KR19980018134U - Refrigerator with travel mode setting - Google Patents

Abstract

The present invention proposes a travel function refrigerator for achieving a transition to the economy driving mode by setting the travel mode by the user when the refrigerator is not used for a long time.

A feature of the present invention is to convert the internal temperature information of the freezer compartment detected by the F sensor 11 installed in the freezer compartment and the internal temperature information of the refrigerating compartment detected by the R sensor 12 installed in the refrigerating compartment, respectively into constant signal voltage components. Logic level by receiving the contact signal of the sensor sensing circuit 13 for transmitting to the microcomputer 10 and the travel function mode selection switch 14 provided with at least three switch devices for selecting at least three different types of functions. A switch input circuit 15 for generating a signal and transmitting it to the micom 10 side, a display driver circuit 16 for processing the display content information output from the micom 10 and outputting the same to the display 17; And a compressor drive circuit 18 and an R fan drive circuit 20 for controlling the input of drive control voltages to the compressor 19 and the R fan 21 based on the output of the microcomputer, and the travel function mode selection switch. Performing the operation program of the refrigerator in which the maintenance temperature in the refrigerator is determined according to the selection of each function according to (14), outputting the current travel function on the display, and canceling the travel function according to the input of the travel function mode. There is a refrigerator provided with a travel function, including a microcomputer 10 for performing the restoration of the high temperature set value and the function.

This invention can minimize the power consumption of the refrigerator in the long term absence.

Description

Refrigerator with travel mode setting

The present invention relates to the internal temperature control of the refrigerator, and in particular, when the refrigerator is not used for a long time, the travel mode setting function that can maximize the operation efficiency of the refrigerator by optimizing the operation cycle of the refrigerator by setting the travel mode by the user. It's about the refrigerator.

The refrigeration cycle in a typical refrigerator is as follows.

First, the high temperature refrigerant compressed by the compressor is cooled by passing through the hot pipe, the thick plate pipe, and the wire condenser pipe through the auxiliary heat dissipation pipe connected to the compressor, and then supplied to the dryer.

In addition, the refrigerant passing through the dryer is connected to the heat exchanger in the cooler via a capillary tube.

The recovery pipe is connected to the compressor such that the refrigerant passing through the heat exchanger is recovered through the accumulator to the compressor again.

The refrigeration cycle in such a refrigerator will be described in detail as follows.

First, the compressor compresses a refrigerant, such as a freon gas, at high temperature and high pressure, and sends it out to the auxiliary heat dissipation pipe.

The auxiliary heat dissipation pipe is disposed in an evaporation vessel for defrost water storage installed at the bottom of the refrigerator.

The auxiliary heat dissipation pipe evaporates the defrost water collected into the evaporation vessel by the high temperature (70 ° C. to 80 ° C.) refrigerant flowing therein.

At this time, a dual effect is obtained in which the high temperature refrigerant is somewhat cooled.

The refrigerant passing through the auxiliary heat dissipation pipe passes through the hot pipe.

The hot pipe is installed to pass through the front part inside the cabinet of the door side of the refrigerator, and the function of the hot pipe is to remove dew condensation caused by the difference between the internal temperature and the external temperature when exchanging the outside air of the refrigerator due to the door opening.

After that, the refrigerant is further cooled through the thick plate pipe and the wire condenser pipe to be liquefied, and then passes through the dryer.

The refrigerant cooled from the high temperature while passing through the wire condenser pipe is generated according to the temperature difference between the internal and external air in the pipe through which the refrigerant flows, and is included in the liquid phase refrigerant. This leads to a significant decrease in cooling efficiency.

As a countermeasure against this phenomenon, a dryer is installed at the rear end of the wire condenser pipe to remove moisture components contained in the liquid refrigerant.

The low temperature and high pressure refrigerant from which moisture is removed while passing through the dryer is supplied to a capillary tube (capillary tube).

In this capillary, the pressure of the refrigerant is rapidly adiabaticly expanded from high pressure to low pressure to make the refrigerant low temperature low pressure to produce a temperature drop of about -30 ° C.

The low temperature low pressure liquid refrigerant passing through the capillary is rapidly vaporized in the cooler to take the ambient temperature to create a freezer cold air.

The accumulator separates the liquid refrigerant that is not sufficiently vaporized in the cooler to supply only the pure gaseous refrigerant to the compressor.

By such a refrigeration cycle, the temperature of the cooler is lowered to a very low temperature. The cold air produced in the cooler is mainly fed into the freezer by a freezer fan (hereinafter referred to as a F fan), and a part of the cooler fan (hereinafter R). The pan is weak).

Accordingly, the room temperature of the freezer compartment is cooled to about minus 25 degrees, and the room temperature of the freezer compartment is cooled to a temperature between minus 1 and 2 degrees and plus 4 and 5 degrees.

The cooling of the high temperature is done according to the program of the system control micom which inputs various function key input signals, the R signal detection signal for detecting the temperature of the refrigerating chamber, and the F signal detection signal for detecting the temperature of the freezing chamber. do.

The ambient temperature of the refrigerator becomes a very important factor when controlling the microcomputer for the high temperature stability of the refrigerator.

In general, when the ambient temperature is 30 degrees Celsius, the time required to start the refrigerator to reach a constant value is normal and the various functions are normal, and the ambient temperature rises by about 5 degrees Celsius. When the degree is exceeded, it is very difficult to expect the normal operation of the refrigerator and the normal operation of various accessories by satisfactory starting the refrigerator.

