DE1186938B - Control device for switch - Google Patents

Description

Control device for switches The constant increase in energy demand and the formation of local load centers have led to the fact that in the control rooms, z. B. a power station or substation, often a large number of busbar branches is needed. This makes the overview difficult for the operating personnel, since several switches of the Branch to be switched and other switches, e.g. B. Coupling switches and longitudinal disconnectors, must be operated taking operational safety into account.

The large number of switching operations leads to control rooms in particular with many branches to a centralization of the operating organs. Such a one Centralization was z. B. with good results through the so-called selection control achieved. With this it is possible to control each individual branch or a group of switches a switchgear and thereby the switches of the selected feeder or to control the switches of the switch group from a control panel.

In control rooms with selection control in particular, the individual branch or the individual switch group pressure medium controls or Relay controls are used for the actuators of the switch to be operated. These controls are very complex, especially when the Switch is provided against incorrect operation.

The pressure medium controls require complicated and expensive valves Pipelines. In the case of the relay controls it has been found to be disadvantageous that high-quality Contacts are required to avoid interference.

In a known relay circuit, there are two auxiliary relays with one The auxiliary contact arrangement that takes the switch position into account is used. The to actuating switch can be switched to the other than by pressing a button the current switch position can be controlled. The button has to be like this Hold down for a long time until there is an acknowledgment signal that the switching operation has been carried out available to the operator. Only then can the actuation position of the button be repealed. The auxiliary contacts are arranged so that a total of three Positions are possible, namely closing one contact, closing the second Contact and a middle position in which the system is blocked.

The aim of the invention is to improve a control device for switches in which an actuation signal given by an operating element controls the switch in the other than the current switch position. According to the invention is using logic elements of the switch actuation signal input with each connected to one input of two AND gates, the second inputs of which are connected to electrical circuits lying for the fulfillment of interlocks, while the third input of the one And gates via a reverse stage with one only in issuing the switch closed signal circuit is connected to the third input of the other AND gate is connected directly, with the outputs of the AND gate respectively are connected to the set inputs of two memories, whose clear inputs have a further reversing stage with the switch actuation signal input and its setting outputs are connected to switch actuators. In this way it is achieved that the control device is not blocked when the switch is in a faulty position, but acts in the sense of a switch-off, so that a risk to operational safety is avoided. By using logical elements, the consideration other switch positions, in particular the switching fault protection, are more easily possible as before.

To get the position feedback from other switches in a simple way that have to be taken into account during the switching process can be entered using the AND gates and the memories are preceded by a further memory and an OR gate, whereby on the inputs of the OR gate signals, z. B. the switching fault protection, are given. This eliminates the usual complex locking against selection several branches.

A further OR gate can be connected upstream of the further reversing stage his second entrance via a time tipper with the set input of the further memory is connected. The arrangement of the time tipper creates a given command held for a certain time. That way, im needs In contrast to the known version, the actuation position of the button is not be pressed until the switch moves from one position to the other has changed. A brief signal with low is sufficient for actuation Power. Program control signals can also be applied to the switch actuation input to be introduced.

For a more detailed explanation, reference is made to the exemplary embodiments in the drawing referenced; it shows F i g. 1 shows the circuit of the combined to form an actuation unit Control device with signal input circuit, lock and command switch, F i g. 2 an opposite to the circuit for the command switch according to FIG. 1 modified circuit. The switch actuation unit can be used as a structural unit in a closed housing or with a corresponding cast resin coating. The single ones Terminals can be designed as plug-in or other detachable connections, so that the switch operating unit can be easily replaced.

In Fig. 1, S denotes the signal input circuit, Sp denotes the lock and Bi denotes the command switch. The mentioned sub-units of the switch actuation unit are each framed by a square box.

