NO311059B1 - Device for painting the reaction time of a circuit breaker - Google Patents

Abstract

The invention relates to a device for measuring the time element of a power switch to synchronise two electric mains systems (1, 2). According to the invention, the time element of a power switch is measured at a time at which only one mains system (2) is live and the power switch (6) to be measured is broken. A voltage measuring module (11) measures the difference in the momentary values between the fixed switch contact (6b) and the movable switch contact (6c) of the main contact (6a) of a phase, with the measurement process beginning when the switching command "ON" is applied to the power switch (6). The timing stage of the time measurement module (12) starts at the beginning of measurement and stops at the end. Here, the end of measurement is that time at which the voltage difference between the two mains systems (1, 2) drops below a small defined percentage of the rated voltage for a short defined time. The invention makes it possible to measure the power switch time elements without having to perform any work in the switching installation.

Description

The invention relates to a device for measuring the reaction time of a circuit breaker for synchronizing two electrical network systems, where for each network system there is a sperm transformer for measuring the voltages on both sides of a circuit breaker designed as a circuit breaker.

Essential to the synchronization of two electrical grid systems is the closing of a circuit breaker, and thus the connection of the two systems. As a prerequisite for the closing, the frequency and voltage differences must lie within a tolerance range. A further requirement is that the phase angle for both systems in relation to each other is as close as possible to zero degrees electrically. If the "ON" coil of a circuit breaker is magnetized, a certain time elapses before the main contacts are closed and both systems are connected. This time duration from the moment in which the control device closes its output contact until the moment from which the systems are connected to each other is referred to as the circuit breaker's own time or reaction time.This time period is fed as a time constant into a synchronizing device and is taken into account by this in case of corresponding premature switching.

In the past, the circuit breaker reaction time was measured in the following way: The circuit breaker's main contacts were disconnected from the switch system and connected to the stop contact of a meter. By means of a switch, the circuit breaker "ON" circuits and a meter clock were simultaneously started. When the main contacts were closed after the circuit-breaker reaction time had elapsed, the stopwatch stopped and the time duration could be read.

A disadvantage of this measurement method is the enormous amount of time required to trigger or disconnect the main contacts from the switch system, and then reconnect them. As a further disadvantage, an auxiliary control line must be installed to control the dial gauge.

The purpose of the invention is to provide a device for circuit breaker reaction time measurement by means of which the measurement can be carried out in a simple way.

This task is solved with the help of the invention, which is characterized by the fact that it contains a computer that performs the determination of the circuit breaker's reaction time, the computer containing a voltage measurement module as well as a time measurement module and a display, the circuit breaker reaction time measurement taking place at a time when only one network system carries voltage, as the circuit-breaker to be measured, before the beginning of the measurement, shows an open switching position, that the secondary sides of the voltage transformers are connected to the computer, and that the voltage measurement module measures the difference of the instantaneous values between the fixed breaking contact of the main contact and the moving breaking contact for one phase, that the beginning of the measurement is the time of the switching command" ON" to the circuit breaker, that a time step for the time measurement module starts at the beginning of the measurement and stops at the end of the measurement, and that the end of the measurement is defined as the time at which the difference voltage between the two grid systems in a short, defined time period they fall below a small, defined percentage of the nominal voltage, the level of this percentage as well as this time period being selectable depending on the operating conditions, but essentially corresponding to a value of approx. 3% of the nominal voltage, and at an operating frequency of 50 Hz corresponds to a time period of approx. 5 milliseconds, and that the measured time period can be output for reading on the display.

With the help of the invention, it is possible to measure circuit-breaker reaction times in a simple way, without having to carry out any work in the circuit-breaker system.

In a further development of the invention, measurements of the difference of the instantaneous values between the respective fixed breaking contact and the associated moving breaking contact of the main contacts in all phases of the circuit breaker take place within a measurement sequence, as the voltage measuring module and the time measuring module are correspondingly extended, and the computer outputs the average value of the measured times for reading.

The advantage of this embodiment consists in an increased accuracy of the time measurement by means of the determination of a mean value.

Within the framework of the invention, it is ensured that the computer performs the determination of the circuit-breaker reaction time automatically by means of a program. Thereby, it is possible to build the device according to the invention into a fully automatic plant.

The invention will be described in more detail in the following on the basis of an embodiment shown in the drawing.

