KR101717105B1 - Refrigerator and controlling method of the same - Google Patents

Abstract

A refrigerator and a refrigerator control method are disclosed. According to the present invention, by using the state information of the refrigerator which changes according to the load, whether or not the load corresponding operation is entered is judged, so that the load responsive operation can be carried out more accurately than the prior art such as a method using the internal temperature sensor, .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigerator,

The present invention relates to a refrigerator, and more particularly to a refrigerator in which a plurality of compressors and a plurality of evaporators form a refrigeration cycle.

BACKGROUND ART Generally, a refrigerator is a device used to store freshly stored foods such as foods, drinks, etc. for a long period of time. The refrigerator is stored by being frozen or refrigerated according to the type of the storage object to be stored.

The refrigerator operates by driving a compressor provided therein. The cold air supplied to the inside of the refrigerator is generated by the heat exchange action of the refrigerant and is continuously supplied to the inside of the refrigerator while repeatedly performing a cycle of compression-condensation-expansion-evaporation. It can be uniformly transferred to the inside of the refrigerator and the food inside the refrigerator can be stored at a desired temperature. The cycle depends on the configuration of the refrigeration cycle device in the refrigerator.

In a conventional refrigerator and its control method, a refrigerator or a freezer compartment door is simply opened and closed. When the temperature in the compartment rises above a certain temperature, And the load corresponding operation was performed.

However, the conventional method of starting a load-responsive operation using a temperature sensor installed in a hull is a method in which a load corresponding to a rise or a change in the internal temperature sensed by the temperature sensor when the door is opened and closed Therefore, there is a problem that it is not possible to accurately inform the load operating point of time according to the position, performance, etc. of the temperature sensor.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a refrigerator and a refrigerator control method for accurately determining a point of time when a load corresponding operation is entered using state information of a refrigerator changed according to a load.

According to an aspect of the present invention, there is provided a refrigerator comprising: at least one refrigerating compartment temperature sensor for sensing a temperature in a refrigerating compartment of a refrigerator; at least one freezing compartment temperature sensor for sensing a temperature in a freezing compartment of the refrigerator; A state detection unit for detecting at least one state according to the state information and outputting state information; and a controller for performing a general operation for maintaining the temperature of the freezing compartment or the freezing compartment at a predetermined temperature, or based on the state information, And a refrigerator controller that performs a load corresponding operation corresponding to the load based on at least one of the sensed temperatures.

A refrigerator according to the present invention includes a first compressor connected to compress refrigerant in two stages, a second compressor, a condenser connected to a discharge side of a second compressor located downstream on the basis of a flow direction of the refrigerant, A first evaporator connected to the suction side of the first compressor, the first evaporator being branched from the first evaporator and upstream of the first compressor, the first evaporator being branched from the condenser and being connected to the discharge side of the first compressor, Further comprising a second evaporator connected between a suction side of the compressor and a refrigerant switching valve installed at a position branched from the outlet side of the condenser by the first evaporator and the second evaporator to control a flow direction of the refrigerant, do.

In the refrigerator according to the present invention, the state sensing unit may include an input current sensor for sensing an input current to be applied to the first compressor or the second compressor that varies according to the operation of the refrigerator, And performs the load corresponding operation when the input current is equal to or greater than a preset reference current.

In the refrigerator according to the present invention, the state sensing unit may include an input current sensor for sensing an input current applied to the first compressor or the second compressor, and an input current sensor for sensing an input voltage applied to the first compressor or the second compressor And a stroke calculation unit for calculating a stroke of the first compressor or the second compressor based on the input current and the input voltage, wherein the refrigerator controller calculates the stroke of the first compressor or the stroke of the second compressor based on the calculated stroke, And if the difference is greater than or equal to a predetermined value, the load corresponding operation is performed.

In the refrigerator according to the present invention, the state sensing unit may include a stroke detection unit that detects a stroke of the first compressor or the second compressor, and the refrigerator controller compares the detected stroke with a stroke command, If the difference is greater than or equal to a predetermined value, the load corresponding operation is performed.

