DE2722893C3 - Circuit arrangement for a switchgear in hazardous locations - Google Patents

Description

The invention relates generically to a circuit arrangement for a switching device in potentially explosive areas Business premises, with

an on / off button,

a coupling device with a power supply unit, a switching logic with input and output gate and at least one switching relay and

a feedback device,

wherein the on / off key device has two tone generators, namely a monitoring tone generator and a command tone generator, to which two receivers in the coupling device are assigned, and the coupling device is connected to the on / off key device via an intrinsically safe, two-wire audio frequency trunk, the monitoring tone generator also being connected to Monitoring of the audio frequency line is used.
It goes without saying that with such

Circuit arrangements the on / off button device with which a switch-on command or a switch-off command is generated, is intrinsically safe, while the coupling device is explosion-proof encapsulated. Connected power units are designed accordingly. »Switching-> relay «refers in the context of the invention to a relay which either has a non-intrinsically safe internal circuit a downstream power unit closes or a switching command intrinsically safe for others For remote transmission purposes to intrinsically safe internal circuits. The expression "power unit" denotes z. B. a drive motor or the like.

Switching devices must be used in potentially explosive areas, e.g. B. in mine gas endangered Areas of mining, explosion-proof i> be executed. From the energy supplying power grid line leading to the switching device as well as the line leading from the switching device to the power unit carry ignitable electrical energy due to the necessarily large electrical power. Of the Control circuit, however, that connects the remotely mounted on / off button with the rest of the components of the Switching device connects, does not necessarily need to carry ignitable energy. Currents and voltages can here, since they only have to transmit the on / off information, they are selected to be so small that this control circuit does not carry any ignitable energy and becomes intrinsically safe. An intrinsically safe control circuit of a Switching device offers a higher explosion protection compared to a non-intrinsically safe control circuit, since there is no risk of explosion even if the control line is damaged. Therefore, request relevant Regulations for electrical systems in particularly hazardous areas apply intrinsically safe circuits, where the possibility »exists. - To now with a circuit arrangement to implement an advantageous and, depending on the place of use, even required intrinsically safe control circuit, such a circuit arrangement is regularly equipped with a coupling element, d. H. with a Device which connects the intrinsically safe outer control circuit with the non-intrinsically safe inner circuit couples. A coupling link has the task of transmitting the control commands. On the other hand, it must be called Safety barrier for the passage of ignitable electrical energy into the intrinsically safe control circuit impede.

In a circuit arrangement in accordance with the GaU method known from practice, the monitoring transmitter is switched on when the switch-on button is actuated. The assigned receiver in the coupling element sets a command memory which z. B. is designed as a bistable multivibrator. A switching relay passes on the command that puts the power unit into operation. When the switch-off button is pressed, the other tone generator is interrupted and the command memory is reset. The switching relay and thus the connected power unit are switched off. In the event of a fault in the high voltage side, ζ. Β. If a motor current monitor responds, a monitoring input f> o of the coupling element is closed (open-circuit principle) and the command memory is also reset. This in turn causes the aforementioned safety relay to switch off. A light-emitting diode assigned to the switch-on button lights up as long as the switch-on button is pressed. A light-emitting diode assigned to the switch-off button always lights up and only goes out when the switch-off button is pressed. - This has considerable disadvantages: The switch-on display is not a real display, since it goes out when the switch-on button is released and does not indicate that the command must be saved in the coupling link with subsequent switching on of the associated power unit. A status display of the power unit or the coupling link at the location of the on / off pushbutton device is therefore not available. The switch-on command is permanently saved. In the event of failure of the high-voltage network to supply the power unit, no commands are withdrawn. Renewed recovery of the high voltage mains voltage therefore leads to an uncontrolled start-up of the power unit.

The invention is based on the object of developing a circuit arrangement of the generic type in such a way that that on the on / off button device, the switching state of the coupling element and thus the downstream power unit can be clearly read that furthermore after failure of the power network an uncontrolled start-up of the downstream power unit when the voltage returns not possible.

