KR100421617B1 - Method for low temperature driveing control of electronic refrigerator - Google Patents

Abstract

The present invention relates to a low temperature operation control method of an electronic refrigerator, and more particularly, to a low temperature operation control method of an electronic refrigerator capable of operating by raising a temperature in a refrigerator compartment by heating a lamp when the ambient temperature of the refrigerator is low. To this end, the present invention includes a first step of sensing the ambient temperature of the refrigerator to determine whether the ambient temperature is a low temperature; A second step of grasping the operation state of the compressor at the low temperature and turning off the low temperature lamp when the unit is in operation, and turning on the low temperature lamp and sensing the refrigerating chamber temperature if the unit is not in operation; Determining whether the refrigerator compartment temperature is unsatisfactory upon sensing the refrigerator compartment temperature, and if the refrigerator compartment temperature is unsatisfactory, turning on the compressor and the fan motor, and when the refrigerator compartment temperature is satisfied, turning off the compressor and the fan motor. do.

Description

TECHNICAL FOR LOW TEMPERATURE DRIVEING CONTROL OF ELECTRONIC REFRIGERATOR}

The present invention relates to a low temperature operation control method of an electronic refrigerator, and more particularly, to a low temperature operation control method of an electronic refrigerator capable of operating by raising a temperature in a refrigerator compartment by heating a lamp when the ambient temperature of the refrigerator is low.

In general, a refrigeration cycle apparatus, as shown in Figure 1, the working fluid, that is, a compressor (10) for compressing and converting the refrigerant into a high temperature and high pressure state, and the refrigerant in the high temperature and high pressure state compressed by the compressor 10 in a liquid phase Condenser 20 for releasing internal latent heat to the outside while converting to the outside, an expansion mechanism 30 for lowering the pressure of the refrigerant converted into a liquid phase from the condenser 20, and a liquid state expanded from the expansion mechanism 30 It comprises a evaporator 40 for absorbing the heat of the outside while evaporating the refrigerant of the gas. The condenser 20 and the evaporator 40 is also called a heat exchanger because the heat exchange with the outside.

The compressor 10 of the refrigerating cycle apparatus sucks gas refrigerant of low temperature and low pressure and compresses the gas refrigerant at high temperature and high pressure. The gas of high temperature and high pressure enters the condenser 20 and is heat-exchanged by cooling water or air to obtain room temperature and high pressure. It becomes the liquid refrigerant of the liquid state.

The liquid refrigerant at room temperature and high pressure becomes a liquid refrigerant at low temperature and low pressure through a capillary for controlling the flow rate of the refrigerant and the action of lowering the pressure to a state which is easy to evaporate before being sent to the evaporator 40 in advance.

The low temperature low pressure liquid refrigerant absorbs heat by the evaporator 40. The air deprived of heat is thereby cooled and circulated by natural convection or a fan to keep the refrigerator at a low temperature.

The configuration of the apparatus to which the low-temperature operation control method of the conventional electronic refrigerator is applied to such a refrigeration cycle, when the user sets the temperature in the refrigerator to the desired temperature in the microcomputer 1 as shown in FIG. This is output to the microcomputer (1) side. The microcomputer 1 drives the compressor 6 and the fan motor 7 according to the temperature desired by the user according to the temperature detection of the refrigerator in the refrigerating compartment temperature detector 3.

At this time, when the temperature outside the refrigerator is low, the temperature of the refrigerator compartment is balanced with the temperature in the refrigerator compartment, and thus the temperature rise of the refrigerator compartment is eliminated, thereby stopping the compressor 6 and the fan motor 7 from the microcomputer 1.

Therefore, it is possible to store food while serving as a refrigerator and a freezer.

However, the conventional R-control electronic refrigerator keeps the temperature in the refrigerator constant by driving a compressor and a fan motor to accommodate the temperature control input selected by the user by receiving the input of the temperature sensor of the refrigerator compartment from the microcomputer.

In this case, when the refrigerator is used at a low temperature, an equilibrium is made between the temperature inside the refrigerator compartment and the outside temperature so that the temperature rise of the refrigerator compartment is eliminated and the compressor and the fan motor are not operated. In this case, there is a problem in that the temperature of the freezer is increased and the storage stored in the freezer is damaged.

The present invention to solve the above problems by using the outside temperature sensor, the relay, the capacitor to heat the lamp of the refrigerator compartment in accordance with the ambient temperature of the refrigerator to operate the compressor and the fan motor to prevent the temperature rise of the freezer compartment and storage It is an object of the present invention to provide a low temperature operation control method of an electronic refrigerator to maintain an appropriate state of water.

1 is an exemplary view showing a general refrigeration cycle.

2 is an exemplary view showing a configuration of a device to which a low temperature operation control method of a conventional electronic refrigerator is applied.

Figure 3 is an exemplary view showing the configuration of a device to which the low-temperature operation control method of the present invention electronic refrigerator is applied.

Figure 4 is a flow chart showing a low temperature operation control method of the electronic refrigerator of the present invention.

