KR200143220Y1 - Automatic temperature control device - Google Patents

Abstract

Set the temperature with a variable resistor and sense the temperature of indoor air with a thermistor to compare the set temperature with the detected temperature. When the set temperature is lower than the detected temperature, the first comparator outputs a high signal to operate a relay. Is applied to the air conditioner to operate the air conditioner to cool the temperature of the indoor air, and when the set temperature is higher than the sensed temperature, the first comparator outputs a low signal to turn off the relay to cut off the power to the air conditioner.

In the case of a heating device, the set temperature is compared with the sensed temperature using a second comparator, and a relay is operated according to the result to adjust the temperature.

Description

Thermostat

1 is a block diagram showing the configuration of an apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

1: temperature setting unit 2: temperature sensing unit

3: first comparator 4: second comparator

5: cooling power supply unit 6: heating power supply unit

7: cooling power switch 8: heating power switch

The present invention relates to a temperature control device of the air conditioner, and more particularly to an automatic temperature control device for automatically turning on / off the air conditioner according to the temperature detected using the temperature sensor.

In a conventional air conditioner such as an air conditioner or a heater, a desired temperature is obtained by manually adjusting the wind intensity or by operating or stopping the device. However, if the indoor air temperature feels cold while operating the device (in the case of an air conditioner) or in the case of a hot air heater, operate the device until the user feels the heat, and the user manually reduces the air flow or operates the device. The temperature is controlled in such a way that it stops.

If the user forgets to operate the air conditioner, the air conditioner continues to operate regardless of the temperature of the room air. In the case of the air conditioner, the room air is too low, which causes the cooling disease. There was a problem of falling concentration.

The present invention is to solve the above problems, the object of the present invention is to provide an air conditioning apparatus for maintaining a constant temperature of the indoor air.

Another object of the present invention is to provide an air conditioner that can control the temperature of the indoor air to a desired temperature.

Still another object of the present invention is to provide an air conditioning apparatus that can automatically adjust the temperature of indoor air.

The apparatus according to the present invention having the above object has a temperature setting unit for setting a desired temperature, a temperature sensing unit for detecting a temperature of indoor air, and a voltage intensity higher than a signal of the temperature sensing unit and a signal of the temperature setting unit. A first comparator for outputting a high signal when it is large, a second comparator for outputting a high signal when the signal intensity of the temperature setting part is greater than a signal of the temperature sensor, and a first comparator Cooling device power supply for supplying power to the cooling device when the output is high and the first power switch is on, and power supply of the heating device when the output of the second comparator is high, and the second power switch is on The power supply unit of the heating apparatus is provided.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a schematic block diagram showing an embodiment of a temperature control device according to the present invention.

1 is a temperature setting part, and the set temperature changes according to the user's adjustment.

The resistor R ₁ is connected to the movable terminal of the variable resistor VR ₁ having + 5v and -5v connected to both ends thereof, and the voltage value output through the resistor R ₁ is converted into an operational amplifier IC ₁ . Amplify. Thermistor TH is connected to power supply Vcc and the other terminal of the thermistor is grounded through resistor R ₂ .

The resistor R ₃ is connected to the common connection terminal of the resistor R ₂ and the thermistor TH, and the non-inverting terminal of the operational amplifier IC ₂ is connected to the other terminal of the resistor R ₃ .

In addition, the resistor R ₃ and the capacitor C ₁ are connected to form a high frequency noise removing filter, and the operational amplifiers IC ₁ and IC ₂ lose an input in the form of a voltage follower to which an output terminal and an inverting input terminal are connected. Amp, which is delivered to the output without output (i.e., the gain of the circuit is 1), is a proof buffer used for the circuit to circuit coupling.

The output signal of the temperature setting unit 1 is applied to the common terminal of the resistor R ₅ and the resistor R ₆ of the divided resistors R ₄ , R ₅ , R ₆ , and R ₇ connected in series. The signals applied to the resistors R ₅ , R ₆ , and R ₇ are input to the first comparator 3, and the signals applied to the resistor R ₇ are applied to the second comparator 4.

