RU2617793C2 - Device for testing mounting optical cable - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: in the claimed invention a coil of an optical cable sample with an inner diameter of at least ten times the acceptable bending radius is mounted on the shaker bed platform. The optical jointed connector is attached to the platform in any manner excluding its spontaneous movement of the platform when under a vibration load. The sample is fixed on the platform on both sides of the shaker by clamps. At both ends the cable is coiled to an inner diameter of at least 20 nominal outer diameters of the cable or wound on drums with a neck diameter similar to the diameter of the coil. The ends of the sample to be tested are accordingly connected to an emitter and receiver with an optical power meter which are linked to the respective ends of the tested cable.

EFFECT: definition of the parameters - criteria of product availability with no mechanical damage to its structure.

3 cl, 1 dwg

Description

The invention relates to the cable industry and for testing a mounting optical cable.

The technical result consists in creating a device for testing cable for underground installation, which allows to determine the parameters - eligibility criteria:

- integrity of optical fibers;

- the integrity of the sheaths of optical cables;

- attenuation coefficient of optical fibers in accordance with GOST R IEC 793-1-93;

- other indicators depending on the design of the optical cables, for example, electrical insulation resistance of conductive conductors, test voltage of direct or alternating current, electrical capacitance of a pair or core.

This result is achieved by the fact that the device for testing the mounting optical cable contains a vibration stand with a platform for fastening on it in the middle part of the bay of the test cable sample and on opposite sides of the branches of the test cable sample and the optical connector of one of the branches, a radiator and a receiver with an optical power meter connected to the respective ends of the test cable sample.

Parts of the test cable sample from opposite sides of the shaker can be wound into coils or wound onto drums with an inner diameter of at least 20 nominal cable outer diameters.

The receiver can be made optoelectric or in the form of an optical reflectometer.

The invention is illustrated in the drawing.

The bay 1 of the sample optical cable with an inner diameter of at least ten times the allowable bending radius is mounted on the platform 2 of the vibrating stand. The optical connector 3 in the articulated state is attached to the platform 2 in any way, excluding its spontaneous movement on the platform 2 during exposure to vibrational loads.

The sample is fixed on the platform 2 on both sides of the vibrating stand with clamps 4. The cable on both sides is wound into two bays 5 with an inner diameter of at least 20 nominal outer diameters of the cable or wound on drums with a neck diameter similar to the diameter of the bay.

The ends of the test sample 1 are respectively connected to the emitter 6 and the receiver 7 with an optical power meter, connected to the corresponding ends of the test cable sample.

The test bay 1 is placed on platform 2 in the center of the test bench.

Control of parameters - criteria of suitability is carried out in normal climatic conditions according to GOST 20.57.416-98, after exposure under these conditions for at least 2 hours before and after testing.

After installing the sample on the platform 5 of the shaker, it is exposed to vibration.

The tests are carried out at fixed frequencies from 5 to 100 Hz both in the horizontal and in the vertical plane.

Samples are considered to have passed the test if:

- the increment of the attenuation coefficient of the connected samples after the test does not exceed 10%;

- there are no breaks in the optical fiber and damage to the contact parts of the connectors;

- the spontaneous opening of the connector did not occur during and after the end of the test;

- during external inspection, there are no damages to the structural elements of the OK.

Evaluation of the test results is made by the stability of the optical characteristics of the connector, as well as in the absence of mechanical damage to its structure and spontaneous disconnection.

Claims (3)

1. A device for testing a mounting optical cable, comprising a vibrating stand with a platform for fastening on it in the middle part of the bay of the test cable sample and on opposite sides of the branches of the cable test sample and the optical connector of one of the branches, a radiator and a receiver with an optical power meter connected to the corresponding ends of the test cable sample. 2. The device according to claim 1, characterized in that portions of the test cable sample from opposite sides of the vibrating stand are wound into coils or wound onto drums with an inner diameter of at least 20 nominal cable outer diameters. 3. The device according to p. 1 or 2, characterized in that the receiver is made optoelectric or in the form of an optical reflectometer.

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