DE447525C - Testing device for recalibrating overcurrent relays or the like. - Google Patents

Description

Test device for recalibrating overcurrent relays or the like Overland control centers and overland networks must have built-in maximum and protective relays subject to continuous monitoring by checking the triggering accuracy will. In addition to the necessary measuring instruments, most of the instruments are used for this test Cases a transformer is required, which in normal execution is a disproportionate has great weight. As a result, the calibration of relays in the partially inaccessible Transformer stations, etc., due to poor transport options associated with extraordinary difficulties and costs, so that some controls are not carried out at the expense of operational safety.

There are probably test facilities known that each required Generate amperage, but all of these have the disadvantage that they are easy to transport is impossible. The present invention now shows an arrangement which makes it possible to keep the transformer necessary for calibration so small that it is light and easy to handle can be promoted. The cables end in individual coils with the same number of turns subdivided test transformers are secondary to the outside to a switching device guided. This switching device now consists of four rows of contacts and two Rows of cutting knives. One row of knives can contact by turning it on two sides while the other row of knives only makes contact on one side. Two rows of contacts are connected to each other by busbars and lead the terminals for the device to be calibrated, while the other two rows of contacts are the ends of the form individual secondary coils. By inserting the knife, it is possible to the required amperage through series and parallel switches of the individual secondary coils. This switching method has the particular advantage that the individual secondary coils can be loaded up to the maximum value, because all coils participate equally in the supply of electricity. The power rails with the connection contacts alone carry the entire test current and must have one of the have the highest test current strength of the calibration device.

The primary coil is also divided in the same way, but only for a lower number of changeover contacts, since the device differs from that in the substation existing operating transformer is fed and the latter is usually a normal one Voltage i2o, 240 or q.8o (5oo) -Volt.

The new features are shown in the illustrations. Fig. I shows the test facility. a is the test transformer, the primary winding of which is fed through contacts b. The line leads over the switching contacts c, -through which it is possible to use any voltage from i2o to 480 volts. The secondary windings lead via the switching device d to the contacts e and f. The apparatus to be calibrated is connected to these. Fig.2 shows the circuit diagram of the secondary coil. The ends of the individual coils a1 are led to rows of contacts g and h. In addition to these two rows of contacts, there are also two rows of contacts i and k, which are connected to one another by busbars. The main connection contacts e and f are located on these. The contacts lt are provided with separating blades so that either contact h with g, that is to say the neighboring secondary coil, or with k; the main contact. can. Furthermore - the contacts i have separating blades, which makes it possible to connect them to the contact row g. Fig. 3 shows the circuit diagram of the primary coil. The switching takes place exactly as with the secondary coil, only with correspondingly fewer contacts.

Fig.q. through 9 show various circuits of the secondary coil. Stands z. B. in the circuit in Fig. Q. a test current of 100 amps at 12 volts is available, so with the circuit according to Fig. 5: Zoo Amp. and 6th volt, according to Fig. 6: 3oo Amp. And ¢ Volt, according to Fig. 7: 400 * Amp. and 3 volts, according to Fig. 8: 6oo amp. and 2 Volt, according to Fig. 9: 1200 Amp. And 1 Volt.

The cutting knives, which always only carry the current of one coil, can be kept very weak, and their switching can be done by means of a small switch rod be done with a hook that is in a hole located at the outer end of the cutting knife intervenes.

Claims (2)

PATENT CLAIMS: i. Test device for recalibrating overcurrent relays o. The like., characterized in that the lines from the individual coils of the subdivided test transformer are secondary to the outside, to one Switching device, which consists of four rows of contacts and two rows of knives and one half of the knife makes contact by flipping it on two sides, like this that by inserting any number of knives and by switching to one or the other side of the other row knives any one behind the other and parallel switch of the individual secondary coils of the test transformer .erreichbar is. 2. Device according to claim i, characterized in that the primary coils can also be switched in the same way in order to be able to: connect the test transformer to the usual voltages between 125 and 500 volts.