DE533960C - Device for monitoring the synchronous running of the regulations of regulating transformers working in parallel - Google Patents

Description

Device for monitoring the synchronous running of the rules and regulations in parallel working regulating transformers When regulating transformers are operated in parallel it is necessary that all transformers always have the same voltage level are set. If this is not the case, equalizing currents occur below Certain circumstances can be a multiple of the load current, but in any case the Increase transformer losses unnecessarily. Even during the control process itself the rules of the individual transformers work as synchronously as possible so all transformers switched to the new voltage level at the same time or at least only very briefly to different voltage levels are connected.

The switching of the transformers working in parallel to another voltage level can be done by shutting down the whole system temporarily, switching the transformers to a certain level and then starting the system again, or the transformers can be switched on by hand at the same time bring into the new switch position; however, the transformers can also be switched to the new voltage level one after the other, if necessary with the respective disconnection of the individual transformer. However, it is more advantageous to operate the transformer rules using motors that are controlled from a command post. Subject of the invention. is a protective device for regulating transformers in parallel that prevent the working of the regulating devices. automatically monitored and in the event of malfunctions, e.g. B. if too much lagging behind or running ahead of individual sets of rules, a signal, protection, locking device o. This either makes the operating personnel aware of the malfunction, or the entire system or only the transformer with the remaining or leading set of rules is put out of operation, or another control is blocked.

According to the invention, each transformer is a contact apparatus with the set of rules coupled. Each contact apparatus has two rows of contact points, one of which is the Contact points of one row in the direction of movement of the movable contact parts are offset from those in the other row. Each row contains at least one fixed or moving contact that cooperates with a moving or fixed contact. The contact devices are according to the invention in at least two with signal, protection, Locking devices or the like. Connected branches that also coincide in places can, switched on, in such a way that the contact points in the normal operating state identical rows are connected in series in each branch. Have the rules and regulations of the transformers are intermediate positions that they only assume for a short time may, e.g. B. Positions in which a voltage stage is short-circuited or through a resistor is bridged, it may be useful if the signaling, protection and locking devices are not in these intermediate positions Activity, the transformers, for example, with the exception of the remaining, can be regulated further up to a main position in which they are permanent without danger can stay switched on. According to the invention in this case, the contact apparatus designed such that the contacts in at least one row in each switching stage form a continuous contact path in these intermediate positions. The contacts the other row can be used for each switching step except for one, which is the gaps in the first row covers, to be eliminated.

According to the invention, each contact apparatus receives a switch which he short-circuited when decommissioning the associated transformer can be. The switch for short-circuiting is expediently mechanical or electrical coupled to the transformer's oil switch or disconnector.

Embodiments of the subject matter of the invention are, more in the scheme, shown in the drawing. Figs. I to 7 relate to embodiments for two Transformers working in parallel, Fig. 8 for three, Fig. 9 for four transformers.

In Fig. I and 2, the contact roller i shown in the development is coupled to the set of rules of one transformer, and the contact roller 2 is coupled to the set of rules of the second transformer. Contacts 3 are attached to each roller at certain intervals. The brushes 41, 42, 51, 52 slide on the contacts of the rollers i. The brushes 5 i, 52 are offset from the brushes 41, 42 by half a contact distance in the direction of movement of the roller i indicated by an arrow. The brushes 61, 62 and 74 72 slide on the contacts of the roller 2. Here, too, the brushes 74 72 are offset from the brushes 61, 62 by half a contact distance. The brushes 41, 62, the brushes 5 i, 72, as well as the brushes 61, 52 and 71, 42 are connected to one another in pairs. The last two pairs of brushes 61 and 52, 71 and 42 are each connected to a connection contact 4, 5. The circuit containing the signal, protection, locking device or the like is connected to the contacts 4, 5. Within these contacts, the circuit is split into two parallel branches a and b . The protective device is designed in such a way that it responds when the conductive connection between the contacts q., 5. get lost. The conductive connection is always present when the two rollers i, 2 and the associated rules of the transformers work at least approximately synchronously. The phase shifts that can occur between the individual controllers without the protective device responding are determined by the length of the contact pieces 3 and their spaces. The tolerances in the phase shift can be regulated by changing the contact lengths and spaces.

