DE461495C - Device for the selective shutdown of faulty line sections when double lines are fed from both ends - Google Patents

Description

The invention relates to a further embodiment of the device for selectively switching off faulty line sections
Mutually fed double lines according to patent 458 486, and in particular such a device in which
each direction relay on the one hand from that
Current of a line section and from the | Total current of both lines influenced;

ίο will. A number of the I written auxiliary equipment can! also useful in the case of the j use the device marked in the main patent, with the fedes directional

relay on the one hand from a line section to be protected and on the other hand from the
Common feeder current to the
affected line end is affected. ■ To get from the two coils of each relay

ao the one with the current of a line section,: to feed the other with the total current of both j line sections, are connected in both: line sections current transformers; tet. The secondary currents of the two to \ a conduit end located current transformer flow through each a coil of a relay, then combine and flow together the series-connected second coils of the two at the respective ends of the line located relay, whereupon it separated each to the generating him secondary winding of the current transformer to return. The current of a line to be protected flows through one coil of each relay and the total current of both lines flows through the other coil of each relay. In the line through which the total current flows, there is a maximum relay that only connects the auxiliary power source to the contacts controlled by the relay when the total current has reached a certain level. If both relays at one end of the line are deflected in the same direction, the tripping circuits of the relevant switches located in the lines to be protected are interrupted. If one relay deflects in the same direction as the restoring force, while the other, on the same line,

*) The patent seeker stated as the inventor:

Dr. Warner Lulofs in Amsterdam.

end of the line, deflects against the restoring force, the switch is in the Line open, the current of which influences the relay, which deflects against the restoring force.

An embodiment of this device is shown schematically in the drawing. 41 and 42 are the two. Line sections of a double line, that of both ίο pages is fed, and the normal in the Direction of the dotted arrows is traversed by energy. The secondary windings the current transformers at the lower end of the line are connected to one each with their upper terminals Coil of the direction relays 54 and 55 connected. The derivatives of these coils unite and then lead first over the second coil of the relay 54 and then on Via the second coil of the relay 55 ', the lines and then separate go back to the two lower terminals of the secondary windings of the current transformers. With normal energy direction, both relays strike against a spring force left off. Your movement in this direction against the spring force is a little delayed, while their movement takes place without delay in the sense of the spring force. As you can see, those are ruled by the relays Contacts in such a way in the circuit of the trip coils of the two in the too protective lines lying switch inserted that with equilateral deflection of both relays the tripping coils are de-energized, while with unequal deflection that switch is opened, the current of which is deflected against the spring force Relay influenced.

The setup works as follows:

In normal operation, let the energy go in the direction of the dotted arrows flow. Then take the four energy direction relays 46 and 47 and 54 and 55 respectively Tension your springs to the positions indicated in the drawing. The circuits the tripping coils 52 and 53 or 64 and 63 of the four switches are interrupted. If an error occurs in the line, so a strong fault current flows through the current transformer 44 contrary to the normal Energy direction. As a result, the flow of current in the relay 46 is reversed in both coils um, in the relay 47, however, only in the coil through which the total current flows. That Relay 47 therefore sets its. Contact arm in the same direction in the direction of the spring force around, thus closes the circuit of the trip coil 52 and opens the switch in the Line 42. This causes relay 46

6q in the influenced by the individual current of the line 42 The coil is de-energized and also places its contact arm, following the spring force around.

The fault location is now fed by both power sources, via the line 4i contrary to the operational energy direction and via line 42 in the operational energy direction.

