressure gaseous refrigerant, and a condenser and a condenser that cools, condenses, and liquefies the high-temperature, high-pressure gaseous refrigerant from the compressor by external air. It is made through a capillary tube for depressurizing and outputting a high pressure liquid refrigerant from the capillary tube and an evaporator for absorbing and cooling heat by evaporating to a low temperature in a low pressure state. In particular, the fan-cooling refrigerator includes a fan for discharging cold air, and discharges cold air around the evaporator to the freezer compartment and the refrigerating compartment to cool the inside of the refrigerator, and performs temperature control as a driving / stop control of the fan and the compressor. do.

On the other hand, among these fan-cooling refrigerators, which convectively cool the air around the evaporator by a fan, the refrigerator that controls the temperature centered on the temperature of the refrigerator compartment has one fan in the freezer compartment and detects it in the refrigerator compartment. In order to liquefy the refrigerant in the gas state and the fan that discharges the cold air around the set temperature, the compressor controls the low pressure low temperature refrigerant gas into the high pressure high temperature refrigerant gas to drive and discharge the cold air around the evaporator to the freezer compartment and the refrigerating compartment. Keep your refrigerator at the right temperature.

In addition, in the refrigerator that controls the temperature of each of the freezer compartment and the refrigerating compartment, two fans for discharging cold air into the freezer compartment and the refrigerating compartment are independently driven and controlled in response to the temperature of the freezer compartment and the refrigerating compartment. Drive control is performed depending on the fan to be discharged to discharge cold air around the evaporator to the freezer compartment and the refrigerating compartment to maintain the temperature of the refrigerator at an appropriate temperature.

On the other hand, the noise caused by the operation of the refrigerator described above is the main cause of the operation of the compressor, especially in the quiet night at night, there is a problem that disturbs the user's sleep due to the relatively loud noise, therefore, based on the user's choice at night In response to the load of the freezer compartment, a fan for discharging the compressor and cold air to the refrigerator has been sought to limit the maximum driving while preventing weak cooling.

An object of the present invention is to reduce the operation of the fan for the discharge of the compressor and cold air at the user's choice in the refrigerator to prevent quiet cooling to the maximum in response to the load of the freezer to prevent the quiet operation of the refrigerator to perform quiet operation control with low noise To provide a control method.

The low noise operation control method of the refrigerator according to the present invention is a method of controlling the refrigerator with low noise in preparation for sleep, and when there is a sleep function key input, the low temperature low pressure gas state refrigerant is compressed and output as a high temperature high pressure gas state refrigerant. Determining whether the compressor has been switched to the normal operation state from the sleep mode and whether it has been turned on or off, and if the compressor has not been turned on or off, detecting the amount of load stored in the freezer compartment and determining the number of times the sleep mode can be performed in proportion to the load. Setting the current sleep mode to less than the number of sleep modes to perform, stops the compressor and the fan that discharges the cold air to the freezer and the refrigerating chamber, displays the sleep mode, and switches to the sleep mode to increase the number of sleep modes. Wake sleep mode if the compressor has been on or off And clearing the water and switching to the sleep mode, and controlling the compressor and the fan and releasing the sleep mode display when a predetermined time elapses after the switch to the sleep mode or when opening or closing of the refrigerator door is detected. It features.

1 is a schematic block diagram of a refrigerator employed in accordance with a preferred embodiment of the present invention.

Figure 2 is a flow diagram illustrating a low noise operation control process of the refrigerator according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: sleep function key 20,30: first, second temperature detection unit

40: weight detection unit 50: door detection unit

60: microcomputer 70,90: first and second fan drive unit

80,100: first and second fan 110: compressor driving unit

120: compressor 130: display unit

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

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

1 is a schematic block diagram of a refrigerator according to a preferred embodiment of the present invention, which includes a sleep function key 10, first and second temperature detectors 20 and 30, a weight detector 40, and a door detector 50. , The microcomputer 60, the first and second fan drivers 70 and 90, the first and second fans 80 and 100, the compressor driver 110, the compressor 120, and the display unit 130.

In this configuration, the sleep function key 10 is a key input means for selectively switching the sleep mode in which the user quietly operates, and is provided to the microcomputer 60 which describes the sleep function key signal later based on the user's key operation. Is authorized.

