KR890005622Y1 - Device for control of temperature and function of refrigerator - Google Patents

Abstract

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Description

Temperature and function control of the multifunctional refrigerator

1 is a circuit diagram of the present invention.

2 is an output mode table of the present invention.

3 is a flow chart of the present invention operation.

* Explanation of symbols for main parts of the drawings

R ₁ -R ₉ : resistance VR ₁ : variable resistor

TH ₁ : Dummyster LED ₁ -LED ₄ : Light Emitting Diode

D ₁ : Diode TR ₁ : Transistor

OP ₁ : Comparator SW ₁ : Function Selection Switch

RL ₁ : Relay RL ₁₁ : Relay Switch

1: microprocessor 2: temperature control damper

AC: power

The present invention relates to a temperature and function control device of a multifunctional refrigerator, and in particular, one push switch and a variable resistor are installed on the outside of the refrigerator to simplify the function selection of the refrigerator, and the selected function is controlled by using an external light emitting diode. The present invention relates to a temperature and function control device of a multifunctional refrigerator.

In the case of a conventional multifunctional refrigerator, a function selection switch installed in the interior of the refrigerator is opened by controlling the temperature by selecting one of a plurality of functions such as a function selection, a separate function of stopping, refrigerating, freezing and maintaining a specific temperature; By adjusting the temperature control switch to select the function and temperature of the desired bar, and to check the function of the refrigerator, open the door of the refrigerator to see the adjustment position of the switch and check the function.

However, in such a conventional case, the door of the refrigerator is opened and checked each time the function of the refrigerator is switched and changed or the current function is checked. There was a disadvantage that the freezing and refrigeration efficiency is lowered.

In view of the above disadvantages, the present invention is designed to easily operate the function selection and temperature control of the refrigerator from the outside of the refrigerator without opening the refrigerator door, and to make it possible to easily check the performance of the current refrigerator. By explaining this in detail as follows.

The accompanying drawings are a circuit diagram of a device according to the present invention, as shown therein, a comparator OP having an inverting input terminal (-) connected to a connection point of a power supply side resistor R ₁ and a refrigerator temperature sensing dummyster T ₁ . ₁ ) The non-inverting input terminal (+) of ₁ ) is connected to the connection point of the power supply side resistor (R ₂ ) and the variable resistor (VR ₁ ) installed outside of the refrigerator, as well as the resistor for refrigeration (R ₂ ) and the resistor for special function (R _4). And the general refrigeration resistor (R ₅ ) to each functional terminal (11-13) of the microprocessor (1), the output terminal of the comparator to the damper control signal input terminal (14) of the microprocessor (1). And a function selection push switch SW ₁ installed outside the refrigerator is connected to a function switching control terminal 15 of the microprocessor 1, and a function display control terminal 16-19 thereof is installed outside the refrigerator. and connecting each functional light emitting diodes (LED ₁ -LED ₄₎ for display, the micro program Damper drive signal output terminal 110 of the processor (1) by through a resistor (R ₇₎ connected to the base of the transistor (TR ₁₎ is connected to the emitter, the relay (RL ₁₎ of the transistor (TR ₁₎ that The temperature control damper 2 and the power supply AC are connected to the relay switch RL ₁₁ , which is short-circuited by the operation of the relay RL ₁ , in which the microprocessor 1 is connected to its terminal 14. When the input is input, the low potential is output through the damper driving signal output terminal 110, and when the low potential is input to the terminal 14, the high potential is output through the terminal 110, and a function selection push switch ( In accordance with the short-circuit and opening of SW ₁ ), the low potentials are cyclically output to terminals 11, 16, 12, 17, 13, 18, and 19 of the microprocessor 1. FIG. 2] Reference numeral V _C1 -V _C5 is a power supply terminal, D ₁ is the burn out of the relay from the surge voltage due to (RL ₁₎ transistor (TR ₁₎ room A diode for.

Referring to the operation and effects of the present invention configured in this way as follows.

