RU177416U1 - DEVICE FOR MEASURING LIGHT FLOW THROUGH SURFACE OF A SLIDES OR CEVETS - Google Patents

Abstract

The utility model relates to devices for measuring the amount of luminous flux passing through the surface of a slide and can be used in immunohistochemistry, for example, for quantifying the content of fibrillar proteins in the intercellular substance of histological sections. The claimed device for measuring the amount of luminous flux through the surface of a slide or a cuvette contains a light source - a slide projector with a halogen lamp, a photodetector, a digital light meter, a screen for projecting an image, an opaque casing, a slide receiver or cuvette, a slide projector lens and a casing cover. In this case, the slide projector lens is retractable to ensure focus accuracy, and the casing cover is hinged to provide access to the lens. The photodetector is made to fit the screen, and the screen is made of a translucent material - thin plexiglass with a thickness of 0.5-1.0 mm milk color, and the screen size is equal to the size of the projected image of the slide or cuvette. The screen and the casing are connected hermetically without light gaps, and a light source is used as a light source, providing uniform illumination of the slide or cuvette over the entire surface and having minimal thermal radiation - a halogen lamp with cooling. Slides or a cuvette are placed in the device at such a distance from the light source where they are not affected by thermal radiation. The technical result is a measurement of the average concentration or average color intensity over the entire surface or volume of a sample (slide or cuvette). The device can also be used as a photocolorimeter, for which it provides the possibility of installing a cuvette with a liquid or suspension of an inhomogeneous consistency. The advantage of the proposed device in comparison with the known colorimeters is that it allows you to evaluate the concentration of the substance not only at the point, but also over the entire area or volume of the liquid in the cuvette. 3 ill.

Description

This utility model relates to devices for measuring the amount of luminous flux passing through the surface of a slide and can be used in immunohistochemistry, for example, to quantify the content of structured proteins in the intercellular substance of histological sections.

A device for obtaining fluorescence images during immunohistochemical diagnostics (PM No. 103653, published on 04/20/2011), containing a light source, exciting and locking filters, a dichroic mirror, a lens, a light-separating plate, eyepieces and a digital camera, between the camera and the light-separating the plate has a wheel with locking filters fixed to it, and a broadband light filter is used as exciting light filters.

A disadvantage of the known device is the design complexity.

The closest in claimed essence to the claimed utility model is a photoelectric colorimeter (photocolorimeter) (Bulatov MI, Kalinkin IP Practical Guide to Photometric Methods of Analysis: 5th ed., Revised. - L.: “Chemistry”, 1986 . - S. 9. - 432 p.).

This device is designed to control samples having the same concentration or color throughout the entire volume (surface). Therefore, for control (measurement) it is sufficient to use a point light source and a point photodetector, between which a controlled object (sample) is placed.

A disadvantage of the known photocolorimeter is that it does not allow one to judge the concentration of the controlled substance when the photograph or slide is unevenly colored, which occurs in histological sections.

The technical task of this PM is to measure the average concentration or average color intensity over the entire surface or volume of a sample (slide or cuvette).

The technical result of the utility model is achieved by uniform illumination of the entire surface in the visible region of the spectrum by a light source having minimal thermal radiation, for example, LEDs, to exclude the influence of the temperature factor on the samples. The photodetector must have the same ability to perceive the light flux over the entire surface of the sample through which this light flux is passed.

The proposed device is shown in the drawings, where in FIG. 1 is an external view of the device, in FIG. 2 - the device at the time of placing the slide or cuvette, in FIG. 3 - slide for measuring the area of the figure. The device (Fig. 1) contains a light source 1 (slide projector), a photodetector 4, a digital light meter 3, a screen for projecting an image 5, a lightproof casing 2.

As a photodetector 4, it is possible to use a photoresistor, a solar battery the size of the screen, or a set of photodiodes uniformly distributed on the inner surface of the screen 5. As a light meter 3, it is possible to use a multimeter, the scale of which is graded in suites when working with this photodetector. The screen 5 can be made of thin (0.5 ÷ 1 mm) milk-colored organic glass. The screen size is equal to the projection size of the slide image on the screen. The aspect ratio of the screen is equal to the aspect ratio of the slide. Reducing the projection area of the slide less than the area of the slide itself is undesirable, because will lead to an increase in measurement error. The screen 5 and the photodetector are connected hermetically without light gaps.