In the refrigerator according to the present invention, the state sensing unit may include: a first evaporator temperature sensor for sensing an inlet temperature of the first evaporator or the second evaporator; a second evaporator temperature sensor for sensing an outlet temperature of the first evaporator or the second evaporator; And the refrigerator controller performs the load corresponding operation when the difference between the inlet temperature and the outlet temperature of the first evaporator or the difference between the inlet temperature and the outlet temperature of the second evaporator is equal to or greater than a predetermined value.

In the refrigerator according to the present invention, the refrigerator controller performs the load operation corresponding to the temperature change in the refrigerator compartment or the freezer compartment according to the operation of the first compressor or the second compressor.

The refrigerator according to the present invention further comprises a compressor controller for controlling the operation of the first compressor or the second compressor and transmitting the state information of the first compressor or the second compressor to the refrigerator controller.

The compressor controller comprises a communication unit for transmitting the state information of the first compressor or the second compressor to the refrigerator controller and receiving a compressor controller control signal for controlling the compressor controller from the refrigerator controller.

According to another aspect of the present invention, there is provided a method for controlling a refrigerator comprising the steps of: performing a normal operation for maintaining a temperature of a refrigerator or a freezer in a refrigerator at a predetermined temperature; detecting a state of the refrigerator according to a load; And performing a load corresponding operation corresponding to the load based on the state information.

The refrigerator control method according to the present invention may further include a refrigerating compartment temperature sensing step for sensing a temperature in the refrigerating compartment and a freezing compartment temperature sensing step for sensing a temperature in the freezing compartment, The temperature of at least one of the temperature information and the state information, and the state information.

In the refrigerator control method according to the present invention, the state sensing step may include an input current sensing step of sensing an input current applied to a compressor that varies according to the operation of the refrigerator, And performs the load corresponding operation if the current is equal to or greater than a preset reference current.

In the refrigerator control method according to the present invention, the state sensing step may include an input current sensing step of sensing an input current applied to the compressor, an input voltage sensing step of sensing an input voltage applied to the compressor, And a stroke calculation step of calculating a stroke of the compressor based on the input voltage, wherein the step of performing a load corresponding operation compares the calculated stroke with a stroke instruction, and if the difference is not less than a predetermined value And performs the load corresponding operation.

In the refrigerator control method according to the present invention, the state sensing step may include a stroke detection step of detecting a stroke of the compressor, and the step of performing a load corresponding operation may include comparing the detected stroke with a stroke instruction, If the difference is greater than or equal to a predetermined value, the load corresponding operation is performed.

In the refrigerator control method according to the present invention, the state sensing step may include a step of sensing an inlet temperature of the evaporator, and a step of sensing an outlet temperature of the evaporator, And performs the load corresponding operation when the difference between the inlet temperature and the outlet temperature is equal to or greater than a predetermined value.

In the refrigerator control method according to the present invention, the load corresponding operation performing step performs the load corresponding operation based on the temperature change in the refrigerator compartment or the freezer compartment according to the operation of the compressor.

According to the present invention, by using the state information of the refrigerator which changes according to the load, whether or not the load corresponding operation is entered is judged, so that the load responsive operation can be carried out more accurately than the prior art such as a method using the internal temperature sensor, .

1 is a perspective view showing an appearance of a general refrigerator;
2 is a schematic diagram of a refrigeration cycle apparatus according to the present invention;
FIGS. 3 to 5 are block diagrams schematically showing a configuration of a refrigerator according to embodiments of the present invention; FIG.
6 and 7 are flowcharts schematically illustrating a refrigerator control method according to embodiments of the present invention.

Hereinafter, a refrigerator and a refrigerator control method according to the present invention will be described in detail with reference to the accompanying drawings.

1, the refrigerator includes a refrigerator main body having a freezer compartment and a refrigerating compartment, a freezing compartment door and a refrigerating compartment door for opening and closing the freezing compartment and the refrigerating compartment of the refrigerator main body, and includes a refrigerating compartment temperature sensor 110a for sensing the temperature of the refrigerating compartment of the refrigerator, And a freezer compartment temperature sensor 120a for sensing a temperature of the freezer compartment of the refrigerator.

