SU983734A1 - Device for detecting ugnition in pire-lines - Google Patents

Description

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The invention relates to signal devices and can be used in fire prevention systems in ventilation and air transport pipelines used in textile, woodworking, procurement and other industries.

A specific feature of pipe line detection devices is that they must have high sensitivity and speed, ensuring the detection of sparks and flames at a maximum propagation speed of the last order of 10-25 m / s.

A device for detecting a fire is established, which is installed inside the pipeline and contains a streamlined body in which annular electrodes are mounted that are connected to the control unit G I.

However, this device has insufficient sensitivity and reliability in operation.

Closest to the present invention is a device for inspecting the inner surface of pipes, containing a mirror cone placed coaxially in a transparent case, a focusing element and a light receiver, located in the focal plane of the focusing element J

This device, although it has only one photodetector, is not suitable for working in a highly dusty environment. It also lacks control of the performance of the photodetector, which reduces the reliability of the device. Since the radiation on the photoreceiver in the device is focused by the lens, it is impossible to install a source of control radiation so that the wiring to it does not reduce the reliability of the system as a whole.

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

The goal is achieved by introducing a source of reference radiation into the device, the focusing element is designed as a concave mirror, the light receiver and the source of reference radiation are also placed in the mirror cone.

The drawing shows the proposed device, the cut.

The device contains a transparent case 1 with a tip 2 and a transition element 3. In the tip 2 a focusing element C is installed in the form of a concave mirror, the transition element 5 is inserted into the mirror cone 5 in which the light receiver 6 is placed and the control radiation source 7. With the help of the bracket 8, the device is attached to the pipeline 9. The controlled fire zone 10 in the drawing is dotted with lines, and the passing spark 11 is depicted with an asterisk.

The device works as follows.

The radiation from the spark 11 (or flame) moving in the direction of the air flow falls on the mirror surface of the cone 5 and reflects on the focusing element C, from which the reflected rays are focused on the light receiver 6, which converts the light signal into electrical one. The received signal is electrically transmitted through the hollow bracket 8 and transmitted to further amplification. To exit the light signal from the radiation source 7 to the focusing element k, a hole is made in the cone 5, the dimensions of which are significantly smaller than the dimensions of the cone forming, therefore this hole has almost no effect on the sensitivity and reliability of the detection of a fire over the entire pipeline volume. The power supply wires of the reference radiation source 7 are output in the same manner as the wires from the light-receiving device 6. Turning off the control radiation source 7 allows to simulate a flash in a controlled pipeline.

The use of a truncated cone with a mirror surface, a metal focusing mirror, a source of control radiation in the proposed device allows the use of photosensitive elements with a small area of the working surface, which leads to an increase in the density of the emitted energy per unit area of the photosensitive element, most avoid insensitive areas of controlled volume.

The positive effect of using the proposed device lies in its increased reliability and sensitivity, which makes it possible to detect a fire at an early stage of its development.

Claims (2)

1. USSR author's certificate number 80537, cl. G 08 B 17/12, 1979. 2. USSR Author's Certificate No. 352Л15, cl. H 0 N 7/02, 1968 (prototype). In ///////////// 7 Flow direction In /////////////////) (