SU1319113A1 - High-pressure gaseous-discharge lamp - Google Patents

Abstract

The invention relates to the electrical industry, in particular to the manufacture of high pressure gas discharge lamps. The goal is to increase the stability of the light parameters of the lamp. The inner surface of the outer flask is covered with two layers of phosphor with a mixture of fine silica. The radiation from the discharge tube 1 first falls on the inner layer, which contains a significant amount of silica particles, and then on the outer layer containing a larger amount of phosphor. Since the stability of the optical characteristics of the silica particle at high temperatures is higher than that of the phosphor, the emission stability of the phosphor and the lamp as a whole is improved. The phosphor content in the outer layer is 5-90%, and in the inner layer - 0.05-0.8 of its content in the outer layer. 1 ill., 1 tab.

Description

The invention relates to the electrical industry and can be used in the manufacture of high pressure gas discharge lamps.

The aim of the invention is to increase the stability of the light parameters of the lamps.

The drawing shows a gas discharge of a high pressure lamp.

The lamp contains a discharge tube 1 mounted on a leg 2 and enclosed in a glass cylinder 3, the inner surface of which has a coating 4 of two layers 5 and 6 of a mixture of phosphor and fine silica. The phosphor content in layer 6 contains 5-90% in its mixture with silicon dioxide, and in layer 5 it is 0.05-0.8 of the phosphor content in layer 6.

When the lamp is turned on into the electrical network, the radiation of the discharge tube first falls on the coating layer, which is attached to the discharge tube and contains a significant amount of silicon dioxide particles, which has passed through the radiation of 190% L50-1-10% Zyug 72% L50n- 28% SiO 240002280095,011,510.8

25% L50- | -95% SiOe 0.25% L50-99.75% SiOj2l800 2120096,36,05,7

320% L50-80% SiOa 5% L50-95% SiOz 235002290097.47.57.2

4Coating with one layer of 20% L50 + 80% Zyug. 238002270095,410,19,7

Lamps for option 1 have high luminous parameters and high consumption of expensive phosphor.

Lamps for option 2 have low light parameters and low phosphor consumption, since a significant portion (95% or more) of silicon dioxide powder is used in the coating of cylinders.

By optimal coating of the cylinders according to the light parameters, the consumption, the luminescence falls on the coating layer with a high content of phosphor. In view of the fact that the optical characteristics (in particular, light transmission) of finely dispersed silicon dioxide are more stable than euronium vanadate phosphate phosphate and emitting phosphor particles when irradiated with ultraviolet (in particular, short wavelength) radiation and temperature 280-300 ° C over a period of 10–20 thousand hours, the stability of the radiation passing through the layer facing the discharge tube and falling on the layer adjacent to the surface of the cylinder increases, thereby increasing the efficiency and stability of operation. minifor in this layer, and hence the stability of the light parameters of the lamp.

Example. Make and test light parameters after O and 100 h

Q burned pilot batches of lamps with a different ratio of phosphor and SiOj powder in the coating layers and coated lamps in one layer. The test results are given in the table.

Pa and on the stability of the light parameters is option 3.

Claims (1)

Claims of Invention A high-pressure discharge lamp containing a discharge tube mounted on a stem and enclosed in a glass cylinder whose inner surface is coated with a mixture of phosphor and fine silicon dioxide, characterized in that, in order to improve the stability of light parameters, it is coated This is done in two layers, with the phosphor layer in the second layer being adjacent to the surface of the cylinder, the content of the phosphor is 0.05-0.8 and the content of the phosphor in the pergite is 5-90 / o of the phosphor, and the content of the layer.