3, the refrigerator according to the present invention includes at least one refrigerator compartment temperature sensor 110 for sensing the temperature of the refrigerator compartment of the refrigerator, at least one freezer compartment temperature sensor 120 for sensing the temperature of the freezer compartment of the refrigerator, A state sensing unit 200 provided in the refrigerator for sensing at least one state according to a load and outputting state information, a controller for performing a general operation for maintaining the temperature of the refrigerator or the freezer at a predetermined temperature, And a refrigerator controller 300 for performing a load corresponding operation corresponding to the load based on at least one of the temperature information and the sensed temperatures.

A plurality of refrigerator compartment temperature sensors or a plurality of freezer compartment temperature sensors may be installed when a plurality of refrigerator compartments or freezing compartments are provided and a plurality of refrigerating compartment temperature sensors or a plurality of freezer compartment temperature sensors may be installed in each of the refrigerating compartments or the freezing compartments have.

As described later, the state sensing unit 200 senses a state change in the refrigerator that fluctuates according to refrigerator load variation, and outputs state information to the refrigerator controller 300. [

The refrigerator controller 300 performs a general operation of keeping the temperature of the refrigerator compartment or the freezer compartment constant, based on a preset temperature or a temperature input by the user. The refrigerator controller 300 performs a load operation corresponding to the load variation based on the state information input from the state sensing unit 200. At this time, the refrigerator controller 300 further considers the output value of the freezer compartment temperature sensor 110 or the output value of the freezer compartment temperature sensor 120, and determines whether the load corresponding operation is performed using the status information . Hereinafter, unlike the normal operation, the load corresponding operation is an operation method in which the refrigerator is operated in a steady state by increasing or decreasing the cooling power according to the load variation.

2, the refrigerator according to the present invention may include a first compressor 411 connected to compress refrigerant in two stages, A second compressor (412) connected to a discharge side of the second compressor located downstream of the refrigerant flow direction, and a condenser (420) branched from the condenser and positioned upstream of the refrigerant flow direction A first evaporator 431 connected to the suction side of the first compressor and a second evaporator 431 branched from the condenser and connected between the discharge side of the first compressor and the suction side of the second compressor together with the first evaporator And a refrigerant switching valve (440) installed at a position branched from the outlet of the condenser to the first evaporator and the second evaporator to control a flow direction of the refrigerant, All.

A machine room is provided on the lower side of the refrigerator body, and compressors 411 and 412 and a condenser 420 of the refrigeration cycle apparatus for generating cold air are installed in the machine room. A plurality of compressors 411 and 412 are connected in series so that the discharge port of the first compressor 411 is compressed to the second compressor 412 so that the refrigerant compressed by the first compressor 411 in two stages is compressed by the second compressor 412 in two stages. And is connected to the suction port of the compressor 412. The discharge port of the second compressor 412 is connected to the inlet of the condenser 420. The capacity of the first compressor 411 and the capacity of the second compressor 412 may be designed to be the same. However, since the refrigerating compartment is usually operated in the refrigerating compartment, the capacity of the second compressor 412, (411).

A plurality of evaporators 431 and 432 forming part of the refrigeration cycle apparatus are branched and connected in parallel at the outlet of the condenser 420 to the first branch tube and the second branch tube. A refrigerant switching valve 440 for controlling the flow direction of the refrigerant is provided at a branch point branched by the first branch tube and the second branch tube and is connected to the middle of each branch tube, A first inflator 451 and a second inflator 452 are provided for expanding the refrigerant.

The refrigerant switching valve 440 may be a three-way valve. For example, the refrigerant switching valve 440 may be formed in such a structure that the outlet of the condenser can be selectively communicated with either evaporator, or both evaporators can be simultaneously communicated.

The refrigerator according to the present invention having the refrigeration cycle apparatus as shown in FIG. 2 has the following operational effects.