When the function selection switch SW ₁ is pressed once with the power applied to the power terminals V _C1 -V _C5 , the microprocessor 1 outputs a low potential through its terminals 11 and 16 as described above. The light emitting diode (LED ₁ ) for displaying the freezing function is driven to emit light. At this time, since the terminal 11 connected to the resistor R ₃ is low potential, the non-inverting input terminal (+) of the comparator OP ₁ supplies power. A constant reference power supply for a refrigeration function divided into a resistor R ₂ , a variable resistor VR ₁ , and a resistor R ₃ is applied to the power supply of the terminal V _C1 . In this case, the temperature sensing dummy (TH ₁ ) of the refrigerator has a negative temperature coefficient according to the internal temperature of the refrigerator. When the temperature rises, the resistance decreases, and when the temperature decreases, the resistance rises. When the resistance value of the MR TH ₁ decreases, the voltage applied to the inverting input terminal (-) of the comparator OP ₁ also decreases, and at this time, the inverting input terminal of the comparator OP ₁ related to the current temperature of the refrigerator ( When the voltage of-) is lower than the reference voltage of the predetermined function applied to its non-inverting input terminal (+), the high potential is output from the comparator OP ₁ and applied to the terminal 14 of the microprocessor 1. Accordingly, as described above, the low potential is output from the terminal 110 of the microprocessor ₁ and applied to the base of the transistor TH ₁ , so that the transistor TR ₁ is turned on, and thus the power supply terminal V a _C5) Source relay (RL ₁₎ and the transistor flows to ground through the (TR ₁₎ the relay (RL ₁₎ is driven, so that the relay switch (RL ₁₁₎ short-circuited as described above, the relay switch (RL ₁₁₎ Temperature control damper (2) is opened by the power (AC) applied through the temperature is gradually lowered, in this way, when the temperature of the refrigerating chamber is lowered below a certain temperature, the resistance value of the dummy (TH ₁ ) rises to the comparator inverting input terminal of the (OP ₁₎ (-) the voltage rises is applied to its non-inverting input terminal (-) becomes higher than the reference voltage of the comparator low potential the microprocessor (1) from (OP ₁₎ In contrast to the above, the transistor TR ₁ is turned off and the relay RL ₁ is turned off so that the relay switch RL ₁ is opened. Thus, the damper 2 for controlling the temperature is closed so that the internal temperature of the refrigerator is closed. Gradually increased . When the function selection push switch SW ₁ is pressed once in the course of such an operation, as shown in FIG. 2, the microprocessor 1 outputs a low potential through its terminals 12 and 17 to provide a special function. The display light emitting diode LED ₂ is driven to emit light. At this time, since the terminal 12 to which the resistor R ₄ is connected is a low potential, the power terminal V is connected to the non-inverting input terminal (+) of the comparator OP ₁ . A constant reference voltage for a special function divided into a resistor R ₂ , a variable resistor VR ₁ and a resistor R ₄ is applied to the power source of _C1 ). At this time, as the resistance value of the dummyster TH ₁ changes in relation to the current temperature of the refrigerator, the comparator OP ₁ applies the voltage of the inverting input terminal (-) to its non-inverting input terminal (+). When the reference voltage of the special function becomes higher or lower, the low / high potential is output from the comparator (OP ₁ ). Thus, the temperature control damper (2) opens and closes based on the reference voltage for the special function. By repeating at regular intervals, the temperature of the refrigerator is always maintained at the temperature corresponding to the designated function. At this time, the fine temperature adjustment in each functional unit can be fixed to the desired temperature by adjusting the variable resistor (VR ₁ ) installed outside the refrigerator.

In such a state, when the function selection push switch SW ₁ is pressed again, as described above, the microprocessor 1 outputs a low potential through the terminals 13 and 18 to display the LED for refrigerating function display (LED ₃ ). When the light is emitted, the current function can be known, and since the terminal 13 to which the refrigerating function resistor R ₅ is connected is a low potential, the non-inverting input terminal (+) of the comparator OP ₁ has a reference voltage of the refrigerating function. When applied, the refrigerator performs a continuous freezing function centering on a temperature according to a reference voltage of the corresponding refrigeration function.

In such a state, when the switch SW ₁ is pressed again, the light emitting diode LED ₄ for displaying the stop function is emitted by the operation as described above, and the freezing function of the refrigerator is stopped. 3 is a table showing output modes of the terminals of the microprocessor of the present invention.

As described above, the present invention can simplify the function selection and temperature control of the refrigerator from the outside of the refrigerator without opening the door of the refrigerator, and can easily check the performance of the current refrigerator through the corresponding light emitting diodes. The effect is to simply expand the functionality.

Claims (1)

The non-inverting input terminal of the comparator OP ₁ , in which the inverting input terminal is connected to the connection point of the resistor R ₁ and the dummyster TH ₁ , is a connection point of the resistor R ₂ and the variable resistor VR ₁ installed outside the refrigerator. And to the functional terminals (11-13) of the microprocessor (1) through the refrigerating resistor (R ₃ ), special resistor (R ₄ ) and general refrigeration resistor (R ₅ ). The output terminal of the comparator OP ₁ is connected to the damper control signal input terminal 14 of the microcomputer ₁ , and the function selection switch SW ₁ installed outside the refrigerator switches the function of the microcomputer 1. Connected to the control terminal 15, the function display control terminals 16-19 are connected to respective function display light emitting diodes (LED _{1 to} LED ₄ ) provided outside the refrigerator, and used to drive the damper of the microcomputer 1; connecting the emitter of the relay (RL ₁₎ of the signal output terminal 110, a transistor (TR ₁₎ connected to the base And the relay (RL ₁₎ the relay switch ₍₁₁ RL), the temperature and the function of the multifunction refrigerator, characterized in that the connection formed by the temperature control damper (2) and the power (AC) the control device is linked to.