To solve this problem, the invention teaches that the on / off pushbutton device has a switch-on command memory has that the switching logic has a switch-on command passage with two parallel through streets has, both of which work in the sense of an AND circuit on the switching relay and one of which by means of a monostable timing element can be separated, that an acknowledgment circuit is attached to the separable thoroughfare is connected, the acknowledgment signal of which is triggered by the switching process caused by the switching relay is that in the absence of an acknowledgment signal after switching off the timer, the audio frequency long-distance line can be short-circuited, so that the switch-on command memory is erased, and that the switch-on command memory can be deleted by the switch-off button of the on / off button device. That can be switched on in terms of circuitry realize various ways, preferably as indicated in claims 2-5.

In the following the invention and the advantages achieved thereby are based on only one exemplary embodiment Illustrative drawing explained in more detail.

The figure shows the circuit diagram of a circuit arrangement according to the invention.

The circuit arrangement shown in the figure belongs to a switching device in potentially explosive areas Business premises. The basic structure of this circuit arrangement initially includes

an on / off button device 1,

a coupling device 2, which has a power supply 3, a switching logic 4 with input 5 and output gate 6 and comprises at least one switching relay 7 or 35, and

a feedback device 8.

The on / off key device 1 has two tone generators 9, 10, namely a monitoring tone generator 9 and a command tone generator 10 to which two receivers 11, 12 in the coupling device 2 assigned. The on / off button only generates information, namely a switch-on command and a switch-off command. The coupling device 2 is connected to the on / off button device 1 via an intrinsically safe, two-core audio frequency remote line 13 connected in such a way that the monitoring tone generator 9 the supervision of the audio frequency transmission line 13

causes.

In the circuit shown are first essential

a switch-on command memory 14 in the on / off button device 1,

an OR / AND switching logic 4 with one with the Input 5 connected AND gate 24, an AND gate 6 as an output gate and a assigned, in the branch line forming "Durchgangsslraße II" (the direct connection between the gates 24 and 6 forms the "thoroughfare 1") lying OR gate 16, in front of which there is a timing element 17 in the form of a monostable multivibrator,

Acknowledgment signal generators (e.g. 18) connected to the OR / AND switching logic 4, which in suitable, In a manner yet to be described, the switching operations effected by the switching relays 7 and 35 detect and give acknowledgment signals to the OR gate 16 of the OR / AND switching logic 4,

a feedback gate 20 in the OR / AND switching logic 4, which before and after the AND gate 6 of the OR / AND switching logic 4 is connected and to the feedback device 8 heard.

The acknowledgment signal given by the acknowledgment signal generator 18 is sent via the acknowledgment relay 19 to the Switching logic 4 given. Intrinsically safe acknowledgment signals can also be sent directly via the acknowledgment signal input 21 on the intrinsically safe side and via a gate 22 to the OR gate 16 of the OR / AND switching logic 4 are given. This acknowledgment signal input 21 can be absent if in the above-described Way an acknowledgment relay 19 is provided and vice versa. But you can also use both acknowledgment signal inputs 19, 21 work, in which case said gate 22 is expediently an AND gate is.

With the switch 23, the arrangement can be switched to working current mode (right position of the Switch) or closed-circuit operation (left position of the switch). The receiver 12 for the Command tone frequency prepares the OR / AND switching logic via input 5, which is designed as an AND gate 24 4 before. In the exemplary embodiment, the OR / AND-Schahlogik 4 a further timing element 25. All of this plays together in the exemplary embodiment as follows:

When switching on the mains voltage for the coupling

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z. B. 15V to the audio frequency line 13 for On / Off button device 1. At the same time, it supplies the electronics within the coupling device 2. Open circuit voltage and short-circuit current are chosen so low that the audio frequency line 13 is not ignitable receives electrical energy and is therefore intrinsically safe. A choke 26 makes the power supply 3 for the Audio frequency long-distance line 13 audio frequency-wise high impedance. From the on / off button device 1 is the Direct current drawn through a two-way rectifier 27, so that an interchange of the audio frequency long-distance line 13 remains without influence. The tone generator 9 (420 Hz) is activated directly by the remote feed voltage switched on. A light-emitting diode 28 lying in a row indicates the operational readiness. at The tone generator 10 (540 Hz) is also switched on immediately.

