SU723635A1 - Radiation sensor - Google Patents

Description

(54) RADIATION SENSOR

one

This invention relates to an automatic alarm and can be applied in fire-fighting devices.

Radiation sensors are used that are used in fire-prevention automatics, the sensitive elements of which are VnsnoTCfl photocells. After exposure to radio sensitive radiation sources to sensitive materials, the sensors are often out of order and, in addition, they require careful and frequent adjustment. Elimination of their false positives leads to complication and cost of alarm systems.

A radiation sensor is known, which contains a fiber-optic transmission system and a differential receiver, consisting of an electronic circuit and two photosensitive electrons, whose conductivities vary according to the characteristics of the incident light of the poly 2. 2. When exposed to light, the wavelength is the conductivity of the first photocell increases, and the second decreases, which, when the optical signal reaches a certain value, triggers an electronic circuits and alarms.

The optical transmission scheme is made in the form of a stranded irregular optical fiber, the input end of which is made of a heat-resistant translucent material.

However, a known sensor does not provide the possibility of monitoring several fire hazardous points with its help, but the use of several j sensors for this purpose is not economically feasible, and sometimes technically impossible, i.e. reliability of control of hazardous nyimtov is insufficient.

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

The goal of the goal is caused by the fact that gaps are made in the optical fibers, into which the pointer of the point ROTSHTKNOVA radiation in the electric electrode vvg-atol is inserted, on the axis of which the moving contact of the sensor of the contact-tracking system is installed and. light-tight lenestk, coinciding with the plane of discontinuities of optical fibers.

The scheme of the proposed radiation sensor is shown in the drawing.

The radiation sensor contains a multicore irregular light guide 1 splitting into several branches 2 (the number of branches may be greater than shown in the drawing), which are directed by the input ends 3 to different points of the monitored space, and the output ends combined into a harness are connected to the differential to the radiation receiver 4, the light guides (before bundling) have gaps 5, into which the indicator 6 of the radiation origination point is inserted, made in the form of an electric motor 7, on the axis of which the light-proof model is installed flow 8 and the movable contact 9 kontaktnosl units conductive sensor system (in hours ertezhe not proved). The radiation sensor operates as follows.

In the absence of thermal radiation (fire), the optical signal at the input ends 3, directed to different points of the monitored space, and hence the differential radiation receiver 4, does not arrive, the fire alarm system and the system for switching on and carrying out the search for the point of origin of radiation does not work, and the indicator 6 of the radiation origin point is in the initial position, for which the light-tight petal 8 is installed outside the ends of the discontinuities 5 of the branches 2, and the movable contact 9 of the sensor of the contact-tracking system These are outside the fixed contacts that are located around the circumference of the sensor board with angular coordinates strictly corresponding to the angular coordinates of the ends of the razryov5 branches 2, with the moving contact 9 of the electric motor 7 and the light of the first lobe 8 fixed rigidly, in strict accordance with each other, on the axis of the electric motor 7 .

In the event of a fire, a heat emittance falls on the input end 3 of branch 2, corresponding to the point of origin of the radiation. The optical signal arrives at the differential receiver beam 4 by means of branch 2. The signal system of the Zapista works, recognizing the occurrence of a fire, and at the same time the switch-on system

And search for the point of origin of the radiation. When this motor 7 starts to rotate the lightproof petal 8 (in the plane of the gaps

5 branches 2) and a movable contact 9 of the sensor of the contact-contact system. When overlapping with an opaque petal 8 of the end of the gap 5 of the branch 2, coming from the fire, the optical signal on the differential receiver 4 disappears. At the same time, a signal appears on the receiver of the contact-tracking system. The coincidence of these two factors, after several repetitions necessary to eliminate false alarms, causes the motor 7 to turn off and fix the position of the light-transmitting lobe 8 and the movable contact 9 in the position corresponding to the angular location of the discontinuity 5, and the number of the control point from which signal and, if necessary, emergency response equipment is turned on. In addition, this angular position is blocked in order to avoid stopping the engine 7 in this position when radiation occurs at another controlled point. When radiation appears in another controlled point, the circuit operates in the same way.

After testing the fire prevention measures, all elements of the radiation sensor are returned to their original position.

Claims (2)

Invention Formula A radiation sensor containing light guides, the ends of which are combined into a bundle, 0 whose output end is optically coupled to a differential radiation receiver, and a contact-eater driving system, characterized in that, in order to increase the reliability of operation of the sensor 5, optical fibers are made Gaps in which the radiation point indicator is inserted in the form of an electric motor, on the axis of which the moving contact of the contact system sensor of the tracking system and the light-tight lobe coinciding with the plane are installed; breaks light guides. Sources of information taken into account in the examination 55I. Ilinska L.A. Elements of fire-prevention automatics. M .: Energie, 1969, p. 34 2. UK Patent No. 1О14779, cl. G 1 A, published. 1965 (prototype).