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

1: Microcomputer 2: Temperature setting part

3: refrigerating chamber temperature sensing unit 4: outside temperature sensing sensor unit

5: door detection unit 6: compressor

7: Fan motor 8: Normal lamp

9: low temperature lamp

The present invention for achieving the above object, the first step of sensing the ambient temperature of the refrigerator to determine whether the ambient temperature is a low temperature; A second step of detecting an operating state of the compressor when the temperature is low and turning off the low temperature lamp when the unit is in operation and turning on the low temperature lamp when the unit is not in operation; Determining whether the refrigerator compartment temperature is unsatisfactory upon sensing the refrigerator compartment temperature, and if the refrigerator compartment temperature is unsatisfactory, turning on the compressor and the fan motor, and when the refrigerator compartment temperature is satisfied, turning off the compressor and the fan motor. do.

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

4 is a flowchart illustrating a low temperature operation control method of an electronic refrigerator according to an embodiment of the present invention, as illustrated in FIG. 4, a first step (S41 and S42) of sensing an ambient temperature of a refrigerator and determining whether the ambient temperature is a low temperature or a high temperature; The second step (S43 ~ S47) to detect the operating state of the compressor in the low temperature and to turn off the low temperature lamp when in operation, and to turn on the low temperature lamp in operation when not in operation; Determining whether the refrigerator compartment temperature is unsatisfactory when the refrigerator compartment temperature is sensed, and if the refrigerator compartment temperature is unsatisfactory, turning on the compressor and the fan motor, and turning off the compressor and the fan motor when the refrigerator compartment temperature is satisfied (S48 ~ S50). The operation of the present invention configured as described above will be described with reference to FIG. 3 as follows.

First, the present invention is a system for detecting the temperature of the refrigerating chamber according to the user's temperature control in the electronic refrigerator and driving the compressor (6) and the fan motor (7) to maintain a proper temperature of the refrigerating chamber with a high frequency of use of the user By operating the compressor 6 and the fan motor 7 in accordance with the temperature is a suitable cooling method corresponding to the actual use of the user.

The microcomputer 1 determines the current temperature setting state selected by the user through the temperature control input circuit and drives the compressor 6 and the fan motor 7 so that the temperature of the refrigerating compartment is satisfied at the refrigerating compartment temperature sensing unit 3 side. .

At this time, when the temperature of the refrigerating chamber is satisfied, the present temperature of the refrigerating chamber is sensed by the refrigerating compartment temperature detecting unit 3, and the detected satisfaction temperature state is determined by the microcomputer 1 to determine the compressor (6), The operation of the fan motor 7 is stopped.

This operation is repeated to maintain the freezer compartment and the refrigerator compartment temperature.

In this case, if the weather is very cold in winter, the temperature inside the refrigerator compartment may be the same as or similar to the ambient temperature of the refrigerator. At this time, the refrigerator does not operate because there is no increase in the temperature of the refrigerator compartment. Since there is no operation of the refrigerator, the temperature of the freezer may rise rapidly and may cause fatal damage to the storage stored in the freezer.

In the present invention, when the ambient temperature is lowered, the low temperature lamp 9 is generated when the temperature is lowered below the predetermined temperature in the microcomputer 1 by using the outside temperature sensor unit 4.

The refrigerating compartment low temperature lamp 9 is driven only when it is not operated according to the operation state of the compressor 6.

That is, if the ambient temperature of the refrigerator determined by the outside air temperature sensor unit 4 determines the temperature of the compressor 6, it is determined whether the compressor 6 is in operation (S43, S44).

As a result of the determination, when the compressor 6 is in operation, the low temperature lamp 9 is turned off (S45). When the compressor 6 is not operated, the low temperature lamp 9 is heated (S46). When the user opens the door of the refrigerating chamber for use, the low temperature lamp 9 is stopped by the door detector 5 and the general lamp 8 is driven by the microcomputer 1.

If the ambient temperature of the refrigerator returns to a predetermined temperature or more during such control, the low temperature lamp 9 control circuit does not operate.

Thereafter, the low temperature and high temperature conditions of the outside of the refrigerator are grasped so that the appropriate temperature of the freezing compartment and the refrigerating compartment is maintained.

As described in detail above, in the present invention, when the refrigerator is operated at a low temperature of the refrigerator, the inside temperature of the refrigerator compartment is parallel to the ambient temperature of the refrigerator, and thus the refrigerator stops operation. If the ambient temperature of the refrigerator becomes low, the microcomputer generates heat in the refrigerator compartment lamp, raises the temperature inside the refrigerator compartment, and operates the refrigerator to operate the food stored in the freezer. It is effective in maintaining deterioration and freshness.

Claims (3)

Sensing the ambient temperature of the refrigerator and determining whether the ambient temperature is low temperature; A second step of grasping the operation state of the compressor when the temperature is low and turning off the low temperature lamp when the unit is in operation, turning on the low temperature lamp when the unit is not in operation, and detecting a temperature of the refrigerator compartment; Determining whether the refrigerator compartment temperature is unsatisfactory upon sensing the refrigerator compartment temperature, and if the refrigerator compartment temperature is unsatisfactory, turning on the compressor and the fan motor, and when the refrigerator compartment temperature is satisfied, turning off the compressor and the fan motor. Low temperature operation control method of an electronic refrigerator. The method of claim 1, wherein when the ambient temperature of the refrigerator is lowered, the second step generates a low temperature lamp when the temperature is lower than a predetermined temperature by using an outside temperature sensor, and stops driving the low temperature lamp when the temperature is returned above a predetermined temperature. Low temperature operation control method for an electronic refrigerator, characterized in that. The method of claim 1, wherein when the door of the refrigerating chamber is opened, the driving of the low temperature lamp is stopped by detecting the opening of the door.