SU815829A1 - Device for protective disconnection in three-phase mains with insulated neutral wire - Google Patents

Description

(54) DEVICE FOR SAFETY SHUT-OFF IN A THREE-PHASE ELECTRIC NETWORK WITH ISOLATED NEUTRAL

one

The invention relates to protective disconnect devices in three-phase electrical networks with insulated transformer neutral.

A device is known comprising a power source and a reference source connected between the mains phases and the earth, an operational source and a compensating circuit to which the semiconductor is bridged with a semiconductor input of a transistor amplifier, the output of which is connected to an executive organ 1.

However, in such a device there is no self-checking of the health of the electrical circuit elements, which reduces the reliability of its operation.

It is also known a device for measuring the insulation resistance of electrical circuits, which contains a power source, a reference source of rectified pulsed signals and an operational source connected between the mains phases and the earth, connected in parallel to a diode bypassing the input of a transistor amplifier, the output of which is bounded by an electronic switch is connected through a capacitor with the executive body 2 ..

Claims (2)

When a constant operational current and the current of the reference source are applied to the amplifier input, a variable component appears at the amplifier output, which causes the actuator to operate. Since the reduction of the insulation resistance and damage to the circuit elements leads to the disappearance of the variable component of the amplifier output and the switching off of the actuator, the device provides self-monitoring of the health of the circuit elements and protective failure, i.e., disconnects the network if the elements are damaged. However, the functionality of such a device is limited. This is due to the fact that in order to provide the assigned functions, the power source, operational and reference sources of the known device must be connected to the power contacts of the switching device (circuit breaker) performing switching operations in the protected network. Since only in this case it is possible to turn on the network with the specified safety shutdown device, the output of the executive relay of which affects the zero or independent release of the automatic switch, i.e., the automatic switch can be turned on; 1 6 if the output relay of the safety shutdown device is in condition. In this connection, the known device for the protective disconnection of electric circuits is used in practice only in the form of a unit, which is built in a low-voltage distribution point, of the voltage of the shielding substations. For safety shutdown devices in individual explosion-proof shells, which are connected only after the power contacts of the circuit breaker on safety requirements, this device cannot be used. The purpose of the invention is to expand the functionality of the device for protective disconnection, by ensuring its connection to the protected network after the power contacts of the automatic switch. The goal is achieved by the fact that in a known device containing a power source, a measuring unit, made on a transistor, to the input of which DC sources and a pulsed reference current are oppositely connected, and the output of the said unit, shunted with an electronic key, is connected to a connected capacitor the circuit breaker to the actuator, clamped by the first diode, turned on according to the specified power source, the executive body is designed as a double-wound relays, one of which windings zaschuntirovanna newly input capacitor is connected in series with a second diode connected in antiseries with the power source and connected in parallel with the first diode and the other -winding connected to an additional constant source of reference voltage. The drawing shows a hema for a protective disconnecting device. The device contains a power source 1, a reference source 2 of rectified pulsed signals, an operational source 3 connected between the phases of the network and ground using a resistor 4 and a capacitive leakage current compensation circuit consisting of a drossel transformer 5, a compensating throttle 6 and a coupling capacitor 7 The operational source 3 and the source 2 of rectified pulsed signals are connected back-to-back and connected to a diode 8, a shunting input of a transistor amplifier 9. A circuit is connected to the input of an amplifier through a capacitor 10 The diode 11 is connected in accordance with the power source 1 and the circuit 1-2 of the two-winding executive relay, shunted by a capacitor 13, which is connected in series with the diode 14 connected in opposition to the indicated power source -1. Another winding 15 of the relay is connected to an additional source 16 of the reference voltage. , The output of the executive relay acts on the trip units 17. a three-phase circuit breaker with an insulation resistance of 18. The device works as follows. With infinitely more. Isolation resistance 18 Operational current Zopyr is connected via the following circuit: ground: resistor 4, compensating choke 6 and input of transistor amplifier 9. At the same time, the amplitude value of the current JJT, which is proportional to the instantaneous value of the rectified voltage of source 2, is lower and flows through the input of the amplifier the current