KR101112994B1 - method for operating refrigerator having a inverter compressor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of operating a refrigerator, and more particularly, to a method of operating a refrigerator having an inverter compressor configured to control the internal temperature of a plurality of rooms by adjusting the RPM of the inverter compressor.

The refrigerator operating method of the present invention is a refrigerator operation method for operating the refrigerator by determining any one of a predetermined high Alpamp (RPM) of the inverter compressor and a predetermined low Alpamp band that is lower than the high Almppm band. (A) determining the interior temperature of the plurality of rooms; And as a result of determining the internal temperature of the plurality of rooms, when the part of the plurality of rooms is in an overload state and the other part is in the stabilized state, the inverter compressor operates in the high RPM band, and the setting of the room in the stabilized state. And (b) increasing the temperature.

Kimchi, refrigerator, storage, inverter, compressor, rpm, temperature

Description

Method for operating refrigerator having a inverter compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of operating a refrigerator, and more particularly, to a method of operating a refrigerator having an inverter compressor configured to control the internal temperature of a plurality of rooms by adjusting the RPM of the inverter compressor.

In general, the kimchi refrigerator is fermented and stored according to the user's preference, such as by heating the kimchi to ripen and ferment it appropriately or by cooling the kimchi at a low temperature and storing the kimchi for a long time as the first time. The inside is equipped with a cooling device and a heating device.In the early stage, the temperature of the storage room is increased to the ripening temperature in a short time, and the kimchi stored in the interior storage room is aged according to the preference, and then the temperature of the internal storage room is adjusted to the storage temperature. By maintaining this level, it is possible to preserve the taste and freshness of kimchi for a long time. Nowadays, three storage rooms are installed in Kimchi refrigerators, two are used for ripening and storing kimchi, and the other is used for storing fresh vegetables.

1 and 2 is a block diagram of a typical kimchi refrigerator.

As shown in FIGS. 1 and 2, the kimchi refrigerator typically includes an intercom compressor 110, a condenser 120, a valve 130, an evaporator 141, 142, 143, and a heater 151, 152, 153. ), A temperature sensor 161, 162, 163, a key input unit 170, a controller 180, and a display 190.

As is well known, the refrigerant is circulated from condenser-> evaporator-> compressor-> condenser. Here, the inverter compressor 110 compresses the refrigerant to high temperature and high pressure, and the condenser 120 changes the gas refrigerant of high pressure and high pressure sent from the compressor 110 into a cold cooled liquid refrigerant, and the evaporator 141, 142 and 143 evaporate the liquid refrigerant to cool the reservoir.

The valve 130 is for controlling the amount of refrigerant flowing to the evaporators 141, 142, and 143 respectively installed in the plurality of reservoirs. Specifically, the valve 130 may include a first solenoid valve for adjusting the amount of refrigerant flowing to the first evaporator 141, a second solenoid valve and a third valve for adjusting the amount of refrigerant flowing to the second evaporator 142. And a third solenoid valve for controlling the amount of refrigerant flowing to the evaporator 143. In addition, the valve 130 may be implemented as a stepping valve for supplying a low temperature liquid refrigerant to each of the evaporator (141, 142, 143) alternately.

The heaters 151, 152 and 153 are for ripening kimchi.

The key input unit 170 is for allowing the user to select whether or not to operate each storage. In addition, to allow the user to set the operating conditions of the kimchi refrigerator, for example, kimchi ripening, long-term storage or vegetable storage.

The display unit 190 is for displaying the operation state of each storage.

The controller 180 controls the valve 130, the inverter compressor 110, and the heaters 151, 152, and 153 to maintain a constant temperature in the reservoir.

The inverter compressor 110 is a compressor used to improve energy consumption efficiency, and unlike the constant speed compressor, an inverter revolution (RPM) is variable.

Usually, in general refrigerators or stand type Kimchi refrigerators, two RPM bands are usually selected and used as follows, rather than using the entire RPM band of the inverter compressor.

▷ High RPM Band: Used when the system is overloaded, selecting the RPM band that has the best cooling power

▷ High RPM Band: Used when the system is in a stable state, selecting the RPM band with the best energy consumption efficiency

Therefore, the kimchi refrigerator controlling a plurality of rooms operates in a high RPM band when the plurality of rooms are all overloaded, and operates in a low RPM band when the plurality of rooms are all stabilized. Here, the overload state means a state in which the current temperature of the room greatly exceeds the set temperature of the room, and the stabilized state means a state in which the current temperature of the room is close to the set temperature of the room. For example, if the room's set temperature is 0 degrees and the error range is 0 ~ 1 degree, if the room's current temperature exceeds 1 degree, the room is overloaded, and if the room's current temperature is 0 ~ 1 degree, the room will be It is stabilized.

However, according to the conventional control method, there is a problem in selecting an RPM band when one room is overloaded and the other room is stabilized. If the inverter compressor operates at a high RPM, the stabilized room is controlled at a temperature lower than the set temperature due to excessive cooling. On the other hand, when the inverter compressor operates at a low RPM band, an overload room may take a long time to reach a stabilized state.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a refrigerator operating method in which a room in a stabilized state can maintain a set temperature even when an inverter compressor of a refrigerator having a plurality of rooms exhibits maximum cooling power. It is done.

In order to achieve the above object, the refrigerator operating method of the present invention determines the refrigerator by determining one of a predetermined high Alpamp (RPM) of the inverter compressor and a predetermined low Alpamp band, which is lower than the high Alpamp band. A method of operating a refrigerator, the method comprising: (a) identifying temperatures in a plurality of rooms in a refrigerator; And as a result of determining the internal temperature of the plurality of rooms, when the part of the plurality of rooms is in an overload state and the other part is in the stabilized state, the inverter compressor operates in the high RPM band, and the setting of the room in the stabilized state. And (b) increasing the temperature.

