DE1022309B - Step switching device with resistance bridging for a transformer - Google Patents

Description

The invention relates to a tap changer with resistance bridging, provided with one with the taps of a transformer connectable, de-energized tap selector, one connected in series with it, to a network connectable diverter switch that switches under load and a voltage divider resistor, wherein the tap selector has at least two separate switching contacts for each phase, those with connecting contacts work together to connect the transformer taps and anyway during the effective part of the stroke of the diverter switch with one or the other of a pair of directly tracing connection contacts are connected, and the diverter switch During the switching process, first the two switching contacts of the step selector through the voltage divider resistor connects to each other, then on this resistor of one Switching contact moved to the other, and then the resistor connection is interrupted again.

A tap changer of this type is already known. Its principle is shown in Fig. 1 of the drawing. In this, 1 is the transformer winding. It has taps 2, 3, 4, 5, 6. These can go through two switching contacts 7, 8 of the tap selector can be selected, they are with the ends of one in two parts 9 and 10 divided voltage divider resistor connected. The parts 9, 10 of this resistor are with Tap contacts 11, 12, 13, 14 or tap contacts 15, 16, 17, 18 connected; The contacts work with the movable switch contact 19 of a Diverter switch together. The switching contact 19 is connected to a conductor 20 of a distribution network. In the position shown, the conductor 20 is connected to the tap 2 of a step transformer. If this conductor is connected to another tap, e.g. B. the tap 4, must be connected, then as soon as the switching contacts 7 and 8 are in two immediately following switching positions, in the present case they are connected to the taps 2 and 3, the switching contact 19 of the diverter switch is moved in the direction of arrow 21. This will make contacts 7 and 8 through the series connection of resistors 9 and 10 is bridged. With this movement the switch contact goes 19 gradually from one end to the other end of the voltage divider resistor, so that finally the conductor 20 lies directly on the switching contact 8. The resistor connection is in this position between the switch contacts. 7 and 8 interrupted. The switching contact 7 can then be de-energized by the Tap 2 can be moved after tap 4. After this is done, the switch contact Tap changer

with resistance bridging

for a transformer

Applicant:

Willem Smit & Co's

Transformatorenfabriek N.V.,

Nijmegen (Netherlands)

Representative: Dipl.-Ing. H. Schaefer, patent attorney,
Hamburg 1, Lilienstr. 36

Claimed priority:
Netherlands 13 March 1954

19 brought back into the position shown in FIG. As a result, the voltage divider resistor is first connected between the switching contacts 8 and 7, then the switching contact 19 moves to the starting position on the tensioning divider resistor back, and finally the resistor connection is broken again. The conductor 20 is then connected to tap 4.

As soon as the switching contact 19 of the diverter switch in this known tap changer The voltage divider resistor between the switching contacts 7 and 8 of the tap selector switches is over This resistance closes a circuit, which is caused by the between the taps 2 and 3 Part of the transformer winding is fed.

The current generated in this circuit, the so-called circulating current, depends on the voltage of the transformer stage and the values of the voltage divider resistance addicted. The diverter switch must now not only for the leadership of the main or Mains current, but also for switching this circulating current. About the construction to be able to carry out the diverter switch easily and simply, one will then strive to reduce the circulating current to keep it small. In practice, this means using the largest possible voltage divider resistor, the maintenance of favorable contact stresses during the switching process in Parts is distributed, which are dimensioned in a certain way with respect to each other.

709 848/129

3 4

The size of the voltage divider resistor is the same high, so that the circulating current in these

but tied to certain limits. If you choose moments and also the contact stress

If this resistance is large, the recurring increases when switching in this phase of the process

the voltages that switch the contacts are too much. The value of this resistance during the exertion, as the mains current causes too much voltage movement of the diverter switch from one to the other

Voltage drop via the switching contact of the tap selector that is switched on during control is then the case

switched parts of the voltage divider resistor down as small as possible, so that the contact needs

calls, which can also have the disadvantage that one selected small bursts in this switching period

undesirably large voltage drops in the network and the fluctuations in the network voltage, ίο can nuiig also be small.

