SU936155A1 - Device for testing and protecting connecting wires - Google Patents

Description

The device is intended for HC-PSJii in the power industry, in particular at power plants and substations when transmitting a disconnection of the effect of relay protection on a remote switch over a communication cable. A device for monitoring the state of the wires of a communication cable is known, which provides for the control of a short between wires and a broken wire f1J. However, this device does not protect the tripping relay from over-tripping on alternating voltage, which is likely to occur if the insulation of the cable is damaged by single-phase short-circuit currents in a high-voltage network. In addition, in this device, the instability of the cable capacitance, its dependence on the temperature mode can lead to a false response of the reacting organ. The device does not allow to control the position of the switch of the Receiving substation, which is difficult in operational maintenance of the power plant. , The most /) | @ e close to the technical essence is the relay protection device, which includes a bridge circuit consisting of resistors. A bridge circuit is connected between the positive and negative tires of the protected circuit. In addition to a double chain, a wire insulation relay is connected to the output points of the bridge circuit. A disconnecting relay is connected between the G 21 wires. The disadvantage of this device is that it protects the electrical circuit only when there is a short circuit to earth, and if other types of damage occur (short circuit between wires, wire breaks), protection or control of the electrical circuit, not is carried out. In addition, the tripping relay is not protected from short-circuit to

surge current in monitored wires, which can lead to false triggering of the tripping relay. i The purpose of the invention is to expand the functionality of the device by combining the control functions of all types of damage and the position of the switch of the receiving substation, as well as increasing the sensitivity to insulation damage and the integrity of the connecting wires. This goal is achieved by the fact that the device for controlling and protecting the connecting pro- orodor containing a bridge comparison circuit, the diagonal of which includes the first one. A relay and a diode are connected, and a disconnecting relay is connected between the connecting wires that form one of the bridge’s shoulders, a second polarized relay is additionally inserted, one hundred bilitrons, switching contacts of the protection relay, and a short-circuiting contact switch. the bridge and the source of the operating voltage through the switching contacts of the protection relay, and the second polarized relay is connected in the diagonal of the bridge in series and counter with the winding of the first polarized relay, in parallel ayuschemu relay enabled chain of serially connected Di and the zener diode is connected parallel to the resistor chain and closing of the auxiliary contact switch and a resistor receiving substation. In addition, the two arms of the bridge are formed from nonlinear resistances, for example, zener diodes. The drawing shows a device diagram for controlling and protecting connecting wires. A: The device contains zener diodes 1 and 2, forming two non-linear arms of the bridge. The diagonal of the bridge is connected in series with the connecting windings of polarized relays 3 and the second winding of relay 3 is connected between the minus power of the bridge and the ground. Through the switching contacts 5 of the protection relay, monitored connecting wires 6 are connected, to the ends of which a disconnecting relay 7 forming the third bridge arm is connected, the fourth arm forms a resistor 8. Parallel to the winding of the relay 7 through a diode 9, a resistor 10 is connected, stabilized 9361554

Claims (2)

Litron 11, the chain of the resistor 12 and the auxiliary contact of the switch 13, closed with the switch off. The power supply of the bridge is made from power supply unit 14. Resistor 15 is connected to a voltage supply voltage stabilization circuit of the bridge, consisting of resistor 15 and zener diodes 1 and 2. Normally, when the switch is on, the bridge is balanced and there is no current in the bridge diagonal. By reducing the insulation between the connecting wires, the total shoulder resistance of the connecting wires decreases, and a current appears in the bridge diagonal. Polarized relay k is turned on this current. When insulation is reduced to a certain value, relay K triggers and turns on the alarm circuit. When the resistance of the connecting wires increases or is broken by the current in the bridge diagonal, relay 3 is activated, which acts similarly to relay k. When insulation of the connecting wire decreases relative to the earth, current flows through the second winding of relay 3 connected to the ground by the polar end of the wire, And . - simultaneously polar current flows through two windings of relay 3. When the switch is disconnected, the connecting wires at the terminals of the tripping relay 7 are shunted through the auxiliary contacts of the switch 13 and the resistor 12, which is similar to the decrease in insulation between the connecting wires. In this case, the operation of the relay in the absence of current in the LINE (which is fixed by the corresponding current relay on the protection panel) is formed into a signal that the switch is turned off. When the output relay 5 of protection is activated, its opening contacts disconnect the device bridge circuit from the connecting wires, while the closing contacts connect the connecting wires to the 220 V operating voltage, which causes the relay 7 to act on the switch to trip. The increased sensitivity to insulation damage and wire integrity is achieved due to the fact that the two arms of the bridge are made in the form of nonlinear resistances, for example, zener diodes. The effect of the inclusion of zener diodes is seen when comparing the current in the diagonal of the bridge with linear resistances and the current in the diagonal of the bridge with the stabilizer. The current in a bridge diagonal with linear impedances is defined as y2tx. 1 „, (n {hey addressing the bridge as a massive quadripole; CURRENT in the diagonal; idling voltage at the diagonal terminals; input resistance relative to the diagonal terminals Pfv diagonal resistance. When the nonlinear resistance in the form of zener diodes is activated, the current in the diagonal of the bridge is determined By choosing G. Rgy / sensitivity of the bridge is more than doubled. Using this device to monitor and protect the connecting wires allows you to use one pair of cable wires to transmit a disconnecting effect. protection and signaling the position of the switch of the receiving substation, which provides significant savings. In addition, the use of a device that combines the functions of monitoring all types of damage to the connecting wires, protects the disconnecting relay from short-circuiting to the ground and receiving position of the switch of the receiving substation , makes it possible to refuse the installation of additional monitoring and protection devices. Claim 1. Device for monitoring and protection of connecting wires, containing a bridge comparison circuit, the diagonal of which includes the first polarized relay and diode, and the tripping relay is connected between the connecting wires forming one of the bridge arms, characterized in that In order to expand functional capabilities by combining the function of control of all types of damage and the position of the switch of the plug-in substation, the second polarized relay is added to it, Zener diode 7 is switched The contacts of the protection relay and the closing block-contact switch, with the tripping relay connected to the bridge and the source of operational voltage through the switching contacts of the protection relay, and the winding of the second polarized relay is connected in diagonal of the bridge in series and counter with the winding of the first polarized relay, in parallel disconnecting the relay included a chain of series-connected diode and Zener diode, in parallel with which is connected a resistor and a chain of the closing block contact switch of the receiving substation and resistor. 2. The device according to claim 1, in order to increase the sensitivity to insulation of wires, the two arms of the bridge are formed from nonlinear resistances, for example zener diodes. Information sources taken into account during the examination 1. Authors USSR certificate No. 27975L, class, H 02 H 7/26 1953. 2. Japanese Patent No. 50-1b 9b, cl. H 02 H 3/08, 1970,