That is, according to the operation mode of the refrigerator, the refrigerant switching valve 440 controls the flow direction of the refrigerant toward the first evaporator 431 or the second evaporator 432 so that the simultaneous operation of the refrigerating chamber and the freezing chamber or simultaneous operation of the freezing chamber The refrigerator compartment is operated to operate the freezer compartment or the refrigerating compartment to operate only the refrigerating compartment.

For example, when the operation mode of the refrigerator is the simultaneous operation, the refrigerant switching valve 440 is all opened and the refrigerant passing through the condenser 420 is distributed in the direction of the first evaporator 431 and the second evaporator 432 . At the same time, both the first compressor 411 and the second compressor 412 start operating.

The refrigerant sucked into the first compressor 411 through the first evaporator 431 is compressed and discharged from the first compressor 411 in one step and discharged to the first compressor 411 through the one- The refrigerant is sucked into the second compressor 412. At this time, the refrigerant passing through the second evaporator 432 is mixed with the refrigerant compressed and discharged from the first compressor 411, and is sucked into the second compressor 412.

Then, the refrigerant having passed through the first-stage compressed refrigerant and the second evaporator 432 is compressed and discharged by the second compressor 412, and the refrigerant discharged from the second compressor 412 is transferred to the condenser 420 And the refrigerant condensed in the condenser 420 is circulated in the direction of the first evaporator 431 and the second evaporator 432 in the refrigerant switching valve 440 and then circulated.

On the other hand, when the operation mode of the refrigerator is the freezer compartment operation, the refrigerant switching valve 440 is opened only in the direction of the first evaporator 431 which blocks the direction of the refrigerating chamber side evaporator, i.e., the second evaporator 432, So that the refrigerant passing through the first evaporator (420) can be moved only toward the first evaporator (431). The first compressor 411 and the second compressor 412 operate simultaneously and the refrigerant having passed through the first evaporator 431 flows through the first compressor 411 and the second compressor 412 in order It is circulated while being compressed in two stages.

On the other hand, when the operation mode of the refrigerator is the refrigerating chamber operation, the refrigerant switching valve 440 blocks the direction of the first evaporator 431 and opens the direction of the second evaporator 432. Then, the first compressor 411 is stopped and only the second compressor 412 is started.

The refrigerant passing through the condenser 420 moves only in the direction of the second evaporator 432 and is sucked into the second compressor 412. The refrigerant compressed and discharged from the second compressor 412 is condensed by the condenser 420 ), And the process of condensing is repeated.

In this way, the refrigerator operates with an independent refrigeration cycle corresponding to the load of the freezer compartment or the refrigerating compartment, thereby reducing unnecessary power consumption in the refrigerator, thereby greatly improving the efficiency of the refrigerator.

4, the state sensing unit 200 includes an input current sensor 210 for sensing an input current applied to the first compressor 411 or the second compressor 412 which varies according to the refrigerator operation, ). For example, the input current sensor 210 may include a current transducer connected to each phase of the motor constituting the first compressor or the second compressor to sense a current applied to the compressor, And a shunt resistor connected in series to the switching element in the compressor controller driving the shunt resistor.

At this time, the refrigerator controller 300 performs the load corresponding operation when the input current is equal to or greater than a preset reference current. That is, the refrigerator controller 300 compares the input current applied to the compressor with a preset reference current during normal operation, and if the input current is equal to or greater than the reference current, it is determined that the refrigerator load has changed and the state has changed And starts execution of the load responsive operation.

Referring to FIG. 4, the state sensing unit 200 includes an input current sensor 210 for sensing an input current applied to the first compressor or the second compressor, A stroke calculation unit 230 for calculating a stroke of the first compressor 411 or the second compressor 412 based on the input current and the input voltage; ). The stroke calculation unit 230 calculates a stroke using the following equation (1).

Where L is the capacitance of the motor coil in the compressor, C is the capacitance that forms a resonant circuit with L, and α is the motor constant, where α is the input voltage applied to the compressor, i is the input current applied to the compressor, R is the internal resistance of the compressor, L is the inductance of the motor coil in the compressor, , and x is the stroke.