If the voltage divider resistance is chosen to be small. To achieve the intended purpose so although the recurring to be switched can be the diverter switch for the reduction and Tensions and also the voltage drop in the increase in the value of the resistance connection network low, but the switching of the contacts in a manner known per se is a part of this the currents then become disproportionately large. 15 Short-circuit the connection forming the resistor In the case of the known tap changer, the short circuit or part of this connection is the value of the voltage divider resistance equal to the formation forming resistance cancel. It is too Sum of the values of the parts in which this contradictory is possible that the diverter switch for the downward distance has been divided up, and it is the measurement and increase of the value of the contradictions Share in relation to each other the success of a stand connection in a well-known way against compromise between the mentioned one another would arise from this connection removed or this opposing demands, namely a small connection adds.

Circulating current, a favorable contact stress. Two embodiments of the invention are shown in FIG

during the holding process and a small chip- Fig. 2, 3 and 4 shown.

voltage reduction in the network during regulation. A 25 j} j _e tap changer according to FIGS. 2 and 3 has a suitable compromise can be achieved by a construction similar to that of FIG 3 parts resistance is shared, makes great. However, this also consists of two parts 22 connected in series. In practice, the possibility soon has its limit, since 23 or 24, 25. The parts 22 and 24 are correct in no sense, the contact stresses, 3 ° being with the resistance parts 9 and 10 of FIG. 1, which occur during the switchover, coincide less and are to be selected in the same way with the tapping pins which are connected to the end of the switching contacts 11 to 14 and 15 to 18, respectively. The process of interrupting the circulating current resistance parts 23 and 25 are to be called to the tap. In this case, bars 14, 26, 27 or 28, 29, 15 must be connected. With the circulating current at one of the step voltage 35 equal to the tapping contacts, the switching contact 30 of the recurring voltage acts to be switched. Diverter switch together. In a further known device, this switching contact is now designed in such a way that it can simultaneously extend itself by switching transformer taps under the tapping contacts 11 to 14 and 26 to 29, the resistors and switching contacts. When moving to the left (arrow with a burning of the contacts is avoided, so 40 21 in Fig. 2), the switching contact 30 is first applied so that the voltage drop in the tap contact 28 comes into contact, whereby the load current line, which during the Switching «of resistors 24 and 25 in series between the switching of one winding tap to the other through the contacts 7 and 8 of the tap selector, whoever generates the resistances changes continuously. the. The resistance of the bridging is then reduced, because a reduction in the circuit is relatively large, so that the diverter switch only needs to increase the voltage by increasing the gradually changing current. With the further movement of the switching recess in the network during a switchover with clock 30, the resistor 25 is gradually brought briefly. closed, but the line conductor 20 still remains. Only when that is to be created for a transformer in which the switching contact 30 reaches the tapping contact 15 and the described deficiency of the known device means that the entire resistor 25 is short-circuited. has, he leaves the tapping contact 11 (see dashed line To solve this problem is a device 55 position of the switching contacts> 30 in Fig. 2). When provided, which according to the invention is characterized by moving the switching contact 30, it is characterized by the fact that the diverter switch and the power line 20 via the voltage divider resistor formed by the resistor 22 and 24 voltage divider resistor are designed to work together so that the diverter switch tap 2 on the tap 3 is first placed the Traiisformatorwährend the switching process the value of the winding ^6o. 1 Since the resistance 22 and 24 between the two contacts of the tap selector has a fairly small value, the resistance connection is reduced during this switched resistor connection, before movement of the switching contact 30 on the chipper interrupts the direct connection with the one switching divider resistor, the voltage fluctuation in the tap selector contact , then the her network also low. When the switching contact 30 beibe- offset value in a known manner ⁶ 5 (ie, also the power conductors 20) keeps the switching contact 8 and the latter. Value increased again after he and the transformer tap 3 (Fig. 3), the direct connection with the other switching so the bridging is brought about by the resistor 22 contact of the tap selector. educated. During this switching process, according to the invention, the value of the bridging resistance value is always the same. Finally, the kung resistance is gradually increased during the switch-on and switch-off 70 short circuit of the resistor 23.

