SU1241837A1 - Atomic absorption spectrophotometer - Google Patents

Description

(46) 07.10,92. Bul Number 37

(21) 3796213/25

(22) 10/02/84. (72) Yu.B. Atkashev, V.E., Korepanov, V.V. Krylov and V.N. Muzgin

(53) 535.853.673 (088.8) (56) Lviv B.B. Atomic Absorption Spectral Analysis. M .: Science 1966, p. 178.

Atnashev Yu.B. et al. Automatic Atomic Absorption Spectrophotometer with a Tungsten Spiral Atomizer. - Journal of Analytical Chemistry, 1984, vol. 39, no. 9 p. 17191722.

(5 4) (5 7) ATOMIC-ABSORPTION SPECTROPHOTOMETER, containing a light source, an optical system, a holder with spiral atomizers and the mechanism of their movement, an atomizer power supply unit, a sample feeder, a monochromator, a measuring

a device with an indicating device and a control unit, characterized in that, in order to increase the accuracy of the analysis, it is equipped with current sensors with integrators, a signal ratio meter and a switch, with current sensors connected between spiral atomizers and the power supply unit of the atomizers, to the output of each sensor The inputs of the control unit and the integrator are connected, the output of each integrator is connected to one of the inputs of the switch, the output of which is connected to one of the inputs of the signal ratio meter, the second input of which is connected It is connected to the output of the measuring device, and the output to the indicating device, and the control inputs {of the switch and the integrators are connected to the control unit. The inventor of the region of Antentacy Chemistry t throws were used to determine the chemical composition (P1ss composition of the solutions in the instrument, geology, medicine in the field of environmental protection, the purpose of the invention is the accuracy accuracy. The drawing shows the flow diagram of the spectrophotometer It consists of a light source 1, a lighting system 2, a holder with spiral} atomizers 3, a sample feed mechanism 4, a monochromator 5, a measuring device 6j current sensors 7, integrators 8, a power supply unit for atomizers 9, a switch 10, measuring the ratio of the signals, the proof device 12 and the control unit 13. A feature of the proposed spectrophotometer is the quality of the solution taken per spiral atomizer caused by the difference in the geometric dimensions of the spirals. This is achieved by measuring the amount of electrical material affected by the evaporation of the solvent, each spiral atom-i mash. To do this, a current sensor with an integration Topop-sh, a switch and a signal ratio meter, are introduced into the spectrophotometer meter by the Analytical signal in the proposed A spectrophotometer is a measure of the absorption capacity of the amount of electrical power spent on evaporation of a solvent, proportional to the amount of sample taken on a spiral atomizer. Analytical report about 40

It is proportional to the concentration of the element in the sample and does not depend on the amount of the sample on the atomizer, which makes it possible to increase the accuracy of the analysis.

The spectrophotometer works in the following 4S manner. Using the mechanism for moving the samples, 4 are alternately applied to the atomizers 3 by immersed: they are in solution until the helix volume is filled. Then, the control unit 13 50 turns on the power supply unit 9 into the solvent evaporator mode on the atomizers 3, and integrators 8 are connected to the current sensors 7. After the evaporation of the solvent 55 is completed, all the spiral atoms are fixed by the control unit until the current changes through

11, to another input of which simultaneously, through the switch 10, a signal from the integrator 8 of the corresponding spiral atomizer is supplied. An analytical signal representing the absorption ratio

to the amount of electricity spent on the evaporation of the solvent is fixed on the indicating device

12 connected to the output of the signal ratio meter 11,

The positive effect of the application of the proposed spectrophotometer is absorbed in increasing the accuracy of the analysis by a factor of 2-3 with a productivity of 200-300 elements per hour. 37 of them, the atomizers are alternately injected with an IS ray of transmission radiation, the dry residue of the sample is atomized by heating the helix to a high temperature (2500-30 (C)). through an atomizer at a constant voltage on it is determined by the electrical resistance of the atomic isotope, which, in turn, depends on the temperature to which the atomizer is heated with or without a liquid. As the sample volume is commensurate with it, the presence of a vaporizing liquid on the atomizer will have a significant effect on its temperature. determining the end of evaporation for various solvents (water, alcohol, gasoline) is characterized by a relative standard1 & gm deviation of 0.008-0.01 for 20 parallel measurements. The end of the drying time is determined by the control unit. When the substance is atomized, the samples retrograde the absorption of characteristic radiation using a monochromator 5 and a measuring device. B. The measured signal from the output of the measuring device is fed to the input of the signal ratio meter

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