The circuit of the signal, protection or blocking device closes with synchronous work from the contact 5 through the brushes 61, the contact piece 3 of the roller 2, the brushes 62 and 41, the contact piece 3 of the roller i and the brush 42 to the contact 4, i.e. through branch a (position shown), soon from contact 5 through brush 52, contact piece 3 of roller i, brushes 51 and 72, contact piece 3 of roller 2, brush 71 to contact 4, that is through branch b, when both rollers are rotated further by half a contact distance in the direction of the arrow.

The conductive connection between the contacts 4, 5 is lost if, as Fig. 2 shows, a phase shift occurs in certain positions between the two rollers 1, 2. In Fig.2 there is a conductive connection in branch a between brushes 61 and 62, but not. but between brushes 41, 42 connected in series with it. Likewise, a conductive connection is present in branch b between brushes 51, 52, but not between brushes 74 72 connected in series. In this case, the protective device responds. Either a signal is given, further regulation is blocked or the entire system or part of it is switched off. The case of Fig. 2 occurs, for example, when the roller 2 and the control device connected to it come to a standstill for any reason and only the roller i continues to move. Operation can be continued again if the two control devices are brought into the same position by hand.

According to the description above, the rollers are coupled to the regulations; the brushes are fixed. Instead, the rollers can also be stationary and the brushes are coupled with the regulations.

During the switching movement, there are always two rows along the switching path of contact points on, of which the contact points of the one Row are offset from those of the others by half a contact spacing. In fig. i and 2 this is achieved in that each contact apparatus has a number of contact pieces 3 during the switching movement of the brushes, which are in the direction of movement against each other are offset, is moved past. But you can also opt for a transfer instead of the brushes and instead two offset against each other for each contact device Use rows of contacts as shown in Fig. 3.

Here, the two contact rollers ii, 12 shown in the development are attached to the shaft 6 of the set of rules. The roller ii is provided with a continuous contact track 31 which is only interrupted over a quarter of the circumference at 32. The roller i2 carries only a single contact piece 33, which covers the gap 32 of the contact track ii. The other parts of the contact apparatus have the same reference numerals as in Fig. I.

On the shaft 6 of the set of rules sits the contact sector ioi, which is based on the contacts 102 to io5 loops. Contacts io2 and 103 are through the resistor io6 connected to contacts 104, io5 through resistor io7. Contacts 103, 10q. are connected to the moving parts of the step selector i io, i2o, the connected to the taps of the adjustable winding of the transformer ioo can be. The governors are via the Maltese cross gears io8 and the bevel gears iog coupled to shaft 6. The set of rules works in such a way that the level selector iio, i2o are switched to a new voltage level one after the other and at the switchover by the load switch ioi to io5 can be de-energized. Of the compensating current temporarily occurring when bridging a voltage level is pressed down by the resistors io6 and 107 to the permissible value. Around To avoid overloading the resistors io6, 107, the contact sector ioi only temporarily remain on the contacts i o2, io5. The transformer zoo is made in the same way as the transformer ioo.

So that at least the set of rules of one transformer does not stop at the contacts io2, io5, but is moved on to the contacts 103 or 104 in the event of a fault, the switching drum ii is, as mentioned, provided with a continuous contact track 31, which is only on the quarter of the circumference , which corresponds to the main positions of the sector ioi on contacts 103 and 104, is interrupted. The effect of the protective device should be based on Fig. D. are portrayed. Here again, but not in the development, the load switches ioi to 105 are shown. The center line of the sector ioi is denoted by A, B. Continuous operation is only permitted if this line is within angle a. It must be moved quickly through the rest of the angular space β. As long as the center lines A, B of the switching sectors are in the angular range a of both transformers ioo and zoo, the protective device does not respond. The same is the case when the center lines of both switching sectors lie in the angular range β. However, a response takes place immediately if the center line of one sector is still in area a, but the center line of the other sector crosses into area ß, or if the center line of one sector is in area ß and that of the other sector is in Area a crosses.