At this time, the refrigerator controller 300 compares the calculated stroke and the stroke command, and performs the load corresponding operation when the difference is equal to or greater than a predetermined value. That is, the refrigerator controller 300 compares the calculated strokes with preset strokes, or a stroke command inputted by a user or the like, compares the calculated strokes with predetermined values previously set, Start the execution of the load-responsive operation.

Referring to FIG. 4, the state sensing unit 200 may include a stroke detection unit 240 that detects a stroke of the first compressor 411 or the second compressor 412. In this case, the stroke detection unit 240 replaces the stroke calculation unit 230. At this time, the refrigerator controller 300 compares the detected stroke and the stroke command, and performs the load corresponding operation when the difference is greater than or equal to a predetermined value. That is, the refrigerator controller 300 compares the detected stroke with a preset stroke command or a stroke command inputted by a user or the like, compares the detected stroke with a preset predetermined value, Start the execution of the load-responsive operation.

4, the state sensing unit 200 includes a first evaporator temperature sensor 251 for sensing an inlet temperature of the first evaporator 431 or the second evaporator 432, And a second evaporator temperature sensor 252 for sensing the outlet temperature of the first evaporator 431 or the second evaporator 432. The refrigerator controller 300 controls the difference between the inlet temperature and the outlet temperature of the first evaporator, And the load corresponding operation is performed when the difference between the inlet temperature and the outlet temperature of the second evaporator is equal to or greater than a predetermined value.

The state sensing unit 200 senses a temperature change using the temperature sensors 110 and 120 in the freezer compartment or the freezer compartment according to the operation of the first compressor 411 or the second compressor 412. The refrigerator controller 300 performs the load operation corresponding to the temperature change in the refrigerator compartment or the freezer compartment according to the operation of the first compressor or the second compressor. The refrigerator controller 300 controls the refrigerator compartment temperature sensor 110 and the freezer compartment temperature sensor 120 based on a change in the internal temperature value sensed and input from the refrigerator compartment temperature sensor 110 or the freezer compartment temperature sensor 120 during operation or stoppage of the first compressor or the second compressor, It is determined whether or not the corresponding operation is performed. For example, when the rising slope of the internal temperature increases during stoppage of the compressor, or when the falling slope of the internal temperature increases during operation of the compressor, the refrigerator controller 300 determines that the load fluctuation is the load fluctuation operation .

5, a refrigerator according to the present invention includes a compressor controller (not shown) for controlling operation of the first compressor or the second compressor and transmitting the state information of the first compressor or the second compressor to the refrigerator controller 500).

The compressor controller 500 transmits the compressor state information detected by the compressor or the motor in the compressor to the refrigerator controller 300. The refrigerator controller 30 generates a control signal for driving the compressor in accordance with a load of the refrigerator, for example, the internal temperature, the room temperature, the amount of the stored food, the control method, and the like, and transmits the control signal to the compressor controller 500. The control signal is generally an on / off signal. Also, the refrigerator controller 300 determines the operation state of the compressor from the compressor state information received from the compressor controller 500. The compressor controller 500 transmits the state information of the first compressor 411 or the second compressor 412 to the refrigerator controller 300 and controls the compressor controller 300 from the refrigerator controller 300 And a communication unit (510) for receiving the compressor controller control signal.

Referring to FIG. 6, the refrigerator control method according to the present invention includes a normal operation step (S100) of maintaining a temperature of a refrigerator compartment or a freezer compartment in a refrigerator at a predetermined temperature, (S200), and performing a load operation corresponding to the load based on the state information (S300).

Referring to FIG. 7, the method for controlling a refrigerator according to the present invention may further include a step of detecting a temperature of a refrigerating compartment (S10) for sensing a temperature in the refrigerating compartment and a step (S20) of sensing a temperature of the freezing compartment And the step S300 of performing the load responsive operation performs the load corresponding operation based on at least one of the temperatures and the combination of the state information. The construction of the apparatus will be described with reference to Figs. 2 to 5. Fig.

