SU1023677A1 - Device for igniting gas-discharge lamp - Google Patents

Abstract

A DEVICE FOR IGNITION OF A GAS-DISCHARGE LAMP, containing a power supply unit, a capacitor, a pulse, an I transformer, a discharge capacitor, however. A power capacitor, two resistors and a high-voltage transformer, the input of the power supply unit being connected to the terminals for connection to the AC network, and its output is connected to the capacitor plates and through the secondary winding pulse 3 filf; l .., I -; ifC.A: ;; I g of the transformer is connected to the terminals for connecting the gas-discharge lamp, the terminals of the primary winding of the pulse transformer through the connector connected to the terminals of the conventional winding of the high-voltage transformer connected to the plates of the storage capacitor, for example simplifying and honoring the reliability of the device, it is equipped with an incandescent lamp and an electromagnetic relay with two break contacts, with one of the resistors and the incandescent lamp connected in series and connected The primary coil of the high-voltage transformer-pa, another resistor and the coil of the electromagnetic relay are connected in series and connected to the leads for connecting to the AC network, and each disconnecting contact is electrically connected; one relay is connected between one of its coils and one of the lamp’s terminals Filament 3.

Description

The invention is suitable for electrical engineering and can be used to ignite high pressure gas discharge lamps. A device for igniting xenon lamps, which contains a control unit, is known: a power transformer with a main and auxiliary Obmots1mi, an auxiliary rectifier, a switch made on a triac, whose control is connected to the electrode of which is a high-speed current rectifier current sensor that shakes the control circuit of the triac after lighting the lamp. The disadvantages of this device are its complexity and low reliability. Closest to the invention is a device comprising; At the input, a high-voltage mains transformer, the secondary winding of which is shunted by a capacitor through an arrester, is connected to the primary winding of a pulse transformer (autotransformer) and a control unit containing a switch on the thyristor, an auto-generator and a time relay, and a pntakki the input of the oscillator and the output of the time relay are connected to a voltage control element connected in parallel with the power supply unit, two. the output windings of the oscillator are connected to the inputs of the switch, and a third of the output windings are connected to the input of the time relay. The input of the control unit is connected to the input of the time relay. At the same time, the control unit input is connected to the AC power supply terminals parallel to the power supply unit, and its output to the ignition unit input, the output of the latter is connected between one of the electrodes and the output of the power supply unit, which is bridged by another capacitor, the other end of which is connected to the other electrode . When the lamp voltage is turned on, the no-load voltage of the power source is applied to the lamp. Simultaneously, for example. The voltage appearing on the voltage control unit starts the autogenerator, which forms the control voltage of the switch ;, which connects the ignition unit to the mains supply. At the same time, a storage capacitor is charged through a diode and a resistor from the voltage across the additional winding of the auto-oscillator. After a time determined by the parameters of the charging circuit, the autogenerator and, accordingly, the ignition of the lamp switch off. If the lamp is lit and normally lit, then as a result of reduction of the output on the power supply unit, the voltage monitoring element connected in parallel to it disconnects the power supply of the autogenerator, which also leads to the ignition unit disconnection. This device has a complex multi-element scheme and, accordingly, high cost and insufficient reliability. Moreover, it has insufficient stability, since the time relay, which uses the principle of capacitor charge, is strongly dependent on external factors, such as humidity, temperature, it is difficult to practically obtain the required response time equal to 0.5-1 s, since Capacities should be dozens of otfarad. In addition, if the lamp does not light up immediately, then to re-ignite it, a time delay is necessary, sufficient to discharge the storage capacitor. The aim of the invention is to simplify and increase the reliability of the device. This goal is achieved by the fact that a device for igniting a gas discharge lamp containing a unit. power supply, a capacitor, a pulse transformer, an arrester, a storage capacitor, two resistors and a high-voltage transformer, the input of the power supply unit connected to degenerates to be connected to the AC network and its output connected to the capacitor plates and through the secondary winding of the galpulse transformer. The rails are connected to the terminals for connecting the gas-discharge lampa, the terminals of the primary winding