TH39193A3 - Power distribution control system and power distribution control method, which can separate the fault distribution without fail. - Google Patents

Abstract

DC60 (14/02/44) Power distribution control system Which can be separated from the wrong part without fail Even if the load break switch cannot be controlled Due to errors in communication Between the control center and the terminal unit of the feeder cable If there is a mistake in communication This occurs between the control center and the dedicated feeder terminal unit.For example, the feeder terminal block unit, which is coupled with the dedicated feeder terminal unit, changes the operating mode of their control load-break switch. From unopened mode The no-voltage output to the non-voltage open mode. Power distribution control system Which can be separated from the wrong part without fail Even if the load break switch cannot be controlled Due to errors in communication Between the control center and the terminal unit of the feeder cable If there is a mistake in communication This occurs between the control center and the dedicated feeder terminal unit.For example, the feeder terminal block unit, which is coupled with the dedicated feeder terminal unit, changes the operating mode of their control load-break switch. From the unopened load The no-voltage output to the non-voltage open mode.

Claims (4)

1. A power distribution control system which has the following components A number of switches that are inserted into the distribution line. A number of judges for counting the faulty current flowing through the number switch. One such To provide information about the presence or absence of a fault current And to turn on and off Such a switch in response to a control signal Management unit for identifying faults from information about the presence or absence of it. Fault current And for producing control signals to direct the opening of a switch that is inserted at the end The opposite of the fault and a mechanism for detecting communication errors between the management units. And one of the judges Where each such judge changes one switch's operating mode. From a certain number of such, from voltage-free open mode to voltage-free open mode. If a communication error is detected 2. Power supply control system as described in claim 1, if an exchange Information with such management units is impossible. Each referee changes the action mode Of a number of such switches, which are coupled from voltage-free non-open mode to Open at no voltage And if exchanging information with any one of the judges Such is not possible The management unit sends an on / off command to the remaining judges for action. Change a number of aforementioned switch operating modes, which are coupled from non-open, non-pressure mode. Power to a no-voltage mode 3. Power supply control system as described in claim 2, which eliminates such judgment. Each will perform a scroll control in a time-limited order of a number of such switches. Control to make at least one switch Which is coupled with the wrong part in the said state, which is coupled Come to make at least one switch Which is coupled with the wrong part in a closed state When will it change A number of such switch operating modes are coupled from voltage-free non-open mode. 4. The power distribution control system as specified in claim 3, which the management unit has. It will consist of a substation remote terminal unit to perform data exchange with the referee. Each such And the control center for inputting commands to the remote terminal unit of the said substation and to which the remote terminal unit of the said substation sends a shutdown / shutdown command. To the judge All such switches have to be changed to the operating mode of a number of such switches. Voltage-free open mode to voltage-free open mode. If it detects an error In the communication between it and the control center 5. The power distribution control system as specified in claim 3, the management unit. It will consist of a substation remote terminal unit to perform data exchange with the referee. Each such And the control center for entering commands to the remote terminal unit of the said substation and when the control center detects a communication error between the units. The remote connector of the said substation and itself Will notify the operator of the interruption 6. The power distribution control system as specified in Claim 1, which the management unit has. Will send input on / off command To the judge connected to the communication line, separate from the communication line connected to the judge, which is unable to exchange information. 7. Power supply control system, as stated in claim 1, each switch. That's right Placed in such a power supply line as a switch. Which will change its operating mode from non- Turns without voltage to zero-voltage open mode in response to mode change requests. Of one of the aforementioned judges. 8. Power supply control method, which consists of the following steps. The observation of the fault current flowing through a number of inserted switches. In the supply lines for a number of feeder connector units. To provide a management center with information about its existence. Or none on the fault current, providing the feeder terminal unit at both ends of the faulted section with the signal. A control that instructs a switch to be turned on at opposite ends of the fault. When the management center stated The wrong part of information about existence Or none, regarding the fault current and the change in the operating mode of each such switch from the non-open mode to none. Voltage to an open mode without voltage For each connector unit of such feeder If a communication error between the management center is detected And the connector unit of the feeder cable 9. The power supply control method as described in Clause 8, the replacement consists of changing the operating mode of a number of the aforementioned switches, coupled with the Voltage-free open mode to voltage-free open mode. For connector units of Each such feeder If data exchange between the aforementioned center and itself is not possible and the input of a power command to the terminal unit of the aforementioned input cables, the Remaining to change the operating mode of a number of aforementioned switches. Voltage-free open mode to voltage-free open mode. From the said management center if Changing information between themselves And the terminal unit of such feeder cable one of the One of the above is impossible 1 0. The power supply control method is stated in Clause 9, which the replacement will consist of. By performing a time-limited sequence shift control of a number of aforementioned switches, coupled to allow at least one switch Which, together with the wrong part, is in the shutdown state for the unit. Each connector of such feeder cable When it changes the mode of operation of a number of such switches The one that should be coupled is from non-voltage open mode to non-voltage open mode 1. 1. The power supply control method as outlined in claim 10, where the replacement consists of the input of a power command from the remote terminal unit of the said substation to the unit. Such feeder connector All to change The operating mode of such switches, in combination with them, from non-open voltage to non-voltage open mode, if the remote terminal unit of such substation detects a communication error. Between the control center Such and itself When the management center consists of Remote terminal unit of the substation to Perform data exchange with each such feeder terminal unit. And control center to enter Command to the remote terminal unit of such substation 1 2. The electrical distribution control method as described in claim 10, which continues to provide an operator with information on dispensing control timing arrangements. The control center's electricity When the control center detects communication errors Between the remote joint unit of the said substation and itself When the management center is equipped with a remote terminal unit of the substation to perform data exchange with the line terminal unit. Enter it and the body and the control center in order to enter commands to the remote terminal unit of the said substation 1. 3. The electricity distribution control method as set out in Claim 8, which still consists of The input of the power command to the terminal unit of the feeder that is connected to the communication line is separated from the communication line. That is connected to the terminal unit of the feeder cable Which cannot exchange information 1 4. The electricity distribution control method as described in claim 8, each of which The one that is placed in the power supply line. It is a switch which will change its operating mode from mode. That does not turn on without voltage to a voltage-free open mode in response to a replacement request The From mode of the terminal unit of the input cable one such number of units.