SU1598225A1 - Device for igniting fluorescent lamp - Google Patents

Abstract

The invention relates to electrical engineering and can be used for igniting fluorescent lamps with pre-heating electrodes in mine explosion-proof luminaires in the presence of an external ignition electrode on the lamp or in the luminaire. The purpose of the invention is to increase the service life of a fluorescent lamp with preheating electrodes by delaying the ignition of the discharge before heating the lamp electrodes. The device contains a semiconductor switch 8 with a delay for opening, which, after the required warm-up, applies a high voltage to the external igniting electrode from the additional winding. In this device, when the lamp is ignited, there is no glow discharge stage, which ensures the elimination of the fast sputtering of the oxide of the lamp electrodes. 2 Il.

Description

The invention relates to electrical engineering, namely, devices for igniting fluorescent lamps with preheating electrodes, and can be used in mine explosion-proof luminaires with an external ignition electrode on the lamp or in the luminaire.

The aim of the invention is to increase the service life of a fluorescent lamp with preheating electrodes by delaying the ignition of the discharge before the heating of the electrodes of the lamp.

FIG. 1 is a schematic diagram of a device for igniting a fluorescent lamp; in fig. 2 is a circuit diagram of a semiconductor key with a delay for opening.

A device for igniting a fluorescent lamp contains a filament transformer 1 with an input winding 2 connected in parallel with a fluorescent lamp 3, filament windings 4 and 5, each of which is connected to one of the electrodes of the fluorescent lamp 3, an additional winding 6 connected according to the input winding 2, external electrode 7 and a semiconductor switch 8 with a delay for opening. In addition, the device contains a resistor 9 connected in series with the additional winding b of the filament transformer 1, and may contain a current-limiting resistor 10. The external electrode 7 is connected to the end of the auxiliary winding 6 via resistors 9 and 10, and the inertial disconnector 8 is connected in parallel from the resistor 9 and the part of the turns of the additional winding 6 or the input winding 2 connected in series with the resistor 9. The semiconductor switch 8 may consist of a rectifying bridge diodes 11-14, to the output which is connected transistor 15 is controlled by transistor 16. To the base of the latter through a zener diode 17 connected to capacitor 18, which voltage is applied with the voltage divider resistors 19 and 20.

The device works as follows.

When voltage is applied to the input winding 2, all the windings of the filament transformer 1 appear to be energized and the electrodes of the fluorescent lamp 3 begin to heat. At this point, the capacitor 18 is discharged, the transistor 16 is locked, the transistor 15 is open and short-circuits the rectifier bridge output diodes 11-14. Then, with a constant time defined by resistors 9, 19, and 20, the voltage across the capacitor 18 increases. When this voltage becomes greater than the threshold voltage of the Zener diode 17, the transistor 16 opens, and the transistor 15 closes, and 5 the input resistance of the rectifying bridge jumps up and the semiconductor switch opens.

At the time the voltage is applied to the input winding 2, the fluorescent lamp 3 does not light up, since the external electrode 7 is connected to the low voltage terminal of the winding 6 or 2 through a closed inertial disconnector 8.

After the semiconductor switch 8 is activated, external voltage 6 is supplied through resistors 9 and 10 from the end of additional winding 6 to a high voltage sufficient to ionize the gas in the fluorescent lamp and the lamp ignites. By this time, the electrodes of the lamp are heated to a temperature at which the glowing discharge and heavy thermal conditions of forming the cathode spot on the electrodes of the lamp are excluded.

5 Upon ignition of the fluorescent lamp, the voltage on all the windings of the filament transformer 1 decreases due to an increase in voltage drop on the ballast resistance connected successively with the lamp (Fig. 1, not shown), and accordingly the voltage on the external electrode 7 decreases.

After disconnection of the input voltage, the capacitor 13 is discharged through contact 5 and the device is prepared to re-ignite the fluorescent lamp upon completion of this process. The current that may occur if a person accidentally touches the external electrode 7 or short-circuits this electrode with current-carrying elements of the device, for example, if the insulation is damaged, is limited to a safe level by resistance 10.

5. When the lamp is ignited, there is no glow discharge stage, and the formation of a cathode spot on the electrodes occurs when they are heated to a steady-state temperature, which ensures the elimination of the rapid sputtering of the lamp electrodes.

Claims (1)

The invention The device for igniting a fluorescent lamp with 5 preheating electrodes, contains a filament transformer, each of two secondary windings of which is connected to the terminals for connecting the corresponding filament electrode of the lamp, and the primary winding is connected to the terminals for connecting the source AC, the first extreme output of the primary winding of the filament transformer is connected to one of the terminals of its first secondary winding, in an external electrode, which is so that, in order to increase the service life due to the ignition delay of the discharge before the heating of the lamp electrodes, two resistors are introduced, a semiconductor switch made with a delay to open, and the filament transformer winding is made with an additional intermediate terminal, the main intermediate terminal of the primary filament winding transformer is connected to one of the terminals of the second secondary winding, and the second extreme terminal of its primary winding is connected through a series of first and second resistors to an external electrode; an additional intermediate terminal of the primary winding of an incandescent transformer is connected through a specified semiconductor switch with the combined terminals of the first and second resistors. eleven and 20 12 2S 0 + 18 g te2