SU542189A2 - Device for controlling the electric drive of the body lamps - Google Patents

Description

(54) DEVICE FOR CONTROLLING THE ELECTRIC DRIVE OF THE LAMP CHANGER

The goal is achieved by turning on a diode and a transistor one-shot, the input of which is connected to the output of the photoelectric sensor, and the output through the diode to the input of the transistor switch.

The drawing shows a schematic electrical diagram of a device for controlling the electric drive of lamp boxes.

The device contains a thyristor 1 connected in series with the electric drive 2 of the lampspaces of the body 3, consisting of microswitch 4 and gas-discharge flash lamps 5 connected by contacts 6 to the power supply. Through the capacitor 7 to the thyristor, a starting pulse from the transistor switch 8 is supplied with an on-delay time. The key 8 consists of a transistor 9, resistors 10-12, Zener diode 13 and a capacitor 14. The photoelectric sensor 15 contains a resistor 16, a photoresistor 17 and a transistor 18, the base of which is connected through a resistor 19 to the anode of the thyristor switched off A resistor 21 is charged during operation of the drive. The pulsed energy is applied to terminals 22, 23, and the DC voltage to terminals 24, 25 (polarity is shown in the drawing). The transistor one-shot 26 includes transistors 27, 28, a capacitor 29, and resistors 30-33. Through the diode 34, the one-shot signal is supplied to the key 8.

When the voltage of the terminals 24, 25 is constantly switched on and the pulse energy is supplied to the terminals 22, 23, the device for controlling the electrically driven lamp-body environment works as follows.

If the firing pulse 5 of the lamp 5, which supplies power through the contacts 6 of the lampspaces of the bodies 3, gives light flashes, the photoresistor 17 receiving the light emission opens the transistor 18. The setting for opening and closing of the transistor is regulated by the resistor 16. the base of the transistor 27 and zagrgaet it. In this case, the one-shot 26 goes into an unstable state in which the transistor 28 is open. The time during which the one-shot is in this state is determined by the constant discharge time of the capacitor 29 through the resistor 32 and the open transistor 28. Through the transistor 28 and the diode 34 a positive potential comes in at the input of the key 8, locking it and simultaneously discharging the capacitor 14. The signal for turning on the thyristor 1 is not received. After a set time, determined by the characteristic of the navigation light, the next signal is sent to turn on the light source 5, the light flash of which ensures that the device operates in the described sequence. In this case, the one-shot 26 is supported by inclusive pulses.

in the position when the transistor 28 is open. As a result of the output of the light source 5, the next switching pulse will not be supplied from the photoelectric sensor 15. If the light source goes out and the pulse from the photoelectric sensor 15 does not enter the one-shot 26 , the capacitor 29 is discharged and the one-shot switches to the stable state 1, in which the transistor 28 is closed and the transistor 27 is open. As a result, the capacitor 14 is charged through the resistor 12 to the voltage of the breakdown of the Zener diode 13, which passes the base current of the transistor 9. The transistor 9 is opened and the thyristor 1 is opened by a pulse through the capacitor 7. 3. At the same time, the base current of the transistor 18 flows through the resistor 19 and the thyristor 1, which opens and closes the transistor 27. At the same time, the transistor 9 is closed and the capacitor 7 is discharged through the resistor 10, taking the outcome th state. Coming in motion, the lamplight mechanism of the body 3 first switches on the microswitch 4, which disconnects the capacitor 20 from the cathode of the thyristor 1 and creates conditions for the charge of the capacitor 20 through the resistor 21. Then the contacts 6 are opened and the faulty lamp 5 is removed from the optical system focuses.

The next backup lamp 5 is inserted into the place of the faulty lamp. Before the lamp is introduced into the focus of the optical system, contacts 6 are first closed, then the switch 4 is closed, fixing the position of the lamp 5 in the focus of the optical system. In this case, the voltage of the capacitor 20 is applied to the thyristor 1 (plus to the cathode and minus to the anode) by turning it off and stopping the electric drive 2 of the lamp-spaces of bodies 3.

The use of highly efficient gas discharge light sources (lamp-flashes) in light-optical devices, allows to increase the visibility range of the fire of navigation equipment.

Claims (1)

1. USSR author's certificate N-341020, cl. G05 G 15/00, 03/03/1970