Method and device for determining the purity and/or pressure of

Optics: measuring and testing – By shade or color – With color determination by light intensity comparison

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Details

356311, 356313, 356314, G01J 346

Patent

active

059204001

DESCRIPTION:

BRIEF SUMMARY
FIELD OF THE INVENTION

The invention relates to a method for detecting impurities in gases, especially noble gases, or gas mixtures for electric lamps or radiators and to a method for measuring the pressure of gases, especially noble gases, or the gas components of gas mixtures for electric lamps or radiators. The invention also relates to an apparatus for performing these methods.
The term "electric lamps" includes both incandescent and discharge lamps. The term "electric radiators" is understood to mean gas discharges that emit primarily electromagnetic radiation outside the visible range, especially in the UV or IR range.
The methods utilize the influence of the gas pressure or of impurities on the fluorescence spectrum of a gas discharge, especially a glow discharge.


BACKGROUND

Gaseous or vapor-form as well as solid substances whose presence in gases or gas mixtures for electric lamps or radiators--hereinafter called gas system for brevity--is undesired and are designated as impurities. As a rule, these impurities enter the gas system in an uncontrolled way, for instance even during lamp production by means of contaminated rinsing gases or fill gases or through leaky pumping and filling systems. Even in the finished lamp, however, impurities can enter the gas system of the lamp, for instance through leaks of the lamp bulb itself or even during lamp operation, for instance through contaminated electrodes or increased electrode burnoff from inadequate fill pressure. The consequence of impurities--of whatever source--is in the final analysis nonfunctional lamps, or lamps of limited service life or maintenance.
The goal of all these efforts is therefore to assure the least possible contamination of the gas system even during lamp production. Moreover, for the sake of seamless quality control it is desirable that finished lamps with unacceptably high contamination or excessive deviations from the desired fill pressure be detected and rejected. With this background, rapid, reliable detection of corresponding impurities and monitoring of the fill pressure become quite important.
One method for determining the gas purity is known from the contribution by M. Gaugel entitled "Gasreinheitstest bei Halogen-Gluhlampen mit Hilfe Lamps using Spectral Line Comparison! to the book series entitled "Technisch-Wissenschaftliche Abhandlungen der OSRAM-Gesellschaft" Springer-Verlag, Berlin 1986. There, the light of halogen incandescent lamps is split by two beam splitters into three beams of light and delivered to three spectrally differently sensitive photomultipliers. The maximum spectral sensitivity of the individual photomultipliers is located at the wavelength of about 410 nm, 523 nm and 616 nm respectively, that is, in the blue, green and red range of the electromagnetic spectrum. By means of two analog dividers, the ratios of the "red/blue" and "red/green" photomultiplier signals are formed and compared by two comparators to find whether the corresponding values are within preadjustable tolerance range. If not, the halogen incandescent lamp is found to be defective; that is, either a fill error and/or excessive gas contamination has occurred.
A disadvantage of this embodiment is that the halogen incandescent lamp to be tested must, including its optical setup and photomultipliers, be located inside an opaque housing during the measurement. Otherwise, in-phase interference signals, such as ambient light, cause incorrect measurements, since these interference signals are weighted spectrally completely differently by the three photomultipliers and are therefore not eliminated in the quotient formation.
U.S. Pat. 4,759,630 Vuasa et al., discloses an arrangement for determining the quality of incandescent lamps. It includes a device for generating a discharge between the incandescent coil and an electrode mounted on the outer wall of the lamp bulb, and an apparatus for analyzing the radiation emitted by the discharge in the wavelength range between 550 nm and 570 nm. The lamp quality is judged from the behavior over t

REFERENCES:
patent: 2509649 (1950-05-01), Norman
patent: 3292988 (1966-12-01), Kimball
patent: 4759630 (1988-07-01), Yuasa et al.
patent: 4801209 (1989-01-01), Wadlow
patent: 5168323 (1992-12-01), Purtschert et al.
"Technisch-wissenschaftliche Abhandlungen der Osram-Gesellschaft" (Technoical-Scientific Papers of the Osram Company, vol. 12, published by Osram GmbH, 1986, article by M. Gaugel: Gasreinheitstest bei Halogen-Gluhlampen mit Hilfe eines Spektrallinienvergleichs (Gas Purity Test in Halogen Incandescent Lamps with the Aid of Spectral Line Comparison, pp. 546-549.

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