Or in other words: the protective device only responds if one sector alone exceeds the limit of areas a, ß. As long as both sectors move in the area a- or in the area β, there is no response. In the event of malfunctions on one transformer, the switching sector of the other transformer therefore always only stops in area a or at the limits of this area. If the fault occurs when it is in the area ß, the shutdown only takes place when it has come back within the limits of the area a. In the exemplary embodiment, if the protective device is not to respond, both sectors must simultaneously exceed the limits of areas a and β. If you want to allow a certain tolerance in the phase shift between the two sectors, you have to ensure that the contacts 31, 33 (Fig. 3) overlap a corresponding amount. You can z. B. make the cutout 32 of the contact track 31 smaller. However, a certain tolerance always occurs because the brushes do not grind with cutting edges but with a wide area on the contacts.

But as soon as you allow a certain tolerance in the phase shift, there is a risk that the protective device will not respond even if the rules and regulations are violated, if the switching drums of one transformer stop in a position where the brushes just touch both contacts 31, 33. According to FIG. 5, this risk can be eliminated by making the contacts 33 shorter than the gap 32 of the contact track 31 and providing a third row of contacts 34, 35 which covers the remainder of the gap with its contacts. The contacts of this third row are switched into a third parallel branch c.

Fig. 6 shows the control device of the two transformers according to Fig 3. The contact works of the contact apparatus are after the protective device Fig. 3 to think switched on between the connection poles 4, 5 of Fig. 6.

The set of rules of each transformer is represented by a not shown Motor driven by the contactor 15o on forward rotation, through the contactor 151 can be switched on to reverse rotation. The same applies to the Transformer zoo. The motor brings about each time a full switching step has been completed by a device, also not shown, the contactors in the open position return. The contactor i5o is controlled by the holding magnet i52, the contactor 151 by the Holding magnets 153 closed and held in the closed position, namely in the following way: Is by a push-button control described below the contactor relay i54 is energized, the contactor switch i55 becomes the holding magnet 152 switched on and closes the motor switch 150. At the same time, however, is also the auxiliary switch 156 coupled therewith, which bypasses the switch 155, is closed. When the switch 155 is opened again, there is therefore no interruption of the holding magnetic current instead of. The interruption only takes place when the switches i5o, 156 after termination of the switching step can be brought back into the open position. For the return switch 151 the same applies; this is actuated by the auxiliary contactor 157 in the same way.

The auxiliary contactor 154 is actuated by the push button 158, that of the auxiliary contactor 157 through the push button 159. The push buttons strive back to the rest position shown. You operate two switches 16o, 161 each and 162, 163. In the rest position, switches 161, 163 are closed, the switches 16o, 162 open. The switch 163 is connected in series with the switch 16o. One Closing the switch 16o by depressing the pushbutton 158 can only then cause the control circuit to close when switch 163 is closed is, the other push button 159 is therefore in the rest position, and vice versa. This prevents the two push buttons from being depressed at the same time the control process can be disturbed. In addition, to prevent that during the switching step the control process can be influenced are in the power supply to the push buttons switches 164, 165 turned on.

The contact sector forms the movable contact of the switch 164 166 on the roller 167, which with the shift rollers 11, 12 (Fig. 3) on the governor shaft 6 is attached. Sector 166 is so short that mainly only in the in Fig. 3 drawn basic position of the shaft 6, the switch 164 is closed. The same applies to the switch 165, its roller with the rules of the transformer Zoo is coupled. The control can only be operated successfully, if the regulations are in one of the basic positions. The control device is connected with the contact pairs C, D each to one pole of a voltage source.

If one of the transformers is put out of operation, the the connected contact apparatus short-circuited, likewise the switch 164 resp. 165, the short-circuit device for this is indicated by switch 168.

Fig. 7 again shows the circuit of the contact devices in a schematic the transformers. The rollers i 1, 12 are with one, the rollers 2i, 22 with coupled to the other transformer. By 168 the mentioned short circuit devices are indicated. The parallel branches between the connection contacts 4, 5 fall here partly together.

In Fig. 8 is the circuit of the contactors for three transformers shown. The rollers 11, 12 are with the first, the rollers 21, 22 with the second, the rollers 23, 24 are coupled to the third transformer.

In Fig. 9, which shows the circuit for four transformers, are the rollers 11, 12 with the first, the rollers 21, 2a with the second, the rollers 23, 24 coupled to the third transformer, the rollers 25, 26 coupled to the fourth transformer.

