DE676798C - Device for selective protection relay - Google Patents

Description

Device for selective protection relays The behavior of the selective protection devices is determined by the location of the fault location. This is especially true of those Protective devices, the time delay of which increases with the increasing distance from the fault grows. After the fault has been switched off, it is now important to identify the location of the fault To know as exactly as possible about any necessary restoration work to be able to carry out as quickly as possible. You therefore have drop flap relays with the protective device connected and marked by this at least the section within which a Error had arisen. These drop flaps only show the pipe section in which the fault occurred. To get a more precise error location display @ received, one has therefore such resistance protection relays that a line resistance own measuring adjustment system, drag pointer assigned to a subsequent To enable reading of the setting of the measuring system. From the information on the split-seconds pointer the location of the fault can then be seen on the relays at both ends of the line, without the unknown size of the resistance at the point of failure the result significantly influenced. In addition to the error display, they are for operational management and the constant monitoring of the condition of the power distribution system as well further information is important. An arrangement according to the invention should therefore not only the distance to the fault is recorded, but other information should be used, that are important for operational management are recorded on a recording surface will. So it is z. B. valuable to be able to see retrospectively whether and when the The fault has been switched off on a different feed line to the fault location, between which phases an error arose, whether and when it occurred in other phases is trespassed. At the same time, application of the invention provides a record about the Activity of the relay, via its excitation, via its running time, about any switchover of his measuring mechanism by the excitation relay, so that to a certain extent every fault in which the relay would be activated, a test at the same time of the relay device means that the relay itself has a flawless record is made.

This is achieved according to the invention in that each movement of the Measuring work continuously recorded automatically in a certain time scale will. The recording can be used in order to burden the measuring system as little as possible, cause by a light beam, which is deflected when the shaft of the measuring mechanism is rotated or is dimmed and falls on a recording surface; which at the same time with the pickup of the protective device is set in motion. Instead of a ray of light you can also use a pen, but the friction of the pen must be used on the drawing base should be as small as possible so that there are no measurement errors. Instead of directly influencing a writing surface with a light beam or a pen can also be used for auxiliary equipment, for example in such Way that a beam of light directed at a photocell or selenium cell with alternating Angular adjustment of the measuring mechanism is released more and more or dimmed and that the variable current generated in this way is passed through a compensation circuit or an amplifier circuit controls a display device. Is characteristic for the invention the recording of a line of movement of the measuring work.

The recording can take place in a form that cannot be erased, for example by transferring them to a photographically sensitive substrate by means of a beam of light or by drawing a line on a film with a pen or writes a strip of paper that has a photosensitive layer that passes through a soot deposit or some other opaque precipitate is covered. The pen scratches the line of movement out of the opaque one Top layer out without any substantial resistance: to find: the line, which the pen has drawn on the writing pad is then the incident Exposed to light and can be processed photographically after washing off the top layer will. It is sufficient if the top layer is removed that far with the pen is that with a lot longer exposure, z. B. retrospectively by a special Exposure device, a photographic fixation of the line of movement achieved will. Another means of fixing the scraped-out line of motion is in this; with the help of an atomizer, spray a dye on, which is only where the pen has scratched away the cover layer, sticks to the paper, so that you can rinse or wipe the writing pad, keeping the line of movement on dpr document is preserved. To reduce the friction of the pen as much as possible, he can get a polished tip, optionally made of a stone or of glass. One can also use the spark pen, known per se, in which the pen does not touch the base at all, but rather makes its way through arcing marked on the base.

It is advisable to keep the line of movement of the mega-work not only at the beginning record the error briefly, but continue recording as long as how the fault exists, i.e. how the protective device is still picked up.

The development of a bug that arose between two phases is, to a three-phase fault or by touching the arc with the crossbeam a ground fault is determined by the recording of the line of movement according to further invention made recognizable by the fact that depending on the excitation relay the movement line is recorded laterally offset in parallel tracks. It several recordings can be made at the same time next to each other, so that it can be seen from the recording lines how many and which phase conductors are affected by the error, whether there is a short circuit or a double earth fault. .

Is through four exemplary embodiments. the inventive concept explained in more detail.

