SU859835A1 - Photoelectric analyzer - Google Patents

Description

(54) PHOTO-ELECTRIC ANALYZER

Claims (2)

The invention relates to the field of analytical instrumentation and can be used to automatically control the concentration of technological solutions (for example, water, atmosphere) to control colored liquid media (for example, the content of fluorine in water). A device for automatic monitoring of the concentrations of technological solutions is known — a single-wired compensated photometer with a switching device for continuous automatic determination of the concentration of the solid phase in liquid and gaseous media, including a light source, an optical system for a cell, a photodetector, and a recording device ПЗ. The closest technical solution to the present invention is a photoelectric analyzer containing a series-connected light source, a form light beam, a scanning device for a cell, an optical wedge, a photodetector, and a measuring instrument. The optical wedge is made in the form of a disk with successively typed wedges designed for different concentrations of the test medium 21. The scanning device converts the static light flux into an ULTRASONIC light beam pesiopically moving along the cuvette from the point with the minimum thickness to the point with the maximum thickness of the test medium . At the same time, the light flux passing through the cuvette passes through the optical wedge, making similar movements in the radial direction with the only difference that the minimum optical thickness of the analyzed medium corresponds to the maximum optical density of the wedge and vice versa. The disadvantage of this analyzer is the complexity of the wedge design. At the same time, increasing the accuracy of determining the concentration requires an increase in the set of wedges, which affects the size of the device. The purpose of the invention is to simplify the design and improve measurement accuracy. To achieve this goal, a photoelectric analyzer containing a light source with a light beam scanning device and an optical system installed along the light beam, a cuvette, an optical wedge, a photodetector and a zero organ, the optical wedge is made in the form of a prism with a septum along the scanning line of the light beam, at that, one part of the prism contains the solution with the minimum concentration, and the other part with the maximum, and is equipped with a device for moving it perpendicular to the scanning plane of the light beam. Fig. 1 is a schematic diagram of the device; Fig.2 section aa in Fig.1. The device contains a light source 1, a condenser 2, a beam scanning device 3, a measuring cuvette 4, an optical wedge 5, a collecting lens 6, a photodetector 7, an amplifier 8, a reversing motor 9, and a measuring device 10. The device works as follows. The light flux from the radiation source 1 passes successively the condenser 2, the scanning device 3, the cuvette 4, the optical wedge 5, the collecting lens 6 and the receiver 7 hits the photo. The scanning device forms and moves a beam of light whose width is equal to the width of the working part of the cuvette. The beam of light is periodically moved along g; At the same time, the light beam passing through the cuvette passes: an optical wedge in which the maximum optical density of the wedge corresponds to the minimum thickness of the layer of the analyzed media and vice versa. The optical wedge is made in the form of a prism 54 (Fig. 2, divided by a beam scanning line into two cells, each of the chambers is similar to a measuring cell. One chamber is filled with a solution with a maximum concentration. The optical flux intensity in the determined position of the optical wedge the time of the incident on the photodetector and the circuit is in equilibrium. In the case of a change in the concentration of P0, there is a variable component of the intensity change over time, which is amplified by the amplifier and through The actuator changes the position of the optical wedge in the direction of decreasing the variable component of the signal. The amount of movement of the wedge is a measure of concentration. The proposed device allows to simplify the design of the optical wedge, expand the measurement range over a wide range, as well as improve the measurement accuracy with the analyzer unchanged dimensions. A photoelectric analyzer containing a light source with a light beam scanning device and an optical system installed along the light beam path. A cell, an optical wedge, a photodetector, and a null organ, characterized in that, in order to simplify the design and improve measurement accuracy, the optical wedge is made in the form of a prism with a partition along the scanning line of the light beam, with one part of the Prism containing a solution with the minimum concentration, and the other with the maximum concentration, and is equipped with a device for moving it perpendicular to the scanning plane of the light beam. Sources of information taken into account in the examination I. USSR author's certificate 138390, cl. G 01 J 1/10, 1961. 2. USSR author's certificate in application number 2560037 / 18-25, cl. G 01 N 21/20, 1978 (prototype).