The line monitoring is done with the help of the monitoring ^{tone generator 9. The signal from the monitoring tone generator 9 is selectively evaluated with coupling device 2 from the r} ) receiver 11 (420 Hz), and the output 29 from the receiver 11 prepares the reception of the ON command via the UN D gate 24 before.

In the event of a line fault (wire break, wire short), the monitoring tone generator 9 receives no supply,

κι the light-emitting diode 28 "operational readiness" in the The on / off button device 1 goes out, the monitoring tone generator 9 no longer transmits, the receiver 11 no longer receives, the electronics in the coupling device 2 is blocked (gate 24), the relay 30 is energized, the LED 31 (line fault) lights up and the message of the fault is transmitted via relay contact 32 issued.

When switching on, i. H. when the switch-on button 33 is pressed, the switch-on command memory 14 is set, the LED 34 ^ On «lights up, the command tone generator 10 (540 Hz) is switched off in closed-circuit operation or switched on with operating current operation, and the receiver 12 (540 Hz) evaluates selectively. That Timing element 25 allows an optionally selectable

> ^r ) Delay of the on and / or off command. After the timer 25 has elapsed, the timer 17 (monostable multivibrator) is triggered via the gate 24 prepared by the line monitoring and the OR gate 16 is switched through. At the same time, both the OR gate 16 and directly from the AND gate 24 via the "thoroughfare I" control the output gate 6, which is designed as an AND gate, so that its two inputs receive a signal. The output of the output gate 6 energizes the relay 7

η and 35. The relay 35 gives the switching command intrinsically safe for further remote transmission purposes to intrinsically safe internal circuits, while the switching relay 7 the The non-intrinsically safe internal circuit of the motor switchgear closes. In addition, the light-emitting diode 36 lights up

i " , which signals the successful forwarding of the command. After the timer 17 has expired (e.g. approx. 1 sec.), its output signal is withdrawn by the OR gate 16. Output gate 6 and thus the command transmission to the motor switching device would also be returned.

«If not the coupling device 2 now from would receive an "acknowledgment" outside of the command stimulus. In the case of controlling a Power aggregate this acknowledgment z. B. through the main contactor of this power unit in

■■ '»Form of a normally open contact 18. This is the acknowledgment relay 19 excited from the energy side. Gate 22 through (assuming; it is assumed that the Input 21 is given a permanent acknowledgment signal, see below) and the OR gate 16 now instead of the previous stimulus from the timer 17 offered the acknowledgment signal. This leaves the command transmission obtain. If the acknowledgment from the power unit is missing, the command will be transmitted after the timer has elapsed 17 (1 see.) Interrupted.

If the acknowledgment is not received, the exit from gate 24 and on the "thoroughfare I" are good Signal present, but missing at the output of output gate 6. Feedback gate 20 evaluates this signal difference, which with a small signal delay at its input is such that a signal is produced at the output and the transistor 37 at the Audio frequency line 13 is conductive and so shorts the line. The collapse of the remote power supply

This process erases the switch-on command memory that was previously set in the on / off pushbutton device 1 14 and the on-light-emitting diode 34 goes out, as does the light-emitting diode 36 in the coupling device 2. The Line short-circuit through transistor 37 only lasts for a short time, since the monitoring tone frequency (420 Hz) and with operating current operation also the command tone frequency (540 Hz) fail and no longer the receiver 11 and 12 excite, so that the gate 24 is blocked, which is at the input of the feedback gate 20 leads to the equality of the input signals. The output from the feedback switch 20 then switches the Transistor 37 in the high-resistance state.

The acknowledgment signal required to maintain the command can also optionally be provided by the intrinsically safe side can be given to the gate 22 via the acknowledgment signal input 21. If only one side is to acknowledge, the other side will through

ι »

a bridge switched to permanent acknowledgment. It is also possible to maintain command of both To make receipts dependent.

When the switch-off button 38 is actuated, the switch-on command memory 14 is in the on / off pushbutton device 1 extinguished, the light-emitting diode 34 goes out there, the command tone generator 10 is switched off (during open-circuit operation) or switched on (with quiescent current operation), which the receiver 12 (540 Hz) accordingly is evaluated. Thus, after the off time of the timer 25 via gates 24 and Output gate 6, the relays 7 and 35 switched off and thus the downstream devices. - Without Further, the circuit arrangement can be assigned an intrinsically safe shutdown system, which z. Legs Has a plurality of switches connected in parallel, with which the power supply to the tone generators 9,10 can be switched off.

