SU1683094A1 - Gas-discharge electrodless high-frequency lamp - Google Patents

Abstract

The invention relates to electrical engineering, namely, to gas discharge lighting lamps without electrodes inside a cylinder, emitting spectra of chemical elements and intended for use in atomic absorption and atomic fluorescence equipment. The aim of the invention is to improve the reliability of ignition of the lamp. In a gas-discharge electrodeless lamp filled with an inert gas and a working substance, the gas pressure in the cylinder 4 is 0.1-1.0 Pa, and the surface areas of the lamp shell formed by bulb 1 and balloon 4 are in contact with this gas. phosphor. 1 il.

Description

798

The invention relates to electrical engineering, in particular, to gas discharge lighting lamps without electrodes inside a cylinder, emitting spectra of chemical elements and intended for use in atomic absorption and atomic fluorescence equipment.

The aim of the invention is to improve the reliability of ignition of the lamp.

The drawing shows the principal design of the proposed lamp.

The gas discharge of the electrodeless HF lamp contains flask 1, with the help of appendix 2 mounted on leg 3 of cylinder 4 equipped with an output window 5. Cylinder 4 is installed in the RF coil b, which is part of the oscillating circuit of the transistor RF generator (not shown). All these parts are installed inside the screen 7. Hermetically connected flask 1 and cylinder 4 form a closed shell. Section 8 of the surface of the flask 1 from the side of the volume of the balloon 4 or the surface of the balloon 4 near the flask 1 is covered with a layer of phosphor 9,

In specific examples, the flask 1 and the balloon 4 are made of quartz glass, the bulb length is 1 15-18 mm, the outer diameter is 10 mm, the wall thickness is about 1 mm. The flask 1 contains the halide of the radiating element or the pure element in the amount of about 1 mg, as well as xenon at a pressure of about 500 Pa. In addition, the composition of the working substance may include aluminum or silicon. The outer diameter of the balloon is 4-14-15 mm, the wall thickness is about 1 mm.

The lamp works as follows. When applied to a high-voltage supply voltage generator, it self-excites, and an high-frequency power supply is supplied to the high-frequency coil 6, which is a working current

Noah lamp. If the lamp worked shortly before, sufficient residual ionization is maintained in the volume of flask 1 so that RF discharge occurs in the inert gas filling flask 1, and in this case the presence of phosphor 9 does not affect the operation of the lamp. However, after sufficient shutdown in the off state, ignition of the lamp without a 2–3-fold increase in the RF power applied is impossible for samples without phosphor. In the proposed lamp, in this case, there is a short flash on the surface 8 covered with phosphor 9 (for less than c), after which the discharge in the flask 1 lights up and the glow of the phosphor 9 stops. As the flask 1 warms up, the working substance evaporates, and the discharge in its vapor is accompanied by the emission of the spectral lines of the radiating element through window 5, due to the fact that the gas pressure in the cylinder 4 is small, the heat connection of the flask 1 with the environment Therefore, the vapor pressure in flask 1 and, accordingly, the radiation intensity of the lamp is kept at a constant level.

Claims (1)

Claims of the Invention A gas-discharge electrodeless high-frequency lamp containing an optically transparent envelope filled with gas, formed by a flask filled with an inert gas and a working substance, tightly interconnected at one end, and surrounding it with a balloon, which improves the reliability of ignition The gas pressure in the cylinder is 0.1-1.0 Pa, and the surface areas of the shell in contact with this gas are coated with phosphor.