SU87631A1 - Colorimeter to visually determine the concentration of colorless substances - Google Patents

Description

The Dubosque visual colorimeter used to determine the concentration of substances in solutions is only suitable for working with colored substances. Quantitative chemical analysis using this colorimeter is associated with complex transformations of substances to obtain intensely colored compounds.

It is known that most colorless substances have a strong absorption in the ultraviolet region of the spectrum.

The proposed ultraviolet colorimeter allows visual determination of the concentration of substances in solutions by their absorption of ultraviolet rays, based on the use of converting invisible rays to visible using fluorescent screens. The proposed colorimeter for visually determining the concentration of colorless substances differs from those known in that the concentration of substances in solutions is measured in it by the absorption of UV light from the tested solutions, by comparing the brightness of fluorescent screens, the glow of which is excited by ultraviolet rays passed through these solutions.

The drawing shows a diagram of the proposed colorimeter.

At the bottom of the colorimeter there is a low-pressure bactericidal lamp 1. The radiation of this lamp, burning under conditions of lack of ventilation, at elevated pressure, is rich in rays with a wavelength of 250 mmk and weakly in the visible region of the spectrum. This lamp is also convenient because it does not heat up when burning. A thin light filter 2 made of glass of UFS-, GUAGLIQUE visible light and transparent in the ultraviolet region in the wavelength range from 410 to 250 mmk is placed above the lamp. A quartz lens 3 is projected above the light filter, projecting the image of the lamp onto the ends of the light conduits, at the ends of which fluorescent screens 4 and 5 are glued. The cups with the test solutions have quartz bottoms.