KR100609849B1 - Refrigerator And Control Method Thereof - Google Patents

Abstract

The present invention relates to a refrigerator having a main body provided with at least one cooling chamber and a control method thereof. The refrigerator comprises: a compressor for compressing a refrigerant for cooling the cooling chamber, and selectively operable in a normal mode of a predetermined set temperature range and a quiet mode of a temperature range wider than the set temperature range of the normal mode; And a mode selector provided in the main body to selectively select any one of the normal mode and the quiet mode. As a result, the operation rate of the compressor can be controlled late at night, thereby reducing noise, and the operation rate can be controlled even when going out for a relatively long time, thereby reducing power consumption.

Description

Refrigerator and Control Method Thereof

1 is a side cross-sectional view of a kimchi refrigerator according to the present invention,

2 is a control block diagram of a kimchi refrigerator according to the present invention,

3 is a control flow chart of the kimchi refrigerator employing a timer according to the present invention,

4 is a control flow chart of the kimchi refrigerator employing the photoconductive device according to the present invention,

5 is a waveform diagram showing an operation rate of a compressor according to the control flow of FIGS. 3 and 4;

6 is a control block diagram of a conventional kimchi refrigerator,

7 is a control flow chart of a conventional kimchi refrigerator,

8 is a waveform diagram illustrating an operation rate of a compressor according to the control flow of FIG. 7.

<Description of Symbols for Main Parts of Drawings>

 3: body 4, 5: storage room

 9: operation button 15: compressor

17: evaporator 21: valve

23: mode selector 25: timer

27: photoconductive device 29: temperature sensor

30: control unit

The present invention relates to a refrigerator and a control method thereof, and more particularly, to a refrigerator capable of controlling the operation of a compressor and a control method thereof.

Refrigerators generally have a relatively low temperature freezer compartment and a relatively high temperature refrigerating compartment, and include a cooling system for cooling the food contained in the freezer compartment and the refrigerating compartment. In refrigerators equipped with a refrigeration system, the independent cooling type refrigerators are provided with independent evaporators and blower fans in the freezer compartment and the freezer compartment. It is controlled independently.

In this case, only the kimchi refrigerator having a main body having two kimchi storage chambers, a heater for heating each storage chamber, and a cooling system for cooling each storage chamber will be described.

6 is a control block diagram of a conventional kimchi refrigerator. As shown in this figure, a conventional kimchi refrigerator has a cooling system composed of a compressor 115 for compressing a refrigerant and an evaporator 117 for cooling the storage compartment using the refrigerant from the compressor 115. In addition, the cooling system is connected to the refrigerant pipe for the refrigerant circulation from the compressor 115, the refrigerant pipe for supplying the refrigerant from the compressor to each evaporator 117 side to adjust the amount of refrigerant from the compressor in accordance with the cooling conditions of each storage compartment. Valve 121 is provided. In addition, the conventional Kimchi refrigerator has a temperature sensor 129 for detecting the temperature of the storage compartment, a function setting unit 109 for setting various operating conditions such as operation conditions, and the storage temperature detected by the temperature sensor 129. Accordingly, the control unit 130 controls the compressor 115, the evaporator 117, the valve 121, and the like.

7 is a control flow diagram of a conventional kimchi refrigerator, Figure 8 is a waveform diagram showing the operation rate of the compressor according to the control flow of FIG. As shown in these figures, when the power is applied and the operating condition is input through the function setting unit 109 (P1), the control unit 130, according to the various operating conditions such as the input external conditions and the operation command (compressor) 115) and a plurality of devices such as valve 121 are operated (P2). When the compressor 115 operates, the controller 130 detects the temperature of each storage compartment through the temperature sensor 129 (P3), and determines whether the detected storage chamber temperature reaches a predetermined temperature condition (P4). . When it is determined that the temperature of the storage chamber reaches a predetermined temperature, the control unit 130 closes the valves 121 attached to each storage chamber to prevent the refrigerant from flowing into the storage chamber side (P5). When the temperature of each storage compartment reaches a predetermined temperature condition, the controller 130 stops the operation of the compressor 115 and senses the temperature of the storage compartment (P6). The controller 130 determines whether the sensed temperature of the storage compartment is out of a predetermined temperature range (P7), and when the temperature of the storage compartment is out of the set temperature, restarts the compressor 130 to cool the storage compartment (P8). As described above, in the conventional Kimchi refrigerator, steps P3 to P8 are repeated.

