DE4112109C2 - - Google Patents

Description

The invention relates to an arrangement for reporting a wire break according to the preamble of the claim.

DE 39 06 304 A1 describes a device for digital monitoring of supply lines and / or binary sensors or the like a control known in which the encoder switched antiparallel Rectifier elements are assigned and the feed lines rectangular, 180 ° out of phase with each other, Alternating clock voltages are impressed and those evaluated on the control Signals interference on the feed lines or the position of the encoder, the signal states resulting from the two alternating clock voltages at the control input serve as display criteria. The input signals on the Control in the error-free state a dynamic and in the faulty State a static picture.

For DC drives where thyristor bridges are used, it is necessary to ensure that the thyristors are exactly for the intended Time and in the correct order to conduct or de-energize are. A wire break on one of the leads to the thyristor connections leads to a malfunction, which must be reported immediately.  

This also applies to the failure of the coupling element for electrical isolation between the DC drive and the thyristor bridge. As An optocoupler is preferably used for the coupling element.

The task is therefore to create an arrangement for reporting a Wire break in the leads of thyristors of a thyristor bridge or the failure of an optocoupler for potential isolation in the same to create electric drives that reliably detect a fault enabled or triggers a switchover lock.

The object is according to the invention by the in claim given measures resolved.  

The invention is based on the drawing of an off management example explained in more detail.

From Fig. 1 the circuit diagram of the arrangement according to the invention can be seen. Signals, the duration and shape of which are shown in line A in FIG. 2, are fed in by an optocoupler 1 . You are fed directly to an OR gate 2 , which is connected to a switching lock device, not shown.

At the same time, the signals are sent to a retriggerable monostable multivibrator 3, for example set to 50 microseconds, and from there to the inverse input of an AND gate 4 . The signals are directly present at a second input of this AND gate 4 . The AND gate 4 then emits signals which correspond to those in FIG. 2, line B in terms of time and duration.

The signals according to line B are given to an inverse input of a further retriggerable monostable multivibrator 5 , which is set at 10 ms for example, which it converts to signals according to FIG. 2, line C. The signals according to FIG. 2, line B and FIG. 2, line C arrive at a further AND gate 6 at a respective input in the opposite direction.

The AND gate 6 is connected to the OR gate 2 and a further OR gate 7 and passes signals to these two OR gates according to FIG. 2, line D. The OR gate 7 , which also the signals from the other Ren thyristors the thyristor bridge receives is connected to a not shown signaling device, which may break a wire or indicates the failure of the optocoupler 1 . A signal according to FIG. 2, line E is sent from the OR gate 2 to the switch-over blocking device, which signal is derived either from the signal according to FIG. 2, line A or the signal according to FIG. 2, line D.

The advantage of the arrangement according to the invention is that a Broken wire or failure of the coupling element for electrical isolation is displayed safely and immediately.

Claims (1)

Arrangement for reporting a wire break in the supply lines of thyristors of a thyristor bridge or the failure of an opto-coupler for electrical isolation in DC drives, characterized in that the signals originating from the anode-cathode monitoring of the thyristors or from an optocoupler ( 1 ) on the one hand via an OR gate ( 2 ) a switch-over device, on the other hand both via a retriggerable, monostable multivibrator ( 3 ) to the inverse input of an AND gate ( 4 ) and directly to the second input of the AND gate ( 4 ), and from this both via another retriggerable monostable multivibrator ( 5 ) with an inverse input to an inverse input of a further AND gate ( 6 ) and to a second inverse input of this AND gate ( 6 ), from which they are connected to the OR gate ( 2 ) and are connected to a signaling device via a further OR gate ( 7 ).