DE1616429C3 - Process for the central acoustic and / or optical display of status changes in systems - Google Patents

Description

The invention relates to a method for the central acoustic and / or optical display of changes in state in systems with several monitoring points, in which a central point for all monitoring points share basic equipment with flasher and acoustic signal generator and There is a monitoring device per monitoring point, in which when the to monitoring device closed a switch and thus charged a capacitor via a diode and the same switch is opened when a fault occurs.

In power supply and industrial systems there are signaling devices that respond to certain operating states draw your attention, which is of great importance for proper operational management. Such an operating state is, for example, the disturbance of a normal state. If such a disturbance occurs, then should the monitoring personnel responsible for the system will initiate an acoustic and / or optical signal to acknowledge the fault. In the case of larger systems, the number of messages is usually like this great that they are made visible in a central control room for the sake of clarity. To occurring To be able to reliably detect errors as well as the

ίο to make the place of their occurrence clearly identifiable, It is customary to provide only one signal horn for all monitoring points in the system, but each one To assign its own lamp to the monitoring station, which lights up continuously in undisturbed operation and when If a fault occurs flashes. Switching from normal operation to disrupted operation is done using a switch that is toggled when the status changes. This causes the problem of the display an operating state is equivalent to determining a switch position.

There is already an arrangement for displaying the switching on of a switch with an optical individual display known for each control point and a basic device common to all control points (DT-AS 1 207 241). Furthermore, a reporting device is known (DT-AS 1 221 113), which by interconnection modern linking technology with conventional relay switching. The essential The peculiarity of the two known arrangements compared to the invention is that they are not used for monitoring a device that switches on and off during operation (e.g. contactor) can be used. she contain so-called alarm switches, which are only switched in the event of a fault, so they can send the operating message (operational status of the system) and fault messages from an electrically operated device do not record separately. Is also known (DT-AS 1 221 929) a reporting device in which by the Deflection of a pointer over a limit mark communicated a fault condition to the monitoring staff will. However, this message persists even after the fault has ended, until the message is issued by the Staff has been acknowledged. Continuous monitoring of an operationally switching on and off contactor is not possible, however. There is also no monitoring for different operating status messages intended.

The invention is based on the object, by means of a circuit arrangement which has only one switch, to achieve a clear reporting of the operating status of a fault.

This object is achieved according to the invention in that the capacitor is charged when it is open Switch over a conductive transistor on thyristors gives that of the thyristors ignited thereby flowing current an acoustic warning device and a flasher relay excites and that through the closed Contact of the activated flasher relay via one that is switched through in the rhythm of the flashing frequency Transistor given a flashing signal to a lamp showing steady light in the undisturbed operating state will.

An example of the method according to the invention is shown in the drawing and will be described in more detail below described.

A contactor 3 and a thermal relay 4 are connected to a three-phase network 1 via short-circuit fuses 2 a three-phase machine 5. The coil of the contactor 3

is on an auxiliary circuit 6. In this auxiliary circuit there is also a switch 7 for switching on the three-phase machine 5, another switch 8 of the thermal relay 4 and a switch 9 for the Switching off the three-phase machine 5. With the contactor 3 is an auxiliary switch set 10 for opening and closing different circuits rigidly connected. In this auxiliary switch set 10 is a switch 11, the to connect a DC voltage source 12 to a monitoring device 13 is used with large Numerous such monitoring devices 13 are required for systems for a better overview but only one is shown in the drawing.

The switch 11 located at the positive pole of the DC voltage source 12 is a diode 14 and this diode a lamp 15 is connected downstream, the lamp 15 being at the negative pole of the DC voltage source 12. A diode 16 is connected to the connecting line between diode 14 and switch 11, the cathode of which is connected both to a resistor 17 and to the emitter of a transistor 18. the The base of the transistor 18 is connected via a further resistor 19 to the anode of the diode 16. The resistor 17 is connected to the negative pole of the DC voltage source 12 via a capacitor 20. To the The negative pole of the DC voltage source 12 is also connected to a resistor 21 which is connected to the collector of transistor 18 is located. The ignition electrode of a thyristor 22 'is via a diode 23, the cathode of which is for Thyristor 22 is polarized towards, connected to the collector of transistor 18. To the cathode of the thyristor 22 two resistors 24 and 25 are connected, of which the resistor 24 is connected to the negative pole of the DC voltage source 12 and the resistor 25 is connected to the base of a transistor 26. The emitter of this transistor 26 is connected to the connecting line between diode 14 and lamp 15. Also with this one Connected connecting line is the cathode of a further diode 27. The lamp 15 is adjacent Switch 28, which is connected to the connecting line between resistor 17 and capacitor 20 Resistor 29 connects to the negative pole of DC voltage source 12

