DE1613880A1 - Circuit arrangement for monitoring the safe switching on and off of electrical consumers - Google Patents

Description

Circuit arrangement for monitoring the safe switching on and off of electrical consumers The invention relates to a circuit arrangement for Monitoring of the safe switching on and off of electrical consumers under Use of electronic switches that by-pulse a polyphase pulse controlled, and with a monitoring device for the consumer current ..

In railway safety technology, for example, there is often the task of Switching signal lamps on and off safely. Under "switch on safely" is understood, i.e. that the signal lamp actually lights up when a corresponding one Switch-on command is triggered. In contrast, "switch off safely" should be understood ensure that the signal lamp actually goes out when a corresponding switch-off command is given is given. To avoid dangerous situations this is safe switching on of signal lamps to illuminate the signal image for the S.al understood "Halt" and. the safe switching off of the signal lamps to illuminate the Signal aspect for the signal aspect "drive" is absolutely necessary. For this reason the circuits for the first-mentioned signal lamps are used in railway safety technology because of the higher redundancy that can be achieved, doubled or even tripled, because for security reasons it is not accepted. or because not guaranteed can become, the individual, previously currentless circuit at the decisive moment to be able to bring into the current-carrying state. To do this, all elements must of the circuit must be seamlessly connected and in order itself.

When switching off signal circuits, the situation is somewhat cheaper. Namely, to change the circuit from the energized to the de-energized state. the circuit is to be interrupted at only one point. This can be done by a single contact can be achieved.

It is assumed that the contact is not at the crucial moment can open, contacts are also doubled to switch off electrical circuits. These contacts, which must not be operated by the same relay, are in series switched.

In both cases, as in circuits, the safe switching on as well as in circuits that require safe shutdown, results from the required doubling represents a considerable, undesirable overhead. the end dem-DBP 1 181 792 is a monitoring circuit for main and secondary threads for incandescent lamps, in particular signal lamps, known to be undesirable through the use of electronic means Avoid electrical or mechanical interference from relay-controlled circuits target.

V: it nasty monitoring circuit can not be monitored, whether the signal lamps can be switched on at the crucial moment and whether in the event of a malfunction, switching to the secondary threads is possible. Besides, this is safe shutdown is not possible. In addition, when using Semiconductors in the manner shown is not monitored whether as a result of external Influences, e.g. B. Overvoltages, the semiconductors are still functional.

The invention is based on the object, the disadvantages mentioned to avoid. According to the invention, this object is achieved in that the 'consumer into a branch with a fuse, the monitoring device and a first electronic switch is involved, which is through all the impulses of the first phase closed and opened in monitoring mode by all pulses of the second phase becomes, - the time between successive pulses of these phases being so short is selected that the switch is periodically closed by the consumer Flowing current expected for normal operation with the switch permanently closed .Effect in the consumer not yet caused, and that a in monitoring mode by the impulses of the third phase immediately after opening the first switch closable second0elek-. electronic switch in conjunction with a separate Voltage source is provided that feeds the consumer via the monitoring device. with feed a current in which the expected effect in the consumer is also still does not occur.

In the circuit everyone is on the safe switching on and off of the consumer as well as this itself and all other elements in an advantageous manner without major Effort and without duplicating the switching elements to work properly supervised.

For switching consumers with low power consumption Transistors for use.

It is particularly useful for consumers with higher power consumption an embodiment of the invention in which the first switch consists of a through the There are pulses of the first phase controllable thyristor, which a second through the Pulses of the second phase controllable thyristor via a capacitor in parallel is switched, which, when the first thyristor is ignited, switches to a specific one for this Erasing voltage charges. Furthermore, there is one with three as a separate voltage source Windings provided transformer provided, one winding over a third Thyristor is in series with the consumer and the monitoring device whose second winding is arranged in the ignition circuit of the third thyristor and its third Winding in series with a fourth controlled by the pulses of the third phase Thyristor is, this series connection by a Paral-2elkond.ensator bridged and via the fuse to the voltage source feeding the consumer connected.

