KR100492604B1 - Forward/reverse rotation compressor driving apparatus and method for refrigerator equiped with pole change motor - Google Patents

Abstract

The present invention relates to a forward / reverse compressor operation control apparatus and method for a refrigerator employing a pole conversion motor, and in particular, to reduce power consumption by controlling the rotation direction of the compressor and the number of stator poles of the motor according to the conversion width of the temperature in the refrigerator. The present invention relates to a forward / reverse compressor operation control apparatus and method of a refrigerator employing a pole conversion motor. To this end, the present invention and the power supply for supplying a constant voltage for the refrigeration cycle stroke; A door detector detecting an opening of the refrigerator door; A temperature sensor detecting a temperature in the refrigerator according to a user set temperature; A microcomputer that receives the output of the door detector and the temperature detector and outputs a forward / reverse rotation control signal and a stator pole control signal according to the state of the door and a temperature change detected for a predetermined time; A forward / reverse rotation signal generator for generating a forward or reverse rotation signal by the forward / reverse rotation control signal of the microcomputer; A pole conversion signal generator for outputting a pole conversion signal for converting the connection by the pole number control signal; It characterized in that it consists of a compressor for maintaining the temperature in the high temperature by varying the cooling power by the output signal of the forward / reverse rotation signal generator and the pole conversion signal generator.

Description

FORWARD / REVERSE ROTATION COMPRESSOR DRIVING APPARATUS AND METHOD FOR REFRIGERATOR EQUIPED WITH POLE CHANGE MOTOR}

The present invention relates to a forward / reverse compressor operation control apparatus and method for a refrigerator employing a pole conversion motor, and in particular, to reduce power consumption by controlling the rotation direction of the compressor and the number of stator poles of the motor according to the conversion width of the temperature in the refrigerator. The present invention relates to a forward / reverse compressor operation control apparatus and method of a refrigerator employing a pole conversion motor.

In general, a refrigeration cycle applied to a refrigerator is divided into a high cooling cycle for supplying cold air to the freezer compartment and a low cooling cycle for supplying cold air to the refrigerating compartment.

At this time, the high-cooling refrigeration cycle or low-cooling refrigeration cycle, the length of the expansion means does not implement the optimal refrigeration cycle according to the operation mode, it will be described with reference to the accompanying drawings.

1 is a schematic view showing a refrigerating cycle of a typical refrigerator, as shown therein, a compressor (1) for making high-temperature, high-pressure steam by sucking and compressing low-temperature and low-pressure refrigerant vapor discharged from an evaporator; A condenser (2) for dissipating the heat of the high-temperature, high-pressure refrigerant vapor discharged from the compressor (1) into water or air, and converting it into a high-pressure saturated liquid; The first evaporator (F-EVA) which sucks the high pressure saturated liquid discharged from the condenser 2 into the refrigerant of low temperature and low pressure through the capillary tube 3, evaporates it, and heats it into a freezing chamber to discharge cold air. )Wow; A second evaporator (R-EVA) which sucks the high pressure saturated liquid discharged from the condenser 2 into the refrigerant having low temperature and low pressure through the capillary tube 3 and evaporates it, and heats it into a refrigerating chamber to discharge cold air. It will be described, such a refrigeration cycle will be described.

First, in the freezing operation (high cooling operation), the high temperature and high pressure refrigerant compressed by the compressor 1 flows into the condenser 2, condenses, and passes through the capillary tube 3 to become a low temperature low pressure refrigerant.

Thereafter, the first evaporator (F-EVA) sucks the low-temperature low-pressure refrigerant and evaporates it, and discharges saturated steam without liquid to the freezer compartment.

In the cold storage operation (low cooling power operation), the high temperature and high pressure refrigerant compressed by the compressor 1 flows into the condenser 2, condenses, and passes through the capillary tube 3 to become a low temperature low pressure refrigerant.

Thereafter, the second evaporator (R-EVA) inhales and evaporates the low temperature and low pressure refrigerant, and heats it into a freezer compartment to discharge cold air.

Here, the compressor employed in the above-mentioned refrigeration cycle of the refrigerator rotates only in the forward direction to always generate a high output. Accordingly, even when the temperature in the refrigerator is kept stable and a large cooling force is not required, the compressor is rotated forward. There is a problem that the power consumption is increased because it rotates.

In order to solve this problem, the refrigerator employs a compressor that rotates in a forward or reverse direction according to the cooling power, and generates a cooling force, thereby reducing power consumption. That is, the refrigerator is recognized as a stable state after a certain operating point. This reduces power consumption by driving the compressor in the reverse direction to generate a small cooling force.

However, the above-described method, i.e. controlling the temperature in the refrigerator by operating the compressor in the forward or reverse direction according to the cooling power to reduce the power consumption, even though the temperature does not require much cooling power, There is a problem in controlling the temperature in the refrigerator by rotating the compressor.