By the way, in the conventional refrigerator, as described in the operation rate of the compressor of FIG. 8, the compressor operates at the same operation rate not only during the daytime where the doors are frequently opened and closed, but also at midnight bedtime, that is, the operation of the compressor. Since the cycle is constant for 24 hours, the compressor noise is relatively high at night when the noise is relatively low.

In addition, even when the refrigerator door is open and closed at a relatively long distance, the compressor always operates at the same operation rate, which may cause unnecessary power consumption.

Accordingly, an object of the present invention is to provide a refrigerator and a method of controlling the same, which can reduce the noise of a compressor which is relatively large at the time of sleeping at night and control the operation rate of the compressor when going out for a relatively long time. .

The object is, according to the present invention, in a refrigerator having a main body provided with at least one cooling chamber, the refrigerant is compressed for cooling the cooling chamber, and the normal mode of the predetermined set temperature range and the normal mode of the normal mode. A compressor selectively operable in a quiet mode of a temperature range wider than a set temperature range; A mode selection unit provided in the main body to selectively select any one of the normal mode and the quiet mode; A timer that counts and recognizes time; And a control unit for operating the compressor in a quiet mode when the time counted by the timer reaches a predetermined set time.
The apparatus may further include a photoconductive device whose resistance is adjusted in association with external brightness, and wherein the controller operates the compressor in the quiet mode when the resistance of the photoconductive device reaches a predetermined resistance value. It is done.

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Here, the photoconductive device is characterized in that the CdS.

On the other hand, according to another aspect of the present invention, in the control method of a refrigerator having a main body provided with at least one cooling chamber, the refrigerant is compressed to cool the cooling chamber, the normal mode of a predetermined set temperature range, and Providing a compressor selectively operable in a quiet mode of a temperature range wider than said set temperature range of a normal mode; A compressor control step of selectively controlling the compressor; Providing a timer for counting time; The compressor control step is also achieved by the control method of the refrigerator, wherein the compressor is operated in the quiet mode when the time counted by the timer reaches a predetermined set time.

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The method may further include a photoconductive device in which a resistance value is adjusted according to an external brightness, and in the compressor control step, converting the compressor into the quiet mode when the resistance value of the photoconductive device reaches a predetermined resistance value. It is characterized by.

The photoconductive device is characterized in that the CdS.

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

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1 is a side cross-sectional view of a kimchi refrigerator according to the present invention, Figure 2 is a control block diagram of the kimchi refrigerator according to the present invention. As shown in these figures, the present kimchi refrigerator 1 has a main body 3 having an upwardly open input opening and a pair of storage chambers 4 and 5, and a main body to open and close the input opening of the main body 3, respectively. It has a pair of doors 7 which rotate around one side of the upper surface of (3). On the upper front surface of the main body 3, an operation panel (not shown) is provided with a plurality of operation buttons 9 for selecting ripening time, temperature conditions, and the like depending on the type of kimchi contained in each of the storage chambers 4 and 5. And between the bottom part of the main body 3 and the bottom part of the storage chambers 4 and 5, the apparatus part chamber 13 which accommodates many apparatus parts, such as the compressor 15 which compresses a refrigerant | coolant, is divided.

