DE201457C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- te 201457 CLASS 21 e. GROUP

CHARLES LINKE in BISCHHEIM i.Els.

Patented in the German Empire on December 17, 1907.

The invention aims at the automatic display and localization of permanent or temporary faults and faults in high voltage lines both in the open, as well as in the transformer and other rooms. she consists essentially in the direct involvement of the various operating currents adjustable drop flap devices in the

ίο management, which in the event of errors o. The like. come into effect and possibly without the line network reviewing Difficulty enabling the fault location to be easily and reliably delimited or to be determined.

With the disruptions that often occur in extensive high-voltage long-distance networks of all kinds, which owe their emergence to the most varied of causes, be it z. B.

damaged by atmospheric or other influences or already during manufacture Insulators that have not failed completely flawlessly, be it due to the most varied of coincidences caused earth faults or short circuits, it is known to be. the faulty Route or point without continuous business interruption as quickly as possible to investigate. In practice, the last-mentioned condition is fulfilled in in many cases the greatest difficulties. Is the high-voltage long-distance network as a ring line carried out, however, after the defective area has been determined, it can go to the final Eliminate the error, switch off the relevant route and switch it on a disconnection switch, which can be reached by telephone on an occupied Substation is arranged, the consumption points will be reconnected very soon. On the other hand, the elimination of malfunctions of all kinds in systems that are not designed as a ring line is of the greatest importance. because under certain circumstances the whole network is temporarily out of service for a longer period of time must be, which has to be done in particular at the points of consumption with a great need for strength can lead to great discrepancies.

The rectification of these grievances, securing the lines in the usual way and so on Trying to pinpoint the locations of the faults is fairly extensive and extensive Overland control centers directly impossible, especially if long distances are important Factories, substations, etc. with high power consumption are connected without any accumulator or machine reserve. In such cases have hitherto been compelled to make a stopgap, even temporarily occurring disturbances .the transformer rooms, etc. as quickly as possible an accurate Subject to inspection to replace blown fuses, etc. This not only requires a larger number of people who are always ready to serve, but also expensive means of transport, such as automobiles and the like serving instruments, such as B. the static voltmeter, also fail because at

only temporary occurrence of the error the instruments also on the error or correctly display the damaged area, so you are required to look more closely beforehand

. 5 to secure the lines more strongly or to connect them together by copper bars and only correspondingly weak to secure on occupied substations or transformer stations, so that in the event of malfunctions only on

ίο these bodies under normal conditions blown fuses etc. need to be replaced.

In order to remedy the abuses indicated on the one hand and larger ones on the other Disturbances, strong earth faults or short circuits, which are particularly applicable to a high-voltage long-distance network harmful effects of overvoltages with connected cables, to prevent, are according to the invention, both on the line and in the transformer rooms etc., adjustable drop flap indicators for fluctuations in the operating current arranged, which come into action when the normal current strength is exceeded.

In the drawings, first in Figs. Ι and 2 a coming in the error display device according to the invention in application, shown in two views with partial section, namely in its use ■ in an existing network, where it is advantageous to an empty Fuse cartridge can be attached. _r Fig. 3 illustrates the mode of operation of the new device in a high-voltage ring line system, where the fault display device is placed in series with the fuses.

As can be seen in FIGS. Ι and 2, the drop flap device consists essentially of a metallic coil housing a, which is cut through to avoid eddy currents and carries an appropriate number of strong copper wire windings, one end of which is soldered to the housing, while the other b is bent in a bow shape . The entire coil is rotatably mounted by means of a lug c attached to the housing around the eye of a bracket f connected to the lower contact lug d of the empty fuse cartridge e , which in turn is held by a clamp g placed around the glass tubes of the empty cartridge. An iron core h protrudes into the interior of the coil, which is loosely attached to a two-armed lever k rotatable about the stand i. One end of this engages under a stop I and on the other has a nose m which holds the drop disk 0 which is rotatable about the point η. At the same end, a running or counterweight p is placed, with which the drop in the flap can be regulated in accordance with the fluctuations in the operating current strength. In order to determine at every inclination of the cartridge, the coil itself always perpendicular, the bow-shaped end of the copper wire windings b circle around the fulcrum of the bobbin case is bent and the like via a screw 0.. Q in a clamping piece which r by a copper bar with the upper Contact lug s connected, found in a suitable position or inclination to the cartridge. In the case of purely structural changes, this drop flap device can be used in a suitable form for expansion on the line and in transformer rooms. It should be pointed out that these drop flap devices replace throttle coils or the like in the most effective manner or make them superfluous.

The operation of these devices is very simple. As soon as the operating current strength reaches the suddenly exceeds normal limit by about 25 percent, the iron core becomes the coil pulled in and thereby brought the signal flap to fall, whereby the occurring "The fault is localized and can be easily eliminated.

Fig. 3 shows the new error display device applied to a ring line executed high-voltage long-distance network and should at the same time illustrate its mode of operation.

If, for example, an earth fault occurs between points A and B on line III, the operating current increases as the current flows to earth as an induction-free resistance. The resulting increased current strength causes the iron core to be attracted as it flows through the drop flap device 3, causing its drop flap to be triggered and the fault location between AB is immediately made visible to the line inspector. If a short circuit occurs in any way between points C and D , assumed between lines II and III, the increased current flows through the flap devices 2, 3 and 5, 6 and causes their signal discs to fall. From this, the line inspector can immediately draw the conclusion that the fault location is behind the devices 4, 5, 6 up to point D.

The same processes occur when fuses in occupied substations, etc. melt through, whereby those arranged in these rooms, in a row, to the Sichemngen switched drop flap devices, e.g. 7, 8, 9 come into effect. Finally it may also be noted that the large one produced when a fuse is blown off Overvoltage - as a result of tearing off the light

bogens - no FalUdappenapparate triggers from backwards, if they are on the correct current strength are set, since this overvoltage lags behind the operating current.

Claims (1)

Patent claim: Device for the automatic display and definition of errors in high-voltage line networks, characterized in that electromagnetic drop flap devices, which as a result of the Attraction, the sliding counterweight influencing the iron core on the relevant Operating currents are adjustable, in any number on the route, in transformer rooms and otherwise appropriate Places are switched on or installed in such a way that they are permanent or temporary malfunctions due to the resulting increased current intensity. 1 sheet of drawings.