The figure shows a first electrical grid system 1 and a second electrical grid system 2 which can be connected to each other via a switch 6 designed as a circuit breaker. The second grid system 2 is fed via a generator switch 8 from a generator 9, as the generator switch is closed and the grid system is thus voltage - leading. The first network system 1 is fed via a generator switch 4 from a generator 3, since the generator switch 4 is opened and the network system 1 is thus de-energized. The voltage of the first and second network systems 1,2 - which corresponds to the voltages on the movable breaking contact 6c and on the fixed breaking contact 6b of a main contact 6a in one phase of the circuit breaker 6 - is supplied via two shunting transformers 5, 7 to a computer 10 which contains a voltage measuring module 11 and a time measuring module 12 as well as a display 13. A control line 14 is arranged for transmitting the switching commands to the circuit breaker 6 drive motor 6d.

The circuit breaker 6, whose intrinsic time or reaction time is to be measured, has an open switching position before the beginning of the measurement, while only one - in the present case the other network system 2 - of the two network systems 1, 2 to be synchronized, carries voltage. After completed initiation, the computer 10 issues a switching command to the circuit breaker 6 and at the same time starts a time step in the time measuring module 12. From this point on, the voltage measuring module 11 measures via the voltage transformers 7,5 the difference of the instantaneous values between the fixed breaking contact 6b of the main contact 6a and the moving breaking contact 6c in one phase of the circuit breaker 6.

When the main contact 6a has closed, the difference of the instantaneous values has zero voltage. However, each zero crossing of the reference voltage also produces, as long as the circuit breaker 6 is still not closed, a current difference which would produce a termination of the measurement. Assuming an operating frequency of 50 Hz, in order to filter out these zero crossings, a tolerance window of 3% of the nominal voltage has been arranged, and furthermore, the condition has been defined that the differential voltage between the two grid systems 1, 2 must fall below the tolerance window over a time interval of at least 5 milliseconds.

If the main contact 6a of the circuit breaker 6 is still open, a zero crossing occurs every 10 milliseconds and the tolerance limit is exceeded, but only for 0.2 milliseconds at 3% of the nominal voltage, so that the time duration condition is not met.

If the main contact 6a is closed, the tolerance limit - with sufficient accuracy of the used sensing transformers 5, 7 - is permanently undershot, so that the time condition is fulfilled and the measurement ends. The time period of 5 milliseconds can be chosen due to the fact that the associated measurement blur is always outside the actual required measurement accuracy. In practice, single measurements of circuit-breaker reaction times are spread by more than 20 milliseconds.

In this way, it is possible to measure the reaction time of a circuit breaker quickly and easily, without having to carry out work on the circuit breaker system in advance.

Claims (3)

1. Device for measuring the reaction time of a circuit breaker for synchronizing two electrical grid systems (1,2), where for each grid system (1 or 2) a voltage transformer (5 or 7) is arranged for measuring the voltages on both sides of a circuit breaker (6) designed as a circuit breaker, characterized in that it contains a computer (10) which performs the determination of the circuit breaker's reaction time, the computer containing a voltage measuring module (11) as well as a time measuring module (12) and a display (13), as the circuit-breaker reaction time measurement takes place at a time when only one network system (2) carries voltage, as the circuit-breaker (6) to be measured, before the beginning of the measurement, exhibits an open switching position, that the secondary sides of the voltage transformers (5, 7) are connected to the computer (10) , and that the voltage measurement module (11) measures the difference of the instantaneous values between the fixed breaking contact (6b) of the main contact (6a) and the movable breaking contact (6c) for one phase, that the measurement the event is the time for the switching command "ON" to the circuit breaker (6), that a time step for the time measurement module (12) starts at the beginning of the measurement and stops at the end of the measurement, and that the end of the measurement is defined as the time at which the differential voltage between the two network systems (1, 2 ) in a short, defined period of time falls below a small, defined percentage of the nominal voltage, as the level of this percentage as well as this period of time is selectable depending on the operating conditions, but essentially corresponds to a value of approx. 3% of the nominal voltage, and at an operating frequency of 50 Hz corresponds to a time period of approx. 5 milliseconds, and that the measured time period can be output for reading on the display (13). 2. Device according to claim 1, characterized in that measurements of the difference of the instantaneous values between the respective fixed breaking contact (6b) and the associated movable breaking contact (6c) of the main contacts (6a) in all phases of the circuit breaker (6) take place within a measurement sequence, as the voltage measurement module (11) and the time measuring module (12) are correspondingly extended, and that the computer (10) outputs the mean value of the measured times for reading. 3. Device according to claim 1, characterized in that the computer (10) performs the determination of the circuit breaker's reaction time automatically by means of a program.