SU1098017A1 - Optical indicator of dust concentration - Google Patents

Abstract

1. OPTICAL DUST CONCENTRATION SIGNALING CONTAINER containing a light emitter connected to a pulse generator, optically connected through a working chamber with a light receiver whose output is connected to an AC amplifier, a compensating light emitter and a threshold element, different in that, in order to improve the accuracy of the detector, it is entered a light flux attenuator, a phase-coil detector, a DC amplifier and a modulator that compensates for the light emitter is optically connected through the light flux attenuator With an optical receiver, the output of the AC amplifier and the pulse generator are connected to the inputs of the phase detector, the output of which is connected to the control inputs of the threshold element and modulator through the DC amplifier, the signal input of which is connected to the output of the pulse generator, and the output to the input of the compensating light emitter. 2. An optical alarm device according to claim 1, characterized in that, in order to simplify the device, the attenuator of the light flux therein is made in the form of a concave reflector with a central hole.

Description

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ABOUT

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The invention relates to automation and can be used to record and signal the maximum permissible concentration of drums, aerosols, smoke, which is dangerous to people's health, explosive or leads to disruptions in the process.

A phantom optical concentration indicator is known, which contains a light source and an optical measurement receiver, which perceives luminous flux reflected from dust ij.

A disadvantage of this device is its low accuracy.

The closest to the invention is a signaling device containing a light emitter connected to a pulse generator optically connected through a working chamber with a light receiver whose output is connected to an AC amplifier, compensating light emitter optically connected to a light receiver, the output of the light receiver is connected to the inputs of two AC amplifiers. current, the outputs of which are connected to the light emitters, the output of the one amplifier through a pulse width meter is connected to the threshold element 2j.

A disadvantage of the known devices is that its working KaNtepa must be reliably protected from external lighting. Otherwise, there is a change in the sensitivity of the photodetector due to the shift of its operating point, which leads to significant changes in determining and signaling the threshold concentration of smoke or dust. Protecting dust from external illumination or the use of suction tubes on tubes complicates the design and usually leads to additional error due to the difference in dust concentration in the chamber protected from light and in the investigated area.

In addition, this device has a speed that determines: a ms long pause between short informative pulses, since this device operates according to the principle of time modulation.

The purpose of the invention is to reduce the influence of ambient light, the dustiness of the input window of the photodetector, the change in temperature of the surrounding environment, which makes it accurate as well as the simplification of the predicted dust concentration optical detector

The goal is achieved by the fact that a dust concentration optical detector, containing a light emitter connected to the generator and:

a camera with a light receiver whose output is connected to an AC amplifier, a compensating light emitter and a threshold element, a light beam attenuator, a phase detector, a DC amplifier and a modulator that compensates the light emitter are optically connected through the light beam attenuator to the light receiver, the AC power amplifier and the pulse generator is connected to the inputs of the phase detector, the output of which is connected to the threshold element via the DC amplifier via the DC amplifier and a modulator, the signal input of which is connected to the output of the pulse generator, and the output to the input of a co-light emitter.

The attenuator of the light flux is made in the form of a concave reflector with a central hole.

On. FIG. 1 is a block diagram of a proposed dust concentration detector; in fig. 2 shows the construction of an attenuator of a light flux, made in conjunction with a light receiver and a compensating light emitter.

The device contains a light emitter 2 connected optically to the pulse generator 1, optically connected working chamber 3 with a light receiver 4, the output of which is connected to an AC amplifier 5, compensating light emitter b, optically connected through an attenuator 7 of the current flow with the light receiver 4, the output of amplifier b An alternating current and an impulse generator 1 are connected to the inputs of a phase detector 8, the output of which is connected via a DC amplifier 9 to the control input of the modulator 10 and the threshold one. element 11, the signal input of the modulator 10 is connected to the output of the generator 1 pulses, and - to the input of the compensating light emitter b.

Compensating light emitter 6 using a pair of screw-nuts 12 is movably fixed relative to the attenuator 7 of the light flux, made 3 as a concave reflector with a central hole, and the light receiver 4 is fixed fixed.

The device works as follows.

The pulse generator 1 generates a rectangular voltage at a stable frequency, which is supplied to the light emitter 2. At the same time, the same voltage is applied to the phase detector 8 and the modulator 10,

Part of the pulsed light emitting light 2, which is from the city of Gygea and located in the working chamber

Claims (2)

(59) 1. OPTICAL DUST CONCENTRATION SIGNALIZER, comprising a light emitter connected to a pulse generator, optically connected through a working chamber to a light detector, the output of which is connected to an AC amplifier, compensating light emitter and a threshold element, characterized in that, in order to increase the accuracy of the signaling device , a light flux attenuator, a phase detector, a direct current amplifier and a modulator, a compensating light emitter are optically connected through the light flux attenuator to the light receiver, the output of the AC amplifier and the pulse generator are connected to the inputs of the fae A detector, whose output is connected through the DC amplifier to the control inputs of the threshold element and modulator, the signal input of which is connected to the output of the pulse generator, and the output to the input of the compensating light emitter. 2. Optical signaling device according to π. 1, characterized in that, in order to simplify the device, the attenuator of the light flux in it is made in the form of a concave reflector with a central hole.