There is a pair of roller switches with offset from one another Contact points connected in parallel and in series with the other pairs. One can but also, instead, the roller switches with matching contact arrangements ever switch on in a branch, so z. B. in Fig. 9 the roller switches 11, 22, 23, 26 in one, the roller switches 12, 21, 24, 25 in one parallel to it lying branch.

Claims (13)

PATENT CLAIMS: i. Device for monitoring the synchronous running of the rules and regulations of regulating transformers or the like working in parallel. characterized in that the set of rules of each transformer is coupled to a contact device with at least two rows of contact points (e.g. 31, 33, Fig. 3), of which the contact points (3 r) of one row against the (33) of the other row are offset in the direction of movement of the movable contact parts (rollers 11, r2), and that the contact devices are switched on in at least two current branches (a, b) connected to signal, protection or blocking devices, which can also coincide in places that in the normal operating state in each branch (d, b) each contact points of the identical rows of the individual contact devices are connected in series. 2. Set up according to Claim r for regulating transformers, the rules of which have certain intermediate positions may only take briefly, characterized in that at least in a row of each contact apparatus the contact points lying within these intermediate positions form a continuous contact track (3r, Fig. 3). 3. Device according to claim 2 for sets of rules in which a fraction of the switching travel of each stage is rapid must be passed through, characterized in that the contacts of a row At least along this fraction of the switching path of each stage one continuous Form the contact track (3r, Fig.3), but only the contacts of the other row (33) cover the gaps (32) of the first. 4. Device according to claim r to 3, characterized characterized in that the contacts of one row (33, Fig. 5) are not complete the gaps (32) between the contacts of the other row (3r) cover, and that the Remnants of gaps from the contacts (34, 35) of a third row in a third current branch (c) are covered. 5. Device according to claim r to 4, characterized in that that a switch (r68, Fig. 6 and 7) is attached to each contact device the influence of the contact apparatus when the associated transformer is decommissioned on the signal or blocking device is canceled. 6. Device according to claim 5, characterized in that the switch (r68) with the oil switch or disconnector the associated transformer is mechanically or electrically coupled. 7. Establishment according to claim r to 5 for regulating transformers, their regulations by motors are driven, characterized in that the striving into the open position Motor switch (e.g. r5o, Fig. 6) after closing by holding magnets (I52), their Coils in the circuit of the contact apparatus (rr, 12, Fig. 3) are in the closed position held and only countered by the motor after the control step has been completed the holding force of the magnet can be brought into the open position. B. Device according to Claim 7, characterized in that the current of each holding magnet (e.g. 152, Fig. 6) flows through a switch (r56) which, in the same way as the motor switch (15o), only goes into the open position after the control step has been completed is brought. G. Device according to claims 7 and 8, characterized in that the circuits for the holding magnets (r52, Fig. 6) of the motor switch (, 5o) as well still via a control switch or one operated by a control switch (r58) Auxiliary contactor (r55) and when the control switch (r58) is operated close the engine switch (15o). ro. Device according to claim g, characterized in that that the control switch or the auxiliary contactor operated by the control switch (r58, Fig. 6) (r55) for switching on the holding magnets (r52) for the holding current switches (r56) of the Holding magnets (r52) is connected in parallel. r r. Device according to claim 7 bis ro, characterized in that each set of rules with a switching or locking device is coupled, which only in the basic positions of the sets of rules the closure of the Motor switch, the control switch or the auxiliary contactor operated by it. 12. Device according to claim rr, characterized in that with the rules of the transformers contact rollers (r67, Fig. 6) with short contact sectors (r66) are coupled, which bridge fixed contacts (r64) only in the basic positions of the rules, and that the The contact points of all sets of rules thus formed are switched on one after the other in the circuit of the control switch (e.g. 158) or the auxiliary contactor operated by it. 13. Device according to claim rr, in which each set of rules has a motor switch (15o, 151, Fig. 6) with holding magnets (r52, r53), control switches (r58, 159) and the like for forward and reverse regulation, characterized that the circuit of one control switch (z. 158, Fig. 6), contactor or the like is interrupted when the other control switch (159), contactor or the like is actuated. 1q .. Device according to claim 13 for regulating works, in which the control switch for Strive for forward and backward running in the rest position - (push button switch 158, i59, Fig.6), characterized in that in the circuit of each control switch (z. B. 158) a locking switch (163) is switched on, which is only then closed is when the other control switch (15.9) is in the rest position.