The first temperature detector 20 is installed at a predetermined position in the refrigerating compartment to detect the room temperature of the refrigerating compartment, and detects the detected refrigerating chamber temperature (generally, the DC value of the voltage level) of the microcomputer 60 by A / D (Analog to Digital) to the port.

In addition, the second temperature detector 30 is installed at a predetermined position in the freezer compartment to detect the room temperature of the freezer compartment and applies the detected freezer compartment temperature to the A / D port of the microcomputer 60.

On the other hand, the weight detection unit 40 is installed on the shelf where the food is stored in the freezer compartment, etc. detects the amount of food stored in the freezer, that is, the load, and applies the detected freezer compartment load to the A / D port of the microcomputer 60.

The door detector 50 detects the opening / closing of the door of the refrigerator using a photo coupler and the like and applies the door detection signal to the microcomputer 60.

Meanwhile, the microcomputer 60 is applied to the respective A / D ports through the first and second temperature detectors 20 and 30 to maintain the appropriate temperature of the refrigerating compartment and the freezing compartment. In order to independently drive and control the first and second fans 80 and 100 which will be described later in comparison with each preset reference temperature, and the compressor 120 which will be described later, the second fan 100 which blows cold air into the freezing chamber is typically used. The normal driving mode for controlling driving in accordance with the driving is controlled.

In addition, when the sleep function key signal is applied from the sleep function key 10, the microcomputer 60 determines whether the compressor 120 has been turned on / off in the normal operation state in the sleep mode and has not been turned on / off. If the compressor has never been turned on or off, the number of loads stored in the freezer compartment can be detected based on the weight detection signal from the weight detector 40 to perform continuous sleep mode proportional to the load (e.g., load versus 3 times, Set the load amount -2 times and the load amount -1 times to drive the first and second fans 80 and 100 to discharge cold air to the compressor, the freezer and the refrigerating chamber when the number of times the current sleep mode is performed is less than the set number of sleep modes. Controlling the display unit 130 controls the display unit 130 to display the sleep mode, and increases the number of sleep mode executions by one to switch to the sleep mode.

In addition, if the compressor 120 has been on / off when the sleep function key signal is applied, the microcomputer 60 clears the sleep mode number of times performed, switches to the sleep mode described above, and switches to the sleep mode for a predetermined time (for example, 30 minutes) or the opening and closing of the refrigerator door is detected based on the door detection signal from the door detection unit 50, and the compressor 120 and the first and second fans 80 and 100 are normally operated and the display unit 130 is controlled. Control to turn off the sleep mode display.

The first fan driver 70 outputs a predetermined driving signal to the first fan 80 under the control of the microcomputer 60 using a driving element, a relay, and the like, and the first fan 80 is dedicated to the refrigerator compartment. The fan is driven on the basis of the drive signal from the first fan driver 70 to discharge cold air around the evaporator (not shown) into the refrigerating chamber.

In addition, the second fan driver 90 outputs a predetermined driving signal to the second fan 100 under the control of the microcomputer 60 using a driving element, a relay, and the like, and the second fan 100 is dedicated to the freezer compartment. The fan is driven on the basis of the drive signal from the second fan driver 90 to discharge cold air around the evaporator (not shown) into the freezer compartment.

Meanwhile, the compressor driver 110 outputs a predetermined drive signal to the compressor 120 under the control of the microcomputer 60 using a drive element, a relay, and the like, and the compressor 120 vaporizes in the aforementioned refrigeration cycle. As a preliminary step for liquefying and reusing the used refrigerant, the refrigerant gas of low temperature and low pressure from the evaporator, not shown, is compressed and converted into a refrigerant gas of high temperature and high pressure, and outputted to a condenser, not shown.

Finally, the display unit 130 selectively displays the sleep mode under the control of the microcomputer 60 using a light emitting diode (LED).

Next, a low noise operation control process of the refrigerator in the refrigerator according to the preferred embodiment of the present invention including the above-described component will be described in detail with reference to the flowchart of FIG. 2.

First, the microcomputer 60 has the first fan 80 when the refrigerator compartment temperature detected based on the first temperature detector 20 in the normal operation mode is equal to or lower than a predetermined refrigerator compartment lower limit temperature (eg, −1 ° C.). ), And when the detected refrigerator compartment temperature is higher than the preset refrigerator compartment proper upper limit temperature (for example, 0,65 ° C), the first fan 80 is driven on to cool the air around the evaporator (not shown). Normal control to blow air is carried out.

