SU972613A2 - Gas-discharge lamp electrode assembly - Google Patents

Description

(54) ELECTRODE ASSEMBLY OF A GAS DISCHARGE LAMP

The invention relates to gas discharge lamps filled with an inert gas, and can be used in the manufacture of gas discharge lamps of continuous and pulsed radiation with cylindrical tubes in odes.

According to the main auth. No. 888244 is known for an electrode unit of a gas discharge lamp, containing a cylindrical hollow quartz insert, crimped on the side surface with an open cylinder of foil connected at one end with an electrode, and the other with a lamp lead. In the cavity formed by the end surfaces of the liner and electrode, a gas absorber is installed in the form of a cylinder, for example, of sintered titanium porek, whose length is 0.5-0.9 times the cavity length, and a heat shield is installed between the end surfaces of the electrode and the gas absorber for example, in the form of a disk made of ceramic material. Due to the heat shield, the getter operates at the most optimal temperature conditions, and due to maintaining the efficiency of the getter operation for a long time, the durability of the lamp increases 1.

A disadvantage of the known construction is that, due to the decrease in heat flux from the end face of the electrode to the getter, the latter heats up and begins to effectively absorb harmful impurities in the working gas only some time after

10 ignition lamps. However, if there are micro leakages in the current leads, after turning off the lamp and staying in the inoperative state, an admixture of p15 gas molecules appears in the gas filling, which leads to an increase in the ignition voltage of the lamp. In this case, since the ignition pulses from the starting and igniting device are given to the lamp for a limited time, which is in seconds, there are several short flashes when the lamp is turned on, but there is no transition to steady burning. With short breaks

The 25th electrode has time to heat up to 500 -, instead of 1500 - 1800 ° С at stationary discharge. This electrode temperature is not enough to be protected by a heat shield.

30 gas absorber had time to warm up

absorption temperature and absorbed (harmful impurities in the working gas. Therefore, during the operation of the igniter, the lamp does not ignite, which is equivalent to its output. This limits the reliability and durability of lamps with known electrode nodes.

The aim of the invention is to increase the durability and reliability of lamp ignition.

This goal is achieved by the fact that a starting getter is additionally installed in the electrode assembly Ajde between the heat shield and the end of the electrode.

Start gas getter is made of porous material based on titanium or zirconium, tight; to the end of the electrode and has the shape of a disy with a thickness less than the thickness of the main getter.

The drawing shows the proposed electrode node, the cut.

The electrode assembly, sunk into the shell of lamp 1, consists of electrode 2, cylinder 3 of molybdenum foil, insert 4 and output 5. The main getter b in the form of a cylinder of porous titanium is located between the insert 4 and the ceramic disk 7, which acts as a heat shield Between the disk 7 and the electrode 2, an additional starting getter in the form of a thin disk 8 based on titanium, zirconium, etc. is embedded. In cylinder 3 there is a slit along the generatrix through which the gas absorption unit communicates with the internal volume of the lamp 1. The manufacture of the proposed electrode assembly is practically the same as that of the known one.

Since the starting getter tightly adheres to the end of the electrode, if with single flashes the electrode heats up to 500 - 8009s, this is enough to heat the adjacent thin gaop absorber disk to the temperature of active gas absorption (200 ° C and above) and absorb harmful impurities from the near electrode the lamp volume, after which the ignition voltage of the lamp decreases, the lamp ignites and goes into stationary burning mode. In this case, the electrode is heated to a high temperature, respectively, the starting getter is overheated to the temperature of the gas mixture, but the impurities released by it are absorbed by a nearby main getter, which is heated to the optimum temperature. Thus, during the entire time of lamp burning, the starting getter is kept in the out-of-place state, so when it is next turned on, it again effectively contributes to reliable ignition of the lamp.

The proposed design of the electrode assembly, with a very small complication of the design, makes it possible to markedly increase the reliability of ignition of tubular high-intensity lamps after the lamp has been in an inoperative state. This provides an increase in the real durability of the lamps.

Claims (2)

1. Electrode node gas discharge lamps according to ed. No. 888244, characterized in that, in order to increase the durability and reliability of ignition of the lamps, a starting getter is additionally installed between the heating screen and the end of the electrode, 2. A unit according to claim 1, characterized in that the starting getter is made of a porous material, fits snugly to the end of the electrode and has the shape of a disk with a thickness less than the thickness of the main getter. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 888244, cl. H 01 J 61/36, 1980.