DE2258174A1 - CIRCUIT ARRANGEMENT FOR MONITORING THE HEATING OF CURRENT CONTACTOR - Google Patents

Description

Circuit arrangement for monitoring the heating of current-carrying Protégés Addition to Patent ... (Patent Application P 22 45 605) Subject of the present The invention is a circuit arrangement for monitoring the heating of current-carrying Protégés, in particular motors and transformers according to patent ... (patent application P 22 45 6o5), which converts the monitored currents into a voltage.

In this circuit arrangement, the voltage is converted using a voltage frequency converter converted into pulses, which are the up-counting input of an up-down counter act on, during its downward counting input of pulses of an additional Generator is controlled. The output pulses of the up / down counter operate a switch in the circuit of the to be monitored Protégé. An integrated module using TTL technology, for example, can be used as the up / down counter be used. Such meters, however, have a relatively high susceptibility to interference, i.e. interference pulses of any kind - but especially high-frequency ones falsify the counting process in such a way that the heating is too great or too small of the current-carrying protégé is faked. The required reliable This makes it very difficult to monitor the temperature rise.

The task of the additional invention is to provide a circuit arrangement as an alternative to create a reliable, uninfluenced by interference pulses with little effort Monitoring of the warming of stror, -traversed protégés allowed.

According to the invention, this object is achieved in that a voltage frequency converter the voltage is converted into pulses that these pulses and the pulses of a generator the common counter input of an interference-insensitive up-down counter act upon that at the direction input of the up-down counter one of derived from the pulses of the voltage frequency converter and / or the generator Voltage or an auxiliary DC voltage is that the up-down counter emits a stop signal to the generator when it reaches its zero position and that the output pulses of the up-down counter a switch in the circuit of the protégé.

The invention is illustrated below with reference to two in FIGS the drawing illustrated embodiments explained in more detail.

FIG. 1 shows the block diagram of an exemplary embodiment at the voltage at the direction input of the up / down counter from the pulses of the voltage converter and the generator is derived.

Figure 2 shows an embodiment in which the voltage at the directional input of the up / down counter from a fixed voltage and from the pulses of the generator is derived.

In Figure 1, 1, 1 ', 1 "lines, the currents of which are from main current transformers 2 detected and intermediate current transformers 3 are supplied.

At resistors 4 these currents are converted into voltages, the be rectified in a rectifier circuit 5. A 6 voltage frequency converter converts converts the rectified voltage into pulses. These impulses control a first Decoupling resistor 36 the direction input 9 one of two counting stages 24, 25 existing, interference-insensitive up-down counter 27 and act on it in addition, via a first OR circuit 34, the counting input 7 of the up / down counter 27. The pulses of a generator lo control a negation stage 35 and a second decoupling resistor 37 also to the direction input 9 and act on it additionally the counting input 7 of the counting stage 24 via the first OR circuit 34. Each counting stage 24, 25 des Up-down counter 27 has each four outputs 11-14 or 15-18, which are connected to a second OR circuit 26 are connected, the output of which controls the generator 16. An output 28 of the counting stage 25 is followed by a switching stage 19, which has a relay 20 and a third OR circuit 21 applied. The output of the third OR circuit 21 supplies the reset pulses for the counting stages 24, 25 at their reset inputs 8, 23. From the operating voltage UB w fld the second input signal for the third by means of a trigger circuit 22 OR circuit 21 derived.

At the beginning of the measurement the outputs 11 - 18 are reset to zero, whereby the output of the OR circuit 26 is an output signal blocking the generator lo supplies. When the motor M is switched on, appears at the output of the rectifier circuit 5 a voltage that is converted into pulses in the voltage frequency converter 6, the Frequency increases quadratically with the currents to be monitored. Such a voltage frequency converter is known and is not described in detail.

The pulses arrive on the one hand via the first OR circuit 34 the counting input 7 of the counting stage 24, on the other hand a voltage is derived from them, which is given to direction input 9 as a directional decision. This tension is positive, as a result of which the counting stage 24 receives the pulses from the voltage frequency converter 6, which are pending at the counter input 7, counts up. The first impulse then appears as an L signal at the output 11 of the counter stage 24, whereby also at the exit the OR circuit 26 has an L signal which starts the generator lo. Whose On the one hand, pulses also reach the common via the OR circuit 34 Counter input 7.

On the other hand, by means of the negation stage 35 and the second decoupling resistor 37 derived a voltage which is applied to the direction input 9. These The voltage is negative, which means that the pulses from the generator lo are counted down. The first pulse of the generator lo causes the previously recorded first Pulse of the voltage frequency converter 6 is counted back to zero '. This leads the output 11, like all other outputs 12-18 zero signal, whereby the generator lo is stopped again. As long as the frequency of the pulses from the voltage frequency converter 6 is less than the frequency of the pulses from the generator lo, takes place at the output 11 a constant change between zero and low signal takes place, while the rest Outputs always have a zero signal. The adjustable frequency of the generator lo corresponds to the value of the currents through the lines 1, 1 ', 1' of the.

to monitor the motor for heating.

