SU1365180A1 - High-pressure gas-discharge lamp - Google Patents

Abstract

The invention relates to the electrical industry, in particular, improves metal halide lamps. The aim of the invention is to reduce the ignition voltage and increase the stability of the light flux. A glowing discharge occurs between one of the main electrodes and the auxiliary electrode. After switching on the lamp, the auxiliary ring electrode, which is a getter, reduces the cooling rate of the main electrodes. This prevents condensation of metal halides on its surface, which contributes to a decrease in the ignition voltage of the lamp. power on. 2 Il. and “(L 00 Od ate

Description

The invention relates to the electrical industry and can be used in the production of discharge lamps, such as metal halide, intended for illumination.

The aim of the invention is to reduce the ignition voltage and increase the stability of the light flux,

FIG. 1 shows a metal-halogen lamp; in fig. 2 - metal halide lamp burner.

The metal-foam lamp consists of a quartz burner 1 with 2 and 3 main and 4 auxiliary electrodes filled with mercury, metal halides and an inert gas mounted on the leg 5 and welded into the external flask 6, with a coco-plate of the die 7.

Auxiliary electrode A (Fig. 2 is made in the form of a ring, coaxially covering 1 / 4-3 / 4 the length of the spiral of the main electrode 2 or 3. After the lamp is switched on, the glow voltage between the main electrode 2 or 3 and the auxiliary electrode 4 is turned on discharge, contributing to the occurrence of arc discharge between the main electrodes 2 and 3 of the burner 1. After turning off the lamp, the auxiliary electrode 4 reduces the cooling rate of the main electrodes 2 and 3 and thereby prevents condensation of metal halides on its surface thereby reducing the voltage during lamp ignition is turned on again.

During lamp operation, the auxiliary electrode 4, made in the form of a ring of getter material, coaxially covering the 1 / 4–3 / 4 length of the helix, absorbs hydrogen in the reaction process into the discharge or diffusing through a quartz burner from an external bulb, these most interfere with the formation of hydroiodic acid (HJ), improving

The burner gas atmosphere causes the ignition voltage not to increase over the life of the lamp and improves the stability of the luminous flux.

Tantalum, titanium, niobium, other metals and alloys, or other getter material that effectively absorbs hydrogen in the temperature range of 400-110 ° C can be used to manufacture the auxiliary electrode, which is provided by placing around the cathode an auxiliary electrode in the form of a ring that coaxially covers 1 4–3 / 4 the length of the spiral, the inner diameter of the ring and the diameter of the spiral of the electrode being related

2d

 0.15 - 0.375.

Claims (1)

Invention Formula The discharge of the high-pressure lamp containing a quartz burner installed in the outer bulb on the stem and filled with a working substance with a quartz burner with OSIGINAL electrodes having a working coil located at its opposite ends and at least one auxiliary electrode installed close to the main one and which is a getter that differs in so that, in order to reduce the ignition voltage and increase the stability of the luminous flux, the auxiliary electrode is made in the form of a ring coaxially covering 1 / 4-3 / 4 length of alcohol Ali, moreover, the inner diameter of the ring and the diameter of the helix of the electrode are related by the ratio 2d  0.15 - 0.375, where d, is the inner diameter of the ring; d is the diameter of the electrode helix. (rig.2.