The main body 3 is provided with the evaporator 17 which cools each storage chamber 4 and 5 using the refrigerant | coolant compressed from the compressor 15, and the heater 19 which heats each storage chamber 4 and 5. As shown in FIG. . The refrigerant compressed from the compressor 15 circulates along the refrigerant pipe connecting the compressor 15 and the evaporator 17, and the refrigerant pipe has an amount of refrigerant from the compressor 15 according to the cooling conditions of the respective storage chambers 4 and 5. There is a pair of valves 21 that can adjust.

On the other hand, the compressor 15 has a 'normal mode' operating with a predetermined set temperature range, and a 'quiet mode' operating with a temperature range wider than the set temperature range of the 'normal mode'. In addition, the main body 3 includes a mode selector 23 which can alternatively select any one of a 'normal mode' and a 'quiet mode' of the compressor 15, a timer 25 for counting and recognizing time; In addition, the photoconductive element 27 for adjusting the resistance value in conjunction with the external brightness and a pair of temperature sensor 29 for sensing the temperature of each of the storage chamber (4, 5) is provided. Here, the photoconductive element 27 uses CdS.

Moreover, the main body 3 is provided with the control part 30 which operates the compressor 15, the valve 21, etc. when the time counted by the timer 25 reaches predetermined predetermined time. The controller 30 controls the operations of the compressor 15 and the valve 21 according to the temperatures of the respective storage chambers 4 and 5 sensed by the temperature sensor 29. In addition, the controller 30 operates the compressor 15 and the valve 21 when it is determined that the resistance value of the photoconductive element 27 reaches a predetermined resistance value.

3 is a control flowchart of the kimchi refrigerator employing a timer according to the present invention. As shown in this figure, first, when power is applied and an operation condition is input through the operation button 9 (S1), the control unit 30 according to various input conditions such as the input external operation condition and operation command. The compressor 15 and the valve 21 are operated (S2), and the time is sensed through the timer 25 (S3).

The controller 30 determines whether the 'quiet mode' is selected through the mode selection unit 23 (S4), and when the 'quiet mode' is selected, operates the compressor 15 according to the selected 'quiet mode'. (S5). When the compressor 15 is operated in the 'quiet mode' and the storage compartments 4 and 5 are cooled, the controller 30 senses the temperature of the storage compartments 4 and 5 and the detected temperature of the storage compartments 4 and 5 is constant. It is determined whether the temperature is reached, and when it is determined that the temperature of the storage chambers 4 and 5 reaches a predetermined temperature, the compressor 15 is stopped (S6). Thereafter, the controller 30 controls the operation of the compressor 15 described above based on the temperatures of the storage chambers 4 and 5 detected by the temperature sensor 29.

On the other hand, if the 'quiet mode' is not selected in step S4, the controller 30 determines whether the time detected by the timer 25 has reached the reference set time (S7). If the time detected by the timer 25 does not reach the reference set time, the controller 30 operates the compressor 15 in the 'normal mode' until the temperature of the storage compartments 4 and 5 reaches a predetermined temperature. (S8) When the temperature of the storage chambers 4 and 5 reaches a predetermined temperature, the compressor 15 is stopped (S9). Of course, also in this case, the control part 30 controls the operation of the compressor 15 based on the temperature of the storage chambers 4 and 5.

4 is a control flowchart of the kimchi refrigerator employing the photoconductive device according to the present invention. As shown in the figure, first, when the power is applied and the operating conditions are input through the operation button (9) (S11), the control unit 30, according to various input conditions such as the input external operating conditions and operation commands The compressor 15, the valve 21, etc. are operated (S12), and the resistance value of the photoconductive device 27 according to the external brightness is measured (S13).

Then, the controller 30 determines whether the 'quiet mode' is selected through the mode selection unit 23 (S14), and when the 'quiet mode' is selected, operates the compressor 15 according to the selected 'quiet mode'. (S15). When the compressor 15 is operated in the 'quiet mode' and the storage compartments 4 and 5 are cooled, the controller 30 senses the temperature of the storage compartments 4 and 5 and the detected temperature of the storage compartments 4 and 5 is constant. It is determined whether the temperature is reached, and when it is determined that the temperature of the storage chambers 4 and 5 reaches a predetermined temperature, the compressor 15 is stopped (S16). Thereafter, the controller 30 controls the operation of the compressor 15 described above based on the temperatures of the storage chambers 4 and 5 detected by the temperature sensor 29.