In Fig. I is a line to be protected i with an associated line switch a current transformer 3 and a voltage transformer q. reproduced in single-phase representation. The switch a is triggered by a trip coil 5, if one is from a clockwork driven running contact 6 and one corresponding to the size of the line resistance adjusting contact 7 touch each other. A circuit is then created from plus to 6, 7, the coil 5 to minus. The setting contact 7 is coupled with a resistance measuring mechanism, which consists of a Ferraris disk 8, on which a current magnet 9 and a tension magnet io exert opposing forces, whose sizes depend on the angular position of the Disk 8 are dependent. To make this recognizable, the disk is shown as a non-circular disk. she is in a known manner electrically independent of one another by two slots i i Half discs divided so that the current magnet 9 only on the one half disc and the tension magnet io only acts on the other half-disk. On the shaft 12 of the Disk 8 sits according to the invention, a pen 13. A paper strip or film strip 14 is wound onto a roll 15 as soon as a drive device 16, the for example a clockwork or a synchronous motor is set in motion. The pen 13 then draws a line on the writing pad 14 on which, since the transport speed of the roller 15 is known, the movements of the disc 8 are recorded on a certain time scale. Because the tip of the pen 13 describes an arc of a circle, the surface of the strip 14 is guided by guide rollers 17, 18, i9 and 2o are curved according to the movement path of the tip 13. The desk pad 14 consists for example of a film or paper strip, which, as in that lower part can be seen, carries a system of lines under a top layer. In this are certain time intervals through horizontal lines and certain through vertical lines Resistance values or error distances are plotted. Draws in this system of lines the pin 13 the line of movement of the measuring mechanism 8, 9, io, so that subsequently the changes in the resistance of the line over time can be read immediately can. The drive device 16 is normally at rest. The current magnet 9 is bridged by a contact 21, so that the position of the movable system corresponds to the greatest line resistance. As soon as an error occurs on line i, contact 21 is opened by an overcurrent relay 22. The overcurrent relay 22 causes at the same time the release of the drive mechanism 16 and the excitation of the drive magnet 9 of the resistance measuring mechanism. So it starts at the same time as the setting of the Measuring mechanism and the pen 13 of the transport of the chart carrier 17. You can also omit the short-circuit contact 21, so that the pen 13 at the moment the unlatching of the drive device 16 his record of the resistance value begins on, which existed immediately before the error occurred. The drive device 16 remains active as long as relay 21 carries overcurrent.

In Fig. 2, an arrangement for photographically recording the line of movement is illustrated. As in FIG. The moving disc of the measuring mechanism bears the number 8, the current magnet the number 9 and the voltage magnet the number io. The shaft of the disc is denoted by 1a, the setting contact of the relay by 7, and the running contact by 6. When the two contacts 7 and 6 touch each other, the trip coil 5 receives current and opens the switch 2.

The disc 8 of the measuring mechanism turns under the action of the coil 9 and io in a position corresponding to the line resistance. Above the pane 8 according to the invention a film cassette 3o is arranged in which on a reel 31 a film supply and wound onto a spool 32 the already exposed piece of film is. The spool 32 is driven by a drive device 33. To the drive A clockwork or an electric motor, in particular a synchronous motor, can be used will. In the bottom of the cassette 3o there is a slot 34, and under this the disc 8 has a helically wound slot 35. The point at which the slots. 34 and 35 overlap, shifts depending on the angular position of the disc 8 along the direction, for example, radially to the shaft 12 Slot 34. The two slots can of course also have other shapes and angular positions own. All that matters is that it is clear at every angular position of the disc 8 another point of the slot 34 comes into overlap with the slot 35. Below a light source 36 is provided for the two slits, which expediently emits its light on a ground glass 37 radiates from which that point of the in the cassette 30 lying film is exposed, under which the slits 34 and 35 intersect.