1 sheet of drawings

Claims (5)

Patent claims: J. Circuit arrangement for a switching device in hazardous locations, with an on / off button, a coupling device with a power supply unit, a switching logic with input and output gate and at least one switching relay and a feedback device, the on / off key device ^ two tone generators, namely, a monitor tone generator and a command tone generator, two of which Receivers are assigned in the coupling device, and the coupling device to the on / off button an intrinsically safe, two-wire audio frequency trunk is connected, furthermore the monitoring tone generator serves to monitor the audio frequency transmission line, characterized in that that the on / off key device (1) has a switch-on command memory (14) that the Switching logic (4) has a switch-on command passage with two parallel thoroughfares (I, II), both of which work in the sense of an AND circuit on the switching relay (7, 35) and of which one (II) can be separated by means of a monostable timing element (17). that on the separable thoroughfare (II) an acknowledgment circuit (18, 19, 22, 16; 21, 22, 16) is connected, whose acknowledgment signal from the by the switching relay (7, 35) caused switching process is triggered that in the absence of an acknowledgment signal after switching off the timer (17) the Audio frequency long-distance line (13) can be short-circuited so that the switch-on command memory (14) is deleted, and that the switch-on command memory (14) by the switch-off button (38) of the on / off button device (1) is erasable. 2. Circuit arrangement according to claim 1, characterized by a coupling device (2) with an OR / AND switching logic (4) with an AND gate (24) connected to the input (5), an AND gate (6) as an output gate and an associated OR gate ( 16), in front of which the timing element (17) is in the form of a monostable multivibrator,
an acknowledgment signal generator (18) which can be actuated by the switching relay (7) and which is connected to an acknowledgment relay (19) whose contact is connected to the OR gate (16) of the OR / AND switching logic (4),
a feedback gate (20) belonging to the feedback device (8) in the OR / AND switching logic (4), the inputs of which are connected before and after the AND gate (6), by the switch-on command issued by the command tone generator (10) via the switch-on command memory (14) the input (5) and the AND gate (6) once directly, on the other hand via the timer (17) and the OR gate (16) Switching relay (7) and thus the acknowledgment relay (19) can be actuated and after the expiry of the Timing element (17) the acknowledgment signal via the OR gate (16) together with that from the input (5) switch-on leading directly to the AND gate (6) command hold the switching relay (7), while the feedback gate if there is no acknowledgment signal (20) and through a transistor (37) in the long-distance line (13) short-circuits it and thus clears the switch-on command memory (14). 3. Circuit arrangement according to claim 1, characterized by a coupling device (2) with an OR / AND switching logic (4) with an AND gate (24) connected to the input (5), an AND gate (6) as an output gate and an associated OR gate ( 16), in front of which the timing element (17) is in the form of a monostable multivibrator,
an acknowledgment signal input (21) which can be controlled by an intrinsically safe acknowledgment signal and is connected to the OR gate (16) of the OR / UN D switching logic (4),
a feedback gate (20) belonging to the feedback device (8) in the OR / AND switching logic (4), the inputs of which are connected before and after the AND gate (6), by the switch-on command issued by the command tone generator (10) 2 "via the switch-on command memory (14) once via the input (5) and day AND gate (6), on the other hand via the timer (17) and the OR gate (16), the switching relay (35) can be actuated and after the timer has expired (17) the acknowledgment signal via the acknowledgment signal input (21) and the OR gate (16) together the switching relay (35) with the switch-on command leading directly from input (5) to the AND gate (6) hold, while in the absence of an acknowledgment signal the feedback gate (20) switches through and via a The transistor (37) in the long-distance line (13) short-circuits this and thus the switch-on command memory (14) deletes. 4. Circuit arrangement according to one of claims 1 to 3, characterized in that the Input (5) of the OR / AND switching logic (4) is preceded by a further timing element (25). 5. Circuit arrangement according to claims 2 and 3, characterized in that the acknowledgment signals (18, 21) are connected to the OR gate (16) via an AND gate (22).