Therefore, when the refrigerator is used in the summer or in a place where the ambient temperature is high, if the refrigerator is turned off by not using the refrigerator for a long time, it may cause an unsuccessful operation of the refrigerator.

Therefore, even when the refrigerator is not used for a long time, it is necessary to operate the refrigerator as it is depending on the surrounding conditions in which the refrigerator is installed.

The purpose of the present invention is to change the refrigerator setting program from the normal operation mode to the saving mode by changing the travel mode function of the refrigerator user through the external key switch provided in the refrigerator, thereby modifying the operation mode of the refrigerator to an optimal long-term standby mode. The present invention provides a refrigerator having a travel mode setting function that can achieve savings.

A feature of the present invention is to convert the high temperature information of the freezer compartment detected by the F sensor installed in the freezer compartment and the high temperature information of the refrigerating compartment detected by the R sensor installed in the refrigerating compartment, respectively, into a constant signal voltage component for transmission to the microcomputer. A sensor input circuit and a switch input circuit for receiving a contact signal of a travel function mode selection switch provided with at least three switch devices for selecting at least three different types of functions, and generating a logic level signal to the microcomputer; An indicator driving circuit for processing display contents information output from the microcomputer and outputting the same to a display, a compressor driving circuit and an R fan driving circuit for controlling the input of a driving control voltage to a compressor and an R fan based on the output of the microcomputer; , According to the respective function selection by the travel function mode selection switch Outputs the current travel function on the display while executing the operation program of the refrigerator in which the ground temperature is determined, and releases the travel function and restores the previous high temperature setting value and the original function of the refrigerator function according to the input of the travel function mode. It is in the refrigerator of the travel function including the microcomputer.

1 is a block diagram of a system control circuit of the present invention refrigerator.

2 is a flowchart illustrating the present invention.

＊＊ Explanation of symbols on main parts of drawing ＊＊

10: microcomputer 11: F sensor

12: R sensor 13: sensor detection circuit

14: travel function mode selection switch 15: switch circuit

16: display driving circuit 17: indicator

18: compressor driving circuit 19: compressor

20: R fan drive circuit 21: R fan

Referring to the present invention based on the accompanying drawings as follows.

1 is a circuit block diagram of a refrigerator control system having a travel function of the present invention.

As referred to herein, the internal temperature information of the freezer compartment detected by the F sensor 11 installed in the freezer compartment and the internal temperature information of the refrigerating compartment detected by the R sensor 12 installed in the refrigerating compartment are respectively measured by a sensor detection circuit ( 13) is connected to convert into a microcomputer input signal.

The freezing and refrigerating temperature sensing signals processed by the sensor detection circuit 13 are connected to be applied to the microcomputer 10 side.

A function selection key input signal of at least three modes or more by the various function switches 14 of the refrigerator is converted into a logic level for micom recognition by the switch input circuit 15 so as to be provided to the micom 10 side.

On the other hand, the display information output from the microcomputer 10 is connected to be displayed on the display 17 through the display driver circuit 16.

In addition, control signals for driving the compressor and the R fan are provided to the compressor driving circuit 18 and the R fan driving circuit 20, respectively, to connect the respective compressors 19 and the R fans 21 to drive control.

Referring to the flow chart of the refrigerator control system of the present invention travel function configured as described above with reference to the flow chart of FIG.

First, the microcomputer 10 may input a travel function program execution mode of various users using the function selection switch 14 in the normal operation mode of the refrigerator.

The user program that can be input is configured to separately set the first setting mode for switching the entire refrigerator to the freezing function, the second setting mode for switching the entire function of the refrigerator to the refrigeration function, and to separate the refrigerator function into the freezing and refrigerating functions. It is divided into a third setting mode.

Accordingly, the refrigerator is set to the function setting mode of the user who is going to travel to maintain the set temperature.

At this time, the microcomputer displays the setting condition of the travel function mode by the user on the display unit 17 through the display unit driving circuit.

Then, when the refrigerator user returns home and releases the travel function, the microcomputer restores the function of the refrigerator to the value immediately before the travel function.

As described above, the present invention considers the long-term absence of the user of the refrigerator, and if the refrigerator setting program is selected in advance from the normal operation mode in the future, the mode to perform the optimal function during the absence period, the operation mode of the refrigerator is the user. Since the operation is modified to the desired long-term operation mode, it is possible to obtain a unique effect of minimizing the power consumption in the refrigerator in the long-term absence.

In addition, the present invention, if there is a switch to the travel function mode, the information is notified to the user through the display, thereby improving the convenience of use of the refrigerator.

Claims (1)

Sensor sensing circuit for converting the internal temperature information of the freezer compartment detected by the F sensor 11 and the internal temperature information of the refrigerating compartment detected by the R sensor 12 into a predetermined signal voltage component and transmitting the same to the microcomputer 10 ( 13) and, A switch input circuit for receiving a contact signal of the travel function mode selection switch 14 provided with at least three switch devices to select at least three different types of functions, and generating a logic level signal to the microcomputer 10. 15) with, A display driver circuit 16 for processing the display content information output from the microcomputer 10 and outputting the same to the display 17; A compressor driving circuit 18 and an R fan driving circuit 20 for controlling the input of driving control voltages to the compressor 19 and the R fan 21 based on the output of the microcomputer; According to the travel function mode selection switch 14, the current travel function is outputted on the display while the operation program of the refrigerator in which the holding temperature of the refrigerator is determined is determined according to the selection of the respective functions. A refrigerator having a travel mode setting function, characterized in that it comprises a microcomputer (10) for releasing the travel function and restoring the previous high temperature setting value and function.