of the pulses due to the difference between J, .r and Jonep - in connection with this, the amplifier 9 periodically opens and closes. When transistor 9 is open. capacitor 10 is charged through diode I and the collector-emitter of the specified transistor to the voltage of source 1 of the power supply. When the transistor 9 is closed, the capacitor 10 is discharged and. A discharge current flows through the winding 12 of the actuating relay, the diode 14, and the resistor connected to the collector circuit of the above transistor. At the same time, a constant current of the reference source 16 flows through the other winding 15 of the two winding relays. The resulting magnetic flux created by the ampered turns of one and the other windings is zero during the normal operation of the device and the infinitely large insulation resistance. As a consequence, the relay's measles is not in a received state and its output contacts acting on the circuit breaker releases do not trigger the latter. As a result of this, it is possible to turn on the circuit breaker when the protective disconnecting device is working properly and under the safety conditions of the insulation resistance level. in the case of reducing the insulation resistance of the network 18 to a dangerous value, the operating current will exceed the amplitude value of the reference current. This will result in a constant current flowing through the input of amplifier 9, which will fully open the specified transistor. In this case, the capacitor 10 is charged, and the current through the winding 12, shunted by the capacitor 13, disappears. As a result, the resulting magnetic flux, which is determined only by the ampere turns of the winding 15, will be sufficient to create a magnetizing force capable of attracting a relay core. The contacts of the latter will trigger the release of the automatic switch 17, which will disconnect the protected network. If the circuit elements are damaged, the network is also disconnected, which prevents the operation of electrical installations with a defective protection device. With a good protective cut-off device and a safety-proof insulation resistance level of 18, the resulting magnetic flux determined by the ampere-turns of the windings 12 and 15 is zero. In this case, all sources 1, power, reference 2, operational 3 and additional 16 are connected, respectively, to different secondary windings of a voltage transformer (not shown in Fig. 1), the primary winding of which is connected both to the circuit breaker 17 and after. When connected to a circuit breaker, power is supplied to all the mentioned sources. During normal operation of the device, the output contacts of the double-relay relay, acting, and the release (opening to zero, locking J. to independent release) are in the initial state, since the magnetic flux determined by the ampere-turns of the windings 12 and 15 is zero. The switch 17 is not blocked. If the device is used for apparatuses in separate explosion-proof enclosures, i.e., the voltage transformer is connected after the power contacts of the circuit breaker 17, all sources 1, 2, 3 and 16 do not receive power before supplying voltage. Therefore, the double-winding output relay is de-energized. Its output contacts of the switch 17 do not block. When voltage is applied to the network by the switch 17, the device receives the power supply and performs the functions assigned to it to control the insulation resistance and the protective disconnection. If it is necessary to have a constant charging time for the capacitor 10 and its discharge, the bypassing diode 11 must be switched in opposite direction, and the diode 14 in the winding circuit 12 is in accordance with the power source 1. The proposed actuating actuator of the invention, providing a protective failure, allows the use of the proposed protective shutdown device both in transformer substations and in individual explosion-proof enclosures, due to the fact that it can be connected both before and after the power contacts of the circuit breaker . Thus, the proposed device allows the functionality of the known protective disconnect devices to be expanded by ensuring that it is connected and the protected network both before and after the power contacts of the circuit breaker. The invention is a device for protective tripping in a three-phase electric network with insulated neutral, containing a power source, a measuring unit made on a transistor, to the input of which DC sources and pulse reference currents are connected, and the output of the specified unit, backed up with an electronic key, through a capacitor connected to the actuator connected to the circuit breaker, shunted by the first diode, connected according to the indicated power source , in order to expand the functionality by providing a connection to the protected network after the power contacts of the automatic switch, the actuator is designed as a two-winding relay, one of the windings of which is bridged by the newly introduced capacitor, is connected in series with the second diode power supply, and connected in parallel with the first diode, and the other winding is connected to an additional constant voltage source. Sources of information taken into account during the examination 1. USSR author's certificate No. 291278, cl. G 01 R 31/08, 1964. 2. USSR author's certificate for application No. 2654882 / 24-07, cl. H 02 H 3/16, 1978.