SU1499386A1 - Device for detecting fires in pipelines - Google Patents

Abstract

The invention relates to fire alarm signaling devices and reduces the working diameter, simplifies assembly and operation, and improves the reliability and sensitivity of the device. The aim of the invention is to increase the functional reliability of the device. The device contains the focusing element 4 and the light-receiver 3. The focusing element 4, made of transparent material, and the light-receiver 3 are fixed in the housing 1, which is attached to the pipeline 7 with the help of the bracket 6 when the center 9 lights up, its luminous flux enters , made in the form of a cone, the focusing element 4. The solid angle of the specified cone of the focusing element 4 is chosen to be 80 °, since at the same time, the minimum distance from the source 9 of the fire to the light receiver 3 is ensured. 1 sludge.

Description

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The invention relates to signaling devices and can be used in systems for preventing the spread of fire in ventilation and pneumatic transport pipelines operating in textile, woodworking, procurement and other industries,

A feature of devices for detecting a fire in the pipelines is that they must have a high sensitivity for detecting sparks and flames at the maximum speed of their movement (on the order of 10-25 m / s).

The purpose of the invention is to increase the functional reliability of the device.

The drawing shows the proposed device, General view, in section.

A device for detecting a fire in pipelines comprises a housing 1 in which the transition element 2 is installed. In the center of the transition element 2, a light-receiving device 3 is installed in the direction of the air flow. A focusing element 4 made of transparent material is connected to the housing 1. On the other hand, the focusing element 4 is closed by the tip 5. With the help of the bracket 6, the device is attached to the pipeline 7, the Controllable lighting zone 8 is limited by a dotted line in the drawing, and the fire lighting center 9 (spark) is depicted by a star.

The device works as follows

Perpendicular to the optical axis, the radiation flux from the spark moving in the direction of the air flow in the fire or flame center 9 passes through the outer surface of the focusing element 4 onto the surface of the conical recess and is focused through the spherical upright surface to the light receiver 3, which converts the light flux into an electrical signal transmitted by wire through the hollow bracket 6 on the means of signal processing.

The solid angle of the deepening of the focusing element 4 is chosen to be 90 °, based on the formula of the incident radiation flux from a point source per area of any receiving element:

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S f, p is the area of any receiving element (in this case, a light receiver), d is the angle of incidence on the surface

receiver element S A is the absorption coefficient of the luminous flux of the transported product,

C is the concentration of the transported product,

L is the distance from the source 9 to the light receiver 3 (indicated by arrows in the drawing).

It can be seen from the formula that the largest flux falling on the surface of the light-receiver 3 is when the distance L is minimal, i.e. when L is equal to the radius of the pipeline 7 (with the angle of incidence to the optical axis 90 °). Increasing or decreasing the solid angle of a cone from 90 ° leads to an increase in L.

Claims (1)

Claims An apparatus for detecting a fire in pipelines, comprising a housing in which a focusing element and a light-receiver located in the focal plane of the focusing element are located, characterized in that, in order to increase the functional reliability of the device, the focusing element is full from a transparent material in the form of a truncated cone, the smaller base of which is made spherically tight, and in the larger base there is an indentation in the form of a cone facing the top towards the light - To him, the solid angle of the body is 90.