The operation of the device is as follows: As soon as a fault occurs on line i, its voltage decreases and its current strength increases. Under the action of the magnets io and 9, the measuring mechanism 8, 12 assumes a certain angular position. At the same time, however, the timers 33 and 4o are also brought to run by the magnets 39 and 41. Furthermore, a contact 43 is closed by a relay 42, so that the lamp 36 lights up. Depending on the position assumed by the setting contact 7, it takes a shorter or longer time until the contact 6 reaches the contact 7, whereby the excitation circuit of the trip coil 5 is then closed. During this time, during which the protective device is activated, ie the current on line i is above the excitation current strength = the timer 33 runs down and transports the film at a constant speed: You can, for example, use relay 44 with a changeover contact 45 for the moment mark the contact between 6 and 7 by briefly interrupting the current of the light source 36. Corresponding to the angular movements which the disk 8 executes within this entire time, a line is recorded by the light source 36 on the film strip in the cassette 30 , which line reproduces all the movements of the disk 8. As a result, after the film has been developed, an exact movement diagram of the measuring mechanism 8, 12 is obtained. The light-tight closure of the cassette 30 includes a cover, which is not shown in the figure, in order to make the interior of the cassette visible. In the described exemplary embodiments of the invention, it is not provided that the type of error and the phases affected by the error are clearly marked in the diagram. Such an effect can be achieved with them, however, by dividing the writing pad into several parallel writing tracks and, depending on the excitation relay, shifting the writing surface in such a way that, depending on which excitation relay has responded, the recording of the movement line in one certain writing path takes place. Such a record then gives a possible change in the type of fault, for example the development of a short circuit to a ground fault or a two-phase short circuit to a three-phase short circuit, not only in itself, but also with regard to the point in time at which the transition to the other type of fault occurred; around also in the order in which the errors arose; flawlessly again, since all records are made on the same recording strip. In the device in FIG. 2, the film width can also be subdivided into a plurality of recording paths, each of which is provided for a specific error case. A plurality of slots 35 are then provided on the disc 8; and by means of diaphragms actuated by the excitation relay, the part of the slot 34 determined for the type of defect present can be released for exposure.

3 explains an arrangement which, as a function of auxiliary relays, records movement lines that are offset laterally next to one another, and, under certain circumstances, several lines at the same time. The movable measuring mechanism is again denoted by 8. It is influenced by a current coil 9 and a voltage coil iö. According to the invention, three mirrors 51, 52 and 53 are attached to the shaft 12 of this measuring mechanism. Three light beams, which emanate from a light source 54, which illuminates a matte log 55, fall on these mirrors. The light source 54 and the ground glass 55 are covered by a screen 56 in such a way that they cannot throw any stray light onto the mirrors 51 to 53. In the front wall of the screen 56, three narrow slots 57, 58 and 59 are provided, the images of which are displayed individually on one of the mirrors 51, 52 and 53. The mirrors reflect the received light beams onto the longitudinal slot 61 of a film cassette 62. In any position of the disc 8 as an image of the three slots 57, 58 and 59 on the front side of the cassette 62, the three vertical light strips shown, which transversely over the longitudinal slot 61 lie. When the shaft 12 is rotated, these three light strips migrate to the side. A film that is moved within the cassette 62 under the longitudinal slot 61 then records three adjacent curves.

These three curves, the number of which is only chosen as an example, correspond to three starting relays, for example three overcurrent starting relays, in the Phases of a three-phase network. So, first of all, you get a record of the Movements of the measuring mechanism 8 and, secondly, at the same time a record of whether the Activity of the protective device by a; two or three trigger relays triggered was or if these three d pickup relays did not respond at the same time, at what time interval they started working one after the other. One can therefore not just changes in resistance or any other size from the diagram read of the fault circuit, which is determined by the measuring mechanism 8, but also - changes in the fault by spreading to other phase lines and can also recognize the phases involved in the error.

In the arrangement shown in FIG. 3, a device is required for these recordings which controls the three light beams as a function of the excitation relay. Such a device is shown in FIG. 4, which shows the front view of the shield 56. On the front side 63 of the shield 56, for example, three narrow longitudinal slots 57, 58, 59 are arranged one above the other. A small screen 65 belongs to each longitudinal slot; 66 and 67, which are each held by a spring 69, 70 and 71 or by a weight in a rest position; in which the slits 57 to 59 are covered so that no light beam falls on the mirrors 51 to 53.

The diaphragms 65 and 66 are shown in their rest position. the Panels have window cutouts 72, 73 and 7.1. These excerpts are in the rest position laterally next to the slots 57 to 59. The bottom panel 67, on the other hand is drawn in the position in which it releases the light beam. One sees hence the slot 59 in the middle of the window 7d ..

Three auxiliary relays 76, 77 and 75 are used to control orifices 65, 66 and 67, and it is assumed that relay 78 is energized. These relays are controlled, for example, by the excitation relay in such a way that each of these relays is dependent on one of the three overcurrent relays on the line. You can also use other sizes to control these relays, e.g. B. control a relay by the earth fault voltage, the rest by overcurrent, in order to make a double earth fault recognizable as such.