Since then both coils of the relay 47 in opposite directions as in the normal Operation flowed through, the relay 47 will be back in the drawing Set the specified position against the spring force. There is a delay device on every relay 67 provided, which delays the movement of the contact arm against the spring a little. In relay 54 and 55 flows through the coil through which the total current flows in the same direction as in normal operation. In contrast, that of the individual stream of line 41 influenced coil of relay 55 flowed through in the opposite sense. This relay therefore changes its deflection in the sense of the spring force, without delay. The relay 54 retains its deflection .. since both coils flows through in the same sense as in normal operation. As a result of the relay 55 breaking out, the trip coil 64 is connected to the power source and consequently opens the switch located in line 42. The faulty line 42 is then switched off, and the energy flows in the normal direction through the line 41. The deflections of the different relays are now the following: The relays 54 and 46 are in the from Single current affected coil is de-energized, and they therefore strike under the influence of the spring force right to off. The relays 55 and 47 are flowed through in the same way as in the initial normal operation and therefore deflect in the opposite direction to the spring force. At this deflection the relay the two switches in line 41 were opened when not in the electrical circuit of the total current of the relays a maximum relay 70 would be provided, which would connect the connection the trip coil to the auxiliary power source only after exceeding a certain im Total current accomplished. This maximum relay is, as well as the other auxiliary devices, For the sake of clarity, only shown at the upper end of the line.

The circuit can still be refined in such a way that one can take a precaution which, in cases where the directional relays fail for any reason, z. B. with one-sided feeding of the double line, after a certain time the two switches opens. For this purpose, as shown in the drawing at the top,

ζ. B. a differential converter 40 is provided with two oppositely magnetizing, of the individual currents of the current transformers 44th and 45 through which coils and one third coil, which acts on a timing relay 50. This third coil is de-energized as long as it is the two current transformers 44 and 45 deliver currents of equal strength. On the other hand, one delivers this .current converter a stronger current

to than the other, a voltage is generated in the third coil and thus the timing relay 50 put into operation. After a certain time has elapsed, this time relay closes its contacts and thus the circuit of both trip coils 52 and 53 of the two switches located in the lines. Appropriately, a device is provided in the circuit of the timing relay 50, which this Circuit breaks when one of the two switches is open, and the circuit closes when both switches are closed. A second timing relay 60 that too fed by the differential converter 40 can serve with regard to

As compensation processes delay the operation of the switching device somewhat. This second time relay will have to be set for a very short time (0.1 to 0.2 seconds). For example, it can handle contacts that are in one of the leads from the direct current source to the trip coils 52 and 53 . These auxiliary devices can also be used with advantage in the device shown in the illustration of the main patent.

Claims (7)

Patent claims: i. Device for the selective shutdown of faulty lines at Double lines fed from both ends according to patent 458 486, characterized in that the circuits of the Relay coils influenced by the individual currents in the line sections to be protected partially have a common return line through which the total current flows, in which the two other coils of the relays in question. 2. Device according to claim 1, characterized in that each direction relay closes depending on its deflection one of two pairs of contacts which are in the tripping circuits of the two switches at the end of the line in question, with fault-free lines against a restoring force and so that when ^{= in the} same direction Rash of both relays at one end of the line with respect to the restoring force, the tripping circuits of both switches at this end of the line are interrupted, and if the rash is not in the same direction, the tripping circuit of the switch is closed in the line whose individual current affects the relays deflecting against the restoring force. 3. Device according to claim 1 and 2, characterized in that a maximum relay is arranged on which the total current acts, which the trip coils of the switch independently of the The deflection of the relay receives de-energized as long as the total current is below a certain Limit remains. _ 4. Device according to claim 1 to 3, characterized in that a differential relay it is provided that in the event of uneven current distribution in the two lines after a certain amount of time has elapsed Time regardless of the deflection of the relay both switches open. 5. Device according to claim 1 to 4, characterized by a further time relay, that delays the operation of the switching device in any case a little, and possibly after switching off a line is out of action. 6. Device according to claim 1 to 5, characterized in that the movement of the contact piece moved by the direction relay is somewhat delayed in the direction opposite to the restoring force is. 7. Device according to claim 1 to 6, characterized in that the direction relay Earth fault relays are. 1 sheet of drawings.