In the refrigerator operating method of the present invention, when the plurality of rooms are stabilized as a result of performing step (b), the inverter compressor operates in the low RPM band, and the setting adjusted in step (b) It may further comprise the step of lowering the temperature (c).

According to the operating method of the refrigerator having the inverter compressor of the present invention, as a result of determining the internal temperature of the plurality of rooms, the inverter compressor is the high RPM when some of the plurality of rooms are overloaded and others are stabilized By operating in a band and raising the set temperature set for the stabilized room, the effect of preventing the temperature of the room in the stabilized state from being lower than the set temperature even if the inverter compressor exhibits the maximum cooling power. There is.

Hereinafter, a method of operating a refrigerator having an inverter compressor according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, an example of a method of driving the valve 130, the inverter compressor 110, and the heaters 151, 152, and 153 by the controller 180 will be briefly described.

For example, if the user sets the operating condition of the first storage to 'long time storage' using the key input unit 170, the controller 180 may allow the inverter to maintain a constant temperature of 0 ± 0.5 ° C in the first storage. The compressor 110 and the valve 130 are controlled. Specifically, the controller 180 controls the valve 130 to supply the low temperature liquid refrigerant to the evaporator 141 when the temperature sensing value detected by the temperature sensor 161 installed in the first reservoir is 0.5 ° C. It controls and drives the inverter compressor 110. On the other hand, when the temperature sensing value detected by the temperature sensor 161 is -0.5 ° C, the valve 131 is controlled to block the supply of the liquid refrigerant to the evaporator 141 and the drive of the inverter compressor 110 is stopped. In this case, when the drive of the inverter compressor 110 is required to lower the temperature in another storage, the drive of the inverter compressor 110 is maintained.

In addition, the controller 180 may control the heater 151 in addition to the inverter compressor 110 and the valve 130 to maintain a constant temperature in the first reservoir. For example, when the valve 130 is closed and the drive of the inverter compressor 110 is stopped, but the temperature sensing value detected by the temperature sensor 161 is lower than 0.5 ° C., the heater 151 is driven. To increase the temperature in the first reservoir. In addition, the heater 151 may be driven so that the temperature in the first reservoir may rise faster.

On the other hand, the temperature control method of the second and third reservoirs may also proceed in the same manner as described above.

3 is a flowchart illustrating a method of operating a refrigerator according to an exemplary embodiment of the present invention, and the main subject of the description is the controller 180.

The temperature sensors 161, 162, and 163 respectively provided in the plurality of rooms periodically measure the present temperature of the room (hereinafter, referred to as 'in-house temperature'). Accordingly, in step S301, the internal temperatures of the plurality of rooms are periodically checked.

In step S303, it is determined whether some rooms are overloaded and some are stabilized based on the result of grasping the interior temperatures of the plurality of rooms.

As a result of the determination in step S303, if some rooms are overloaded and some rooms are stabilized, the process proceeds to steps S305 and S307 to control the inverter compressor 110 to operate in the high RPM band, and to set the set temperature of the rooms in the stabilized state. Increase Accordingly, even when the inverter compressor exerts the maximum cooling power, it is possible to prevent the temperature of the room in the stabilized state from being lower than the set temperature.

As a result of performing steps S305 and S307, it is determined whether all of the plurality of rooms have been stabilized (step S309).

As a result of the determination in step S309, when all the rooms are in a stabilized state, the inverter compressor 110 is operated in the low RPM band, and the set temperature is lowered again (step S311).

On the other hand, if it is determined in step S303 that some of the rooms are overloaded and some of the rooms are not stabilized, the process proceeds to step S313 to determine whether all rooms are overloaded.

As a result of the determination in step S313, if all the rooms are overloaded, the process proceeds to step S315 to control the inverter compressor 110 to operate in the high RPM band.

On the other hand, when the determination result in step S313, if all the room is in a stabilized state, the process proceeds to step S317 to control the inverter compressor 110 to operate in the low RPM band.

On the other hand, the refrigerator operating method of the present invention is not limited to the kimchi refrigerator, it is also applicable to a general refrigerator.

The operation method of the refrigerator having the inverter compressor of the present invention is not limited to the above-described embodiments, and various modifications can be made within the range permitted by the technical idea of the present invention.

1 and 2 is a block diagram of a typical kimchi refrigerator.

3 is a flowchart illustrating a refrigerator operating method according to an embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

110: inverter compressor 120: condenser

130: valves 141, 142, 143: evaporator

151, 152, 153: Heater 161, 162, 163: Temperature sensor

170: key input unit 180: control unit

190: display unit

Claims (2)

In the refrigerator operation method of operating the refrigerator by determining the RPM of the inverter compressor to any one of the predetermined high Alpamp band and the predetermined low Alpamp band which is lower than the high Alpamp band, (A) determining the interior temperature of the plurality of rooms; And As a result of determining the internal temperature of the plurality of rooms, when the part of the plurality of rooms is overloaded and the other part is stabilized, the inverter compressor operates in the high RPM band, and the set temperature of the room in the stabilized state Refrigerator operating method comprising the step (b) to increase the. The method of claim 1, As a result of performing step (b), when all of the plurality of rooms are in a stabilized state, the inverter compressor operates in the low RPM band and lowers the set temperature adjusted in step (b). Refrigerator driving method characterized in that it further comprises.

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