DE2104075B2 - Procedure and arrangement for load switching in step transformers with anti-parallel connected thyristors - Google Patents

Description

The invention relates to a method according to the preamble of claim 1.

Such procedures for load switching with thyristors and mechanical contacts are known (German Offenlegungsschrift 1563 28O). In Fig. 1 is a schematic of an arrangement for the fermentation of a

-5 illustrates such a procedure. With 1 and 2 the two selector contacts for the taps U _x and U _{2 of} the control winding of the transformer Tr ₁ with 3 and 4 the permanent contacts, with 5 and 6 the isolating contacts, with 7 and S uüJ 9 and 10 the anti-parallel connected thyristors in the circuits Sz ₁ and St, and Y denotes the derivative.

Here, at the beginning of the switchover, before the "permanent contact 3" of the stage to be switched off

* 5 [/ ,, of the regulating transformer Tr opens, both isolating contacts 5, 6, which are each in series with the antiparallel thyristor pairs 7, 8 and 9, 10, are closed. Then the load is transferred from one thyristor pair 7, 8 to the other 9, 10 and finally the permanent contact 4 of the stage U _{1 of} the regulating transformer to be connected is closed and the isolating contacts 5, 6 are opened.

With purely mechanical handshakes, you are Switching sequence of the main and auxiliary contacts used, however, mostly such that in the Switching sequence one switched contact overlaps with the next contact to be switched for a short time, as shown in FIG. 2 schematize !! for the arrangement according to Fig. I is shown. As the mechanical contacts thus compared to the known circuits with Thyristors have a different switching sequence, these are not readily available for the previously used ones Thyristor circuits can be used.

The invention has the task of the known Carry out the procedure by means of a mechanical diverter switch with a specified contact sequence, whereby the thyristors are combined with the mechanical contacts of a conventional switch should. According to the invention, this object is achieved in

* ° the method of the type mentioned by the characterizing features of claim 1, alternatively solved by those of claim 2.

Instructions for carrying out the procedure include claims 4 and 5.

The new method enables a mechanical diverter switch to be combined in a simple manner with a thyristor switch. So now it is practically only required by a common diverter switch remove the transition resistors and put them in the wiring harness of the auxiliary contacts in place of the Transition resistors to use the circuit with the anti-parallel connected thyristors. Farther the method has the advantage that its own Umbchakbefchlsgeber, such. B. a control contact or photo donor, is not required. This simplifies the switching method.

In the drawing, in Figs. 3 and 4, two examples of the arrangement for carrying out the inven-

The reference numerals used in FIG. I for the individual devices of the arrangement also apply to the switching circuits 5 /, and 5 /, shown in FIG. The same switching circuits Sc ₁ and 'St- are also in the arrangement according to FIG. 4 applies, but not shown separately there.

Ignition transformers 11, 12 (Fig. 3) are provided for the circuits St and St ₂ , which deliver the pulse series of the ignition pulse generators 13, 14 to the thyristors 7, 8 and 9, 10 when voltage is applied to their input.

The control circuits according to FIGS. 3 and 4 initially contain a storage element 15 which receives voltage at output A through voltage at its set input S, but receives voltage at the inverse output A through voltage at its clear input L. This memory element stores the switching direction, whereby voltage state c means the voltage signal at its output A and thus switching direction from contact 3j to contact 4, and the voltage signal at output A (switching state c) means the opposite direction. The circuit according to F'.g. 4 also has two storage elements 16, 17, which are each connected upstream of an ignition pulse generator 13 and 14, respectively. These storage elements 16, 17 store the state -> ignition of thyristor branch Sf, "or" ignition of thyristor branch Sr ₂ "and are expediently mutually locked.

The control circuits according to FIGS. 3 and 4 also have various status indicators which signal the switched-off or switched-on status of the permanent contacts 3, 4, the isolating cones 5, 6 and the blocking or conducting status of the thyristor branches St ₁ and Sl ₂ to the logic circuit, with the letters overlined ending in negative condition, e.g. B. indicates open contact or lack of reverse voltage. The status indicators of the main contacts 3, 4 are indicated by 20 and 21, the status indicators of the trerm contacts 5 or 6 are indicated by 22, 23 and the voltage detection devices for the thyristor branches Si ₁ and St _{2 are} indicated by 24, 25. In the logic circuits, the modules 26 to 31 and 38 and 39 are AND gates and the modules 32 to 35 are ODHR gates, the gates which link the same variables in each case being denoted by the same numerals in FIGS. 3 and 4. In the circuit of the thyristors S /, and St ₂ (Fig. 3) are denoted by 40, 41 capacitors and 42, 43 resistors, which are connected in series and connected in parallel to the corresponding thyristor branch. The AND gates 38 and 39 are only used for locking.

The mode of operation of the control circuit according to FIG. 3 is as follows:

It is assumed that the permanent contact 3 is closed and the permanent contact 4 and the circuit breaker 5, 6 are open, as shown in FIG. 1 was shown. The memory element 15 is then prepared by the status indicator 20 for switching from i / to U ₁ and has voltage at its output A. In addition, the OR stage 34 receives voltage at one of its inputs and sends voltage to the pulse generator 13 via the AND gate 38, which simultaneously receives voltage from the inverse output 35 A. which belongs to the circuit Si ₁ or to the current-carrying permanent contact 3, is only closed at the beginning of the xlor switchover or is already closed during stationary operation, i.e. when the permanent contact 3 carries the load current. It is only important as a disconnector, uiii the thyristors during the steady state of the

s to keep the diverter switch voltage-free. However, as soon as the permanent contact 3 opens and then of course the isolating contact 5 must be closed, the load current combats the thyristors 7, 8 of the circuit Sf ₁ . In the further course of the switchover

closes the isolating contact 6. As a result, the AND condition for the gate 30 is no longer met, the OR gate 34 does not receive any of its inputs voltage and therefore switches off the ignition pulses for the thyristors 7 or 8, as can be easily checked using the circuit diagram can be. As soon as the thyristors 7, 8 begin to block, the voltage detection device 24 outputs voltage; to the AND gate 27, the second input of which is prepared anyway by the memory element 15 which defines the switching direction, whereby the ignition pulse generator 14 is switched on via the gates 35 and 39 and the branch St ₂ with the thyristors 9 and 10 ignites. As soon as the isolating contact 5 opens, the AND condition is fulfilled for gate 31 and voltage is applied to t_in other input at the OR gate. The same thing happens when the permanent contact 4 closes and applies signal voltage to gate 35 via status indicator 21. At the same time, this voltage at the output 21 prepares the storage element 15, which determines the switching direction, for the next switchover to higher or lower taps, in which its inverse output A receives voltage.

The mode of operation of the control circuit according to the example in Fig. 4 is as follows:

It is again assumed that the permanent contact 3 is closed and the permanent contact 4 and the isolating switches 5 and 6 are open. The load current flows from the tap U _{1 of} the regulating transformer via the selector contact 1, the permanent contact 3 to the derivative Y (Fig. 1). The memory element 16 (FIG. 4) is switched on because the permanent contact 3 is switched on. The memory element 17 is switched off. As a result of the closed permanent contact 3, the memory element 15 is controlled so that! ¹ · there is a voltage signal at its output A. If the permanent contact 3 is now closed after the disconnector 5 has been closed, the load current can communicate with the Thyri.storsircimkreis S /, because the thyristors 7 and 8 receive ignition pulses from the ignition pulse generator 13. As soon as the isolating switch <\ closes, the AND gate 28 receives a voltage signal, as a result of which the OR gate 32 also applies voltage to the clear input L of the memory element 16, which is decisive for the switching state of the pulse generator 13. Therefore, at this moment the ignition pulses are removed from the thyristor circuit S /, but the load current continues to flow in the ignited thyristors 7. 8 until its natural zero crossing. After the zero crossing, the

Thyristors 7, 8 of the branch St ₁ to block. As soon as the blocking voltage at the thyristor pair 7, S has reached a certain value, the voltage detection device 24 gives voltage to the AND gate 27 and, since its second input also receives voltage because the memory element 15 has voltage at its output A , the ignition pulse generator is activated 14 switched on via its memory 17 and the OR gate 37, whereby the thyristors 9 and 10

Receive ignition pulses. Then the auxiliary contact 5 opens, the permanent contact 4 closes, whereby the memory element 15, which determines the switching direction, is switched, and finally the isolating contact 6 opens, so that the switchover is then completed and the load current now from (/, via the probe contact 2 to the permanent contact 4 to Derivative Y flows.

An important condition both for the circuit according to FIG. 3 and for the circuit according to FIG. 4 is that the isolating contacts 5 and 6 overlap at least one Hall wave when they are switched, d. H. both contacts should be switched on simultaneously for at least one half-wave. Will If this condition is not met, it could happen that the isolating contact, which was live up to then, also under current, d. H. shad under load, has to switch off because its thyristors have not yet switched to the blocking state.

1 sheet of drawings

Claims (1)

Patent claims: 1. Procedure for load switching with step transformers with anti-parallel connected thyristors in two similar circuits, each between one of two taps of the step transformer and the common discharge Cherish, with mechanical permanent contacts for relief and mechanical isolating contacts each in series with the associated anti-parallel connection can be used to isolate the thyristors, their switching sequence by a Logic circuit is controlled, characterized in that that one circuit then receives ignition signal when the permanent contact of the same circuit is closed or when the associated isolating contact is closed and at the same time the opposing isolating contact is open is (> uer if voltage is applied to the opposite anti-parallel circuit and at the same time a memory element emits a signal which, when the permanent contact of the other is closed Circuit ice was set in the previous switching cycle. 2. Procedure for load switching with step transformers with anti-parallel connected thyristors in two similar circuits, each between one of two taps of the step-on-transformer and the common-derivative are, with mechanical permanent contacts for relief and, necha .ische isolating contacts each η row to de: associated antiparallel circuit for potential separation of the thyristors are used whose switching sequence is controlled by a logic circuit, characterized in that that the one circuit then receives ignition signal when an output saliva by the following Conditions is set: The permanent contact of the same circuit is closed or there is voltage on the opposite one Anti-parallel connection and at the same time an output of an input memory is through Closing of the opposite permanent contact is set during the "regular maintenance cycle" been and that the output memory can be deleted under the following conditions: The isolating contact of the opposite The circuit is closed and the other output of the 1 input memory has been set. 3. The method according to claim 1 or 2, characterized in that a mutual locking / wipe the ignition signals of both antiparallel circuits is also used. 4. Order to carry out the procedure according to one of claims 1 to 3, characterized in that for each mechanical Contact (3, 4, 5, 6) a status indicator (20, 21, 22, 23) for the mechanical position of the contact is provided, and that a voltage detection device (24,25) the voltage over the respective two anti-parallel connected thyristors (7/8, 9/10) detected. 5. Order to carry out the proceedings according to one of claims 1 to 3, characterized in that the storage elements (15, 16, 17) electronic, bistable multivibrators have two inputs (S, L) and two outputs (A, Ά).