3 is a first comparator, and compares the signal of the temperature setting unit 1 with the signal of the temperature sensing unit 2. The signal output from the temperature setting unit 1 is applied to the inverting terminal of the operational amplifier IC ₃ through the resistor R ₅ , and the signal of the temperature sensing unit 1 is connected to the operational amplifier through the resistor R ₈ . It is applied to the non-inverting terminal of IC ₃ ). The output terminal of the operational amplifier IC ₃ is connected to the non-inverting terminal of the input terminal through the resistor R ₉ and also to the inverting terminal through the capacitor C ₂ .

4 is a second comparator, and the signal output from the temperature setting unit 1 is applied to the non-inverting terminal of the operational amplifier IC ₃ through the resistors R ₆ and R ₁₀ , and the signal of the temperature sensing unit 2. Is applied directly to the inverting terminal of the operational amplifier (IC ₄ ).

The output terminal of the operational amplifier IC ₄ is connected to the non-inverting terminal through the resistor R ₁₁ and to the inverting terminal through the capacitor C ₃ .

5 is a cooling unit power supply unit, and the base of the transistor Q ₁ , which receives the output of the first comparator 3 and is turned on and off depending on its state, is connected to the output of the first comparator 3 through a resistor R ₁₂ . do. Light emitting diode LED _{1 is} connected via resistor R ₁₄ and relay RY ₁ and diode D ₁ are connected to the collector of transistor Q ₁ .

The anode terminal of the light emitting diode LED ₁ and the remaining terminals of the relay RY ₁ and the diode D ₁ are commonly connected and connected to the cooling power switch SW ₁ .

The relay switch RYS ₁ is turned on when the relay RY ₁ is operated to apply the power supply + VD to the cooling device.

6 is a heating power supply unit, and the second comparator 4 receives the output through the resistor R ₁₃ and the resistor Q ₂ connected to the collector of the transistor Q ₂ and on and off according to the state thereof ( R ₁₅ ), a relay (RY ₂ ) and a diode (D ₂ ), the resistor (R ₁₅ ) is connected to the light emitting diode (LED ₂ ), the diode (D ₂ ) relay (RY ₂ ) and the light emitting diode (LED ₂₎ Are commonly connected to the heating power switch SW ₂ . The relay switch RYS ₂ is turned on when the relay RY ₂ operates to apply the power supply (+ V _D ) to the heating device.

SW ₁ is cooling power switch, SW ₂ is heating power switch.

Hereinafter, the operation and effects of the device according to the present invention will be described.

First, after the application and cooling power switch (SW ₁₎ to power the air conditioner to which the user is subject to the present design in the on state, by adjusting the variable resistor (VR ₁₎ is set to the desired temperature, the variable resistor (VR ₁₎ The voltage signal applied to the movable terminal is input to the operational amplifier IC ₁ serving as a buffer through the resistor R ₁ and the operational amplifier IC ₁ outputs a signal having the same voltage intensity as the input signal. The signal output from the buffer IC ₁ is applied to the common connection point of the resistor R ₅ and the resistor R ₆ , and is input to the first comparator 3 via the resistor R ₅ .

On the other hand, the temperature sensed by the thermistor (TH) is converted into an electrical signal by the resistance value and resistance (R ₂ ) of the thermistor, and after passing through the resistor (R ₃ ) and capacitor (C ₁ ) consisting of a noise removing filter The signal is output through the op amp IC ₂ acting as a buffer. The temperature detection signal outputted from the operational amplifiers (IC ₂₎ is input to the non-inverting terminal of the operational amplifier (IC _3), which acts as a comparator via a resistor (R _8).

The input temperature setting signal and the temperature sensing signal are compared in the first comparator 3.

