Method of automatically isolating a faulty section of a power line belonging to an electrical energy supply network, and arrangement for carrying out this method

US 3,970,898 A
Filed: 11/04/1974
Issued: 07/20/1976
Est. Priority Date: 11/23/1973
Status: Expired due to Term

First Claim

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1. A method of automatically isolating a faulty section of a power line of an electrical supply network, the power line being adapted to be connected to at least one energy source and to be temporarily divided up into sections by switches following the appearance of an excess current, and automatically reconnecting normally operating sections of the power line to said at least one energy source, the improvement comprising the steps of transmitting a signal from the location of at least one switch, when said one switch is open, which has automatically opened after an excess current has passed through it through a non-faulty part of the power line to at least one other switch through which at least a part of the excess current had passed to the now opened said one switch, and which other switch has also automatically opened, reception of the aforementioned signal being an essential requirement for closing said other switch.

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Abstract

A method of and apparatus for automatically isolating a faulty section of a power line, of an electrical supply network, the power line being adapted to be connected to at least one energy source and to be temporarily divided up into sections by switches following the appearance of an excess current, and automatically reconnecting normally operating sections of the power line to at least one energy source, wherein a signal is transmitted from the place of at least one switch, which has opened automatically after an excess current that has passed through it, through a non-faulty part of the power line to at least one other switch, through which at least a part of the excess current had passed to the now opened switch, and which has automatically opened as well, reception of the aforementioned signal being an essential requirement for closing the said other switch.

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17 Claims

1. A method of automatically isolating a faulty section of a power line of an electrical supply network, the power line being adapted to be connected to at least one energy source and to be temporarily divided up into sections by switches following the appearance of an excess current, and automatically reconnecting normally operating sections of the power line to said at least one energy source, the improvement comprising the steps of transmitting a signal from the location of at least one switch, when said one switch is open, which has automatically opened after an excess current has passed through it through a non-faulty part of the power line to at least one other switch through which at least a part of the excess current had passed to the now opened said one switch, and which other switch has also automatically opened, reception of the aforementioned signal being an essential requirement for closing said other switch.
- View Dependent Claims (2, 3, 4)
- - 2. The method as claimed in claim 1, including the step of additionally utilizing the absence of an excess current as criterion for the automatic operation of a switch.
  - 3. The method as claimed in claim 2, wherein the absence of voltage in the power line is additionally used as criterion for the automatic operation of a switch.
  - 4. The method as claimed in claim 1, including the step of connecting the power line to the energy source on the automatic reclose principle.

5. A method of automatically isolating a faulty section of a power line of an electrical supply network, the power line being adapted to be connected to at least one energy source and to be temporarily divided up into sections by switches following the appearance of an excess current, and automatically reconnecting normally operating sections of the power line to said at least one energy source, the improvement comprising the steps of transmitting a signal from the location of at least one switch which has automatically opened after an excess current has passed through it through a non-faulty part of the power line to at least one other switch through which at least a part of the excess current had passed to the now opened switch, and which other switch has also automatically opened, reception of the aforementioned signal being an essential requirement for closing said other switch, and using as another criterion for the automatic operation of a switch the energy direction through that switch in the event of an excess current.

6. A method of automatically isolating a faulty section of a power line of an electrical supply network, the power line being adapted to be connected to at least one energy source and to be temporarily divided up into sections by switches following the appearance of an excess current, and automatically reconnecting normally operating sections of the power line to said at least one energy source, the improvement comprising the steps of transmitting a signal from the location of at least one switch which has automatically opened after an excess current has passed through it through a non-faulty part of the power line to at least one other switch through which at least a part of the excess current had passed to the now opened switch, and which other switch has also automatically opened, reception of the aforementioned signal being an essential requirement for closing said other switch, and wherein in intermeshed or branched energy supply network, said signal is delivered both to at least one switch in the power line itself and to at least one switch in a branch line.

7. A method of automatically isolating a faulty section of a power line of an electrical supply network, the power line being adapted to be connected to at least one energy source and to be temporarily divided up into sections by switches following the appearance of an excess current, and automatically reconnecting normally operating sections of the power line to said at least one energy source, the improvement comprising the steps of transmitting a signal from the location of at least one switch which has automatically opened after an excess current has passed through it through a non-faulty part of the power line to at least one other switch through which at least a part of the excess current had passed to the now opened switch, and which other switch has also automatically opened, reception of the aforementioned signal being an essential requirement for closing said other switch, and wherein the power line is connectible only to one energy source so that the energy direction, in the event of an excess current, is always the same, and the transmission direction for the aforementioned signal is also always the same and specifically opposite to said energy direction.