There are such time-selective relays in which with a running contact, which is set in motion when the protective device is triggered, the contact of a Adjustment system interacts, which is dependent on the line resistance, but normally neither the position corresponding to the zero resistance nor the position corresponding to the operating resistance but is held at an intermediate value of the measuring range. if Due to a fault on the line, a line resistance occurs which is smaller is than corresponds to the forced rest position of the adjustment system, is via a special rapid contact driven by the timer an immediate switch triggering brought about.

In order to use such a known relay construction in the event of a fault, where the line resistance is lower. than that resistance value which the rest position of the adjustment system corresponds to a record of the distance to the fault and to receive information about any changes to the fault until it is switched off one with the movable adjustment system coupled stop, which in the Rest position against a fixed stop, train so that a movement of the Slice in the direction of small resistance values is also possible if the two stops are against one another. For this purpose, for example, the clutch one stop with the moving system or the attachment of the other Stop not rigid, but made by means of a flexible spring. at Errors in the immediate vicinity of the relay location is a high current in the relay effective, which is sufficient to overcome this spring force. As a result then can the movement line of the setting system even for errors that have arisen close to the relay location be drawn.

In order to use the shortest switching time of the relay as much as possible, the relay is usually set in such a way that the route is switched off by the Rapid contact of the relay, if possible, for all errors within the range assigned to the relay Line section is possible. You therefore set the relay so that it is from its shortest delay time given by the express contact is only expired if an error occurred at the far end of the line route assigned to the relay is. The recording of the movement line even in the event of errors that lead to shutdown the route through the rapid contact of the relay is therefore used for the determination the error situation is very valuable.

The relays with resistance measuring mechanism, which have a rapid contact and consequently in the event of an error within a part of the associated section cause the immediate switch tripping can be designed so that they a circuit that prepares the switch for the immediate opening of the switch by means of its high-speed contact keep closed as long as the relay has not yet picked up and as a result its voltage coil is not yet switched on. If at the relay normally only the current coil is switched on, the measuring mechanism is in a position which is either predetermined by the stop or if a resilient one is used Stop in the position that corresponds to zero resistance. If a solid Stop is used, this is used to record the line of movement throughout Measuring range, i.e. also in the measuring range that leads to the immediate triggering of the switch, to allow, withdrawn at the moment of excitation, so that the measuring mechanism itself can adjust freely.

Claims (1)

PATENT CLAIMS: e.g. Device for selective protection relays, in which a movable measuring mechanism one in front of the current, of the voltage or of both measured quantities assumes dependent angular position, characterized in that each movement of the Measuring mechanism of the selective protection relay continuously and automatically in a certain time scale is recorded. a. Device according to claim i, characterized in that the movable measuring mechanism reproduces its movements line recorded on a chart carrier in a non-smearable form. 3. Establishment according to claim i or i and 2, characterized in that the line of movement from a layer, in particular a layer of carbon black, on a film or a strip of paper is applied with or with a non-photosensitive layer, through one with the Shaft of the movable measuring mechanism coupled pen is scraped out. q .. Device according to claim i or i and following, characterized in that the Writing pad on which the line of movement is recorded when stimulated the protective device is set in motion and for the entire duration of the Stimulation stays in motion. 5. Device according to claim i or i and the following, characterized in that, depending on the excitation relay, not only the movement line, but also a reminder for the type of error or for the phases it has hit are marked. 6. Device according to claim r and 5, characterized in that the movement lines are dependent on the excitation relay can be recorded laterally offset from one another. 7. Device according to claim i or i and the following in the case of resistance time step protection with toggle relay characterized that for the fault location marking a resistance measuring mechanism with an adjustment system is provided. sen movement line for subsequent fault location determination is recorded. G. Device according to claim z or i and the following for relays with a resistance measuring mechanism, which in the event of errors within a certain fraction of the section to be protected, a contact is closed for immediate shutdown holds, characterized in that the movement line of the measuring mechanism also in the resistance range the immediate switch tripping is indicated. G. Device according to claim i or z and following for relays with a resistance measuring mechanism; which by a Stop is usually held in a rest position that is neither the smallest still corresponds to the largest value of the measuring range, characterized in that the Measuring mechanism for the purpose of recording the line of movement after the protection has been activated to an adjustment to a lower resistance value than its rest position corresponds, is released: