SU1436286A1 - Gas-discharge lamp control device - Google Patents

Abstract

The invention retracts to electrical engineering and m. used in lighting installations used in the printing industry. The aim of the invention is to improve reliability. The goal is achieved due to the fact that the choke of make-up 3 is the winding of an electromagnetic relay 4, equipped with a second winding, one end of the cut is connected to the anode of the triac 6, and the other through contact 11 of the relay 4 is connected to the capacitor 12. The other output of the capacitor 12 is connected to the output 2 sources of alternating voltage and to the input of the control unit 7. The second output of the choke switches 9 through the contacts 13 of the relay 4 is connected to the second electrode of the gas discharge lamp 1. The contacts 14 and the photoresistor 17 are also connected to the control unit. contacts 13 of relay 4 when the lamp is ignited .1 the ignition pulses are open do not affect the choke 9. 1 sludge. with ls

Description

The invention relates to electrical engineering and can be used to turn on gas discharge lamps.

The purpose of the invention is to increase reliability,

The drawing shows the electrical circuit of the device.

The gas discharge lamp on device 1, the first output for connecting which is connected to output 2 for connecting the AC mains, contains a choke 3 feeds, made in the form of an electromagnetic relay 4 and connected between the second output of the discharge lamp 1 and output 5 to connect the mains. The same cathode 5 is connected to the cathode of the triac. 6 and the first power supply of the control unit 7, the second power terminal of which is connected to the power network terminal 2. The codec of the control unit 8 is connected to the controllable electrode of the triac 6. The last anode is connected to the first terminal of the ballast power supply 9 and through the additional winding 10 of relay 4, the disconnecting contact 11 of this relay and the capacitor 12 connected in series It is connected to E-2 to connect the power supply. The second output of the throttle 9 through the closing contact 13 of the relay 4 is connected to the second output for connecting the gas discharge lamp.

In one of the versions of the device, relay 4 may have an additional contact 14 connected to the inputs 15 and 16 at the first additional input, as well as a photoresistor 17 connected to the wires 18 and 19 of the second additional input of the control- 7 unit.

The device works as follows. .

When the supply voltage is applied to the twist 2 and 5 of the device, the control unit 7 starts operating, which, from output 8, supplies switching-on pulses to the control electrode of the triac 6. In this case, the control pulses are changed so as to increase the switching phase of the triac 6 from 0 up to 180 e. hail, in each half period of the supply voltage.

At the opening of the triac 6, the capacitor 12 recharges and the ignition transformer formed by windings 3 and 10 and the magnetic circuit of relay 4 are outputted by ignition pulses applied to the lamp 1, which they pierce and an electric arc occurs in the lamp. The light radiation of an electric arc causes a decrease in the resistance of the photoresistor 17, which leads to the switching off of the control unit 7 to their cessation of the supply of switching-on pulses to the triac 6.

When lamp 1 is burning, a current flows through the winding 3, which exceeds the rated current of this winding, which causes the relay 4 to bark, the contacts 11-14 to operate, the inductive resistance of the winding 3 to increase and the current to decrease to the specified value.

When contact 14 is closed, control unit 7 switches over to current control mode of lamp 1 with feedback on the luminous flux. In this case, pulses of the operating current of the lamp 1 flow through the ballast choke 9, and a small sinusoidal current flows through the winding of the power supply of the throttle 3. Required to maintain the lamp burning during operating current pauses.

The reliability of the device is ensured by the fact that the ignition pulses do not affect the ballast choke 9, since the contact 13 of the relay 4 is open when the lamp is ignited, as well as by the forced mode of operation of the ignition transformer formed by the windings 3 and THEN and by the open magnetic circuit relay 4. In this mode, i.e. when the lamp is ignited, the inductance of the windings 3. and 10 is substantially less than when the relay core is retracted. Consequently, if the oscillating circuit's own natural frequency of the oscillating circuit formed by the inductances of windings 3 and 10 and the capacitance of capacitor 12 is sufficiently maintained, this capacitance can be increased, i.e. increased pulse ignition energy.

Claims (1)

Invention Formula A device for controlling a gas discharge lamp, containing an inductively charged rechargeable ballast element, included between the first terminals for connecting an AC mains supply and a lamp, a series circuit of a triac and a ballast cable 31436286. the village, the free output of a triac, which is an inductive ballast element, is connected to the first output terminal for the cable; it is made in the form of an electromagnet connection blocking of the triac and ballast of the triac connected to the throttle and the second output for connecting to the control input of the triac, through its disconnecting input and with the first output for connecting the triac tact and additional capacitor, switching on the network, and the combined second free ballast terminal with drosses terminals for connecting the network or through the closing contact of the co-lamp relay, which is one with the first terminal for connection, in order to increase reliability, lamps.