KR0155111B1 - Selection control circuit of ultrasonic heating type humidifier - Google Patents

Abstract

The present invention relates to a selection control circuit of an ultrasonic heater-type humidifier which is applied to an ultrasonic-heater type humidifier to easily select the ultrasonic heater-type bottle type and the ultrasonic single-use type, and includes the NAND gate 1 (21) and the NAND gate 2 (22). An input terminal of the configured flip-flop 20 is connected to a switch 1 (SW1) and a switch 2 (SW2) connected to a power supply (-15V) on one side, and pulled down to the other side of the switches 1,2 (SW1) and SW2. While providing the key input unit 10 grounded through the resistors R1 and R2, the output terminal of the flip-flop 20 is provided at the data input line D of the D-flop flop 30 and of the flip-flop. The other output terminal is connected to the reset terminal RS connected to the power supply (-15V), and each of the light emitting diodes LED1 and LED2 is connected to the output terminal of the flip-flop 20, and the D-flip flop 30 Transistor Q1 and relay RY for driving ultrasonic heater humidification are connected to output terminal Q of There is a characteristic.

Description

Selective control circuit of ultrasonic heater humidifier

1 is a circuit diagram according to the present invention.

2 is a truth table according to the present invention.

3 is a characteristic table of the D-flip-flop according to the present invention.

* Explanation of symbols for main parts of the drawings

10: key input 21: NAND gate 1 (NAND)

22: NAND gate 2 (NAND) 20: flip-flop

30: D-flip-flop LED1, LED2: light emitting diode

The present invention relates to a selection control circuit of the ultrasonic heater-type humidifier is applied to the ultrasonic heater-type humidifier, the ultrasonic heater bottle type use and the ultrasonic single-use use can be easily selected.

Ultrasonic heater-type humidifiers have been developed and distributed evenly with a normal humidifier function. However, since there is no means for selectively controlling such ultrasonic heater-type humidifiers according to the usage, the operation is not suitable for those unfamiliar with the use. It was very difficult.

Accordingly, there has been a demand for a means that can more conveniently utilize the operation of the humidifier.

The present invention was created in order to solve the above requirements, the circuit configuration is simplified by using flip-flop and D-flip flop consisting of the NAND gate is made easy to use ultrasonic heater bottle type and ultrasonic single use. It is an object of the present invention to provide a selection control circuit of the ultrasonic heater-type humidifier. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram according to the present invention, the configuration according to the present invention, as shown in Figure 1, the input terminal of the flip-flop 20 composed of the NAND gate 1 (21) and the NAND gate 2 (22), the power supply on one side A key connected to a switch 1 (SW1) and a switch 2 (SW2) connected to (-15V) and grounded through a pull-down resistor (R1) (R2) to the other side of the switches 1, 2 (SW1) and SW2. A reset unit connected to a data input line D of the D-flop flop 30 as an output terminal of the flip-flop 30 and to a power supply (-15V) as another output terminal of the flip-flop while providing an input unit 10. Connected to the stage RS, and each of the light emitting diodes LED1 and LED2 is connected to the output terminal of the flip-flop 20, and the ultrasonic heater humidification driving is performed to the output terminal Q of the D-flop flop 30. The transistor Q1 and the relay RY are connected to each other.

Not shown R3-R5 is a resistor, C1-C3 is a capacitor, D1 is a diode.

Referring to the operation and effects of the present invention configured as described above in detail.

First, the selection control circuit according to the present invention is a circuit composed of the flip-flop 20 and the D-flop flop 30 provided with the NAND gates 1, 2 (21) and 21, and is obtained by the flip-flop 20. The output of the D-flip-flop 30 is obtained by the clock pulse CK by the one pulse signal and the zero crossing signal, and the drive and control of the relay RY through the transistor Q1 are used to control the ultrasonic humidification and the ultrasonic heater. The humidification circuit can be selected. More specifically, when the switch 1 (SW1) for the parallel use of the ultrasonic heater is operated, the input terminal B 'of the NAND gate 2 22 becomes low and the output at this time is zero. High as in 2 degrees. This output becomes the input B of the NAND gate 1 21, and the input A of the NAND gate 1 21 is kept high since the switch 2 (SW2) is turned off, so that the output from the NAND gate 1 21 is Hold low as shown in Figure 2.

As the output of the NAND gate 2 22 is kept high, the light emitting diode LED1 is turned on, which makes it easy to know the ultrasonic heater humidification from the outside.

When the output of the NAND gate 1 21 remains low, the light emitting diode LED2 is turned off, and the output of the D-flip-flop 30 remains low, as shown in FIG. By conducting the transistor (Q1) through the resistor (R5) to energize the relay (RY), it is possible to use the ultrasonic heater bottle type by applying power to the element of the ultrasonic heater humidification.

On the other hand, when the switch 2 (SW2), which is an ultrasonic humidification switch, is operated, a low signal is applied to the input terminal A of the NAND gate 1 21, and the output thereof becomes high as shown in FIG. 2 and the input of the NAND gate 2 22 is applied. A low signal is applied to A. At this time, since the switch 1 (SW1) is off, the input B 'of the NAND gate 2 22 is kept high, and the output thereof is low.

Accordingly, since the output of the NAND gate 1 21 is high, the light emitting diode LED2 is turned on, while the output of the NAND gate 2 22 is applied low, so that the light emitting diode LED1 is turned off.

Therefore, as the light emitting diode LED2 is turned on, the ultrasonic humidification can be seen.

The high signal of the NAND gate 1 (21) is applied to the D-flip flop 30 through the data (D) input line, and the output of the D-flip flop 30 is kept high, at which time the output terminal Q ) Is applied to the control output for non-conducting the transistor Q1, so that the relay RY is de-energized to stop the ultrasonic heater parallel operation.

Here, C1 and D1 are used to maintain the initial reset state for the initial ultrasonic humidification selection.

As described above, the present invention is a useful invention to simplify the circuit configuration using the flip-flop and the D-flip-flop composed of the NAND gate to easily select the ultrasonic heater bottle type and the ultrasonic single-use. The above description is only one embodiment of the present invention, and can be changed as many as possible within the scope of the present invention.

Claims (1)

An input terminal of the flip-flop 20 including the NAND gate 1 21 and the NAND gate 2 22 is connected to a switch 1 (SW1) and a switch 2 (SW2) connected to a power supply (-15V) on one side, and the switch 1 On the other side of 2, SW1 and SW2, a key input unit 10 grounded through the pull-down resistors R1 and R2 is provided, while the output terminal of the flip-flop 20 is a D-flip-flop ( 30 to the data input line D and to the other output terminal of the flip-flop and to the reset terminal RS connected to the power supply (-15V), and to each of the light emitting diodes LED1 ( LED2) is connected to each other, but the ultrasonic heater-type humidifier characterized in that the transistor (Q1) and the relay (RY) for driving the ultrasonic heater humidification is connected to the output terminal (Q) of the D-flop flop (30). Control circuit.