of the pulse transformer are connected to the terminals of the secondary winding of the high-voltage transformer connected to the plates of the storage capacitor, equipped with a naklivi and elektromagnitn) M relay with two openings, One of the resistors and the incandescent lamp are connected in series and connected. To the terminals of the Pickup High Voltage Transformer, another cutting torus and the coil of the electromagnetic relay are connected in series and connected to the leads for the AC connection to the AC network, and each opening contact of the electromagnetic relay is connected between one of the terminals, its coil and one of the terminals filament. . The drawing shows a basic electrical circuit of the device. . . : The device contains a power supply unit 1 / input of which is connected to Yulvodg1M for connecting to the mains current, and the output is connected through the secondary winding of the pulse transformer 1 to the terminals for connecting the gas discharge lamp 3, the capacitor 4 is a high voltage transformer 5 connected by the secondary winding to the storage capacitor 6 and through the generator 7 to the terminals of the primary winding of the dashsrnugo transformer 2f electrically relay with coil 8 and break contacts 9 and 10, resistor 11, glow lamp 12 and resistor 13. Device b works as follows. When the voltage is switched on at the electrodes of the lamp 3, a no-load voltage appears. Simultaneously, the voltage is applied to the primary winding of the high-voltage transformer 5 through the breaking contacts 9 and 10. When the voltage on the capacitor 6 reaches the value of the discharge discharge 7, the last breaks through, which creates a series of pulses in a high-voltage pulsed auto-transformer 2. The duration of the generation of ignition pulses is chosen 0.5-1 s, after which the ignition unit must be disconnected from the mains. Simultaneously with the supply of the mains voltage to the primary winding of the high voltage transformer 5, the voltage appears on the lamp 12 and on the resistor 13. Since the resistance of the filament of the lamp 12 in a cold state is approximately lower than in the hot one, then at first almost all voltage is quenched on a resistor 13, the resistance of which is chosen to be approximately equal to the resistance of the spiral in the hot state, therefore, the winding of the relay 8. the voltage is not enough to trigger it. As the lamp is heated, the voltage 12 is redistributed the side of increasing its part on the lamp 12 and when the actuation value of the relay 8 is reached, the contacts 9 and Y open, and thus the ignition unit and the control chain are disconnected. Resistor 11 serves to limit the current of relay 8 after it is turned on. High reliability of the proposed device is provided by a small number of elements of the control unit. At the same time, the operating time of an injection lamp with the shortest service life is no more than 1 s per switch on when there is no initial inrush current through a cold coil with low resistance. In this mode, the life of the incandescent lamp is practically unlimited. To re-activate the device, it is enough to momentarily turn off the power supply. The stability of the device is achieved by the fact that the operating temperature of the helix is hundreds of degrees; therefore, the fluctuation of the ambient temperature of several tens of degrees does not 1HOTH have any noticeable effect on the operating mode of the device. The advantage of the proposed device is also the possibility of its use for ignition of both Metallohalogen and Xenon lamps, since the control unit of this device operates independently of the parameters of the power supply unit. The economic effect of the invention is achieved by reducing the cost of the device and reducing operating costs.

Claims (1)

DEVICE FOR IGNITION OF A DISCHARGE LAMP, containing a power supply unit, a capacitor, a pulse transformer, a spark gap, a storage capacitor, two resistors and a high-voltage transformer, the input of the power supply being connected to the terminals for connection to an alternating current main, and its output connected to the capacitor plates and through the secondary winding pulse " The first transformer is connected to the terminals for attaching a gas discharge dump, the terminals of the primary winding of the pulse transformer through the arrester are connected to the terminals of the secondary winding of the high voltage transformer connected to the plates of the storage capacitor, and so on / that, in order to simplify and improve the reliability of the device, it is equipped with an incandescent lamp and an electromagnetic relay with two NC contacts, moreover, one of the resistors and an incandescent lamp are connected in series and connected to the pin odes of the primary winding of a high-voltage transformer, a different resistor and an electromagnetic relay coil are connected in series and connected to the terminals for connection to an AC network, and each NC contact of the electromagnetic relay is connected between one of the terminals of its coil and one of the terminals of the incandescent lamp