Therefore, the present invention was devised to solve the above problems, and when the conversion width of the temperature in the refrigerator is within a predetermined temperature and the state of the door does not open for a predetermined time, it is determined that a large cooling force is not necessary. Apparatus and method for controlling forward / reverse compressor operation of a refrigerator employing a pole conversion motor to reduce power consumption by rotating the compressor in reverse direction and converting and driving the number of stator poles of the compressor motor into four poles. The purpose is to provide.

The present invention for achieving the above object, the power supply for supplying a constant voltage for the refrigeration cycle stroke; A door detector detecting an opening of the refrigerator door; A temperature sensor detecting a temperature in the refrigerator according to a user set temperature; A microcomputer that receives the output of the door detector and the temperature detector and outputs a forward / reverse rotation control signal and a stator pole control signal according to the state of the door and a temperature change detected for a predetermined time; A forward / reverse rotation signal generator for generating a forward or reverse rotation signal by the forward / reverse rotation control signal of the microcomputer; A pole conversion signal generator for outputting a pole conversion signal for converting the connection by the pole number control signal; It characterized in that it consists of a compressor for maintaining the temperature in the high temperature by varying the cooling power by the output signal of the forward / reverse rotation signal generator and the pole conversion signal generator.

The present invention for achieving the above object, in the refrigerator capable of operating at a low / high speed according to the operation mode, at the same time to rotate the motor of the compressor forward or reverse rotation to maintain the temperature in the high temperature at the user set temperature A first step of the standard operation mode for outputting the maximum torque by driving to the pole; A second step of detecting a current temperature in the refrigerator during operation in the standard operation mode and determining whether a temperature change in the refrigerator is within a predetermined temperature based on the user set temperature; If the temperature change in the refrigerator is not within a predetermined temperature based on the user set temperature, the operation of the standard operation mode is continued. When the temperature change in the refrigerator is within a predetermined temperature based on the user set temperature, the compressor motor is rotated reversely. At the same time it is characterized in that it is made to perform a third step of switching to the power saving operation mode to operate at the four poles.

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

2 is an exemplary view showing a configuration of a forward / reverse compressor operation control apparatus of a refrigerator employing a pole conversion motor of the present invention, and as shown therein, a power supply unit 10 for supplying a predetermined voltage for a refrigeration cycle stroke; A door detector 11 detecting an opening of the refrigerator door; A temperature sensing unit 12 for sensing a temperature in the refrigerator according to a user set temperature; The microcomputer 13 which receives the output of the door detector 11 and the temperature detector 12 and outputs a forward / reverse rotation control signal and a stator pole control signal according to the state of the door and a temperature change detected for a predetermined time. )Wow; A forward / reverse rotation signal generator 14 generating a forward rotation or a reverse rotation signal by the forward / reverse rotation control signal of the microcomputer 13; A pole conversion signal generator (15) for outputting a pole conversion signal for converting the connection by the pole number control signal; And a compressor (COMP) 16 for varying the cooling force by the output signals of the forward / reverse rotation signal generator 14 and the pole conversion signal generator 15 to maintain the temperature in the refrigerator at the set temperature.

3 is a flow chart illustrating a forward / reverse compressor operation control method of a refrigerator employing a pole conversion motor of the present invention, and as shown in FIG. 3, in a refrigerator capable of operating at a low speed / high speed according to an operation mode, A first step (SP1) of the standard operation mode for outputting the maximum torque by operating the motor of the compressor at the same time as the forward or reverse rotation of the compressor to maintain the temperature in the refrigerator; A second step (SP2 to SP5) of detecting the current temperature in the refrigerator during operation in the standard operation mode and determining whether the temperature variation in the refrigerator is within a predetermined temperature based on the user set temperature; If the temperature change in the refrigerator is not within a predetermined temperature based on the user set temperature, the operation of the standard operation mode is continued. When the temperature change in the refrigerator is within a predetermined temperature based on the user set temperature, the compressor motor is rotated reversely. At the same time to perform the third step (SP6 ~ SP7) to switch to the power saving operation mode to operate in four poles, the operation and operation of the present invention configured as described above are as follows.

First, the door detection signal according to the detection result of the door detection unit 11 for detecting the state of the door of the refrigerator operating in the standard operation mode is applied to the microcomputer 13, the temperature detection unit 12 is the user set temperature The current temperature in the refrigerator according to the present invention is detected and applied to the microcomputer 13.

At this time, the microcomputer 13 has a fluctuation range of the internal temperature detected by the temperature sensing unit 12. If it is determined that the door is not opened within a predetermined time (3 hours) by the door detecting unit 11, the microcomputer 13 stops the operation of the compressor (COMP) 16 operating in the standard operation mode. The driving control signal for controlling the control signal is applied to the forward / reverse rotation signal generator 14 and the pole conversion signal generator 15.