For the multiple monitoring devices 13 of a large system is at a central Place only a single device is provided, which the occurring disturbances optically and acoustically indicates. This device has a thyristor 31, which via a switch 32 to the positive pole and via a signal horn 33 is connected to the negative pole of the DC voltage source 12. The ignition electrode of this thyristor 31 is connected to the collectors of the transistors 18 of all monitoring devices 13 via diodes 34 connected to the system. From the cathode of the thyristor 31 goes through an ÄC element, consisting of the Resistor 35 and capacitor 36, a connection to the ignition electrode of another thyristor 37. A resistor 38 is connected in parallel to the ignition electrode-cathode path of the thyristor 37. Between This parallel connection and the negative pole of the DC voltage source 12 is also a flasher 39 inserted. The actuated by this flasher contact 39a is in the connecting line between the The positive pole of the DC voltage source 12 and the collector of the transistor 26. The anode of the thyristor 37 is connected to the positive pole via a switch 40. In another connecting line between the positive pole and a switch 41 is connected between the anode of the diode 27. To the connection line between the switch 40 and thyristor 37, a line is connected which leads to the anode of the thyristor 22.

The mode of operation of the circuit arrangement is as follows: To switch on the machine 5, the Switch 7 closed. There is thus voltage on the auxiliary voltage circuit 6. This will activate the switches of contactor 3 and the switches of auxiliary switch set 10 closed. For the switch 11 this means that it is closed. The lamp 15 is thus on the Diode 14 on the DC voltage source 12 and shows the monitoring staff by continuous light the normal Operating status of the system. At the same time, the transistor 18 is turned off because its The emitter and its base are now at the same potential. In addition, the capacitor 20 charges via the diode 16 and the resistor 17. If there is a malfunction on the machine 5, for example causes the thermal relay to respond, switch 8 is opened and contactor 3 drops out. As a result, both the switch of the contactor 3 and the switch 11 are opened. About the lamp 15, the diode 14 and the resistor 19 get the base of the transistor 18 negative potential. But there on Emitter the positive voltage of the capacitor 20 is present, the transistor 18 turns on, and the capacitor 20 can discharge through resistors 17 and 21. There is thus a reinforced resistor at the resistor 21 Voltage sufficient to trigger thyristors 22 and 31.

When the thyristor 31 is ignited, the horn 33 is connected to the direct current source 12 and emits a warning signal. Shortly after the thyristor 31 has been switched through, the thyristor 37 is also released via the resistor 35 and the capacitor 36 existing differential element ignited. Thus, the flasher is also on the DC power source 12 and opens and closes switch 39a at a frequency inherent to the transmitter. A positive potential is therefore present at the collector of transistor 26 in the rhythm of this frequency. But since the triggering of the thyristor 22 at the base of the transistor 26 also has a positive potential is present and a negative potential is present at the emitter, the transistor 26 switches on when the is present The blinking voltage caused by the interruption of the voltage of the DC voltage source 12 and causes the lamp 15 to light up in the rhythm of the flashing frequency. The surveillance staff will thus made aware of the fault location by optical means. You want to be independent of troubleshooting turn off the flashing of the lamp 15 or the horn of the signal horn 33, so you need in the control center to operate only switch 40 or 32. When this switch is operated, the DC voltage source is activated separated from the lamp 15 and from the horn 33, and both are put out of operation.

To check the lamp 15, the switch 41 is provided in the control center. If one closes it, then lies the lamp 15 always on voltage, regardless of whether the switch 11 is currently closed or not. To switch off the switch 28 is to be operated on the machine 5. If it is closed, the capacitor discharges 20 through the resistor 29. At the same time, the switch 9 opens the auxiliary circuit 6, whereby contactor 3 drops out.

The advantages achieved with the invention are in particular the extensive usability of electronic components, which makes it possible

Implement monitoring devices in miniator technology or as printed circuits. So that goes required space and the costs for the wiring decrease.

1 sheet of drawings

Claims (5)

Patent claims: 1. Procedure for the central acoustic and / or optical display of status changes in systems with several monitoring points, with one for all monitoring points at a central point Common basic device with flasher and acoustic signal generator and one monitoring device per monitoring point is present, in which a switch is closed when the device to be monitored is switched on and so that a capacitor is charged via a diode and the same when a fault occurs Switch is opened, characterized in that the capacitor (20) its charge when the switch (11) is open via a conductive Transistor (18) on thyristors (22, 31 or 37) gives that the thyristors ignited thereby (22, 31 or 37) current flowing an acoustic warning device (33) and a flasher relay (39) stimulates and that through the closed contact (39a) of the activated flasher relay (39) via an im Rhythm of the flashing frequency through-connected transistor (26) a flashing signal to one in the undisturbed Operating state continuously showing lamp (15) is given. 2. The method according to claim 1, characterized in that the switch (39a) of the flasher relay (39) is placed in the connecting line between the positive pole of the DC voltage source (12) and the collector of the switching transistor (26). 3. The method according to claim 1, characterized in that the control electrode of the flasher relay (39) switching thyristor (37) connected via an RC combination (35, 36) to the cathode of the acoustic signal generator (33) switching thyristor (31) will. 4. The method according to claim 1, characterized in that the for each monitoring device provided optical signal generator (15) via a diode (27) and one located in the control center Switch (41) is connected. 5. The method according to claim 1, characterized in that between the located in the center Thyristors (31, 37) and the DC voltage source (12) each have a switch (32, 40) interposed will.