The drawing (Fig. 2) shows a receiver 6 of a slide or a cuvette placed between a light source and a photodetector, a lens of a slide projector 7, a cover 8 of a casing 2, necessary for initial adjustment of the lens when the projection of the slide onto the screen with the necessary image clarity. The photodetector 4 is made to fit the screen 5. The cell may contain a liquid of non-uniform consistency, suspension or a mixture of liquids of different densities.

The photodetector can be made of a set of photoresistors, photodiodes, film photoresistors, solar cells, etc. The light source provides uniform illumination of the slide plate or cuvette, while the thermal radiation of the source on the surface of the slide or cuvette is eliminated by cooling the emitter and placing the slide receiver at a distance from the light source, excluding thermal effects on the slide or cuvette.

As a light source, LED panels, sets of LEDs, halogen lamps and other sources having minimal thermal radiation can be used, and slides are placed in the device at such a distance from the light source where they are not affected by thermal radiation.

The intensity of the light flux on the surface of the slide plate or cuvette should be the same. The power supply for the light source must be stabilized.

The device operates as follows:

Turn on the slide projector 1, the light source of the slide projector warms up and enters the operating mode. We place the slide or the cuvette in the slide receiver 6, open the cover 8 of the casing 2. We move the lens 7 until a clear image of the slide is displayed on the screen 5. The screen has the same dimensions as the photodetector. We close the lid 8. In the future, we do not perform image clarity adjustment operations. We take from the digital scale of the light meter 3 the readings of the light flux averaged over the surface of the slide. We place the following slides in the slide receiver and take readings of the light flux passing through them.

We take a slide without an image (carrier, transparent material, on which images will be applied in the future). We measure the light flux through this slide. We designate it as F ₀ and take it as 100%. Measurements of the luminous flux of slides with printed images F _i will be smaller than F ₀ , i.e. F _i <F ₀ , and the part of the light flux ΔF _i = F ₀ -F _i , delayed or absorbed by the slide (cuvette), will determine the degree or intensity of color of the slide or liquid in the cuvette.

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The proposed utility model can also be used to determine the area of complex figures. To do this, this figure, the area of which we are interested, is photographed with a ruler in width and height and printed on a slide, while previously using any graphics editor (for example, Photoshop), the area of this figure is painted over in black.

Absorbed by the area of the figure, the part of the light flux ΔF _i will be proportional to the area of the figure.

To calculate the true area of the figure, we use calibration rulers. With their help, we determine the area displayed on the slide (Fig. 3).

S = a⋅b, where a and b are respectively the height and width of the true area displayed on the rectangular slide plate, and then determine the true area of the figure:

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The utility model allows you to measure the average concentration or average color intensity over the entire surface of the sample (slide), as well as determine the area of complex shapes.

The device can also be used as a photocolorimeter, for which it provides for the possibility of installing a cell with a liquid or suspension of an inhomogeneous consistency. The advantage of the proposed device in comparison with the known colorimeters is that it allows you to evaluate the concentration of the substance not only at the point, but also over the entire area or volume of the liquid in the cuvette.

Claims (1)

A device for measuring the amount of luminous flux through the surface of a slide or a cuvette containing a light source — a slide projector with a halogen lamp, a photodetector, a digital light meter, a screen for projecting an image, a lightproof casing, a slide receiver or cuvette, a slide projector lens, a cover for the casing, while the slide projector lens is made retractable to ensure focus accuracy, the cover of the casing is hinged to provide access to the lens, the photodetector is made to fit the screen, the screen is made of floor transparent material - thin organic glass with a thickness of 0.5-1.0 mm milk color, the screen size is equal to the size of the projected image of the slide or cuvette, the screen and the casing are connected tightly without light gaps, and a light source is used as a light source, providing uniform illumination of the slide or cuvettes over the entire surface and having minimal thermal radiation - a halogen lamp with cooling, and slides or a cuvette are placed in the device at such a distance from the light source where they are not affected by thermal radiation.

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