The signal input circuit consists of the OR gates 1 and, Z. The OR gate 1 contains three inputs, the OR gate 2 has two inputs. An inverting stage (non-gate) 3 is connected to the output of the OR gate 1. The output of the non-gate leads to the clear output 7 of the signal input circuit. Two inputs of the ƒder gate are connected to terminals 5 and 6. At terminal 5 there is a signal when the switch is operated from the control room and at terminal 6 there is a signal when the switch is operated on site. Furthermore, terminals 5 and 6 are connected to the two inputs of the OR gate 2. The third input of the OR gate 1 is at the output of a time tipper 4, the output of which is in turn connected to terminal 9 of the signal input circuit. The output of the OR gate 2 is connected to the output terminal 8 of the signal input circuit. The output terminal 7; represents the time-dependent clear output, the output terminal 8 represents the setting output of the signal input circuit. The input terminal 23 is connected to the terminal 7 and the input terminal 24 of the lock Sp is connected to the terminal 8. The entrance; Terminal 23 is at input 14 of OR gate 13. The output of OR gate 13 is connected to the clear input of memory 10 . The OR gate 13 also contains further inputs 15 to 20, each of which is connected to the setting output 21 of the memory 10 of further switch actuation units for mutual locking. The clear output of the memory 10 is connected to the output terminal 25 and the set output to the output terminal 26 of the lock. The output terminals 25 and 26 are connected to the input terminals 37 and 38 of the command switch Bi. The command switch contains two AND gates 34 and 35 each with three inputs, two memories 32 and 33 each with a set and a clear input and a set and a clear output. The input terminal 38 is connected to the input 42 of the AND gate 34 and the input 47 of the AND gate 35 . The input 46 of the AND gate 35 is connected directly and the input 43 of the AND gate 34 is connected to the terminal 39 via an inverter 36. A signal circuit is connected to terminal 39 to indicate the switch position "Off". The third input 44 of the AND gate 34 is connected to the clear output of the memory 33 and the third input 45 of the AND gate 35 is connected to the clear output of the memory 32. The clear inputs of memories 32 and 33 are connected to input terminal 37 . The setting outputs of the memories 32 and 33 lead to the output terminals 40 and 41 of the command switch Bi. The actual actuating elements of the switch, e.g. B. solenoid valves, directly or indirectly connected, to output 41 the solenoid valve for the switch-on movement and to terminal 40 the solenoid valve for the switch-off movement.

The mode of operation of the switch actuation unit is as follows: via terminal 5 - if the switch is actuated from the control room - or via terminal 6 - if the switch is actuated on site - an actuation signal is fed to the signal input circuit S. This actuation signal runs at the same time to the inputs of the OR gate 1 and 2 via the output of the OR gate 2, the output terminal 8 and the input terminal 24 of the lock Sp, this signal runs to the set input 11 of the memory 10 and sets this memory. A signal is thus present at the set output of the memory 10 which reaches the inputs 42 and 47 of the AND gates 34 and 35 via the terminals 26 and 38 . The actuation signal via terminals 5 and 6 is also applied to OR gate 1 . A signal is present at the output of the OR gate 1 and thus at the input of the inverter 3. The reversing stage reverses the signal state, so that the previously pending clear signal is removed at the input 14 of the OR gate 13 of the lock.

From the set output 21 of the memory 10 the operating signal passes through the output terminal 31 to the input terminal 9 of the signal input circuit and from here to the input of time truck 4. By the time tipper 4 this signal is maintained for as long required as the associated switch for the actuation, so that , the time tipper is set to the limit time of the switch. The signal from the time tipper 4 is fed via the OR gate 1 and the inverter 3 to the input 14 of the OR gate 13 of the lock Sp, that is, if there is a signal at the OR gate 1 , the OR gate 13 does not have a clear signal until the time limit set in time tipper 4 has expired. The other inputs of the OR gate 13 are connected to the set outputs of the lock 10 of switches assigned to switch actuation units.

The output of the OR gate 13 is located at the reset input of the memory 10. Thus, the memory 10 is cleared when a signal on the clear input of the memory 10 is present on the OR gate. The erase output 22 of the memory 10 is connected to the erase inputs of the memories 32 and 33. If a signal is present at the clear output 22 of the memory 10 , the memories 32 and 33 are cleared and the switch actuating unit is brought to the idle state.

The memories 32 and 33 of the command switch Bi are set when all three inputs at the AND gates 34 and 35 are occupied. Since one input 43 of the AND gate 34 is connected to terminal 39 via an inversion stage and only a signal is present at terminal 39 when the switch is in the "off" position, only the three inputs of the and Gate 34 or the AND gate 35 must be occupied. Due to the inverter 36 which is connected upstream of the AND gate 34, namely at the input of the AND gate 34 a signal appear if present at the terminal 39 a signal.

Assuming that the switch to be operated is in the "off" position and that at the same time no blocking signals are pending from the assigned switches of the branch at the inputs 15 to 20 of the OR gate 13 , the actuation signal is from the terminal 5 via the input of the OR gate 2, the output terminal 8, the input terminal 24 to the reset input 11 of the memory 10. the set output 21 of the memory 10 is through the terminal 27 and the terminal 9 outputs a signal to the time tipper 4. the time tipper 4 this signal is passed on to OR gate 1 and thus takes over the function of the actuation button for the set limit time. The OR gate 1 sends a signal to the inverter 3, which now removes its previously existing cancel signal at the OR gate 13 . Furthermore, if there are no blocking signals at the inputs 15 to 20 of the OR gate 13 either, the memory 10 remains set. From the set output 21 of the memory 10, the actuation signal is given to the inputs 42 and 47 of the AND gates via the output terminal 26 and the input terminal 38. The clear outputs of the memories 32 and 33 are each connected to an input 44 or 45 of the AND gates 34 and 35 in such a way that there is mutual interlocking.

