SU1161975A1 - Signalling device - Google Patents

Abstract

A device for signaling containing a radiation source, h optical fibers, some of which are bundled, a radiation receiver, an indicator, which is used so that, in order to improve the reliability and quality of the device, P-1 radiation detectors are introduced into it and indicators, the frame inside which a controlled object is placed, and deformers, each of which is made of two plates, the first of which is fixed on the inner surface of the frame motionless, and the second is located between the first plate and controlled the object is horizontally displaced relative to the first, the side of the plate facing each other is made of ribbed, the fiber ends combined into a bundle are optically connected to the radiation source, and the others are placed on the frame in the vtsde coordinate grid, the intersection points of which are located between the plates of the deformers (L free ends of optical fibers are optically connected to the inputs of the respective radiation detectors, the outputs of which are connected to the corresponding indicators.

Description

11 The invention relates to an automatic alarm system and can be used in monitoring systems for signaling the occurrence of abnormal situations, for example, when mechanical damage occurs to an object's nodes during its testing and to detect a site or site of damage to an object. . A signaling device is known comprising a hollow frame, a lattice of hollow cylindrical elements in which optical fibers are laid, radiation sources, radiation receivers. In this case, the frame and grille are made of glass. A change in the perceived radiation of the receiver (when the lattice is destroyed) causes the formation of an alarm signal. . The disadvantages of this device are the disposability and the need for a frame (as a section) of an individual radiation source. The closest to the technical essence of the invention is a signaling device containing a radiation source, the output of which is optically connected to the inputs of some optical fibers, the outputs of which the optical attachment is optically coupled to the inputs of other fiber-optic cables laid in parallel with the first, the outputs of which are optically coupled to the radiation receiver, the output of which is Connected to the information processing unit, the outputs of which are connected to acoustic and optical indicators, one and other optical fibers are placed in the cable around the perimeter of the object under test 23. The shortcomings of this device are low reliability and low accuracy of determining the place of influence of mechanical factors on optical fibers. The purpose of the invention is to increase the reliability and accuracy of the device. I The above goal is achieved by the fact that a light source, fiber optic light source, whose ends are combined into a bundle, radiation receiver, indicator, is inserted into an M-1 radiation receiver and indicator j frame, inside which a controlled object is located. and deformers, each of which is made of two plates; the first five of which are fixed on the inner surface of the frame motionless, and the second is located between the first plate and the object to be controlled, with the possibility of a horizontal first with respect to the first, the side of the plate facing each other is made of ribbed, bundled ends of optical fibers are optically connected to the radiation source, while others are placed on the frame in the form of a coordinate grid, the intersection points of which are located between the plates of deformers, the free ends of optical fibers connected to the inputs of the respective radiation receivers, the outputs of which are connected to the corresponding indicators. FIG. 1 is a schematic of a signaling device; in fig. 2 arrangement of optical fibers between the plates of deformers. The signaling device contains a source of radiation 1, optical fibers 2, the inputs of which are combined into a harness 3, deformers 4, receivers 5 and 6 of radiation of horizontal and vertical optical fibers 2, respectively, indicators 7 and 8 corresponding to receivers 5 and 6 of radiation, frame 9. External (with respect to the object) the deformer plates (FIG. 2) are fixed on the frame 9 motionless, with fins inward, and the internal plates of deformers 4 are fixed on the outer plates movably, with the possibility of transverse movement relative to the outer plates. Steen deformer 4 disposed ribs and are biased outwardly. In this case, the edges of some plates are located opposite the depressions of others. Between the edges of the plates of the deformers 4, the optical fibers 2 in the initial state are arranged freely. Each of the deformer plates has edges of the horizontal (one half of the plate) and vertical (the other half of the plastic space) directions. This ensures the bending of the horizontal and vertical optical fibers, the number of bends of which corresponds to the number of edges of the plates of the deformers 4. The signaling device operates as follows.

In the absence of any defect-tested object under test, the internal plates of the deformers 4 are not affected, and the radiation from the radiation source 1 is transmitted through the optical fibers 2 without any modulation to the radiation receivers 5 and 6, from whose outputs the signal does not enter the indicators 7 and eight.

If any mechanical defect of the object appears (a piece of metal is inserted, a stream of liquid or gas), the impact on the corresponding internal plate of deformer 4, which overcomes the force of the repulsive spring, enters the depressions of the immobile | l plate and deforms (bends a) the sections of the horizontal and vertical optical fibers 2 passing through this deformer. As a result of the deformation of the optical fibers 2, the light radiation is modulated in them, the modulated signal senses with corresponding receivers 5 and 6 of radiation, from the outputs of which a signal is supplied to the corresponding indicators 7 and 8, causing the appearance in them of visual information about the coordinates of the fault site. .

The presence of an indicator cell allows the malfunction signal to be maintained until it is reset.

Thus, the proposed device with high reliability allows you to accurately indicate in space the place of damage of the monitored object.

Claims (1)

A SIGNALING DEVICE containing a radiation source, h fiber optic fibers, one end of which is bundled together, a radiation receiver, an indicator, a cord * ·, due to the fact that, in order to increase reliability and accuracy devices, PT transducers of radiation and indicators are inserted into it, a frame, inside which a controlled object is placed, and deformers, each of which is made of two plates, the first of which is fixed on the inner surface of the frame, and the second, located between the first plate and controlled object — with the possibility of horizontal movement relative to the first one, the sides of the plate facing each other are ribbed, the ends of the optical fibers combined into a bundle are optically connected to the radiation source, and the others are placed on the frame in the form of a coordinate grid, the intersection points of which are located between the deformer plates, the free ends of the optical fibers are optically connected to the inputs of the respective radiation detectors, the outputs of which are connected to the corresponding indicators. 5Ζ6Γ9ΓΓ ’T) S 1161'975