SU321730A1 - DEVICE FOR DETERMINING ACCOUNT CONCENTRATION AND FRACTIONAL COMPOSITION OF PARTICLES - Google Patents

Description

The present invention is an instrument for determining fractional counting concentrations of suspended particles, including particles represented by microbiological objects. The device can also be used to determine the amount and composition of microbiological objects in liquid and gaseous media, in particular, in purified and untreated waters of water sources and water mains.

However, a fractional analysis can only be made known by a known instrument in terms of geometrical dimensions, and not in optical properties, and only if all particles consist of the same matter.

In order to eliminate these disadvantages, the proposed device is equipped with a unit of compensated modified spectrum of the light flux. This unit may consist of a part of the spectrum absorbing light filter, and means for introducing a light filter to the optical axis of the device and the control device used to control the intensity of the light from the illuminator. In this case, differences in the spectral composition of the light scattered and reflected by particles with different refractive indices and different geometric dimensions for their side illumination, carried out in the process of counting the light flashes on the particles with the help of a jiiKskopkop and using a specially selected light.

The drawing shows the scheme of the proposed device.

The unit / sample preparation is used for the medium (liquid or gas), equipped with a device for supplying the medium with a constant flow rate, the valve is inn with the transparent flow cell 2; the illuminator 3 with the light and current regulator and the focusing device serves to create a bright illumination of zone 4; on the path of light from the illuminator to the cuvette, the discriminator 5 is changed - a device that allows the light flux from the illuminator to the cuvette to be attenuated in a given degree, regardless of the above regularization in the carbon black; Microscopes 6 are installed coaxially with the medium in the cuvette; they are equipped with a single field of view or sets of various sizes with alternating diaphragms with a smoothly adjustable diaphragm; On the ocular part of the microscope there is a fixture 7 for fixing the light detector 8, which allows to bring the light filter coaxially with the microscopic and move it to its original position and automatically adjusting the light note in the illuminator, increasing its size on the optical filter on the optical axis of the microscope and reducing it retraction of the light filter in the opposite position. The light filter with case l 7 can be placed anywhere on the optical axis of the device, and not only so; as shown on {) tezhe ..,: ..,:. The operation of the equipment is carried out as follows. The analyzed medium from the lance preparation unit continuously and at a selected constant speed moves through the light-transparent cuvette. At the same time, particles suspended in a moving medium in a brightly lit zone are scattered and reflected by the light emitted by the illuminator. Bursts of light scattered and reflected on particles are observed in a dark yole with a microscope. Selecting the speed of movement of the medium and the value of the diaphragm of the zero view so that the number of flashes at the same time is observed, but it is accurate to count the number of flashes during the flow of a certain volume of the medium or the time required for counting a certain number of flashes is determined. In both cases, the countable concentration of particles suspended in the analyzed medium will be directly proportional to the number of flashes counted and inversely proportional to the volume of the medium that elapsed during the counting time of the flashes. Then the luminous flux of the illuminator is attenuated with the help of a discriminator, making invisible flashes of light on particles, which for one reason or another weakly diffuse and reflect light. By measuring the countable concentration of those particles that are visible through a microscope with this new installation of the discriminator and subtracting the resulting co-concentration from the discriminator found in the previous installation, determine the fractional countable concentration of those particles that are not visible in the microscopes during the second installation of the discriminator. By setting the third value of the luminous flux of the illuminator, smaller than in the second case, finding the third value of the counting concentration and subtracting it from the second, determine the second fractional concentration of particles, the light output (the amount of diffused and reflected light energy) of which is somewhat more than the light output of the particles in the first fraction and not less than the particles observed in the third installation of the discriminator. This procedure for determining the fractional concentrations can be continued to the required discriminator settings. Such an order of determination of fractional counting concentrations is used when observing light flashes with or without a light filter. Finding in this way the distribution of particles in fractions when observed with a light filter in a high luminous flux of the illuminator and without a light filter with a smaller luminous flux, then determined the difference between those and other fractional concentrations found in the same discriminator settings, get the distribution of particles on light-reflecting and reflecting properties and geometrical sizes. Subject and problem 1. A device for determining the countable concentration and fractional composition of particles, consisting of a block of preparation of the sample of the medium being analyzed, a transparent cell, an illuminator, a discriminator of the light flux and a microscope, in order to expand the limits and measurement possibilities, it is equipped with a compensation compensation unit for the light flux spectrum. 2. The device on n. 1, characterized in that the compensating change unit of the light current component is composed of an absorbing part of the spectrum of the light filter, and is adapted to introduce the light filter to the optical axis of the device and the light control unit controlled by this device.

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