If the frequency of the voltage frequency converter 6 exceeds the frequency of the generator lo, pulses pass through the counting stages 24, 25 after a certain one Time to exit 28. With the increase in the currents in lines 1, 1 ', 1 "decreases the frequency of the pulses of the voltage frequency converter 6 increases rapidly during the Generator lo counts down with the constant frequency set once. With the If the currents in the lines 1, 1 ', 1 "increase, the first pulse also arrives correspondingly faster to the Output 28. This first pulse on Output 28 controls the switching stage 19, which allows the relay 20 to respond, whereby the lines 1, 1 ', 1 "are switched off. It is also possible to use the binary signals the outputs 12-18 of the counting stages 24, 25 for switching off the currents in the lines 1, 1 ', 1 ". For this purpose, e.g. switching stage 19 with the downstream Relay 20 connected to output 16 of counting stage 25. An L signal on this one Output lets relay 20 respond. In this way the release time is shortened, without having to make changes to the circuit structure. After a If the switching stage 19 is triggered, the counting stages 24, 25 must again returned to their original position, i.e.

all outputs 11 - 18 must have a zero signal again. This will be the output signal of the switching stage 19 via the third OR circuit 21 to the Reset inputs 8, 23 led. The counting stages 24, 25 are also with the Switching on the voltage source which supplies the operating voltage UB for the circuit arrangement delivers, deferred. The operating voltage UB is used for this purpose by means of the trigger circuit 22 a pulse derived via the other input of the third OR circuit 21 reaches the reset inputs 8, 23 of the counting stages 24, 25.

In Figure 2, an embodiment is shown, which differs from the in Figure 1 only by generating the voltage for the directional input 9 differs. Therefore, only this difference is explained in more detail below, while for the rest, reference is made to FIG.

The pulses of the voltage frequency converter 6 in turn reach the first OR circuit 34 to the counting input 7 of the counting stage 24. The direction input 9 is now connected to the positive operating voltage via a series resistor 38 UB. As a result, the first pulse of the voltage frequency converter 6 is counted up, so that an L signal appears again at output 11 *, which starts the generator lo. Its pulses in turn reach the counting input via the first OR circuit 34 7. In addition, a negative voltage is generated from them by means of the negation stage 35 - to the positive operating voltage constantly applied to the directional input 9 UB added - a zero potential is generated at this directional input 9. Through this the counting stage 24 receives a directional decision, whereby the first pulse of the generator lo is counted down. At output 11 a zero signal appears again, -that via the OR circuit 26 stops the generator lo.

So that the impulses of the generator lo and of the voltage frequency converter 6 at the direction input 9 largely prevented is the ratio of pulse spacing to pulse duration for the generator lo and the Voltage frequency converter 6 chosen very large.

Notwithstanding the above-mentioned exemplary embodiments, it is also possible the direction input 9 is constantly at zero potential via an additional resistor to put, so that a control of this input from the generator lo can be omitted. The voltage frequency converter 6 pulls this input to Pius potential when a pulse is emitted, with which the directional decision is made.

Mainly integrated counters are used as interference-insensitive meters.

Circuits in MOS technology in question.

8 pages description 4 claims 2 sheets of drawings with 2 figures

Claims (4)

Claims 0 circuit arrangement for monitoring the heating of current-carrying protégés, in particular motors and transformers Patent ... (patent application P 22 45 605), which converts the currents to be monitored into a Converts voltage, characterized in that a voltage frequency converter (6) the voltage is converted into pulses that these pulses and the pulses of a generator (lo) the common counter input (7) of an interference-insensitive up-down counter (27) act on that at the direction input (9) of the up-down counter (27) one of the pulses from the voltage frequency converter (6) and / or the generator (io) derived voltage or an auxiliary DC voltage lies that the up-down counter (27.) sends a stop signal to the generator (lo) when it reaches its zero position and that the output pulses of the up-down counter (27) a switch in Trigger circuit of the protégé. 2. Circuit arrangement according to claim 1, characterized in that the voltage frequency converter (6) and the generator (lo) via an OR circuit (-34) with the counter input (7) of the up / down counter (27). are connected. 3. Circuit arrangement according to claim 1, characterized in that the generator (lo) via a negation stage (35) with the directional input (9) of the Up-down counter (27) is connected. 4. Circuit arrangement according to claim 1, characterized in that the auxiliary DC voltage is the operating voltage (UB). Blank page