The switch is switched on via the AND gate 35, the memory 33 and the output terminal 41 when the three inputs 45, 46 and 47 carry signals, ie when the memory 32 is at rest, the switch is in "Off" - Position and the actuation signal is present.

The procedure for the “off” switching also proceeds as described above for the “on” switching, except that then not the memory 33, but the memory 32 of the command switch Bi is set.

In Fig. 2 shows another circuit for the command switch. This command switch is designated with B. =. Like the command switch Bi, it contains two AND gates 34, 35, an inversion stage 36 and two memories 32 and 33. It also contains two OR gates 49 and 50. As in the command switch Bi, the inputs 42 and 47 of the and Gates 34 and 35 are connected to the input terminal 38 and the input terminals 46 and 43 of the AND gates 34 and 35 are connected to the input terminal 39 , the input 43 of the AND gate 34 being preceded by the inverter 36 . The outputs of the AND gates 34 and 35 are connected to the set inputs of the associated memories 32 and 33. The input terminal 37 of the command switch B is connected to an input of the OR type 49 and 50. Furthermore, an input of the OR gate 49 is connected to the set output of the memory 33 and an input of the OR gate 50 is connected to the set output of the memory 40 . The output of the OR gate 49 is connected to the clear output of the memory 32 and the output of the OR gate 50 is connected to the clear input of the memory 33. A signal originating from the clear output of the memory 10 is thus fed directly to the clear input of the memories 32 and 33. A signal originating from the set output of the memory 33 is fed to the OR gate 49 and thus to the clear input of the memory 32 and a signal originating from the set output of the memory 32 is fed to the clear input of the memory 33 via the input of the OR gate 50 and its output. As with the command switch Bi, this type of circuit ensures that only one of the memories 32 and 33 can be set.

The command switch B allows that the inputs of the AND gates 34 and 35 enable signals for the switching fault protection interlock or program control can be assigned in a simple manner. In the same way, blocking signals for the fulfillment of the switching fault protection conditions can optionally or simultaneously be introduced via terminal 51 of the command switch B2.

In the case of the command switch Bi, it would be possible to introduce this switching fault protection condition by interposing special interlocking modules between the outputs 40 and 41 and the actuating elements for the switches. Patent protection is only sought for the combination of the features in the individual claims.

Claims (7)

Claims: 1. Control device for switches, in which an actuation signal given by an operating member controls the switch in each case in the other than the present switch position, characterized in that the switch actuation signal input (5) each with an input (42, 47) using logic elements two AND gates (34, 35) is connected, the second inputs (44, 45) of which are connected to circuits for the fulfillment of interlocks, while the third input (43) of the one AND gate (34) via an inverter (36) is connected to a signal circuit (39) closed only in the exhibition of the switch, to which the third input (46) of the other AND gate (35) is directly connected, and that the outputs of the AND gates each with the set inputs of two memories (32, 33) are connected, the reset inputs of which via a further reversing stage (3) with the switch actuation signal input (5) and their set outputs with switch actuators n are connected. 2. Control device according to claim 1, characterized in that the AND gates (34, 35) and the memories (32, 33) a further memory (10) and an OR gate (13) with several inputs (14 to 20) is connected upstream, the further reversing stage (3) being connected via an input (14) of the OR gate (13) and a clearing input (12) of the further memory (10) to the clearing inputs of the memory (32, 33), while the set input (11) of the further memory (10) is connected to the switch actuation signal input (5) and the set output (21) is connected to the first inputs (42 and 47) of the AND gates (34, 35). 3. Control device according to claim 1 and 2, characterized in that the reversing stage (3) is preceded by an OR gate (1) , the second input of which is connected to the setting output (21) of the memory (10) via a time tipper (4) . 4. Control device according to claim 3, characterized in that the OR gate (1) is provided with a further input for at least one second switch actuation signal input (6) and the set input of the memory (10) has an OR element (2) each with one Input for the switch actuation signal circuits is connected upstream. 5. Control device according to claim 1, wherein the AND gates with electrical circuits connected for the fulfillment of internal interlocks, characterized that the second input (44 or 45) of the AND gate (34, 35) each with the delete output of the unallocated memory (33 or 32) is connected. 6. Control device according to claim 1, in which the AND gates are connected to circuits for the fulfillment of external interlocks, in particular for the fulfillment of the switching fault protection, characterized in that the input terminals (44, 45) are connected to a common signal input (48) and the clear input of the memory (32, 33) is preceded by an OR gate (49 or 50) with three inputs, the first of which with the clear output (37) of the memory (10), the second with the set output of the unallocated memory (33 or 32) and the third is connected to a signal input (51) for the fulfillment of interlocks. 7. Control device according to claim 1 to 6, characterized in that it is housed as a component in a closed housing and the individual Terminals are designed as detachable plug connections. Considered publications: German Patent No. 956,783; German patent application S 20917 VIII b / 21 c (published March 27, 1952).