SU479997A1 - Device for the study of dust-air mixture - Google Patents

Description

The cages are provided with cone-shaped rings 12, which are arranged in such a way that the existing part of them is directed towards the duct and the axial zone is free for the passage of the light flux. The cone-shaped rings are set apart from each other at a distance equal to the inner radius of the nozzle.

The implementation of dust barriers in the form of cone-shaped rings, which are located at a certain distance from each other, creates the most favorable conditions for the destruction of vortices of dusty air, due to which dust accumulates between the cone nozzles and does not reach the optical parts. Already after two conical rings located at a distance equal to the nozzle radius, the amount of dust penetrating and settling on the inner walls of the nozzles between the cone-shaped rings sharply decreases. Such dust barriers are simple in design, easily removed and cleaned from dust.

The nozzles 10 and I are mounted on the upper part of the horizontal pipeline section at an angle φ (Fig. 2 and 3) to the direction of dust-air flow, exceeding 90 °, and at an angle to each other so that the parts of the nozzles with cone-shaped rings are inside the pipeline , and parts of the nozzles in which the light source or photosensitive element is located, are outside the pipeline. With this arrangement, the nozzles with respect to the axis of the duct and to each other, the measurement zone is well below the location of the nozzles, and therefore the nozzles do not significantly change the established dust-air flow in the measurement zone. This makes it possible

to increase the accuracy and reliability of the measurement by reducing the distortions introduced by the measuring device into the dusty air under study.

The nozzles 10 and I are mounted on the air duct by means of the fastening Mehmentov 14, which are interconnected by a plganka 15.

The device works as follows.

At the initial moment in case of dust particles, measuring bridge 5, in one of the arms of which a photosensitive element 3 is inserted, is adjusted so that its output signal is equal to zero. When the dust particles appear in the measured air flow, the intensity of the light scattered by them is recorded by the photosensitive element 3, the output of which brings measuring circuit 5 out of equilibrium. An unbalance signal proportional to the counting concentration of dust particles, after amplification by amplifier 6, is recorded by a recording device 7. If the dust concentration exceeds the maximum permissible rate, the alarm unit 8 is activated, giving an alarm.

Subject invention

A device for examining a dust-air mixture containing a light source, a photosensitive element, nozzles with dust partitions and a measuring circuit, characterized in that, in order to improve the measurement accuracy, dust partitions are installed in the form of tapered rings installed by a tapering part towards the flow of the dust-air mixture distance from each other, equal to the inner radius of the nozzle.

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