KR900000813B1 - Humidity control circuit - Google Patents

Abstract

No content.

Description

Automatic control of spray amount of humidifier

1 is a conventional circuit diagram.

2 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

1: bridge rectification circuit 2: spray amount control circuit

3: humidity control circuit 4: humidity detection circuit

OSC ₁ : Vibration Difference T ₁ : Trans

OP ₁ , OP ₂ : differential amplifier SW ₁ , SW ₂ : switch

VR _1, VR ₂ : Variable resistor R _HU : Humidity sensor

Q ₁ to Q ₂ : transistors R ₁ to R ₁₇ : resistance

D ₁ ~ D ₄ : Diode L ₁ ~ L ₂ : Coil

C ₁ ~ C ₂ : Capacitor

The present invention relates to a spray amount control circuit in a humidifier, and more particularly, to a spray amount automatic control circuit of a humidifier adapted to automatically control the spray amount according to a comparison between the set humidity and the current humidity using a humidity sensor. Conventionally, when the desired spray amount is manually controlled and adjusted once, only the on / off operation is performed according to the spray amount set regardless of the external humidity, there are various problems such as being very inconvenient in use and shortening the life of the vibrator due to frequent on / off. . Therefore, the present invention solves the above problems, the spray amount of the humidifier according to the comparison between the set humidity and the current humidity by the humidity sensor increases the spray amount if the set humidity is large, when the difference between the set humidity and the current humidity of the humidifier is smaller It is an object to provide a spray amount automatic control circuit.

A conventional circuit configuration will be described with reference to FIG. 1 as follows. The secondary coil of the transformer T _{1 to} which the power supply V _AC is applied is connected to the capacitor C ₁ , the resistor R ₁ , and the oscillator OSC ₁ connected to the ground through the bridge rectifier circuit 1. In addition, the transistor Q connected to the collector of the transistor Q ₁ of the spray amount output circuit 2 and at the same time by connecting the capacitor C ₄ and the diode D ₁ connected in parallel to the ground through the coil L ₂ . ₁ ) emitter. On the other hand, the resistor R ₁ is connected to the grounded variable resistor VR ₁ , and the coil L ₁ and the resistor R ₂ of the spray amount output circuit ₂ are sequentially connected to each other through a capacitor C ₂ . is connected to the emitter of the oscillator connected to the (OSC ₁₎ and, and through a resistor (R ₃₎ is connected to the base of the transistor (Q _1), the capacitor is a transistor (Q ₁₎ through a (C _3).

입력단은 저항(R₇)을 통해 습도 감지회로(4)의 접지접속한 가변저항(VR₂)과 저항 (R₁₂)에 각각 연결하여 차동 증폭기(OP₂)의 출력단과 차동증폭기(OP₂)의

입력단에 연결된 저항(R₁₃)에 각각 연결한다.The operation of the circuit configured as described above is as follows. The DC power output from the bridge rectifier circuit 1 is smoothed by the condenser C ₁ and then divided into a resistor R ₁ and a variable resistor VR ₁ and input to the spray amount output circuit 2. Therefore, the oscillator OSC ₁ is controlled because the input voltage which changes according to the adjustment of the variable resistor VR ₁ changes the current flowing through the transistor Q ₁ by controlling the transistor Q ₁ of the spray amount output circuit 2. To adjust the spray amount. However, in the related art, the user had to adjust the variable resistance one by one, and once adjusted, the life of the vibrator was shortened due to frequent on and off, because only the on / off operation was performed according to the set spray amount regardless of the external humidity. There were several problems. Therefore, the technical configuration of the present invention solved the above problems will be described with reference to FIG. Resistor R ₈ is connected and resistor R ₅ is connected to the output terminal of differential amplifier OP ₁ and resistor R ₆ . Therefore, the differential amplifier OP _{1 to} which the resistor R ₆ is connected

The input stage resistor (R ₇₎ through the humidity a variable resistor connected to ground of the sensing circuit (4) (VR ₂₎ and the resistor (R ₁₂₎ respectively connected to the output terminal and the differential amplifier of the differential amplifier (OP ₂₎ to (OP ₂₎ of

Connect to each resistor (R ₁₃ ) connected to the input terminal.

입력단에는 병렬로 접지접속한 콘덴서(C₅)와 저항(R₁₄)을 연결함과 동시에 저항(R₁₅)과 다이오드(D₃)를 차례로 연결하고, 또한, 접지접속한 다이오드(D₄)와 콘덴서(C₆)를 연결하여 저항(R₁₆)(R₁₇)의 접속점에 교류전원(V_AC)이 인가되는 트랜스(T₁)의 이차측 코일은 브릿지 정류회로(1)을 통해 평활용 콘덴서(C₁)와 저항(R₁) 및 진동자(OSC₁)에 연결하여 저항(R₁)에는 접지접속한 가변저항(VR₁)과 트랜지스터(Q₂)의 콜렉터를 연결하고, 트랜지스터(Q₂)의 에미터에는 다이오드(D₂)의 캐소드를 연결함과 동시에 트랜지스터(Q₁)와 저항 (R₂)(R₃), 코일(L₁)(L₂) 및 다이오드(D₁)으로 구성된 분무량 출력회로(2)를 연결하여 진동자(OSC₁)와 브릿지 정류회로(1)의 출력단을 연결한다. 그리고, 트랜지스터(Q₂)의 베이스에는 저항(R₄)과 다이오드(D₂)를 차례로 연결하여 차동증폭기(OP₁)의

의 입력단과 습도율 조절회로(3)의 저항(R₉) 및 전원(V_CC)이 인가되는 연결한 습도센서(R_HU)를 연결한다. 이때 저항 (R₁₆)(R₁₇) 은 트랜스(T₁)의 3차측 코일에 연결한다.And the differential amplifier (OP ₂ )

