SU1636897A1 - Luminescent lamp and method of making same - Google Patents

Abstract

The invention relates to the electrical industry and can be used in the manufacture of fluorescent lamps. The aim of the invention is to improve the stability of the light flux. The luminescent lamp contains a tubular flask 1, covered with phosphor 2, and legs 3 and 4. At the cathode 5 there is a heterotation metering device 7. Additionally, a nebulizer gas absorber 8 is mounted on the other leg around the cathode 6 the cathode at a distance L, determined from the ratio L (98 + 423 1L -Tot) / 6.5, where 1L-lamp current; T0pt - working temperature. In the method of manufacturing fluorescent lamps with a heterotation dispenser, including pumping, tapping and activating, the getter is activated during the pumping process before filling the lamp with an inert working gas, and the heterotation doser is activated after the desoldering operation. 2 sec. f-ly, 1 ill. cl

Description

The invention relates to the electrical industry and can be used in the manufacture of fluorescent lamps.

The aim of the invention is to improve the stability of the luminous flux of lamps with a heterortun dispenser.

The drawing shows a fluorescent lamp, section.

The lamp consists of a tube-bulb 1, coated with phosphor 2, legs 3 and 4, bearing cathodes 5 and 6, a hetero mercury dispenser 7, mounted on a leg 3 around the cathode 5, and a layer of getter 8 is deposited on one side of the tape of the hetero mercury dispenser 7, and on the other is alloy 9 of titanium mercury. The getter 10 is mounted on the leg 4 around the cathode 6.

When voltage is applied to the lamp, a discharge is ignited between cathodes 5 and 6, mounted on legs 3 and 4, respectively. The discharge excites the glow of the phosphor 2. After ignition of the discharge, getters 8 and 10 start to work, which absorb the residual gases released during lamp operation by cathodes 5 and 6 and coatings, preventing the negative effect of these gases on phosphor 2, as a result of which the brightness of the lamp is higher than a lamp without getters.

The efficiency of the getter 8 during operation of the lamp is lower than that of getter 10. The getter 8 is designed primarily to reabsorb the own residual gases of the hetero-mercury dispenser 7 at the stage of manufacturing the lamp (after its desoldering) when the getter 8 is activated during heating and the alloy 9 decomposes simultaneously titanium mercury, accompanied by abundant gas evolution. These gases, along with getter 8, are also absorbed by getter 10, which was activated earlier (during lamp evacuation).

The getter 10 and the hetero-mercury dispenser 7 simultaneously serve as screens that reduce the intensity of the formation of dark deposits on the phosphor 2 in the end parts of the tube-flask that appear due to the spraying of coatings deposited on cathodes 5 and 6, Thus, the screens help to weaken the process of reducing the brightness of the phosphor.

The proposed lamp allows you to. to increase the luminous flux generated by the lamp during the operation period by 7%.

Claims (2)

Claim 1. Luminescent lamp., Containing a tubular flask coated with phosphor, legs with installed cathodes and a hetero mercury dispenser located on one of the legs, characterized in that, in order to increase the stability of the light flux, a non-sprayable getter, batcher and getter installed at a distance L from the cathode, determined from the ratio L = ^{98 +42} d ' ^l ~ ^Topt ' (mm), b, b where 1 _l is the lamp current, A; T _0P t - the optimum operating temperature of the cathodes, getter and hetero-mercury dispenser. 2. A method of manufacturing a fluorescent lamp, including pumping, filling and desoldering operations, followed by activating a hetero-mercury dispenser, characterized in that, in order to increase the stability of the light flux of the lamp, the activation of the non-sprayable getter is carried out in the process of pumping the lamp.