DE589565C - Line protection circuit with the aid of a relay assigned to each line switch - Google Patents

Description

• There are route protection circuits known or proposed, in which at the beginning and ends of the line sections to be protected overcurrent relay or overcurrent and energy direction relays are arranged, which are so in connection with each other stand that the tripping of a switch through which overcurrent flows into a path, prevented if the relay device is at the end of the same route or, at the beginning of the next line section, determines that the overcurrent is also in the Neighboring route flows into it.

The line protection circuit according to the invention consists in that relays which are dependent on the breakdown of the line resistance and which respond in the event of a fault within a certain distance, which is greater than ¹ the distance from the end of their own line path and between each other, are not used as tripping relays are connected that a relay cannot trigger its associated line switch, even if the next following resistance relay, calculated from the supplying center, responds. The response of this second relay is a sure sign that the error has occurred as seen from the control center beyond the location of this second relay. In order to achieve the shortest possible switch-off times, it is advisable to use instantaneous relays.

If the protection is only one-sided - fed line sections, then According to the invention, each path receives a minimum impedance relay or minimum reactance relay or a minimum relay, which responds to another function of the size ratio of current and voltage. speaks. However, the relay can only trigger its line switch when if the next following impedance relay in the direction • away from the control center does not respond. For this purpose, for example, a circuit that leads to 'opening of the line switch must be closed via a normally open contact of the associated Impedance relay and a normally closed contact of the next following impedance relay are performed. Without leaving the inventive idea, this can of course Connection between the two neighboring relays also different: be designed, be it that the auxiliary services between the two relays by auxiliary relays on the two Relay locations are controlled, be it that no auxiliary services are available at all,

*) The patent seeker stated as the inventor:

Dr.-Ing. Reinhold Sonnenschein in Berlin-Siemensstadt.

but high-frequency transmitters and receivers controlled by the relays. The order can be made so that the connecting path between the two interacts Relay only then on. Pulse is given when a line switch should be opened. In this case, telephone lines can also be used for the auxiliary lines use. It is also possible,

ίο via the connecting path between the two Relay to conduct a continuous current in the normal state, when interrupted the Tripping of the line switch comes about.

If the circuit is fed from both ends, the relays, which are triggered when the

- Address line resistance, supplemented by directional relays, or there will be such Resistance relays are used which "in themselves already react to the direction of energy. Relays of the latter type are, for example, those that respond to a specific phase shift are set at less than 90 °. With two-sided feeding of the line each responding relay gives a blocking command to the trip device at the beginning the neighboring route in the direction of the feeding center. So no part of the line is unprotected, the resistance relays are set so that they respond in the event of an error that occurs within its own route or the neighboring route. Under certain circumstances, you can extend the protection area even further, for example to the first Third "of the .over next route. If lines branch off at the ends of the route, so the relays at the beginning of these branches are also given the option of blocking commands for the relays in the main line and for the tripping device of all others in these Lines opening into the junction through which fault energy flows to the fault location can give. If the outgoing lines are stub lines, there can also be Impedance toggle relays are used. If the lines are from two sides can be fed ,, will a direction-sensitive protective device

- chosen.. .

'In the figure is a simple example of a line fed from one end is reproduced. From the power source 1 is a line, consisting of lines 2, 3, 4 and 5, fed. At the beginning of routes 2, 3, 4 and 5 are line switches 20, 30, 40 and 50 and also impedance toggle relays 21, 31, and 51. In the event of a fault in section 4, the impedance relay 41 and, if the If the fault is still in the protection area of relay 31, this relay is also present. Through the long Arrows above the line section indicate the protection area of the individual relays. Relay 41 closes a pair of contacts 42 in the circuit of the trip coils when it is triggered 43 of the switch 40. The circuit runs via auxiliary line 44 and a Normally closed contact pair 55 of relay 51. Remains Relay 51 at rest, as is the case with an error on line 4, then can by closing the contact 42, the switch 40 can be opened. The impedance relay 31 can also respond under certain circumstances. A pair of contacts 32 closes in the circuit of the trip coil 33 of the line switch 30. The closure of the contact 32 does not, however, trigger the switch 30; because the trip circuit is out by means of the auxiliary lines 34 via a break contact pair 45 of the relay 41. Since relay 41 has also responded, the pair of contacts 45 is interrupted, so that the trip coil. 33 remains de-energized.

With double-sided supply, resistance relays are provided on both sides of nodes .4, B and C. The relays 21, 31, 41 and 51 indicated in the figure are designed, for example, in such a way that they can only respond when there is a flow of energy from left to right. To the left of the nodes A, B and C, that is to say at the right ends of the line 2, 3, 4 and 5, there are corresponding devices which, however, can only be effective in the case of an energy direction from right to left and then in the one shown or one In a similar manner, the relay to the left of the node C cannot open its switch, which is also located to the left of the node C at the right end of the path 4, when the corresponding relay in the node B also responds. The relays that cause the disconnection of route 3 or 4 or 5 can also be arranged so that they are not at the ends of their own route, but at the beginning of the neighboring route, but control the switches of their own route.

Claims (1)

Patent claims: χ. · Line protection circuit with the help of a line switch assigned to each Relays which are connected to one another in such a way that they can only trigger their associated line switches if no fault energy flows into the following path according to the energy flow direction, characterized by Resistance-dependent, preferably instantaneous impedance or reactance relays (21, 31, 41, 51), which in the event of an error respond within a certain distance, which is greater than the distance from the end of its own line. Device according to claim ι for double-fed routes, characterized in that the on a certain Limit value of the resistance set protective relay (21, 31, 41, 51) are sensitive to energy direction or through special energy direction relays are supplemented. For this, 1 sheet of drawings