SU440568A1 - Three-channel cytophotometer - Google Patents

Description

I

The invention relates to devices intended for the quantitative absorption analysis of colored biological preparations and can be used in the development of industrial microscopes-photometers.

The most common method of photometry of stained cells, which are usually non-homogeneous, is the two-wave method, based on measuring the transmission of an object at two wavelengths. Three channel cytophotometers are known that automate the time-consuming procedure of two-wave measurements by forming three spatially separated beams, the spectral composition of which can be changed independently. However, the presence of a complex system of beam splitters leads to strong energy losses in the device, which complicates the analysis of small objects and prevents the use of strip incandescent lamps, providing uniform illumination of the floor (an indispensable condition of the two-wave technique), but of relatively low brightness.

The purpose of the invention is to improve the energy characteristics of the system.

For this, the modulator is made in the form of a rotating coil, the cheeks of which are mirror-symmetrical with respect to a plane perpendicular to the axis of rotation, and contain alternating elements of mirror-like surfaces of rotation located along the circumference, the axes of which coincide with the axis of the roller.

FIG. 1 shows a diagram of the proposed cytophotometer; in fig. 2 - modulator.

The circuit contains a source of 1 matchmaker, a collector 2, a diaphragm 3, an entrance slit 4, an achromatic lens 5, a coil 6 of a modulator,

convex mirror elements 7 and 8 of the modulator, concave mirror elements 9 and 10 of the modulator, flat mirrors 11 and 12, diffraction gratings 13 and 14, achromatic lens 15, exit slit 16, additional lenses 17 and 18, optical filter 19, microscope 20, receiver 21, block 22 registration. FIG. 1 shows windows 23 in the cheeks of the modulator.

Light from source 1 using a collector

2 through the diaphragm 3 is focused on the entrance slit of the monochromator 4. Lens 5 forms a parallel beam of white light that falls on the mirror element of the modulator. The modulator is made in the form of a rotating coil 6, the cheeks of which carry alternating elements of convex and concave mirror surfaces of rotation, having an axis coinciding with the axis of the coil. It is advisable to make these surfaces spherical. A beam of rays reflected from element 7,

falls on the mirror 11 and then on the grating 13. The diffracted rays of the modulator element 8, similar to element 7, are directed as a parallel beam to the lens 15, focusing the spectrum in the plane of the output slit 16. When the modulator is rotated 180 °, white light rays reflected from mirrors 9 and I, will pass through the holes in the cheeks and then, after reflection from the grating 14 and the mirror element 10, will be focused by the lens 15 also in the plane of the slit 16. The lenses 17 and 18 serve to control the convergence of the beams in both channels and align the energy characteristics branches.

In the modulator cheeks, windows forming the third optical channel are made at the level of the central optical axis between the mirrors, when the windows hit the axis during the rotation, the white light passes through the coil without changing its direction, and is also focused in the plane of the slot 16. The color of the radiation passing through the third channel can be changed with the help of a light filter 19. Thus, during the operation of the modulator, three streams will flow out of the output slit of the monochromator, the spectral properties of which can be changed independently. These streams enter the microscope 20 and are sensed by the receiver 21. The signals of the pin, after the corresponding switching, are processed by the recording unit 22.

Present Invention

A three-channel cytophotometer, operating in a two-wavelength method, containing a light source, a monochromator with a modulator, a microscope, a photodetector, and a recording system; characterized in that, in order to improve the energy characteristics of the system, the modulator in it is made in the form of a rotating coil, whose cheeks are mirror-symmetrical relative to a plane perpendicular to the axis of rotation and contain circumferentially alternating windows and elements of mirror-like surfaces of rotation whose axes coincide with coil axis.

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