KR100814912B1 - Refrigerator - Google Patents

Abstract

A refrigerator is provided to block supply an operating current for a load part while a motor part consumes a large operating current, thereby reducing power consumption and securing power margin additionally for circuit stabilization. A refrigerator includes a power supply(10) for supplying an operating current, a motor part(30) driven by the operating current if predetermined conditions are satisfied, and a load part(20) continuously supplied with the operating current. A control part(60) supplies the operating current to the motor part if the predetermined conditions are satisfied while blocking the supply of the operation current to the load part. As the operation of the motor part is finished, the control part supplies the operating current to the load part again. The motor part includes at least one of a time division multi refrigerating cycle step valve and a damper. The load part includes at least one of a damper heater, a water tank heater, a dispenser heater, and a deodorizing fan motor.

Description

Refrigerator {REFRIGERATOR}

1 is a control block diagram of a refrigerator according to the present embodiment,

2 is a flowchart illustrating a control process of the refrigerator according to the present embodiment.

Explanation of symbols on the main parts of the drawings

10: power supply 20: load

30: motor unit 40: temperature control unit

50: damper 60: control unit

The present invention relates to a refrigerator, and more particularly, to a refrigerator capable of reducing power consumption.

Generally, a refrigerator includes a storage compartment, and generates cold air by repeatedly circulating a refrigerant, and supplies the generated cold air to the storage compartment so that the food stored in the storage compartment can be stored for a long time while being kept fresh. to be.

Such a refrigerator has a single operation such as a temperature control unit driven for cooling or heating in a refrigerator, and a damper that opens and closes a flow path of cold air to control the temperature of the cold storage room by supplying and blocking cold air from the cold room. Including a step motor to control the temperature inside the car.

In addition, unlike the above-described step motor, the refrigerator may further include a load unit (eg, a damper heater and a water tank heater) that operates for most of the time when the refrigerator is operated.

Here, the process of operating the temperature control unit of the step motor, the control unit compares the temperature value from the detection unit for detecting the internal temperature and the preset temperature range previously stored by the user. If the detected temperature value is greater than the upper limit temperature of the set temperature range, the on / off of the temperature controller is controlled to lower the internal temperature. If the detected temperature value is lower than the lower limit temperature of the set temperature range, the temperature is increased. Control the temperature controller on / off. Through this, the temperature in the refrigerator can be kept constant.

By the way, since the step motor operates only once when a predetermined condition is satisfied (for example, when the temperature in the refrigerator is outside the set temperature range), the operation time is short, but requires a large load current during operation.

Therefore, when the step motor is operated while the load unit is operating, a problem arises in that the power consumed by the refrigerator as a whole becomes large.

Accordingly, an object of the present invention is to provide a refrigerator in which power consumption is reduced by cutting off power supplied to a load unit which does not significantly affect the operation of the refrigerator when the step motor which requires a large operating current is operated. will be.

According to the present invention, there is provided a refrigerator, comprising: a power supply for supplying an operating current; A motor unit which receives and operates the operating current from the power supply unit when a predetermined condition is satisfied; A load unit continuously receiving the operating current from the power supply unit; A control unit which checks whether the condition is satisfied, supplies an operating current to the motor unit to operate the motor unit when the condition is satisfied, and controls the power supply unit to block an operating current supplied to the load unit. It is achieved by the refrigerator characterized in that.

Here, when the operation of the motor unit is completed, the controller may control the power supply unit to supply the operating current to the load unit again.

The motor unit may include at least one of a time division multiple refrigeration cycle step valve and a damper, and the load unit may include at least one of a damper heater, a water tank heater, a dispenser heater, and a deodorization fan motor. Do.

On the other hand, according to the present invention, in the refrigerator, the power supply unit; A motor unit which receives and drives a first operating current from the power supply unit when a predetermined condition is satisfied; A load unit continuously receiving a second operating current from the power supply unit; And a control unit controlling the power supply unit to block the second operating current supplied to the load unit when the operating current supplied to the motor unit and the load unit supplied by the power supply unit exceeds a limiting operating current. It can be achieved by a refrigerator characterized in that.

Here, the motor unit is a step motor, wherein the step motor includes at least one of a TDM step valve, a temperature controller, and the load unit is at least one of a damper heater, a water tank heater, a dispenser heater, and a deodorizing fan motor. It is preferable to include one.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is a control block diagram of a refrigerator according to the present embodiment. As shown in FIG. 1, the refrigerator according to the present invention includes a power supply unit 10, a motor unit 30, a load unit 20, and a control unit.

The power supply unit 10 supplies a first operating current to the motor unit 30 and a second operating current to the load unit 20 under the control of a controller to be described later. It may be implemented as a switching mode power supply (SMPS).

When the motor unit 30 satisfies a predetermined condition, the motor unit 30 operates by receiving the first operating current from the power supply unit 10. The motor unit 30 drives the temperature control unit 40 to control the temperature inside the refrigerator. It may include a step motor such as a damper (50) for opening and closing the flow path.

Here, the temperature control unit 40 is driven for cooling or heating in the furnace, and serves to generate cold air for supplying to the freezer compartment and the refrigerating compartment. Although not shown, the temperature control unit 40 generates a cold air by evaporating the refrigerant from the capillary, a compressor for compressing the refrigerant, a condenser for condensing the refrigerant from the compressor, a capillary tube for reducing the refrigerant from the condenser, and a refrigerant from the capillary tube. It includes an evaporator. Then, cold air is generated through the above process by driving the compression port.

The damper 50 serves to open and close the flow path of the cold air in order to control the temperature of the cold compartment by supplying and blocking cold air from the cold compartment.