Accordingly, the forward / reverse rotation signal generation unit 14 generates a reverse rotation signal for driving the compressor (COMP) 16 in the reverse direction by the operation control signal of the microcomputer 13, and the pole conversion. The signal generator 15 generates a pole number conversion signal for converting the connection of the stator winding of the compressor motor from two poles to four poles by the operation control signal of the microcomputer 13.

 Accordingly, the compressor rotates in reverse and is driven by four poles. More specifically, the present invention will be described with reference to FIG. 3. First, the refrigerator door state is sensed while driving in the standard operation mode at the set temperature set by the user (SP1, SP2).

Here, the standard operation mode means driving the pole conversion motor of the compressor to two poles and forward rotation.

As a result of the detection of the refrigerator door condition, it is determined whether the door has been opened within 3 hours. Determine whether it is within (SP3 ~ SP5).

As a result of the determination, the fluctuation range of the internal temperature in the refrigerator If it is not within the range, the compressor is rotated forward while maintaining the standard operation mode in which the pole conversion motor is made two poles (SP6).

However, as a result of the determination, the fluctuation range of the internal temperature in the refrigerator If it is within the range, the compressor is rotated in reverse, and the pole conversion motor is converted into four poles to operate (SP7).

As described in detail above, in the present invention, when the conversion width of the temperature in the refrigerator is within a predetermined temperature, and the state of the door is not opened for a predetermined time, it is determined that a large cooling force is not necessary and the rotation direction of the compressor is reversed. At the same time, by converting and driving the number of stator poles of the compressor motor into four poles, the power consumption can be reduced.

1 is a schematic view showing a refrigeration cycle of a typical refrigerator.

Figure 2 is an exemplary view showing the configuration of the forward / reverse rotation compressor operation control apparatus of the refrigerator employing the pole conversion motor of the present invention.

3 is a flow chart showing a forward / reverse compressor operation control method of a refrigerator employing the pole conversion motor of the present invention.

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

10: power supply unit 11: door detection unit

12: temperature sensing unit 13: microcomputer

14: forward / reverse rotation signal generator 15: pole conversion signal generator

16: Compressor (COMP)

Claims (5)

A power supply unit supplying a predetermined voltage for a refrigeration cycle stroke; A door detector detecting an opening of the refrigerator door; A temperature sensor detecting a temperature in the refrigerator according to a user set temperature; A microcomputer that receives the output of the door detector and the temperature detector and outputs a forward / reverse rotation control signal and a stator pole control signal according to the state of the door and a temperature change detected for a predetermined time; A forward / reverse rotation signal generator for generating a forward or reverse rotation signal by the forward / reverse rotation control signal of the microcomputer; A pole conversion signal generator for outputting a pole conversion signal for converting the connection by the pole number control signal; Forward / reverse rotation of a refrigerator employing a pole conversion motor, characterized in that it consists of a compressor for varying the cold power by the output signal of the forward / reverse rotation signal generator and the pole conversion signal generator to maintain the temperature in the high temperature at the set temperature Compressor operation control device. The microcomputer according to claim 1, wherein when the temperature in the refrigerator is within ± 1 degree and the door is not opened within three hours by the door detecting unit, the microcomputer drives the pole conversion motor with four poles while rotating the compressor, and the temperature in the refrigerator is increased. If the pole is not within ± 1 degree or if the door is opened within 3 hours by the door detection unit, the positive / reverse compressor of the refrigerator employing the pole change motor is characterized in that the pole change motor is operated while the compressor is rotated forward. Operation control device. In the refrigerator that can operate at low speed / high speed according to the operation mode, A first step of a standard operation mode for outputting the maximum torque by operating the motor of the compressor at the same time as the forward or reverse rotation of the compressor to maintain the temperature in the refrigerator at a user set temperature; Detecting a current temperature in the refrigerator in the standard operation mode and determining whether a temperature variation in the refrigerator is within a predetermined temperature based on the user set temperature during operation; If the temperature change in the refrigerator is not within a predetermined temperature based on the user set temperature, the operation of the standard operation mode is continued. When the temperature change in the refrigerator is within a predetermined temperature based on the user set temperature, the compressor motor is rotated reversely. A forward / reverse compressor operation control method of a refrigerator employing a pole conversion motor, characterized in that the third step of switching to a power saving operation mode for operating at four poles is performed at the same time. 4. The refrigerator according to claim 3, wherein the second step further comprises a step of detecting a state of the refrigerator door and determining whether the door has been opened within a predetermined time. Reverse compressor operation control method. The method of claim 4, wherein the door state determination time is determined based on three hours. 6.