8. A method of automatically isolating a faulty section of a power line of an electrical supply network, the power line being adapted to be connected to at least one energy source and to be temporarily divided up into sections by switches following the appearance of an excess current, and automatically reconnecting normally operating sections of the power line to said at least one energy source, the improvement comprising the steps of transmitting a signal from the location of at least one switch which has automatically opened after an excess current has passed through it through a non-faulty part of the power line to at least one other switch through which at least a part of the excess current had passed to the now opened switch, and which other switch has also automatically opened, reception of the aforementioned signal being an essential requirement for closing said other switch, and wherein the power line is connectible to more than one energy source, and determining the energy direction in the event of an excess current in the sections of the power line in order to control the required transmission direction of the aforementioned signal.

9. An arrangement for automatically isolating a faulty section of a power line of an electrical supply network wherein the power line of the electrical energy supply network is adapted to be connected to at least one energy source by means of a first switch and divided into individual sections by further switches, a switch-operating means associated with each of said switches, each of said switch-operating means being controllable at the particular switch by a monitoring means operatively associated with it and its associated switch, in dependence on the current in the power line, a transmitter controllable in dependence upon the response of the monitoring means associated with each one of at least a certain number of the switches, a receiver associated with each one of at least a certain number of the switches, the receiver being connected through a control connection to the switch-operating means associated with its associated switch, each transmitter having an output, the output of each transmitter associated with a certain switch being adapted for connection through a transmission channel containing a non-faulty part of the power line to an input of a receiver associated with another switch adjacent to that switch in the power line, the signal transmission in said transmission channel being directed opposite to the direction of energy flow in the power line throughout the duration of an excess current in order to control the switch associated with the receiver in dependence upon a signal transmitted in the event of an excess current.
- View Dependent Claims (10, 11, 12, 13)
- - 10. The arrangement as claimed in claim 9, wherein switches provided for connecting the power line to an energy source are equipped with an automatic reclose device.
  - 11. The arrangement as claimed in claim 9, wherein the power line has a branch, a busbar on both sides of the branch being connected through switches to adjacent sections of the power line, the branch being designed to be connected to said busbar through another switch, and wherein the output signal of the associated monitoring means is delivered through a contact actuated in dependence upon the energy direction in the event of an excess current in the associated directional relay and through a line to an input of the associated switch-operating means.
  - 12. The arrangement as claimed in claim 9, wherein the power line can only be connected to one energy source through a switch, fixed transmission channels being associated with transmitters of switches in the power line between a transmitter and the receiver associated with an adjacent switch.
  - 13. The arrangement as claimed in claim 9, wherein the power line can be connected to more that one energy source through switches, the transmission channel of a transmitter to the reciever of an adjacent switch being reversible from case to case in dependence upon the energy direction prevailing during the excess current detected by a directional relay associated with the corresponding switch.

14. An arrangement for automatically isolating a faulty section of a power line of an electrical supply network wherein the power line of the electrical energy supply network is adapted to be connected to at least one energy source by means of a first switch and divided into individual sections by further switches, a switch-operating means associated with each of said switches, each of said switch-operating means being controllable at the particular switch by a monitoring means operatively associated with it and its associated switch, in dependence on the current in the power line, a transmitter controllable in dependence upon the response of the monitoring means associated with each one of at least a certain number of the switches, a receiver associated with each one of at least a certain number of the switches, the receiver being connected through a control connection to the switch-operating means associated with its associated switch, each transmitter having an output, the output of each transmitter associated with a certain switch being adapted for connection through a transmission channel containing a non-faulty part of the power line to an input of a receiver associated with another switch adjacent to that switch in the power line, the signal transmission in said transmission channel being directed opposite to the direction of energy flow in the power line throughout the duration of an excess current in order to control the switch associated with the receiver in dependence upon a signal transmitted in the event of an excess current, and wherein in the switch-operating means a first path leads from an input at which a signal indicating the excess current is delivered to it, through a timing element and a delay element to a first input, a second path leads through an inverter to a second input of an AND-gate having an output which leads to a transistor whose collector circuit incorporates a relay through a normally-open contact of which a feed voltage is applied from a terminal to the terminal of a switch drive responsible for switching off the switch.

15. An arrangement for automatically isolating a faulty section of a power line of an electrical supply network wherein the power line of the electrical energy supply network is adapted to be connected to at least one energy source by means of a first switch and divided into individual sections by further switches, a switch-operating means associated with each of said switches, each of said switch-operating means being controllable at the particular switch by a monitoring means operatively associated with it and its associated switch, in dependence on the current in the power line, a transmitter controllable in dependence upon the response of the monitoring means associated with each one of at least a certain number of the switches, a receiver associated with each one of at least a certain number of the switches, the receiver being connected through a control connection to the switch-operating means associated with its associated switch, each transmitter having an output, the output of each transmitter associated with a certain switch being adapted for connection through a transmission channel containing a non-faulty part of the power line to an input of a receiver associated with another switch adjacent to that switch in the power line, the signal transmission in said transmission channel being directed opposite to the direction of energy flow in the power line throughout the duration of an excess current in order to control the switch associated with the receiver in dependence upon a signal transmitted in the event of an excess current, and wherein the switch-operating means a first path leads from an input, at which a signal indicating the excess current is delivered to it, through a timing element and a delay element to a first input, and a second path leads through an inverter to a second input of and AND-gate, and a positive voltage can be delivered from a terminal to a third input of the aforementioned AND-gate through a series connection of three normally-closed contacts of three delayed drop-out relays whose windings are connected to the direct-current terminals of full-wave rectifiers having alternating-current terminals applied through voltage transformers to phase conductors of the power line, the output of the AND-gate leading to a transistor whose collector circuit incorporates a relay whose normally open contact applies a feed voltage from a terminal to the terminal of a switch drive responsible for switching off the switch.

