SU354285A1 - DEVICE FOR REGISTRATION OF THE ABSORPTION OF LIGHT BY LIQUID - Google Patents

Description

There are a large number of types of devices for recording the flow rate of light by a flowing fluid (densitometers). All known single-beam densitometers have common disadvantages: sensitivity to fluctuations of the luminous flux inherent in gas discharge lamps operating in the passport mode, as well as to instabilities resulting from fluctuations in the supply voltage and circuit parameters. In addition, gas discharge lamps E "hot (passport) peJioiMe have a short service life at a relatively high cost.

The purpose of the invention is to improve the accuracy of recording the light sweeping, as well as to eliminate the influence of environmental temperature and the temperature of self-heating of the arc discharge lamp at the level of the light flux.

The invention is illustrated in FIG. 1 n 2.

The device works as follows.

The modulator 1 (Fig. 1) acts on a high-frequency generator 2, a geinertial sinusoidal voltage with a frequency of, for example, 10 MHz, modulated so that lamp 3 receives bursts of pulses following the frequency of the modulator.

In this mode, the light flux, which is rich in the ultraviolet part of the spectrum, has a number of sunflower flaws. The arc cord moves continuously inside the balloon, and if it is projected through the slit on cell 4, its illumination will continuously change. In addition, as the lamp warms up, the gas pressure changes, and therefore the light output also changes. Both of these phenomena are sources of instability. When the molecules of the gases filling the lamp are excited with an electric zero high frequency (which is not provided for by the factory instructions on the use of arc-discharge lamps), a plasma cord does not appear, i.e., the entire gas volume shines uniformly. As a result, the fluctuation of the luminous flux caused by the movement of the plasma cord is absent. At the same time, the light output of the lamp and somewhat decreases, but its stability and durability increase dramatically.

In order to eliminate the instability (drift) of the light stream caused by a change in the temperature of the lamp 3, its balloon is continuously heated by one of the known means, using a spiral 5, to a temperature that is obviously higher than the ambient temperature, for example, up to 80-100 ° C. Practice shows that if the temperature of the lamp fluctuates in the environment and on the time of the lamp. The light flux thus stabilized is a bundle of high-frequency (e.g. 10 MHz) light pulses, which follow a modulation frequency (e.g. 72 Hz), passed through cell 4, where they are modulated in amplitude according to the change in optical density (phg. 2 a) is fed to a photoderipe 6, where it is converted to a voltage of identical form (Fig. 2b). Bundles of high-frequency voltage pulses arrive at amplifier 7, where, after detection (Fig. 2b), the amplification and integration are converted into a continuous voltage, similar in shape to a change in ontic density (Fig. 2d). This voltage is recorded by a recorder 8, reproducing the original function (Fig. 2a).

Pip

Fig. 4 Subject of the invention 1. A device for detecting light absorption by a liquid, comprising an arc gas light source, a high frequency generator, a modulator, a cell, a photo amplifier with a pulse amplifier, and a recorder, characterized in order to improve the accuracy of light absorption The light source is connected to a high frequency generator, which is connected to a pulse voltage source. 2. The device according to claim 1, characterized in that, in order to eliminate the influence on the level of the luminous flux of the ambient temperature and the self-heating temperature of the arc gas discharge lamp, its balloon is provided with a means for maintaining its temperature in the range of 80-100 ° C .