Moreover, when the freezer compartment temperature detected based on the 2nd temperature detector 30 is below the preset freezer proper lower limit temperature (for example, -22.5 degreeC), the 2nd fan 100 is driven off and the detected freezer compartment is detected. When the temperature is higher than a predetermined freezer upper limit upper limit temperature (for example, -17.5 ° C), the second fan 100 is driven on to perform normal control of blowing the cold air around the evaporator into the freezer, and the compressor 120 The drive control is dependent on the drive on / off of the second fan (100).

Meanwhile, according to the present invention, when the sleep function key signal is applied from the sleep function key 10 (step 200), the microcomputer 60 determines whether the compressor 120 has been switched from the sleep mode to the normal operation mode and turned on / off. That is, it is determined whether the compressor 120 has been turned off in the normal operation mode (step 202).

That is, if the compressor 120 is turned off in the normal operation mode, the temperature of the refrigerator is normally maintained. If the compressor 120 has not been turned off after being switched to the normal operation mode, the refrigerator temperature may be in a weak state. Therefore, in this case, to limit the number of consecutive sleep modes to prevent the weak cooling of the refrigerator.

Therefore, if the compressor 120 has never been turned off in the normal operation mode, the microcomputer 60 detects the load amount of the freezer compartment based on the weight detection signal from the weight detector 40 to perform continuous sleep mode proportional to the detected load amount. The number of possible times (e.g., 3 load loads, 2 load loads, and 1 load load load) is set (step 204).

On the other hand, when the load of the freezer compartment is large, the number of times that the continuous sleep mode can be set to a large number is because the temperature rise of the freezer compartment is relatively slow based on the load of the freezer compartment, that is, the low temperature of food.

Next, it is determined whether the number of times the sleep mode has been performed so far is smaller than the set number of possible continuous sleep modes (step 206).

At this time, if the number of times that the sleep mode has been performed so far is less than the set number of possible continuous sleep modes, the microcomputer 60 forces the first and second fans 80 and 100 and the compressor 120 to be driven off and controls the display unit 130. Display the sleep mode and increase the number of sleep modes performed by '1' (step 210).

On the other hand, if the compressor 120 is driven on and turned off in the normal operation mode in the above-described step 202, the refrigerator maintains the normal temperature. The number of times of mode execution is cleared (step 208), and the process proceeds to step 210 described above to switch to the sleep mode.

Next, after switching to the sleep mode, the microcomputer 60 determines whether a predetermined time (for example, about 30 minutes), which is a preset sleep mode setting time, has elapsed (step 212).

At this time, if the predetermined time has not elapsed, it is determined whether the door of the refrigerator is opened or closed based on the door detection signal from the door detection unit 50 (step 214).

On the other hand, if the door of the refrigerator is not opened or closed, the process proceeds to the above-described step 212 to determine whether the predetermined time has elapsed, and if the door of the refrigerator is opened or the predetermined time elapses in the above-described step 212, the first and second The fan 80, 100 and the compressor 120 are normally operated in response to the temperature of the refrigerator, and the display unit 130 is controlled to release the sleep mode display (step 216) and ends.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

As described above, according to the present invention, by temporarily limiting the driving of the compressor and the fan for discharging cold air, which is the main cause of noise generation, especially for the user's sleep at night, the noise caused by the operation of the refrigerator can be minimized. In addition, it is also possible to perform a continuous sleep mode as possible in response to the load of the freezer compartment has the effect of allowing the user to take a good night's sleep.

Claims (1)

As a method of operating the refrigerator with low noise in preparation for sleep, Determining whether the compressor for compressing the low-temperature low-pressure gas state refrigerant and outputting the high-temperature high-pressure gas state refrigerant when the sleep function key is input has been switched to the normal operation state in the sleep mode; If the compressor has never been turned on / off, it detects the load stored in the freezer and sets the number of continuous sleep modes that can be proportional to the load.If the current sleep mode is less than the set number of sleep modes, the compressor, the freezer and the refrigerator Switching to a sleep mode that stops the fan discharging cold air, displays that the sleep mode is in sleep mode, and increases the number of sleep mode performances; If the compressor has been on / off, clearing the sleep mode number of times and switching to the sleep mode; And controlling normal operation of the compressor and the fan and releasing the sleep mode display when a predetermined time elapses after switching to the sleep mode or when opening or closing of the refrigerator door is detected.