Timer for Mosquito Destroyer
In
electric-heating mosquito repellents, an electric vaporiser heats up a
mat or liquid to release non-degrading chemicals into the air and keep
the mosquitoes away from the closed surroundings.
Here's
a circuit that introduces a time gap in the operation of the va val of
15 minutes without reducing the repellent action on mosquitoes.
The circuit (Fig. 1) doesn't use any transformer-based power supply and is therefore compact enough to enclose inside the switchboard. it is directly powered by 230V AC mains through voltage-limiting resistor R6 (22-kilo-ohm). The low-voltage AC is rectified by diodes D1 and D2, filtered by capacitor C3 and regulated by zener diode ZD1 to provide 12V DC.
The circuit (Fig. 1) doesn't use any transformer-based power supply and is therefore compact enough to enclose inside the switchboard. it is directly powered by 230V AC mains through voltage-limiting resistor R6 (22-kilo-ohm). The low-voltage AC is rectified by diodes D1 and D2, filtered by capacitor C3 and regulated by zener diode ZD1 to provide 12V DC.
Fig. 1: Timer circuit for mosquito destroyer
The
timer action is achieved using 14-state binary counter IC HEF 4060
(IC1). Oscillations of the IC are controlled by C2, R2 and R3 and
indicated by the flashing of LED1 connected to Q3 output (pin 7) of IC1.
When the circuit is powered-on using switch S1, IC1 resets through capacitor C1 and resistor R1 and starts oscillating. After 15 minutes, its Q11 output (pin 1) goes high to trigger triac BT136 (triac1) through resistor R5. Once the triac fires, the neutral line reaches the plug socket through M2 terminal of the triac. The vaporiser connected to the plug socket turns on for 15 minutes and then turns off. This cycle repeats until power switch S1 is turned off. Thus the circuit helps to reduce the amount of chemical vapours in the inhaling air. As the vaporiser works only half of the time, it reduces the power consumption to half, doubling the days of usage.
Assemble the circuit on a general-purpose PCB ensuring adequate spacing between the components. Sleeving is necessary for the exposed leads of components, especially triacs and diodes. Enclose the circuit in the switch box and connect the plug socket as shown in the circuit diagram. Fig. 2 shows the author’s prototype Caution. The circuit carries 230V AC, so take utmost care while testing and fixing it to avoid lethal shock. Assemble it only if you are experienced and competent to handle high voltages.
When the circuit is powered-on using switch S1, IC1 resets through capacitor C1 and resistor R1 and starts oscillating. After 15 minutes, its Q11 output (pin 1) goes high to trigger triac BT136 (triac1) through resistor R5. Once the triac fires, the neutral line reaches the plug socket through M2 terminal of the triac. The vaporiser connected to the plug socket turns on for 15 minutes and then turns off. This cycle repeats until power switch S1 is turned off. Thus the circuit helps to reduce the amount of chemical vapours in the inhaling air. As the vaporiser works only half of the time, it reduces the power consumption to half, doubling the days of usage.
Assemble the circuit on a general-purpose PCB ensuring adequate spacing between the components. Sleeving is necessary for the exposed leads of components, especially triacs and diodes. Enclose the circuit in the switch box and connect the plug socket as shown in the circuit diagram. Fig. 2 shows the author’s prototype Caution. The circuit carries 230V AC, so take utmost care while testing and fixing it to avoid lethal shock. Assemble it only if you are experienced and competent to handle high voltages.
Fig. 2: Author's prototype of timer for mosquito destroyer
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