KR960001208Y1 - Refrigerator - Google Patents

Abstract

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Description

Refrigerator thermostat

1 is a circuit diagram showing the present invention

2 is a schematic flowchart according to the present invention

* Explanation of symbols for main parts of the drawings

10 control unit 11 compressor driving unit

12: door open and close detection unit 13: EEPROM

The present invention relates to automatic temperature control of a refrigerator, and in particular, by detecting a time during which a user frequently uses the refrigerator (the time when the refrigerator door is frequently opened and closed) during the day, the refrigerator is sufficiently opened before the time when the door is frequently opened and closed. The present invention relates to a refrigerator thermostat that maintains a constant temperature of the refrigerator despite the frequent opening and closing of the refrigerator door by dropping the temperature.

In general, the use of the refrigerator is frequently used at certain times of the day (24 hours).

Frequent use of the refrigerator means that the frequency of opening and closing the refrigerator door is increased. Such frequent opening and closing of the door has resulted in an increase in the temperature of the refrigerator. Therefore, the temperature of the refrigerator arbitrarily set by the user increases significantly in the specific time period, resulting in a problem of lowering the refrigeration efficiency.

Therefore, the present invention has been devised to solve the above problems, and based on the day, the time when the frequency of opening and closing the refrigerator door exceeds a predetermined value per hour is detected and stored in the storage means, so that the next day the time when the frequency of opening and closing the door is large It is an object of the present invention to provide a refrigerator that sufficiently drives a compressor before the arrival of this time and drops the temperature in the refrigerator so that the temperature can be compensated not to deviate significantly from the set temperature even if the door of the refrigerator is frequently opened or closed. have.

Hereinafter, the present invention will be described based on the accompanying drawings.

1 is a circuit diagram showing the present invention, the present invention is a one-chip microcomputer that controls the output sequentially in the order programmed based on the various input signals with a drive program of the present invention, the resistance (R) ₁ to R ₃ ), a transistor Q ₁ , a relay RY, and a compressor CP, which drives the compressor CP by a constant output signal of the controller 10 to lower the temperature in the refrigerator ( 11), resistors R ₄ to R ₁₀ , diodes D _{1 to} D ₄ , capacitors C _{1 to} C ₂ , transistors Q ₂ , door switches DW, photocouplers PC, etc. Is configured to receive the door opening and closing detection unit 12, and the control unit 10 and the schedule data information for inputting a predetermined signal to the input port (P ₁₁ ) of the control unit 10 according to whether the refrigerator door is opened or closed, the door EEPROM (13) to memorize the frequently opened and closed time zones and compressor output time zones. It is.

Hereinafter, the operation and effects of the present invention will be described with reference to the schematic flowchart of FIG. 2.

When the power source AC is applied to the refrigerator, the 24 hours are set 100 by the built-in program of the controller 10 and the 101 hours are counted by the built-in clock generator. During the counting of 24 hours, the data stored in the EEPROM 13 is read to determine 103 whether the output time A has expired.

At this time, if the process of reading data from the EEPROM 13 is examined, the controller 10 outputs a low signal for a predetermined time to the output port PO _{2 in} order to read the stored data from the EEPROM 13 to output the EEPROM 13. Clock Enable Pulse Port of EEPROM (13) after Maintain Enable A clock pulse is input to the output pulse (PO ₄ ), and a predetermined read command signal and an address signal of the read data are output to the output port PO ₄ . At this time, the EEPROM 13 outputs data corresponding to the input address to the data output port DO and inputs it to the input port PI ₂ of the controller 10.

Therefore, the controller 10 recognizes data through a signal input to the input port PI ₂ . When the data inputted from the EEPROM 13 is detected in step 103, the output time A for driving the compressor CP is detected, the compressor CP is fixed by outputting a low signal for a predetermined time to the output port PO ₁ . Drive 104 for a time (eg, 24 hours), but compressor CP maintains normal control if the output time A is not detected.

The low signal output to drive the compressor CP turns on the transistor Q ₁ through the resistors R ₁ and R ₂ and conducts the relay RY so that the switch contact is turned on to supply power AC. The compressor CP is driven by being applied to the compressor CP. In addition, the control unit 10 detects a signal input to the input port PI ₁ through the door opening / closing detection unit 12 and detects whether the door is opened or closed 105. When the door is opened, the door switch DW is The port coupler PC is turned off so that the capacitor C ₁ is charged with a DC voltage Vcc through the resistor R ₆ , and a low potential is applied to the base of the transistor Q ₂ so that the transistor ( Q ₂ ) maintains the turn-off state so that the high potential of the collector stage is input to the input port PI _{1 of the} controller 10 so that the controller 10 recognizes that the door is being opened by the signal at this time. When the door switch DW is turned on, the power source AC is applied to the light emitting diode of the photocoupler PC so that the phototransistor is intermittently turned on, and the consensor C ₁ alternately charges and discharges. Further, the capacitor (C ₁₎ a condenser through a discharge phenomenon diode (D ₄₎ of the (C _2), the voltage is caught and the voltage at this time the transistor (Q ₂₎ is turned on the input port of the controller (10) (PI Low signal is input to ₁ ). Therefore, the controller 10 recognizes that the door is closed by the low input signal to the input port PI ₁ .

According to the door opening and closing detection, the control unit 10 checks the door opening time and the door opening and closing frequency (106), which is divided into 24 hours by an hour unit, and sets a predetermined criterion for setting the door opening time and the door opening and closing frequency per hour. It is determined whether the temperature in the temperature is detected 107 in a range exceeding the set point (which does not significantly deviate from the set temperature).

If not, it proceeds again sequentially from the above-described process (101). On the basis of these processes, if the already set 24 hours is over 102, the 24 hour count is reset 109, and the time B of the door opening and closing frequency is large is stored in the EEPROM 13 (110). .

At this time, the controller 10 selects the chip selector of the EEPROM 13 to write the time B data to the EEPROM 13. Output the low signal to enable the clock pulse port It outputs a local pulse, outputs a predetermined write command and an address command to the data input port DI in synchronization with the output pulse, and then writes the time B data to be written to the corresponding address.

When the data writing act of the time B is finished, the control unit 10 sufficiently drives the compressor CP by a time before the time B arrives by using the time B caused by the door opening and closing frequency. The time (A) at which the internal temperature can be dropped is again saved to the EEPROM (13). At the same time as performing the fixing 111 at the same time to perform the above-described process 101 again, the temperature of the refrigerator is sufficiently lowered before a certain time of the time the door opening and closing frequently occurs the next day to arrive and eventually the temperature of the refrigerator The reward can be achieved.

As described above, the present invention has an effect of preventing the difficulty in storing the food due to the decrease in the refrigerating efficiency that may occur in a time when the refrigerator is frequently used.

Claims (1)

In the automatic temperature control apparatus of the refrigerator, the door opening and closing detection unit 12 for detecting whether the refrigerator door is opened or closed, and the data and compressor drive output time (A) according to the time (B) of the door opening frequency is high; EEPROM (13), and a control unit 10 for outputting a compressor driving command a certain time before the time (B) of the door opening frequency is high, characterized in that the refrigerator automatic control device.