16. An arrangement for automatically isolating a faulty section of a power line of an electrical supply network wherein the power line of the electrical energy supply network is adapted to be connected to at least one energy source by means of a first switch and divided into invidivual sections by further switches, a switch-operating means associated with each of said switches, each of said switch-operating means being controllable at the particular switch by a monitoring means operatively associated with it and its associated switch, in dependence on the current in the power line, a transmitter controllable in dependence upon the response of the monitoring means associated with each one of at least a certain number of the switches, a receiver associated with each one of at least a certain number of the switches, the receiver being connected through a control connection to the switch-operating means associated with its associated switch, each transmitter having an output, the output of each transmitter associated with a certain switch being adapted for connection through a transmission channel containing a non-faulty part of the power line to an input of a receiver associated with another switch adjacent to that switch in the power line, the signal transmission in said transmission channel being directed opposite to the direction of energy flow in the power line throughout the duration of an excess current in order to control the switch associated with the receiver in dependence upon a signal transmitted in the even of an excess current, and wherein in the switch-operating means a first path leads from an input, at which signal indicating the excess current is delivered to it, through a timing element and a delay element to a first input, a second path leads through an inverter to a second input of an AND-gate, and a positive voltage can be delivered from a terminal to a third input of the aforementioned AND-gate through a normally closed contact of a delayed drop-out relay having a winding connected to direct-current terminals of a full-wave rectifier having alternating-current terminals applied through a voltage transformer to at least one of the phase conductors of the power line, the AND-gate having an output leading to a transistor whose collector circuit incorporates a relay having a normally-open contact which applies a feed voltage from a terminal to the terminal of a switch drive responsible for switching off the switch.

17. An arrangement for automatically isolating a faulty section of a power line of an electrical supply network wherein the power line of the electrical energy supply network is adapted to be connected to at least one energy source by means of a first switch and divided into individual sections by further switches, a switch-operating means associated with each of said switches, each of said switch-operating means being controllable at the particular switch by a monitoring means operatively associated with it and its associated switch, in dependence on the current in the power line, a transmitter controllable in dependence upon the response of the monitoring means associated with each one of at least a certain number of the switches, a receiver associated with each one of at least a certain number of the switches, the receiver being connected through a control connection to the switch-operating means associated with its associated switch, each transmitter having an output, the output of each transmitter associated with a certain switch being adapted for connection through a transmission channel containing a non-faulty part of the power line to an input of a receiver associated with another switch adjacent to that switch in the power line, the signal transmission in said transmission channel being directed opposite to the direction of energy flow in the power line throughout the duration of an excess current in order to control the switch associated with the receiver in dependence upon a signal transmitted in the event of an excess current, and wherein the power line has a branch, the two adjacent sections being designed to be connected through switches to a busbar, and said branch being designed to be connected through another switch to the busbar, and wherein a common transmitter is associated with several switches, the output of the transmitter being coupled through a line and a voltage transformer to the busbar, and a receiver associated with at least one of said switches and being connected through a voltage transformer to an adjacent section or to the line.

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Current Assignee
Zellweger Uster AG (Toyota Motor Corporation)
Original Assignee
Zellweger Uster AG (Toyota Motor Corporation)
Inventors
Baumann, Eduard, Waldispuhl, Candidus A.
Primary Examiner(s)
Miller, J D
Assistant Examiner(s)
Salce, Patrick R.

Application Number

US05/520,733
Time in Patent Office

624 Days
Field of Search

317/25, 317/22, 317/23, 317/26, 317/29 R, 317/27 R, 317/28 R
US Class Current

361/68
CPC Class Codes

H02H 3/063 Details concerning the co-o...

H02H 7/262 involving transmissions of ...

Method of automatically isolating a faulty section of a power line belonging to an electrical energy supply network, and arrangement for carrying out this method

First Claim

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Abstract

75 Citations

17 Claims

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Method of automatically isolating a faulty section of a power line belonging to an electrical energy supply network, and arrangement for carrying out this method

First Claim

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0 Petitions

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Accused Products

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Abstract

75 Citations

17 Claims

Specification

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Solutions

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