SU1448249A1 - Installation for determining the optical density of smoke - Google Patents

Abstract

This invention relates to the field of smoke generation upon combustion of a material. The purpose of the invention is to increase the accuracy of determining the optical density of the dyma. The installation contains a measuring chamber 2 with blocks of 3.4 illuminators and a photodetector. For the possibility of taking into account in time the errors arising from :; deposition on the optical surfaces of smoke particles, the installation is equipped with two indicators in the form of a transparent disk, half of the surface of which is divided into sectors, and a semicircular curtain installed with the possibility of rotation and fixation over the disks. The exposure of disk sectors for various times then allows using photometry to determine the contamination of optical surfaces at different times and take this into account when obtaining the desired parameters. 2 Il. (L

Description

The invention relates to the study of fire and explosion hazardous materials and can be used to determine the smoke generation coefficient of a quantity characterized by the optical density of the smoke generated by the combustion of a substance (material) with a given saturation in the volume of the room. 10

The purpose of the invention is improving the accuracy of determining the optical density of smoke.

In FIG. 1 is a schematic diagram of an installation; ’in FIG. 2 - indicator of contamination of optical surfaces.

The installation contains a combustion chamber 1, in communication with the measuring chamber 2, in which are placed a block 3 os-20 flywheel, block 4 of the photodetector and indicators 5 of pollution of optical surfaces.

Indicators 5 are made in the form of disks 6 made of transparent material, which are fixedly installed in the immediate proximity of blocks 3 and; 4 illuminators and photodetector. The disks 6 are each divided into η sections and are equipped with shutters 7 fixed rotationally coaxially to 30 disks. The shutters can be driven around axis 8 by electric motors with step reducers (not shown).

Installation works as follows 35 "

The test sample is placed in the combustion chamber I, it is pressed in. ”The combustion products are fed into the measuring chamber 2. The resulting house mixture is illuminated by a light beam from the illuminator unit 3. The signal received by block 4 is then registered, i.e. get a curve dependent 45 optical density of smoke on the time of the experiment.

Simultaneously, with the help of a discrete rotation of the shutter 7, the sectors of the disks 6 are exposed for s;

2G. ,,P? time periods, where C * is the exposure time of the first section; n ^ exposure time of the last p-th section, equal to the time of the experiment "

Further, the degree of darkening of the indicator sections due to sedimentation of solid and high molecular weight smoke particles during the combustion of the sample at different time instants is measured by photometration and taken into account when determining the optical density of the smoke and the smoke-forming ability of the research. of blown material by the introduction of appropriate amendments to the data obtained by block 4, which reduces the measurement error due to contamination of the optical surfaces of the illuminator and photodetector blocks.

Claims (1)

Formula and sampling A setup for determining the optical density of a don containing a camera. combustion, in communication with the measuring chamber, ’inside of which a block is located on one optical axis. illuminator and photodetector, about aphids. I want to note that, in order to increase the accuracy of determining the optical density of smoke, the measuring chamber is equipped with two pollution indicators, each made in the form of a transparent disk, half of the surface of which is divided into η sectors of equal area, and a semicircular curtain fixed coaxially to disk and installed. with the possibility of rotation and fixing, while _t indicators are installed in close proximity outside the optical axis, one at the illuminator unit, the other at the photodetector unit.