RU2777027C1 - Method for checking protection devices against parallel arcing and spark gaps in case of cable damage - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, as well as fire safety and can be used to test protection devices against parallel arcing and spark gaps, installed in electrical networks or electrical installations. The method for checking protection devices against parallel arcing and spark gaps is characterized by the use of a cable sample with parallel conductors to carry out a checkup in parallel arc breakdown mode, thereby ensuring the reliability and fire safety of electrical networks and electrical installations.

EFFECT: ensuring the verification of the characteristics of protection devices against parallel arcing and spark gaps.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, as well as fire safety and can be used to test devices for protection against parallel arcing and spark gaps installed in electrical networks or electrical installations in rooms, structures, buildings, aircraft, ships, railway transport and other objects.

A technical solution is known (Patent RU 2739576 C1, IPC H01H 69/00 publ. 28/12/2020) which offers a method for testing arc fault protection devices and spark gaps. This method allows you to check the protection device only against arc fault and spark gaps using an electric arc source that generates an arc during sequential arc fault, but not parallel arc fault and spark gaps in electrical networks or electrical installations when the cable is damaged.

The objective of this invention is a method for testing protection devices against parallel arcing and spark gaps, which eliminates the shortcomings of the prototype.

EFFECT: provision of checks of devices for protection against parallel arcing and spark gaps, increased reliability of electrical networks and electrical installations, as well as their fire safety.

The technical result is achieved by the fact that in the method of checking devices for protection against parallel arcing and spark gaps using a cable sample with parallel conductors, when current flows, a parallel arcing is formed by creating a carbonized conductive path through the insulation between two cable conductors, the current of which is determined by the value and by the nature of the load of the adjustable load unit, the parallel arc fault that occurs triggers the time meter, while on the serviceable protection device under the influence of the parallel arc fault, it is triggered with the time meter turned off and the arc stops burning, and the time meter records the time of the protection device operation.

To solve this problem, a method is proposed for checking against parallel arcing and spark gaps of protection devices of any types and manufacturers.

In FIG. 1 shows a block diagram of a device for implementing a method for testing protection devices against parallel arcing and spark gaps.

The obtained current and voltage waveforms with this method can be used to analyze the transients of the current and voltage components, as well as to determine the initial moment of occurrence of a parallel arc breakdown and the end of the arc.

The proposed method is implemented using the block diagram shown in Fig. 1. and contains: an automatic switch against short-circuit currents and overloads 1, a protection device 2, a cable sample with parallel conductors 3; test switch 4; time meter 5; block of adjustable loads 6, as well as an electric current meter 7.

The method for testing protection devices against parallel arcing and spark gaps works as follows.

When the circuit breaker 1 is turned on, the mains voltage is supplied to the input of the protection device 2. The test switch 4 is switched on by a current surge, an arc breakdown is formed in the cable sample with parallel conductors 3, the current of which is determined by the magnitude and nature of the load of the adjustable load block 6, and the time meter 5 is started. The value of the flowing current is displayed on the electric current meter 7. under the influence of a parallel arc breakdown, it is triggered with the time meter turned off and the arc stops burning. At the same time, the time meter records the response time of the protection device. In the event of a malfunction of the protection device, the shutdown does not occur, and the circuit is forced to open.

Thus, the application of the proposed method for testing protection devices against parallel arcing and spark gaps makes it possible to improve the quality of testing protection devices against arcing and spark gaps, in order to prevent fires associated with the occurrence of an electric arc when the cable is damaged.

Claims (1)

A method for checking protection devices against parallel arcing and spark gaps, which consists in the fact that an arc breakdown is formed, the current of which is determined by the magnitude and nature of the load of the adjustable load unit, in the event of an electric arc breakdown, a time meter is started, while on a serviceable protection device under the influence of a parallel arc breakdown occurs with the disconnection of the time meter and the termination of the arc, and the time meter records the response time of the protection device, characterized in that the formation of an arc fault occurs using a cable sample with parallel conductors.

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