RU2402031C2 - Test method of automatic breaker, and device for its implementation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: for the test there made is measuring circuit consisting of in-series connected high-current gas discharger and current control, as well as electronic second metre. The latter is connected to hot wire of measuring circuit through transformer. In order to start gas discharger, there made is independent chain consisting of in-series connected Start pushbutton and ignition and discharge keeping unit. Measuring circuit is in-series connected to the tested breaker connected to alternating voltage network. Current control sets the current corresponding to instantaneous disconnection current for the breaker of this type. Ignition and discharge keeping of high-current gas discharger is performed and time of current flowing in measuring circuit is recorded.

EFFECT: decreasing the weight and overall dimensions of portable test equipment.

2 cl, 2 dwg

Description

The present invention relates to the field of electrical engineering, to energy and, in particular, can be used when testing circuit breakers.

It is known "Device for checking current protection" according to the patent of the Russian Federation No. 2240622, H01H 85/30, G01R 31/02 from 2002.08.07.

In the known invention, the response time of the electrical network protection device is measured by supplying a test alternating current through the tested electrical network, followed by measuring the current and the response time of the overcurrent protection device.

The check unit contains an automatic control system closed by negative feedback on the adjustable value of the test current, and is additionally equipped with a switch, blocks for comparison, correction settings and a switch.

Closest to the technical nature of the claimed invention is a method of controlling the quenching time of the arrester and measuring the response voltage, which is implemented by a device containing spark gaps with spark gaps, quenching resistors, diodes, a boost boost rectifier, a unit for controlling the quenching time of the arrester, and a unit for measuring the response voltage of the arrester.

Moreover, in the rectifier, the control device is configured to use an autotransformer, the relay is configured to control current, the control unit is equipped with a switch, a power switch, second isolation diodes and a voltage relay, the measurement unit additionally has one load and two current-limiting resistors and is configured to use a transformer with two control windings, see "Surge protection of a DC switchgear", RF Patent No. 94034364, Н02Н 9/06 from 1994.09.16.

However, the practical implementation of the known method requires the use of an autotransformer, which significantly increases the weight and dimensions of the measuring device.

In addition, given that the power supply protection system changes during the operation time due to the connection of other auxiliary (control and measuring) devices to the main equipment, this affects the process and the response time of the electrical protection system.

Thus, to evaluate the electrical protection process, a recording of the shutdown process is also required, which is not performed in the known invention.

At the same time, it is known that high currents can flow in gas-discharge devices. This phenomenon can be used to check the time-current parameters of circuit breakers.

The aim of the present invention is to achieve a technical result to reduce the weight and dimensions of portable test equipment.

The technical result in the proposed method is ensured by the fact that they form a measurement circuit including a series-connected high-current gas spark gap and a current regulator, connect it in series to an AB connected to an AC voltage network, set the current regulator to match the instantaneous trip current for this type of AB, and ignition and maintenance of the discharge of a high-current gas spark gap and record the current passage time in the measuring circuit.

In the device, the technical result is ensured by the fact that the measuring circuit consists of a series-connected high-current gas discharger and a current regulator, as well as an electronic stopwatch connected to the current-carrying wire of the measuring circuit through a transformer, while an autonomous circuit is created to start the gas discharger, consisting of buttons connected in series "Start" and block ignition and maintain discharge.

As an electronic stopwatch, the Bismuth M device is used.

The invention is illustrated in graphic materials.

Figure 1 presents a block diagram of a device that implements the claimed method, Figure 2 presents a family of current characteristics of various types of switches.

A device that implements the claimed method contains a series-connected gas spark gap 1 and a current regulator 2.

To start the gas spark gap 1, an autonomous measuring circuit has been created, consisting of the Start button 3 connected in series and the ignition and gas discharge support unit 4. A Wismut M electronic stopwatch 6 is connected to the measuring conductor through its own current transformer of the clamp type 5. The measuring circuit is connected in series to the controlled circuit breaker 7.

The claimed invention is implemented as follows.

The electrical installation to which the tested circuit breaker 7 is connected is in working condition, i.e. connected to AC voltage.

The device through a circuit breaker 7 is connected to the phase conductor L1 and the protective conductor PEN of the electrical installation.

By means of the current regulator 2, the set current (instantaneous current) for this type of circuit breaker is set.

The current is selected based on the parameters of circuit breakers known according to GOST or IEC.

For example, the values of current parameters for various types of switches manufactured by Legrand are shown in FIG. 2.

For the circuit breaker type "C6" the values of the tested current are selected in the range from 30 to 60 A, see Figure 2.

The Start button 3 starts the ignition and discharge maintenance block 4. The circuit in the autonomous measuring circuit closes.

The current passing through this circuit starts the electronic stopwatch 6.

When the circuit breaker 7 is activated, the current in the autonomous measuring circuit is terminated. This is fixed by the electronic stopwatch 6, and the time period of the passage of current is displayed here on the indicator.

As an electronic stopwatch 6, the Bismuth M multifunction device is used.

If the circuit breaker 7 meets the technical requirements, then it trips and breaks the circuit at all tested values of the set current. This means that circuit breaker 7 is operating normally.

When testing a circuit breaker, a large current flows through the measuring circuit, while the energy is dissipated in the gas discharge load, spark gap 1.

Thus, the use of a discharge lamp 1 as a load significantly reduces the mass and dimensions of the test device circuit breakers.

The claimed invention is used both in tests at the production stage of circuit breakers, and in the process of acceptance, certification and operational tests of electrical installations.

A device that implements the claimed method can be performed at enterprises of electronic and instrument-making profile of medium degree of equipment, which indicates the compliance of the claimed method with the patentability criterion - industrial applicability.

Claims (2)

1. A test method for a circuit breaker (AB), including connecting a measuring circuit and measuring the response time of an AB, characterized in that they form a measurement circuit including a series-connected high-current gas spark gap and a current regulator, connect it in series to an AV connected to an AC voltage network, the current regulator sets the current corresponding to the instantaneous trip current for a given type of AB, ignites and maintains the discharge of a high-current gas spark gap and fixes The current passage time in the measuring circuit is shown. 2. A device for testing a circuit breaker containing a measuring circuit connected to an AB, characterized in that the measuring circuit consists of a series-connected high current gas discharger and a current regulator, as well as an electronic stopwatch connected to the current-carrying wire of the measuring circuit through a transformer, while for gas discharger start-up, an autonomous circuit has been created, consisting of the Start button and the ignition and discharge maintenance block connected in series.

Images