When the temperature setting signal is lower than the temperature sensing signal, the operational amplifier IC ₃ outputs a high signal, and the transistor Q ₁ is turned on, so that the light emitting diode LED ₁ and the relay RY _{1 are turned on} . Will work.

Therefore, the light emitting diode LED ₁ is turned on and the relay switch RYS ₁ is turned on so that the power source (+ V _D ) is applied to the cooling device, so that the cooling device is operated to lower the temperature of the air.

When the temperature setting signal is higher than the temperature sensing signal, the operational amplifier IC ₃ outputs a low signal, which does not operate the transistor Q ₁ , so that the light emitting diode LED ₁ and the relay (RY ₁ ) will not work. Therefore, the light emitting diode LED ₁ is turned off to indicate that it is not operated, and the relay switch RYS ₁ is turned off so that the power supply (+ VD) is not applied to the cooling device. Will not go further down.

In the case of heating, the cooling power switch SW ₁ is turned off and the heating power switch SW ₂ is turned on, so that the first comparator 3 sends a signal to operate the transistor Q ₁ . The light emitting diode LED ₁ or the relay RY ₁ does not operate because power is not applied.

Meanwhile, the temperature setting signal output from the temperature setting unit 1 is applied to the non-inverting terminal of the operational amplifier C ₄ through the resistor R ₆ and the resistor R ₁₀ and output from the temperature sensing unit 1. The temperature sensing signal is applied to the inverting terminal of the operational amplifier IC ₄ .

When the voltage of the temperature setting signal of the temperature setting unit 1 is higher than the voltage of the temperature sensing signal of the temperature sensing unit 2, the operational amplifier IC4 outputs a high signal to output a transistor through the resistor R ₁₃ . Turn on (Q ₂ ). Therefore, since the power supply (+ VD) flows to the ground through the light emitting diode (LED ₂ ) and the resistor (R ₁₅ ), the light emitting diode (LED ₂ ) is turned on and the relay (RY ₂ ) is operated so that the relay switch (RYS _2). ) Is turned on and the power (+ V _D ) is applied to the heating device, the heating device is operated to increase the temperature of the indoor air.

When the voltage of the temperature setting signal is lower than the voltage of the temperature sensing signal, the operational amplifier IC ₄ of the second comparator 4 outputs a low signal so that the transistor Q ₂ is turned off.

Therefore, the light emitting diode LED ₂ and the relay RY ₂ are disconnected from the ground where current flows, and thus the relay switch RYS ₂ is also turned off, so that the power supply + VD is not applied to the heating device. Heating does not work. Thus, the temperature of the indoor air no longer rises.

As described above, the device according to the present invention automatically adjusts the cooling device and the heating device according to the temperature of the indoor air so that the indoor air can be maintained at the optimum temperature.

Claims (4)

A temperature control device for an air conditioner, comprising: a temperature setting unit for setting a desired temperature, a temperature sensing unit for sensing a temperature of indoor air, and a high signal when the signal intensity of the temperature sensing unit is greater than that of the temperature setting unit; A first comparator for outputting a second comparator, a second comparator for outputting a high signal when the signal of the temperature setting part is greater in voltage than the signal of the temperature sensor, and the air conditioner according to a state of the output of the first comparator And a heating device power supply unit for supplying power to the cooling device of the air conditioner, and a heating device power supply unit for applying power to the heating device of the air conditioning device according to the state of the output of the second comparator. 2. The air conditioner of claim 1, wherein the cooling device power supply unit includes a transistor having a base connected to an output of the first comparator, and a light emitting diode and a relay connected to the ground through the transistor when the transistor is in a conductive state. Thermostat. 2. The heating apparatus of claim 1, wherein the heater power supply unit includes a transistor having a base connected to an output of the second comparator, and a light emitting diode and a relay connected to the ground through the transistor when the transistor is in a conductive state. Thermostat. 4. The thermostat according to claim 2 or 3, wherein the relay operates when the transistor is in a conductive state to apply power to the air conditioning apparatus.