SU918805A1 - Method of testing electric cables for fluid tightness - Google Patents

Description

(5) METHOD FOR TESTING ELECTRIC CABLES FOR SEALING

Claims (2)

This invention relates to the leak testing of electrical products used in an explosive atmosphere. The known method of testing electrical cables for leak tightness is based on passing a high frequency current through the core inside the cable sheath, registering an electromagnetic field outside the shell with an induction sensor, and evaluating the output signals I13. The disadvantage of this method is its limited use. The safety requirements do not allow the method to be used to test electrical cables in an explosive environment. The closest to the invention in terms of technical essence and effect achieved is a method for testing tightness of electrical cables, by which the cable is plugged from one end and loaded with internal gas pressure, and tightness is judged by the pressure drop over a certain period of time t2. However, this method does not take into account the actual operating conditions arising from the use of electrical cables, for example, in mine electrical networks, where there is a danger of the appearance of an explosive mixture. In the cable itself, and in the places where it is connected (plug connectors, terminal boxes, etc.), due to insufficient electrical strength, an arc short circuit occurs that creates high pressure inside the cable, which increases due to a greater amount of decomposition gases released during electric arc effect on the cable insulation, and in the event of a leak, the cable causes an explosion. The purpose of the invention is to approximate test conditions to operational ones. 391 The goal is achieved by the fact that, according to the method of testing electrical cables, the cable end is plugged, its free end is placed in an airtight chamber with electrodes located in it, then this chamber with the cable is placed in the explosion chamber, filled with an explosive mixture, the cable is loaded the creation of an arc short circuit on the electrodes, and the tightness is judged by the ignition of the explosive mixture. The volume of the sealed chamber into which the free end of the test cable is inserted is selected in accordance with the voltage for which the cable is designed. Thus, the volume of the sealed chamber 380-660 V is 0.5 liters. The drawing shows an installation diagram for implementing the proposed method. The installation includes an explosion chamber 1 with sealing locks 2 and 3 in which two holes 4 and 5 are made to fill the chamber with an explosive mixture and to remove the explosion products. A pillar 6 is installed in the blast chamber to fasten an electric cable 7 with a plug 8 on it and a sealed chamber 9 with a plug coupling 10 and electrodes 11 is placed, to which a power cable 13 is connected through an insulator 12. The test procedure is as follows. . The test cable 7 is fixed on the rack 6, plugged with the plug 8. Its free end is inserted into the hermetic chamber 9 through the plug-in coupling 10. An explosive mixture is fed into the explosion chamber. On the electrodes, the excitation gives an arc short circuit. The arc-heated gases, as well as the gases of decomposition of the insulation and the cable jacket, create an increased pressure, which has a dynamic effect on the cable under test. The cable is considered hermetic if, as a result of conducting 10 experiments, the explosive mixture in the explosion chamber does not ignite, the proposed method enhances the objectivity of the assessment of the tightness of electrical cables used in an explosive environment by bringing the test conditions closer to operational ones. In addition, the method allows a comprehensive assessment of tightness, since it checks both the cable jacket and the design of the cable itself. The economic efficiency of the proposed method will be obtained by increasing the reliability of cable networks used in an explosive environment. Claims method for testing electrical cables for tightness, consisting in that the cable is plugged at one end and loaded with internal gas pressure, characterized in that, in order to bring the test conditions to operational, the free end of the cable; 1 is placed in an airtight chamber with electrodes located in it, then this camera with a cable is placed in the explosion chamber, filled with an explosive mixture, the cable is loaded by creating an arc short circuit on the electrodes, and spine is judged by the ignition of an explosive mixture. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 316039, cl. G 01 R 31/02, 1965. 2. Gorodetsky C, C. and Lakernik P.M. Test of cables and wires, M., Energie, 1971, p. 39- (prototype).