The load unit 20 operates by receiving a second operating current from the power supply unit 10, and does not affect the performance of the refrigerator even when it is not operated for a predetermined time, and removes frost generated in the damper 50. It may include a damper heater, a dispenser heater when the dispenser is provided, a water tank heater for controlling the temperature of the water tank for supplying water to the dispenser, deodorizer fan motor and the like.

The control unit controls the power supply unit 10 to block the second operating current supplied to the load unit 20 according to whether the motor unit 30 is operated, and may be implemented as a controller such as a CPU or a microcomputer.

Specifically, the controller checks whether a predetermined condition in which the motor unit 30 operates is satisfied. When the motor unit 30 satisfies the operating condition, the power supply unit 10 is controlled to supply the first operating current to the motor unit 30 so that the motor unit 30 can operate. For example, when the temperature in the refrigerator rises or falls, the controller supplies the first operating current to the motor unit 30 to control the temperature control unit 40 included in the motor unit 30 to generate cold air.

In addition, when the motor unit 30 operates, the controller controls the power supply unit 10 to block the second operating current supplied to the load unit 20. Here, the control unit controls to block the operation current supplied to at least one of the damper heater, the dispenser heater, the water tank heater, and the deodorizer fan motor included in the load unit 20. As described above, since the load unit 20 does not significantly affect the performance of the refrigerator even when the load unit 20 does not operate for a predetermined time, the load unit 20 may block the second operating current while the first operating current is supplied to the motor unit 30. .

Then, when the motor unit 30 completes the operation, the controller controls the power supply unit 10 to supply the second operating current that was cut off to the load unit 20 again.

For example, when the damper 50 operates, when the second operating current supplied to the damper heater and the deodorizer fan motor is cut off, the operating current required by the damper heater is 83mA and the operating current required by the fan motor is 110mA. The total 120mA can be saved.

In addition, when the sum of the first operating current supplied from the power supply unit 10 to the motor unit 30 and the second operating current supplied to the load unit 20 exceeds the limit operating current, the second operation. The power supply unit 10 may be controlled to cut off the current.

For example, when the motor unit 30 is operated while the load unit 20 is operating and the first operating current is supplied, the control unit supplies the load unit 20 and the motor unit 30 from the power supply unit 10. Check whether the first and second operating current exceeds the limit operating current. When the threshold operating current is exceeded, the power supply unit 10 is controlled to cut off the second operating current supplied to the load unit 20.

If the threshold operating current is not exceeded, the power supply unit 10 is controlled to supply the second operating current.

As a result, while the motor unit 30 having a large operating current is operating, the second operating current supplied to the load unit 20 may be cut off to reduce overall power consumption. In addition, since an additional power margin can be secured, it can help stabilize the circuit and control a newly added load with the secured power supply.

The control method of the refrigerator according to the embodiment of the present invention described above will be described using the flowchart of FIG. 2.

As shown in FIG. 2, the controller checks whether the first operating current is supplied to the motor unit 30 (S1). As described above, when the motor unit 30 satisfies a predetermined condition, the motor unit 30 receives the first operating current from the power supply unit 10 to operate.

When the first operating current is supplied to the motor unit 30, the power supply unit 10 is controlled to block the second operating current supplied to the load unit 20 (S3).

Then, the controller checks whether the motor unit 30 operates to maintain the supply of the first operating current (S5). Here, the controller operates only when the motor unit 30 satisfies a predetermined condition. Therefore, if the motor unit 30 does not maintain the supply of the first operating current, it may determine that the operation of the motor unit 30 is completed. Can be.

In addition, when the motor unit 30 does not operate, the controller controls the power supply unit 10 to supply the second operating current that has been interrupted to the load unit 20 (S7).

As a result, while the motor unit 30 having a large operating current is operating, the second operating current supplied to the load unit 20 may be cut off to reduce overall power consumption. In addition, since the power supply margin can be additionally secured, it can help stabilize the circuit and control the newly added load with the secured power supply.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

As described above, according to the present invention, there is provided a refrigerator which can cut the operating current supplied to the load unit while the motor unit having a large operating current is operated to reduce the overall power consumption.

In addition, since a power supply margin can be additionally secured, a refrigerator can be provided to help stabilize the circuit and control a newly added load with the secured power supply.

Claims (5)

In the refrigerator, A power supply unit supplying an operation current; A motor unit including at least one of a time-division-divided multiple refrigeration cycle step valve and a damper, wherein the motor unit receives the operating current from the power supply unit when the predetermined condition is satisfied; A load unit including at least one of a damper heater, a water tank heater, a dispenser heater, and a deodorizing fan moder, wherein the load unit continuously receives the operating current from the power supply unit; A control unit which checks whether the condition is satisfied, supplies an operating current to the motor unit to operate the motor unit when the condition is satisfied, and controls the power supply unit to block an operating current supplied to the load unit. Refrigerator characterized in that. The method of claim 1, And the control unit controls the power supply unit to supply the operating current to the load unit when the operation of the motor unit is completed. delete In the refrigerator, A power supply unit; A motor unit which receives and drives a first operating current from the power supply unit when a predetermined condition is satisfied; A load unit continuously receiving a second operating current from the power supply unit; And a control unit controlling the power supply unit to block the second operating current supplied to the load unit when the operating current supplied to the motor unit and the load unit supplied by the power supply unit exceeds a limiting operating current. Refrigerator characterized in that. The method of claim 4, wherein The motor unit is a step motor, and the step motor includes at least one of a TDM step valve and a temperature controller, and the load unit includes at least one of a damper heater, a water tank heater, a dispenser heater, and a deodorization fan motor. Refrigerator characterized in that.

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