SU1145384A1 - Gas-filled incandescent lamp - Google Patents

Abstract

A GAS-FULL LIGHTING LAMP, containing a flask of optically transparent material and a filament body, hermetically installed in it on two multi-link electrodes, the outer link, at least one of which, located inside the foot plate, is made in the form of a fusible element that differs that, in order to increase the reliability of operation, this fusible element is coated with a metal hydride or metal halide, or their mixture in a 1: 1 ratio in an amount of 0.1-1 mg / cm of the internal volume of the foot plate. sl oo 00 4;

Description

1 The invention relates to the electrical industry and may find application in the manufacture of gas-filled incandescent lamps. An inert gas-filled incandescent lamp is known, consisting of a glass bulb and a leg, which includes current leads and holders that serve as a support for the body of the heat source. The main disadvantage of these lamps is that when an independent arc occurs in the lamp bulb, the lamp current sharply increases to the values of short-circuit currents. This not only causes the lamp to burn out or explodes, but also causes serious damage to the network. The closest to the technical essence of the invention is a gas of a nakalrgeani gas containing a flask of a gas-optically transparent material and a body of heat that is hermetically mounted in it on two multi-link electrodes. The outer link of at least one of the electrodes, located inside the plate of the leg, is made in the form of a fusible element. When an independent arc arises in a gas-filled incandescent lamp, a fusible element made of constantan or ferronickel alloys melts, acting as an own fuse, thereby preventing the propagation of a short circuit in the Y network. However, the fusible elements in the leg of a gas-filled incandescent lamp protect it from short circuit. An arc, arising between the fused ends of a fusible element, may transfer to another electrode. This leads to a short circuit of the network and the explosion of the lamp. The aim of the invention is to improve the reliability of lamp operation. The goal is achieved in a gas-filled incandescent lamp containing a flask of optically transparent material and a glowing body, hermetically mounted in it on two multi-layer electrodes, the outer link at least one of which is located inside the dish. legs, vypolieio in the form of a fusible element, the fusible element is covered with metal hydride or metal halide, or their 4J mixture in a ratio of 1: 1 in an amount of 0.1-1 mg / cm of the internal volume of the plate of the leg, per heck A schematic view of a gas-filled incandescent lamp. The lamp consists of flask 1, in which the filament body 2 is installed using multi-link electrodes 3 stamped in the knife 4. The external links 5 of the electrodes are located inside the plate 6, the metal hydride, metal halide, or their mixture 7 is applied to at least one of the external links of electrodes, made in the form of a fusible element, prior to the operation of lamp bulbs in the form of a suspension or solution in organic solvents with any binder on organic bases (for example, nitrolac, lacquer BMK-5), if an arc appears in a gas-filled glow lamp and the fuse element is triggered at the electrode Voznikaot arc ends of the fuse element. This leads to a sharp increase in the temperature of the electrode and the surrounding air. The hydride, halide, or mixture thereof is decomposed into metal, hydrogen, or halogen. Hydrogen, being a light gas, has a high atomic mobility (m, e. Has a high thermal conductivity), diverts a significant part of the plasma energy from the central part of the arc to the periphery, which leads to the extinction of the arc. Electronegative halogen atoms contribute to the rapid disintegration of the plasma and thereby cause the arc to arc dying. As a result, the arc is quickly quenched without being transferred to another electrode, which ensures reliable protection of the network from short-circuiting and prevents the lamp from exploding. The manufacturing technology of the proposed lamp is simple and does not require special technological processes and equipment. The lamp can be manufactured according to the technology of making known incandescent lamps, adapting to the assembly line only a simple installation for applying hydrides, metal halides, or their mixture. On the known lines of assembling normally lighting lamps, 3 batches of lamps of type B230-240-100 of 30 pieces each were manufactured. in each batch, 19pcs, lamps, the first batch was made with application of titanium hydride, 10 pcs., tantalum hydride lamps and 10 pcs. on the outer part of the electrode. lamps - hydrada nor obi. In the manufacture of the second batch of lamps, manganese chloride, sodium chloride and neodymium bromide were used on the indicated quantities of lamps, respectively. 10 pieces. lamps of the third batch were made with a mixture of titanium hydride and manganese chloride, 10 pcs. lamps - niobium hydride and sodium chloride, 10 pcs. lamps - tantalum hydride and neodymium bromide in a 1: 1 ratio, respectively. The amount of suspension applied was 0.1-1 mg / cm to the internal volume of the leg plate. All lamps were tested for voltage prior to the occurrence of an independent arc (500 V). The fusible element of all tested lamps worked. However, there was not a single instance of a power fuse tripping and an explosion of the lamps was not observed.

The choice of the amount of the applied metal compound 0.1-1 mg / cm was produced experimentally. When applied to external parts of electrodes, the amount of the metal compound is lower than 0.1 mg / cm by 30 pcs. Lamps were observed 8 cases with a network fuse and 1 explosion of the lamp. If a mixture of metal compounds was applied below the amount of O, I mg / cm and the ratio was 1: 1, the same phenomenon was observed. When applying a metal compound or a mixture of metal compounds in an amount of more than mg / cm, the mass of the compound was detached from the electrode surface.

The economic feasibility of using the proposed gas-filled incandescent lamp is ensured by the reliable protection of lighting networks from short-circuiting, preventing the explosion of lamps and eliminating possible accidents.

Claims (1)

A GAS-FLOORING HEATING LAMP containing a bulb made of optically transparent material and a filament body sealed in it on two multi-link electrodes, the outer link of at least one of which, located inside the leg plate, is made in the form of a fusible element, which distinguishes - that, in order to increase the reliability of operation, the specified fusible element is coated with metal hydride or metal halide, or a mixture thereof in a ratio of 1: 1 in an amount of 0.1-1 mg / cm ^{3 of the} internal volume of the legs. wd 00