On the other hand, if the 'quiet mode' is not selected in step S14, the controller 30 determines whether the resistance value measured by the photoconductive device 27 reaches the reference resistance value (S17). If the resistance value measured by the photoconductive element 27 does not reach the reference resistance value, the controller 30 operates the compressor 15 in the 'normal mode' until the temperature of the storage chambers 4 and 5 reaches a predetermined temperature. In operation S18, when the temperature of the storage chambers 4 and 5 reaches a predetermined temperature, the compressor 15 is stopped (S19). Of course, also in this case, the control part 30 controls the operation of the compressor 15 based on the temperature of the storage chambers 4 and 5.

5 is a waveform diagram illustrating an operation rate of a compressor according to the control flow of FIGS. 3 and 4. As shown in the figure, the compressor 15 according to the present invention, the on-off operation according to the temperature of the storage chambers 4 and 5 detected by the temperature sensor 29, the waveform shown by the solid line is The 'normal mode' operating state of the compressor 15 is shown, and the waveform shown by the dotted line represents the 'quiet mode' operation of the compressor 15. As shown in these waveforms, the 'quiet mode' has a higher operating cycle because the upper and lower temperature ranges are relatively higher than the 'normal mode'. Accordingly, in the 'quiet mode', it is possible to reduce the compressor noise that is relatively large when the compressor 15 is turned on and off.

In this way, the compressor can be selectively selected from the normal mode of the predetermined set temperature range, the quiet mode of the temperature range wider than the set temperature range of the normal mode, and the mode of the compressor. By providing a selector, the compressor operation can be adjusted.

In the above description and the embodiment, a refrigerator having a timer or a photoconductive device has been described, but it is a matter of course that both the timer and the photoconductive device can be used in the refrigerator.

As described above, according to the present invention, there is provided a refrigerator and a control method thereof, by which the operation rate of the compressor can be adjusted late at night to reduce compressor noise generated by the operation of the compressor. In addition, the operation rate can be controlled even when going out for a relatively long time can reduce power consumption.

Claims (10)

A refrigerator having a body provided with at least one cooling chamber, A compressor for compressing the refrigerant for cooling the cooling chamber and selectively operable in a normal mode of a predetermined set temperature range and a quiet mode in a temperature range wider than the set temperature range of the normal mode; A mode selection unit provided in the main body to selectively select any one of the normal mode and the quiet mode; A timer that counts and recognizes time; And a controller for operating the compressor in a quiet mode when the time counted by the timer reaches a predetermined set time. delete The method of claim 1, It further includes a photoconductive device whose resistance value is adjusted in conjunction with the external brightness, And the control unit operates the compressor in the quiet mode when the resistance value of the photoconductive element reaches a predetermined resistance value. delete The method of claim 3, The photoconductive device is a refrigerator, characterized in that the CdS. In the control method of the refrigerator having a body provided with at least one cooling chamber, Compressing a refrigerant to cool the cooling chamber, and providing a compressor that is selectively operable in a normal mode of a predetermined set temperature range and a quiet mode in a temperature range wider than the set temperature range of the normal mode; A compressor control step of selectively controlling the compressor; Providing a timer for counting time; In the compressor control step, when the time counted by the timer reaches a predetermined set time, the control method of the refrigerator, characterized in that for operating the compressor in the quiet mode. delete The method of claim 6, It further includes a photoconductive device whose resistance value is adjusted in conjunction with the external brightness, In the compressor control step, when the resistance value of the photoconductive device reaches a predetermined resistance value, the control method of the refrigerator, characterized in that for converting the compressor to the quiet mode. delete The method of claim 8, The photoconductive device is a control method of the refrigerator, characterized in that the CdS.

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