SU1191984A1 - Flash gaseous-discharge lamp - Google Patents

Abstract

PULSE DISCHARGE LAMP, containing a flask filled with working gas in the form of a tube made of optically transparent material having at least one bend, working electrodes sealed at its opposite ends, and the initiating electrode in the form of a strip of conductive optically transparent material deposited on the outer surface of the tube along its generatrix, characterized in that, in order to increase the service life, said strip is positioned so that its middle line coincides with the generatrix having on and a large bending radius, with the width of the strip being

Description

The invention relates to the design of gas discharge lighting lamps and can be used in pulsed gas discharge light sources for the purposes of light signaling, light navigation, etc.

The aim of the invention is to increase the lamp life.

The drawing depicts the proposed lamp.

The pulse lamp contains flask 1 of a quartz tube, the discharge part of which is coiled into a single turn spiral (the number of turns of the spiral can be large; another form of bending of the flask is possible). At both ends of bulb 1 with help and hermetic foil current leads 2, working electrodes 3 are installed. On the outer surface of bulb 1, which is symmetrically forming 4 with its width, has the largest radius of curvature of the tube of bulb 1 (i.e. the largest circumference of the curved part of flask 1), a strip 5 was applied in the form of a transparent conductive coating (for example, based on tin dioxide with additives that increase transparency, heat resistance and conductivity). Outside the discharge area of flask 1, i.e. in its straight parts, where electrodes 3 are installed, strip 5 is wider or spread over the entire circumference of flask 1, and in this zone one of the known methods made contact of the wire of the neck strip 5 with metal wire 6. Legs of lamps with current leads 2 In this example, the performances are fixed in the base 7 of an insulating material. Pins 8 are used to connect electrodes 3 to the power supply device, and pins 9 are used to connect an initiating strip 5. Flask 1 is filled with xenon at a pressure below atmospheric.

When the lamp is operating, high-voltage igniting pulses are supplied to output 9 with a frequency of 1–2 Hz, through a wire 6 which are fed to the strip 5 and initiated in flask 1

a pulse discharge between the electrodes 3 due to the discharge of a storage capacitor connected to the terminals 8. The discharge in xenon is accompanied by a flash of high-intensity light. With a pulse duration of 50–100 µs in the proposed lamp, the discharge channel is not pressed against the wall in the bend section of bulb 1 with a smaller radius, which leads to less wear and, consequently, growth.

The achieved positive effect of lamp life can be explained by the fact that after ignition of tubular-tube flash lamps, a discharge channel appears near the wall of the flask at the location of the external initiating electrode, and at low pulse energies the light channel remains close to the wall of the flask. external initiating electrode during the entire time of the pulse, even if the initiating electrode has a complex (spiral) shape.

In the proposed construction, the discharge channel, initially initiated by the pulse along the wall of the bulb 1 along its greater bend radius, then moves to the wall with a smaller bend radius for a time comparable to the duration of the discharge pulse. As a result, the discharge channel during the pulse to the curved walls of the flask 1 is practically not pressed. This effect is achieved if the width of the strip 5 is 0.1-0.3 of the outer transverse circumference of the bulb 1. In the case where the width of the strip 5 is 0.35-0.45 of the outer circumference of bulb 1, the discharge channel is; as detected by testing prototypes, it is pressed against a wall with a smaller bend radius. When the width of the strip 5 is less than 0.1 of the bulb circumference, the ignition of the lamps becomes unreliable due to the increase in the resistance of the strip.

Claims (1)

PULSED DISCHARGE LAMP containing a flask filled with working gas in the form of a tube made of optically transparent material having at least one bend, working electrodes hermetically mounted at its opposite ends and an initiating electrode in the form of a strip of conductive optically transparent material deposited on the outer surface of the tube along its generatrix, characterized in that, in order to increase the service life, said strip is positioned so that its midline coincides with the generatrix having the largest th bending radius, wherein the width of the strip is (0.1-0.3) 5 the external diameter of the tube. oh oh