The invention is as follows. based on the drawing, for example explained in more detail: -The figures show in detail: Fig. 1. the block diagram. a circuit arrangement according to the invention, FIG. 2 shows a preferred embodiment of the invention, Fig. 3 and. 4 further details of a monitoring device and. 5 shows several timing diagrams.

In the block diagram of Fig. 1, a consumer 1, z. B. a signal lamp, Provided in a branch, the yreiterhin from a fuse 2, a monitoring device 3 and an electronic switch 4 and connected to a voltage source is. In parallel to the consumer 1 and the monitoring device 3 there is a branch circuit, from a separate voltage source 5 and. a second electronic switch 6 is constructed. Furthermore, a pulse source 7 is provided for a three-phase pulse. The time allocation of the from the pulse source 7 via the newspapers 71, 72 and 73 emitted pulses can be seen from the diagram lines Z1, Z2 and Z3 of FIG.

When an impulse is given via the newspaper 71, the electronic Switch 4 closed. Then flows through the fuse 2, the consumer 1, the Monitoring device 3 and the switch 4 in the direction of arrow 8, a current that as a result a pulse then given via the newspaper 72 by opening the electronic Switch 4 is interrupted. The time 9 between consecutive The impulses of the first two phases is chosen so that the switch is closed 4 current flowing through the consumer i during monitoring operation is at most of of a duration is that for normal operation, i.e. when the pulses are switched off the second and. third phase and. consequently continuous current expected effect in the consumer not yet entered. The signal lamp does not come on yet. By this briefly flowing current in the direction of arrow 8 is monitored that the switch 4 is working properly, the consumer 1, the monitoring device 3 and in general the entire circuit. are still okay. This fact is on the line 31 of the monitoring device 3 reported to a control center. Since this message is in Monitoring operation is constantly repeated when the system is in order, is one Excellent monitoring with regard to the safe switch-on of the consumer 1 given.

As soon as a pulse of the third from the pulse source 7 via the line 73 Phase, see diagram line Z3, Fig. 5, is delivered. the second electronic Switch 6 closed briefly. It is assumed that switch 6 is through corresponding training automatically opens again; but it is also possible to use a Provide fourth pulse phase. The pulses of which cause the switch 6 to open. When switch 6 is closed, it is checked whether switch 4 is at the previous one Opened the second phase impulse. A current flows in the opposite direction of the arrow 8 by the monitoring device 3 and the consumer 1. The time during which-the Switch 6 remains closed, is dimensioned so that the consumer 1 flowing current does not yet produce the same effect as in normal operation. Is as Consumer 1 is provided with a signal lamp, so it must not light up. The short-term current is sufficient, however, in the monitoring device 3 to trigger a corresponding message, which is also sent via the newspaper 31 to a central office submitted will. This message states that the electronic Sehalter 6 formed parallel circuit also switch properly on and off leaves.

Should it be permanently closed due to a defect in switch 4 remain, a short circuit is generated when the electronic switch 6 is closed, which triggers fuse 2 as a result. The consumer 1 is so despite of the defect assumed for switch 4 is safely switched off. That this defect is present, due to the failure of the monitoring device 3 at not faulty switch 4 messages issued in the control center are displayed and evaluated.

To switch on the consumer 1 for normal operation, a command to switch off the two pulses of the second and third phase is given to the pulse source 7. As a result, the electronic switch 6 remains open and the electronic switch 4 closed. Depending on the design of the switch 4, all three pulses can be switched off after it is closed. -Fig. Figure 2 shows a preferred embodiment of the invention. Here, the first electronic switch 4 consists essentially of two thyristors 41 and 44 and the second electronic switch 6 of the thyristors 61 and 62. The operation of the electronic switch 4 is as follows takes over the actual switching task, ignited, whereby the following current branch is closed: During the brief switched-on state in the monitoring mode , the capacitor 42 is charged via the resistor 43. When the pulse of the second phase following in time is emitted from the pulse source 7 via the newspaper 72, the thyristor 44 is ignited, the switching path of which is then low-resistance. As a result, the voltage of the capacitor 42 is applied to the switching path of the thyristor 41, as a result of which the thyristor is extinguished again and thus becomes highly resistive. The named branch is then disconnected again. The switching path of the thyristor 44 automatically becomes high-resistance again if, after the capacitor charge has dropped, a holding current predetermined by the thyristor properties is undershot.