The state sensing step S200 includes an input current sensing step S210 for sensing an input current applied to the compressor that varies according to the operation of the refrigerator. In the step S300, Is equal to or greater than a predetermined reference current. In operation S100, the refrigerator senses an input current to be applied to the compressor in operation S210. In operation S211, the refrigerator compares an input current supplied to the compressor with a predetermined reference current in operation S211. , It is determined that the state of the refrigerator is changed due to the fluctuation of the refrigerator load, and the execution of the load responsive operation is started (S300).

The state sensing step S200 includes an input current sensing step S210 for sensing an input current applied to the compressor, an input voltage sensing step S220 for sensing an input voltage applied to the compressor, And a stroke calculating step (S230) of calculating a stroke of the compressor based on the input voltage, wherein the load corresponding operation performing step (S300) compares the calculated stroke with a stroke instruction, The load corresponding operation is performed. The refrigerator senses an input current applied to the compressor (S210), senses an input voltage (S220), calculates a stroke using a sensorless algorithm (S230), and outputs the calculated stroke and a stroke command (S231). If the difference is greater than or equal to a predetermined value, the load corresponding operation is performed (S300). That is, the refrigerator compares the calculated strokes with preset strokes, or a stroke command inputted by a user or the like, compares the calculated strokes with a preset predetermined value, and if the difference is greater than the predetermined value, .

The state detecting step S200 includes a stroke detecting step S240 for detecting a stroke of the compressor. In the step S300 of performing a load corresponding operation, the detected stroke is compared with the stroke command, And if the difference is equal to or greater than a predetermined value, the load corresponding operation is performed. The refrigerator compares the detected stroke with a preset stroke command or a stroke command inputted by a user or the like and compares the difference with a predetermined value (S241). If the difference is greater than the predetermined value, The execution of the corresponding operation is started (S300).

The detecting step S200 includes a step S251 of sensing the inlet temperature of the evaporator and a step S252 of sensing the outlet temperature of the evaporator, And performs the load corresponding operation when the difference between the inlet temperature and the outlet temperature of the evaporator is equal to or greater than a predetermined value.

In the refrigerator control method according to the present invention, the load responsive operation performing step (S300) performs the load corresponding operation based on the temperature change in the refrigerator compartment or the freezer compartment according to the operation of the compressor. The refrigerator senses a temperature change in the refrigerator compartment or the freezer compartment according to the operation of the compressor, and performs the corresponding load operation based on the temperature change. For example, the refrigerator determines whether or not a load corresponding operation is performed based on a change in the refrigerating compartment temperature or the freezing compartment temperature during operation or stoppage of the compressor. When the compressor is stopped, When the descending slope of the internal temperature increases during operation of the internal combustion engine,

As described above, the refrigerator and the refrigerator control method according to the present invention determine whether or not the load corresponding operation is entered using the state information of the refrigerator, which is changed according to the load, So that a corresponding operation is performed.

110: Refrigerator room temperature sensor 120: Freezer room temperature sensor
200: state detection unit 300: refrigerator controller
210, 210a, 210b: input current sensor
220, 220a, 220b: input voltage sensor
230: Stroke calculation unit 240: Stroke detection unit
251: first evaporator temperature sensor 252: second evaporator temperature sensor
411, 412: first compressor, second compressor 420: condenser
431, 432: a first evaporator, a second evaporator 440: a refrigerant switching valve
500: compressor controller 510: communication unit

Claims (16)

