DE3608539A1 - Circuit system for driving power switching apparatuses by means of a process management system - Google Patents

Abstract

Static signal sources (2) of the management system (1) are in each case connected to the input of matching circuits (3) whose signal output, which acts dynamically for each switching state, is connected to the control input of a power switching apparatus (4). The matching circuit at the same time achieves reliable electrical isolation between the control circuits on the management system side and those of the power switching apparatuses. <IMAGE>

Description

Circuit system for controlling power switching devices through a

Process control system The invention relates to a control circuit system of power switching devices through a process control system.

Power switching devices, e.g. protective devices for electric motors, were up to now either by manually operated control switches or in automatically controlled ones Systems controlled by binary control circuits. It was often necessary to do this accordingly the different control circuits power switching devices with different Operational parameters to be provided.

With the introduction of process control systems is both with their users as well as the manufacturers' interest in a standardization of the control the power switching level.

Accordingly, the present invention is based on the object of a circuit system to control power switching devices through a process control system, in which the power switchgear that has been customary up to now and some of it already exists can continue to be used uniformly.

According to the invention, the object is achieved by a circuit system with the in the characterizing part of claim 1 specified features solved.

Details and advantages of the circuit system according to the invention are based on an exemplary embodiment shown schematically in the drawing described below.

FIG. 1 shows the circuit system with the three levels "process control system.

Adaptation and power switchgear Figure 2 shows the circuit diagram of a Matching circuit.

The first level of the circuit system is a process control system 1, at the outputs of which the static signals "a for OFF or "1" for ON appear. Each output representing a signal source 2 is connected in the second level to a matching circuit 3, the static Signals into dynamic signals for the control of a power switching device 4 implemented in the third level.

In addition to the possibility of uniform further use of devices that are already used in existing systems. also a safe one electrical separation between the control system-side control circuits and those of the Power switching devices realized. In Figure 2, the three circuit levels are through demarcated dashed lines.

It's functional. between a static signal source 2 of the control system 1 and the associated matching circuit 3 a selector switch 52 for switching the signaling from the control system to a manually operated signaling and vice versa as well as manually operated control switches S3, 54 to insert If the control system is disturbed, manual intervention may be possible. This e.g. in a Control room installed manual control 5 is designed so that in each case of operation the OFF switch can be made. It goes without saying that ON switching commands are also included possible. if - as shown below - a corresponding switching device is provided.

Starting from the position of the selector switch shown in FIG 52 the static signal of the control system 1 becomes the input of the adaptation circuit 3 switched through. In Figure 2, this switch position is together with the circuit diagram to see the matching circuit again. In the case of the control system Signal "1" can thus address relay K10, which because of the series-connected Capacitor C1 drops again after about 100 ms. At the same time the relay speaks K11 via the pushbutton switch 54 (idle contact). The contacts k10 and kl of the two Relays thereby close the circuit P-N of the power switching device 4.

for example a contactor. which via his self-holding contact kl remains switched on even after the relay KlO has dropped out. The contact k2 can do this can be used for feedback for the control system and for fault reporting. Switching off of the contactor is carried out accordingly by the "0" signal from the control system.

The same switching sequence can be achieved. if after switching of the selector switch S2 from the control system to manual switching using the pushbutton switch S3 a "1" voltage signal is applied to relays K10 and K11.

With the help of the pushbutton switch S4, it can be switched off during control system operation as well as in manual mode.

By a local control unit provided at the location of a power switching device 6, consisting of a control switch S1 with a detent position 2 for control system operation and one such 3 for local control operation as well as with these assigned key positions 1 4 exists, you can choose between a command for "OFF" in control system operation and a command for ZEINS can be selected from the local controls. Subsequent The table shows the contact positions corresponding to the individual operating positions of the switch.

Tabel open to open open S1.3 open open to S1.2 open open open to 51.4 Figure 2 shows the positions of contacts 51.1, S1.2, S1.3 and Sl.4 for control system operation. Should now the switching protection; are switched off manually, the switch S1 is to be pressed into position 1, so that all of its contacts are interrupted; the circuit for the contactor is interrupted at contact S1.1. The de-energized state remains even after S1 goes back to position 2, since the self-holding contact kl has dropped out and contact k10 was only closed for about 100 ms at the beginning of signaling "1". Only a renewed signaling of "1" at the input of the adaptation circuit 3 switches the contactor s on again.

Becomes "1" at the local controls during the pending signal from the control system 6 brought the switch Sl to the on-site operating position 3, i.e. switching from Control system operation in local control mode with manual control switch, the switching protection remains s switched on, since contact 5.1.1 remains closed in this switching state and contact k11 is constantly closed at signal 1. Was before switching the contactor is switched off by S1 - either by switching OFF in Position 1 or via the control system signal "0" - it stays that way even after the switchover switched off because contacts S1.3 and S1. (are interrupted in position 3. This means that when you switch from control system operation to local control operation the previous switching status of the protection is retained in any case. By buttons of switch S1 from position 3 to position 5 can switch the protection ON via contacts k11, S1.1 and S1 .; or k12, S1.2. S1.1 and 51.4. The contact k12 is a normally closed contact via a series resistor R3 and a diode D2 with the signal source of the control system 1 resp.

the manual circuit 5 related relay K12, which through the parallel-connected capacitor C2 both responds with a delay and drops out (about 100 ms).

However, it occurs in the local control operating position 3 from the control system 1 or the manual switch 5 a signal change from "1" to "0", this follows Switching protection 4 because of the one hand immediate opening of the contact kll and on the other hand delayed contact k12 returning to the normally closed contact position this change after OFF. With the reverse change from "0" to "1", the OFF switching state remains of the relay continue to exist because of the open contacts S1.3 and Sol.4. Only by Pushing the local control switch 51 into position 4 takes place via the contact 5.1.4 switching the contactor ON.

When the control switch S1 is switched back to position 2 for control system operation a change in the switching state of the protection 4 occurs only when this in the switched-on state to the ZO "signal state of the control system 1 or the Manual switching 5 hits because contact k11 is open and the switch contact S.1.2 is opened when switching back.

Sign.

Claims (3)

Claim 1. Circuit system for control; of power switchgear through a process control system. characterized by static signal sources (2) des Control system (1), controlled by these matching circuits (3) with each a dynamically acting signal output for each switching state to which the control input a power switching device (4) is connected. 2. Circuit system according to claim 1, characterized in that the Matching circuit (3) consisting of an input part with that of a static signal source (2) of the control system (1) depending on the position of one or more operating selector switches (S2) controllable excitation circuits of switching relays (K10, K11, K12) and one Output part with the circuits (P-N) switched by the relays for generation dynamic output signals for the power switching devices (4). 3. Circuit system according to claim 1 and 2, characterized in that that between a static signal source (2) of the control system (1) and the associated Adaptation circuit (3) a selector switch (S2) for switching the signaling from Control system to a manually operated signaling and vice versa and manually operated Control switches (S3, S4) are switched.