SU1589351A1 - Device for arc protection of distribution switchgear elements - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used to protect switchgear against arc faults. The purpose of the invention is to increase the resistance of the device to electromagnetic interference and the reliability of operation. This is achieved by introducing a pulse generator 16, which, together with the key 12, ensures that the device is repeatedly turned on in emergency mode. In this case, the total operating time of the device in emergency mode is reduced, and this improves its noise immunity. 2 Il.

Description

F.ig. one

The invention relates to electrical engineering and can be used to protect switchgear (RF), such as complete switchgear (CIR), from arc faults.

The purpose of the invention is to increase the resistance of the device to electromagnetic interference and the reliability of operation.

FIG. 1 shows a diagram of the device in FIG. 2 - time diagram of his work.

The photoresistor 1 is located in the switchgear, in the zone of possible occurrence of a short circuit arc near current-carrying buses 2 of high-voltage equipment, for example, in the switchgear compartment of the switchgear cabinet, and is connected by wires to transformer 3. Transformer 3 contains two primary 4 and 5 secondary winding 6, which is connected to the amplifier 7. The output of the amplifier 7 is connected to the actuator 8, which consists of the thyristor 9 and the electromagnetic relay 10 connected to its anode circuit 10. The amplifier 7 and the actuator 8 are connected to the source 11 ativnost voltage, as which may be used in power converter or any other power source, in imeyushih iys switchgear (e.g., secondary battery) that is connected to the device at the time KopofKoro circuit overcurrent zash; Ita acting on the compound.

The primary winding 4 of the transformer 3 is connected directly to the source 11 of the operating voltage, and the primary winding 5 through the switch 12, which contains two transistors 13 and 14 and a resistor 15, which ensures the opening of the transistor 13. The base of the transistor 14 is connected to the output of the pulse generator 16, performed, for example, on a two-base diode 17.

The device works as follows.

In normal operation, the output voltage of the operational voltage source 11 is not voltage, the device is turned off and does not affect the operation of the equipment.

When the arc circuit in the switchgear in the zone of operation of the photoresistor 1, is turned on, the source 11 of the operating voltage,

supplying power to all elements of the device circuit. Through the primary winding 4 of the transformer 3, the Photoresistor 1, which under the action of direct arc light abruptly changes its resistance, the primary winding 5 and the current opened through the resistor 15 of the transistor 13 passes a current jg pulse. A voltage pulse appears on the secondary winding 6, which, after amplification by amplifier 7, opens thyristor 9, relay 10 triggers and gives a signal to disconnect the corresponding 5 high-voltage switch, de-energizing the arc circuit point.

If the arc light does not hit the 2Q photoresistor 1 when the arc short circuit is switched on at the moment when the source 11 of the operating voltage is turned on, its resistance changes slightly, the arc send device does not work and the pulse generator 16 begins to work. at the output of the pulse generator 16, a positive voltage pulse appears, which opens the transistor 14, for -. Cover the transistor 13 and turn off the key-. 12. For the time equal to the duration of this pulse, the key 12 is closed, through the windings 4 and 5 and the photoresistor 1 current can not pass and the device is turned off. At this time, it cannot falsely work from electromagnetic interference. At the end of the pulse, during the next pause, the device is switched on again, etc.

Pulse Voltage Parameters

0, generator 16 is selected from the following considerations. I

The duration of the pulse generator 16, during which the device

5 is turned off, based on the desired speed of the arc protection, and can be, for example, several tens of milliseconds. The duration of the pause during which

0 the device is turned on, it is selected sufficiently so that the photoresistor 1 under the action of the direct light of the arc has time to change its resistance with the necessary multiplicity. it

J time depends on the type of photoresistor and can be no more than a few milliseconds. The time diagram of the device operation is shown in FIG. 2

Thus, if the arc protection device does not work immediately after switching on the source 11, then. in the described operation of the key 12, it is periodically turned on and off, and the off time can be many times the pain of the on time without an unacceptable decrease in the speed of the arc protection,

Each time the device is turned on, the multiplicity of changes in resistance of the photoresistor 1 under the action of arc light depends on its illumination at the time of switching on. However, unlike the prototype, repeatedly switching on, the device makes not one attempt to operate, but many. When, during the movement of the arc towards the photoresistor 1, its illumination becomes sufficient to trigger the device (the necessary ratio of change in its resistance is provided), the device is triggered.

With data (outside the protection zone) of short circuits, the device operates in the same way, i.e. each time the generator 16 operates, it is periodically turned on and off, which increases its noise immunity by reducing the total operating time.

Thus, the proposed tech-. This solution allows the device to become more resistant to electromagnetic interference by reducing

its operating time in emergency mode to the minimum required for the operation, as well as the reliability of the device response due to its repeated activation in the emergency mode.

Formula

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An arc protection device for switchgear elements containing a photo sensor intended for installation in the distribution zone of the country of the light flux of the arc, the amplifier whose output is connected to the control input of the actuator, a switch, a source of operating voltage and a transformer with two

20 primary windings, characterized in that, for the purpose of higher 5

neither is the device immunity to electromagnetic interference and above the operability threshold, a pulse generator is introduced into it, and an actuator, power input of the amplifier, pulse generator, a key input, the control Q input of which is connected to the generator output are connected to the output voltage source pulses, and the output - with the first output. The first primary winding of the transformer, the second output of which is connected to the output of the power source 5 through the photo sensor and the second primary winding, and the secondary winding pa - to the input of the amplifier.

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Claims (1)

Claim An arc protection device of switchgear elements, comprising a photosensor intended for installation in the propagation aeon of the light flux of the arc, an amplifier whose output is connected to the control input of the actuator, a key, an operating voltage source, and a transformer with two 2Q primary windings, characterized in that, in order to increase the stability of the device to electromagnetic interference and the reliability of operation, a pulse generator is introduced into it, while to the output of the source of operational voltage The voltages are connected to the actuator, which feeds the amplifier input, a pulse generator, a key input, and a control switch that turns on and off, which increases its noise immunity by reducing the overall operating time. Thus, the proposed technical solution allows to increase the stability of the device to electromagnetic interference by reducing the input of which is connected to the output of the pulse generator, and the output to the first output of the first primary winding of the transformer, the second output of which is connected through the photosensor and the second primary winding to the output of the source 35 power supply, and the secondary winding of the transformer transformer - to the input of the amplifier.