A first compressor connected to compress refrigerant in two stages; a second compressor;
A condenser connected to the discharge side of the second compressor located downstream on the basis of the flow direction of the refrigerant;
A first evaporator branched from the condenser and connected to a suction side of a first compressor located on an upstream side with respect to a flow direction of the refrigerant;
A second evaporator branched from the condenser with the first evaporator and connected between a discharge side of the first compressor and a suction side of the second compressor;
A refrigerant switching valve installed at a position branched from the outlet of the condenser by the first evaporator and the second evaporator to control a flow direction of the refrigerant;
One or more refrigerating compartment temperature sensors for sensing the temperature in the refrigerating compartment of the refrigerator;
One or more freezer room temperature sensors for sensing the temperature in the freezer compartment of the refrigerator;
A state sensing unit provided in the refrigerator to sense at least one state depending on a load and output state information; And
The refrigerator or the freezer compartment may be operated at a predetermined temperature or may be operated based on the state information or a load corresponding to the load based on at least one of the state information and the sensed temperatures And a refrigerator controller for performing a corresponding operation,
Wherein the state detection unit comprises:
A first evaporator temperature sensor for sensing an inlet temperature of the first evaporator or the second evaporator; And
A second evaporator temperature sensor for sensing an outlet temperature of the first evaporator or the second evaporator;
A stroke detection unit for directly detecting a stroke of the first compressor or the second compressor;
An input voltage sensor for sensing an input voltage applied to the first compressor or the second compressor; And
And an input current sensor for sensing an input current to be applied to the first compressor or the second compressor which varies according to the operation of the refrigerator,
Wherein the refrigerator controller comprises:
Determining whether a rising slope or a falling slope of the temperature in the refrigerating compartment is increased,
Determining whether a rising slope or a falling slope of the temperature in the freezing room is increased,
Determining whether a difference between an inlet temperature and an outlet temperature of the first evaporator or the second evaporator is equal to or greater than a predetermined value,
Calculates a stroke of the first compressor or the second compressor based on the input current and the input voltage when the input current is smaller than a predetermined reference current and determines whether the difference between the calculated stroke and the stroke command value is larger than a predetermined value However,
The stroke detection unit compares the stroke detected by the stroke detection unit with a stroke command, determines whether the difference is greater than a predetermined value,
And performs the load responsive operation based on a plurality of judged results. delete The method according to claim 1,
Wherein the refrigerator controller performs the load corresponding operation when the input current is equal to or greater than a preset reference current. delete delete delete delete The method according to claim 1,
And a compressor controller for controlling operation of the first compressor or the second compressor and transmitting the state information of the first compressor or the second compressor to the refrigerator controller. 9. The compressor of claim 8,
And a communication unit for transmitting the state information of the first compressor or the second compressor to the refrigerator controller and receiving a compressor controller control signal for controlling the compressor controller from the refrigerator controller. A general operation performing step of maintaining the temperature of the refrigerator compartment or the freezer compartment in the refrigerator at a constant temperature;
A state sensing step of sensing at least one state information according to a load of the refrigerator; And
And performing a load corresponding operation corresponding to the load based on the sensed state information,
The state sensing step may include:
Sensing a temperature of the freezing compartment and the freezing compartment;
Detecting an inlet temperature of the evaporator; And
Detecting an outlet temperature of the evaporator;
Directly detecting a stroke of the compressor by a stroke detection unit included in the refrigerator;
An input current sensing step of sensing an input current applied to the compressor which varies according to the operation of the refrigerator;
An input voltage sensing process for sensing an input voltage applied to the compressor;
And calculating a stroke of the compressor based on the input current and the input voltage when the input current is smaller than a preset reference current,
The step of performing the load-
The rising or falling slope of the temperature in the refrigerating compartment is increased,
The rising or falling slope of the temperature in the freezing chamber is increased, or
The difference between the inlet temperature and the outlet temperature of the evaporator is equal to or greater than a predetermined value, or
And the load corresponding operation is performed when the difference between the calculated stroke and the stroke command value is greater than a predetermined value when the input current is smaller than a predetermined reference current. 11. The method of claim 10,
A refrigerating compartment temperature sensing step of sensing a temperature in the refrigerating compartment; And
And a freezer compartment temperature sensing step of sensing a temperature in the freezer compartment,
The step of performing the load-
Wherein the controller executes the load corresponding operation based on at least one of the temperatures and a combination of the state information. The method according to claim 10 or 11,
Wherein the performing of the load corresponding operation is performed when the input current is equal to or greater than a preset reference current. delete delete delete delete

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