The operation of the electronic switch 6 is as follows. Short before each pulse given through newspaper 73, capacitor 63 is across the resistor 64 charged. Will. then the thyristor 62 by the said pulse of the third Phase ignited, eo flows through the winding 101 as a separate voltage source serving transformer 10 as long as current until. as a result of the capacitor discharge of the Holding current of this thyristor is fallen below. Here. gives the winding 105 of the transformer 10 a voltage pulse for feeding and. the winding 102 one Voltage pulse for triggering the thyristor 61 from. When the thyristor 41 is open, it flows then by the monitoring device 3 and. the consumer 1 a short duration Current in the opposite direction of the arrow B. If the thyristor would be due to a defect 41 still low, as already described in detail for FIG. 1, the Sioherung 2 triggered. The in this test operation by the consumer 1 and, the Monitoring device flowing current is in the diagram line Z4, Fig. 5 through illustrates bipolar pulses. The monitoring device 3 can consist of a toroidal core 32 (Fig. 3) with. two windings 33 and. 34 is provided. The winding 33 is dimensioned in such a way that it alternates in the test mode Direction through this current flowing a magnetization of the toroidal core 32 of the causes one in the other remabenzlage. The resulting in the winding 34 Voltage pulses are output as a message via line 31.

Should be switched on continuously during normal operation, i.e. when the consumer 1. remains, an additional monitoring of the consumer can be carried out a monitoring circuit according to FIG. 4 can advantageously be used, which differs from that of FIG. 3 only by a further winding 35 of the Ring core 32 differs. This winding is activated when the consumer is switched on 1, i.e. in normal operation, in which at least the 'impulses of the second and third Phase are switched off, through the pulses of one of the three phases applied. the Winding 35 is dimensioned so. that the iri generated this winding with every pulse Flooding so high and opposite to the pre-magnetization that occurs during normal operation through the winding 33 is that the toroidal core is briefly in the other remanence position is controlled. The winding emits 34 voltage pulses that are transmitted through the newspaper 31 as a message for a consumer supplied with sufficient electricity 1 can be output. Should, for example, a signal lamp switched on as a consumer burn through, the premagnetization is omitted, so that no over the newspaper 31 Pulses are output.

Claims (1)

Patent claims 1. Circuit arrangement for monitoring the safe switching on and off of electrical loads using electronic switches which are controlled by impulses of an out-of-phase pulse, and. with a monitoring device for the consumer current. characterized in that the consumer (1) is in a branch with a fuse (2), the monitoring device (3) and. a first electronic switch (4) is included, which is closed by all pulses of the first phase and opened in monitoring mode by all pulses of the second phase, the time (9) between successive pulses of these phases being selected to be so short, d.aß the periodically closed switch (4) through 'the consumer (1) flowing current does not cause the expected effect in the verb smoker (1) for normal operation when the switch (4) is constantly closed, and that a monitoring operation by the pulses of the third phase after the first switch (4) is opened, the second electronic switch (6), which can be closed for a short time, is provided in connection with a separate voltage source (5) which feeds the consumer (1) via the monitoring device (3) with a current in which. the expected effect in the consumer (1) also does not yet occur. 2. Circuit arrangement according to claim 1, characterized in that the first switch (4) consists of a thyristor (41) controllable by the pulses of the first phase, a second thyristor (44) controllable by the pulses of the second phase a capacitor (42) is connected in parallel which, when the first thyristor (41) is triggered, charges to a certain extinguishing voltage, and that a transformer 10 provided with three windings is provided as a separate voltage source (5), one winding (105) of which via a third thyristor (61) in series with the consumer (1) and the monitoring device (3), the second winding (102) of which is arranged in the ignition circuit of the third thyristor (61) and the third winding (101) of which is in series with a controlled by the pulses of the third phase fourth thyristor (62), this series circuit bridged by a parallel capacitor (63) and via the fuse (2) to the consumer (1) spei transmitting voltage source is connected (Fig. 2).