SU1265892A1 - Flash gaseous-discharge lamp - Google Patents

Abstract

The invention relates to light sources, in particular, to a gas-discharge pulse, // to high-intensity light sources, preferably for light signaling. The aim of the invention is to simplify the design and technology of the lamp. Inside the spiral flask 1, a stainless steel liner (B) 8 is installed coaxially with a longitudinal section 9. Expansion B 8 forms a skirt 10. B 8 performs the role of a triggering electrode, to which high voltage pulses are fed through pin 12 to initiate a discharge in xenon between electrodes 3. Yulka 10 shields the base 6 from high-power radiation pulses. 2 Il.

Description

The invention relates to gas-discharge lighting lamps and can be used in the production of gas-discharge pulsed sources of high-intensity light, designed primarily ₅ for light signaling.

The aim of the invention is to simplify the design and manufacturing technology.

Figure 1 presents the proposed lamp; figure 2 is a variant of the design ^{10 of the} liner before assembling the lamp.

The lamp contains a quartz flask 1 in the form of a tube folded into a cylindrical helical spiral. The legs 2 by lead-in wires hermetic installed _{rabo-) 5} Chie electrodes 3, the legs 2 via mastic tsokolevochnoy 4 fastened to the projections 5 of the tubular plastic cap 6. By means of the current leads, electrodes 3 are connected to external terminals 7 located on the opposite side of the cap 6. 20

Inside the spiral flask 1, a stainless steel insert 8 is installed coaxially with it, made in the form of a round cylinder with a longitudinal section 9, protruding by the ends on both sides of the spiral. The end of the liner 8 from the base of the cap 6 is turned ²⁵ along the entire circumference, this extension forms a skirt 10 extending from the cylindrical part by an amount approximately equal to the outer diameter of the tube of the bulb 1. The liner 8 is made of sheet steel, from the outside it is polished to a mirror shine and metal rods 11 are fixed to the inner side of the insert 8 along its length, rigidly fixed to the base 6. The insert acts as an initiating electrode. The number of rods ₃₅ 11 is 2-6, depending on the size and power of the lamp, one of the rods 11 is electrically connected to terminal 12, for example, by soldering in the tubular part of terminal 12. Base 6 has mounting holes 13 for mounting in the light-signal device 40 of the aircraft . The liner 8 may have spiral recesses 14 corresponding to

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in the form of a spiral bulb 1 (in the cross section, the recesses have a slightly larger diameter than the outer diameter of the tube of the bulb 1), while the mechanical strength of the lamp and heat removal from the bulb 1 increase. The rods 11 can protrude in the direction opposite to the cap 6, the ends 15, in this case, the heat sink from the lamp is increased and when the bulb 1 is installed inside the protective or color-correcting (red) cylinder-cap, since the ends 15 are discharged through the holes in the upper part cap and are connected with providing thermal contact to an external heat dissipating radiator. Flask 1 is filled with xenon.

When the lamp is operating, terminals 7 are connected to the storage tank. High voltage pulses are applied to terminal 12 with a frequency of 1–2 Hz, which arrive at liner 8 and initiate a discharge in xenon between electrodes 3. Pulsed discharges in bulb 1 are accompanied by high-intensity flashes of light. Skirt 10 shields the base 6 from powerful pulses of radiation.

Claims (1)

Claim A pulsed discharge lamp containing a tube filled with a working gas from an optically transparent material having the shape of a spatial spiral, the ends of which with hermetically mounted working electrodes are fixed in a cap made of dielectric material, a metal insert in the form of a cylinder mounted inside the spiral, mechanically firmly connected to the cap , and the output located on the base and designed to connect the initiating electrode, characterized in that, in order to simplify the design and manufacturing technology, the liner is tightly installed inside the bulb, made of material with springy properties, has a longitudinal section and expansion from the base and is connected to the output. Figure 2. ! Compiled by V. Gorchakova