Connect the capacitor (C ₅ ) and resistor (R ₁₄ ) grounded in parallel to the input, and connect the resistor (R ₁₅ ) and diode (D ₃ ) in turn, and connect the grounded diode (D ₄ ) and The secondary coil of the transformer T ₁ , to which the _AC power V _AC is applied to the connection point of the resistors R ₁₆ and R ₁₇ by connecting the capacitor C ₆ , to the smoothing capacitor through the bridge rectifier circuit 1. (C ₁₎ and a resistor (R ₁₎ and connected to the oscillator (OSC ₁₎ resistance (R ₁₎ is connected to the collector of a variable resistor (VR ₁₎ and the transistor (Q ₂₎ connected to ground, and the transistor (Q ₂ ) Emitter (D ₂ ) is connected to the cathode of the transistor (Q ₁ ) and resistor (R ₂ ) (R ₃ ), coil (L ₁ ) (L ₂ ) and diode (D ₁ ) The output of the oscillator OSC ₁ and the bridge rectifier circuit ₁ are connected by connecting the spray amount output circuit 2. In addition, a resistor (R ₄ ) and a diode (D ₂ ) are sequentially connected to the base of the transistor (Q ₂ ) so that the differential amplifier (OP ₁ )

Connect the input (R ₉ ) and the humidity sensor (R _HU ) to which the resistance (R ₉ ) and power (V _CC ) of the humidity rate control circuit (3) are applied. At this time, the resistor (R ₁₆ ) (R ₁₇ ) is connected to the tertiary coil of the transformer (T ₁ ).

입력단에 입력되고, 설정습도를 조정하는 스위치(SW₁)(SW₂)의 제어에 따라 습도율 조절회로(3)에서 출력된 기준전압(Vref)이 차동 증폭기(OP₁)의

입력단에 입력되면 차동 증폭기(OP₁)에서는 각 입력단으로 인가된 설정습도의 기준전위(Vref)와 현재 습도의 감지전압(Vsen)을 비교하고, 이차를 증폭한 다음 차동증폭기(OP₁)의 출력단을 통해 트랜지스터(Q₂)의 베이스에 인가한다.On the other hand, the humidity resistance of the rate control circuit (3) (R _9), the earth connection a switch to connect the (SW ₁₎ hereinafter and one at the same time a resistance (R ₁₀₎ connected to the earth connection of the resistance (R ₁₁₎ and a switch (SW ₂ ), Respectively. Referring to Figure 2 the operation and effect of the present invention configured as described above is as follows. According to the humidity sensor R _HU which detects the current humidity, the sensing voltage Vsen output from the humidity sensing circuit 4 is applied to the differential amplifier OP ₁ .

The reference voltage Vref input to the input terminal and output from the humidity rate control circuit 3 according to the control of the switch SW ₁ (SW ₂ ) for adjusting the set humidity is applied to the differential amplifier OP ₁ .

When input to the input stage, the differential amplifier OP ₁ compares the reference potential Vref of the set humidity applied to each input stage with the sensed voltage Vsen of the present humidity, amplifies the secondary, and then outputs the output stage of the differential amplifier OP ₁ . Through the base of the transistor Q ₂ .

Therefore, since the transistor Q ₂ is controlled and the input voltage is controlled to the spray amount control circuit 2, the oscillator OSC ₁ can be controlled to adjust the spray amount. That is, the sensing voltage Vsen of the humidity sensor is compared with the reference voltage Vref adjusted by the switch SW ₁ (SW ₂ ) and the transistor Q ₂ is converted into a signal appearing at the output terminal of the differential amplifier OP ₁ . In this case, the base current (ib ₂ ) that controls the voltage between the collector and the emitter of transistor Q ₂ is ib _{2 =} (Vref-Vsen) × R ₆ / R ₇ · R ₄ / (R ₅ · R ₅ / / R ₄ ) since the current humidity is low and the sensing voltage Vsen decreases, the base current of the transistor Q ₂ increases to increase the input voltage of the spray amount output circuit 2 and thus the oscillator OSC _1. ), The spray amount increases.

On the other hand, when the current humidity becomes higher and equals the set humidity, that is, when the sensing voltage Vsen and the reference voltage Vref become the same, the base current of the transistor Q ₂ becomes ＂0 되어 and the transistor Q ₂ is turned off, so that spraying is performed. Will stop. In this case, the variable resistance VR ₁ is to compensate for an error of the humidity sensor R _HU and an error of the oscillator OSC ₁ .

As described above, the present invention can increase the spray amount when the difference is large and the spray amount can be automatically reduced when the difference is small due to the difference between the set humidity and the current humidity, and further improve the convenience and comfort of humidity, as well as frequent temperature, It is effective in preventing the life of the vibrator from shortening due to being off.

Claims (1)

In the spray amount control circuit of the humidifier consisting of the spray amount output circuit 2, the oscillator (OSC ₁ ) and the resistance (R ₁ ) (VR ₁ ), the humidity sensing circuit (4) to amplify the detection signal of the humidity sensor (R _HU ) The output stage of the differential amplifier (OP ₁ )

Connected to the input

Connect the humidity control circuit (3) to set the humidity by adjusting the switch (SW ₁ ) (SW ₂ ) to the input terminal, and the output terminal of the differential amplifier (OP ₁ ) and the connection point of the resistor (R ₁ ) (VR ₁ ) spray amount output circuit (2) as the control transistor (Q ₂₎ connected to the base of a transistor (Q ₂₎ connected between oscillator spray amount automatic control of the humidifier, characterized in that configured so that the control (OSC ₁₎ circuit.

Images