lifted so that the bridging resistance is greater again; when leaving the tapping contact27 the resistance connection between contacts 7 and 8 is interrupted again. Because in this The moment the resistors 22 and 23 are connected in series, the circulating current to be interrupted is again relatively small. By means of the auxiliary resistors 23 and 25 it is possible to adjust the size of the circulating current to be switched to the requirements of Adjust practice without running the risk of excessive voltage drops in the network needs to be observed during the switchover process.

The embodiment according to FIG. 4 essentially operates in the same way as that according to FIGS. 2 and 3. The parts 22 and 23 and the parts 24 and 25 of the voltage divider resistor are in relation to one another opposite to. In the embodiment according to FIG. 4, the resistors 22 and 24 have in addition to the tapping contacts 12 to 14 or 15 to 17 or the tapping contacts 11 α to 13 a or 15 a to 17 a. The ones with the .Switch contacts 7 and 8 connected end tap contacts 11 'and 18' have an elongated shape and lie opposite the tapping contacts 28, 29 or 26, 27 and in part to the tapping contact 15 and 14, respectively. If the switching contact 31 of the diverter switch is moved from the position shown to the left (arrow 21), so first the tapping contact 28 is connected to the end contact 11 ', and there are the resistors 24 and 25 placed in series between the switching contacts 7 and 8 of the tap selector. Is moving If the diverter switch continues, parts of the resistor 25 are switched off until finally this Resistance 25 completely disabled is fs. the position 31 'of the switch contact 31).

Thereafter, the power line 20 is through the switching contact 31 on the then by the resistors 24 and

22 formed voltage divider resistor after the end contact 18 and the associated switching contact 8 of the step selector moved (position 31 ″ of the switching contact 31) Schaltkotitaktes 31 are parts of the resistor

23 added to the resistor connection until this connection is finally interrupted (Position 31 "'of the switching contact 31). At the moment of the interruption, the resistors 22 and 23 connected in series, and the circulating current is again quite small.

Claims (3)

Patent claims: 1. Step switching device with resistance bridging, provided with a taps of a transformer connectable, de-energized tap selector, a series-connected tap that can be connected to a network, under load switching diverter switch and a voltage divider resistor, the The step selector for each phase has at least two separate switching contacts with connecting contacts for connecting the transformer taps work together and at least during the effective part of the stroke of the diverter switch with one or the other of a pair of connecting contacts immediately following one another are connected, and the diverter switch first touches the two switching contacts of the tap selector during the switching process connects to each other through the voltage divider resistor, then on this Resistance moved from one switch contact to the other, and then the resistor connection interrupts again, characterized in that the diverter switch and the voltage divider resistor are designed and work together that the diverter switch during the switching process first the. value the resistance connection switched between the two contacts of the tap selector reduces, before it interrupts the direct connection with one switching contact of the tap selector, then maintains the reduced value in a manner known per se and this value again enlarged after having the direct connection with the other switching contact of the tap changer has brought about. 2. StufenschalteinrichtUing according to claim 1, characterized characterized in that the diverter switch for reducing and increasing the Value of the resistance connection in a manner known per se a part of this connection forming resistance short-circuits or the short-circuit of part of this connection repeals educational resistance. 3. Step switching device according to claim 1, characterized in that the diverter switch for the decrease and increase of the value of the resistor connection in a known manner Way, resistors are removed from the connection or added to this connection. Documents considered.
Swiss patent specification No. 219 773,
234223. 1 sheet of drawings © 709 848/129 12.