SU1099257A1 - Device for checking contamination in liquid flow - Google Patents

Description

The invention relates to measuring technique and can be used to control working fluids, fuels, lubricants and other liquid media used in instrument engineering.

A device for determining the concentration of solid particles in liquids and gases, which contains a vessel with a test liquid, a radiation source, a radiation receiver, a reader in the form of a Nipkova disk and an information processing unit in which radiation from a source passes through a controlled medium and is scattered by solid particles. The scattered radiation enters the receiver, in front of which a reader is mounted in the form of a disk with perforation along a ’circle [1J.

The disadvantage of this device is the inability to detect small particles due to the limited size of the holes in the disk.

Closest to the proposed technical essence is a device for measuring the size of microparticles moving in transparent media, containing a radiation source located along the radiation 'focusing nozzle, flowing microcuvette, lens and photodetector connected to the processing unit ¢ 0 ·

A disadvantage of the known device is its low sensitivity due to the presence of scattered radiation by the details of the optical path (lenses, cuvettes, etc.), which causes a noise signal comparable to the signal received from small particles on the φο.το3ΠβκτρΉ4βσκο receiver, which leads to a loss of information about them .

The aim of the invention is to increase sensitivity.

This goal is achieved in that the device containing the radiation source, a focusing nozzle located in the direction of the radiation, a flow microcuvette, a lens and a photodetector connected to the information processing unit, is additionally equipped with a mirror device made in the form of two screens with reflective layers deposited on the side of the flow microcuvette with an adjustable slit located between the screens along the radiation, the screens are located between the focusing nozzle and the flowing microcuvette, between the flowing mic A third screen with a reflective layer facing the flowing microcuvette is mounted with a rocuvette and a lens, and the screen is arranged to move along the flowing microcuvette.

The drawing shows a diagram of the proposed device.

The device comprises: a radiation source 1 10 (for example, a laser), a focusing nozzle 2, two opaque screens 3 with reflection layers 4 deposited on the side of the microcuvette 5 in the form of a flat glass capillary15 lar, a photodetector 6, lens 7, information processing unit 8, the third a lightproof screen 9 with a reflective layer Go, a gap 11.

The device works as follows about 2Q.

The radiation flux generated by the source 1 and preformed by the focusing nozzle 2 in the form of an axial knife is finally formed by a slit 11 formed by the screens 3, the size of which can be adjusted depending on the size of the controlled particles by moving one screen along the capillary 5. In the absence of 5 particles in the capillary passing through the slit 11, the light is completely reflected by the reflecting layer 10 of the screen 9, located under the slit between the microcuvette (capillary) 5 and the lens 7 of the photodetector 6 and adjustable 35th so that Oba it completely overlaps the gap 11. Thus, in the absence of liquid in the capillary 5 pollution particles from light source 1 on all misses fotopriem40 nick 6.

, When the pollution particle passes through capillary 5, the light scattered by it is reflected from the coating 4 of screen 3 and, bypassing screen 9, the lens 45 is collected by camera 7 on photodetector 6. The received electrical signal is transmitted to information processing unit 8.

The invention makes it possible to completely eliminate the influence of flares determined by scattering on the details of the optical path of the device, and thereby significantly increase the sensitivity of the Device.

The proposed system allows e- * to control microparticles with a size of 2 microns or more.

Claims (1)

DEVICE FOR CONTROL OF POLLUTIONS IN A LIQUID FLOW, containing radiation sources located along the radiation, a focusing nozzle, a flowing microcuvette, a lens and a photodetector connected to an information processing unit, characterized in that, in order to increase sensitivity, it is additionally equipped with a mirror device made in the form of two screens with printed side. These are the flowing microcuvette with reflective layers, and an adjustable slit is located between the screens along the radiation path, the screens are located between the focusing nozzle and the flowing microcuvette, the third screen is installed between the flowing microcuvette and the lens, with the reflective layer facing the flowing microcuvette, while the third screen is movable along a flowing microcuvette. SU „, 1099257