DE1147690B - Circuit arrangement for displaying interruptions in the measuring circuit in the case of automatically balancing potentiometer or bridge circuits - Google Patents

Description

Circuit arrangement for displaying interruptions in the measuring circuit with automatically adjusting potentiometer or bridge circuits For fast and precise measurement or remote measurement of electrical quantities are automatically suitable Adjusting potentiometer and bridge circuits are particularly good. Known devices of this type for measuring small electrical voltages, e.g. B. to measure the EMF of thermocouples, are constructed like the Poggendorf compensator. The to measuring voltage is counteracted by a compensation voltage, which is applied to the movable grinder one powered by a constant voltage source Sliding wire potentiometer is tapped. The difference between the one to be measured Voltage and the compensation voltage is determined by one in the differential branch of the circuit arranged, mostly designed as a chopper amplifier amplified zero amplifier. The output of the amplifier feeds a servo motor that drives the movable grinder of the compensation potentiometer until the compensation voltage is the same as the voltage to be measured. The deflection of the wiper on the compensation potentiometer represents an exact measure of the voltage to be measured in the balanced state. There are also self-balancing bridge circuits known which are used to measure Resistances serve. The resistance to be measured forms a branch of the measuring bridge, in whose diagonal branch the input of the zero amplifier is switched on. The exit of the zero amplifier feeds a servomotor, which is also in one of the bridge branches reclining adjustable resistance adjusted.

As with the known self-adjusting potentiometer circuits or bridge circuits, the servo motor causing the adjustment has no straightening force has, a line interruption in the measuring or compensation circuit, in particular in the zero branch of the measuring circuit, lead to the servo motor and thus the contact wire tap, at the position of which the measured variable is read off, in the one existing before the interruption Position stops. There is nothing to indicate the existence of an error, which can result in serious errors about the magnitude of the measurand. Such Interruptions in the zero branch of the bridge or

Compensation circuits can occur, for example, when the lead to the thermocouple used as a sensor, for example, breaks, but also if the tap of the potentiometer is caused by dust particles from the sliding wire is lifted.

To protect against the consequences of an interruption in the measuring or compensation circuit automatic balancing bridge or compensation circuits is it already known to give the servomotor an artificial straightening force, which in normal operation the arrangement is irrelevant, but which is sufficient in the case of a Interruption in the measuring circuit the tap of the loop wire potentiometer in one of the To pull end positions where an alarm contact can be provided to indicate the fault can. In a known arrangement, which is a directional forceless measuring mechanism operated as a servo motor, an additional weak spring is provided, which the Measuring mechanism a straightening force that does not appear disadvantageously in normal operation issued in the direction of one end position. The resulting in an interruption of the The pointer moved into one of the end positions shows the occurrence through its position a fault. This solution is also used in automatic balancing circuits Electric motors for moving the potentiometer tap cannot be used. With such It is known arrangements in the rotor of the electric motor by switching on a constant voltage to produce a constant torque, which when occurring If there is a fault in the measuring circuit, move the potentiometer to one of the end positions represents. This known arrangement is very complex because it is an additional voltage source requires which are connected either in parallel or in series to the amplifier output must be or which an additional, only for the generation of the constant torque Serving winding of the motor feeds. This known circuit for generating a constant torque in the servomotor has been driven in spite of the Effort has not proven to be effective to the desired extent.

The invention makes it possible to use one of the known protective circuits superior in their effect and less complex circuit arrangement for monitoring Ub of the measuring circuit.

In contrast to self-adjusting measuring circuits with servomotors is a simple mechanical one for measuring circuits with galvanometric measuring units Solution of the problem of measuring circuit monitoring possible. The used Existing mechanical straightening force used in measuring units, which occurs in the event of interruptions In the measuring circuit, move the measuring tool pointer to the mechanical zero position or another conspicuous one Location leads. One known regulator has a contact device above the mechanical Zero position of the measuring instrument, which triggers a warning signal in the event of a malfunction or causes a shutdown.

There are also safety circuits on controllers with galvanometric Measuring mechanisms known that consist of an AC-powered bridge circuit with a in the diagonal rectifier diode and one that responds to direct current Switching element exist in one of the bridge branches. These arrangements are complicated and furthermore not applicable to self-adjusting compensation circuits, because they require a galvanic connection through the measuring element, which is the case with the servo amplifiers generally does not exist.

The invention is based on a circuit arrangement for display of interruptions in the measuring circuit with automatically adjusting potentiometer or bridge circuits with a zero branch, in which the tap of a through a Servomotor operated slip wire potentiometer that uses its output voltage The amplifier feeding the servomotor and, if applicable, the voltage source to be measured are switched on. The invention consists in that one of the input terminals of the connected to the zero branch via a high-ohm resistor connected to the supply voltage source of the bridge or compensation circuit is.

The invention is explained in more detail below with reference to the figures. The figures show exemplary embodiments of the invention.

In Fig. 1 a measuring arrangement for determining a voltage is shown. The arrangement shown is designed as an automatically balancing compensation circuit.

The emf emitted by a thermocouple T is connected to a voltage compared which is tapped on a potentiometer P. The slip wire of the Potentionmeters P is connected to the resistors B and C to form a bridge, which is connected to a constant supply voltage source at terminals A and S. The resistors connected in series with the contact wire of the potentiometer P. RS and the resistor connected in parallel to the contact wire of the potentiometer P. R are used to calibrate the measuring circuit. In the zero two of the bridge circuit between the connection point of the resistors B and C and the tap N of the potentiometer P the thermocouple whose EMF is to be measured is switched on. aside from that is in series with the measuring voltage source in the zero branch of the measuring circuit shown Input of the zero amplifier V, the output of which feeds the motor M. The motor M operates the tap of the potentiometer P via a mechanical connection through the nut amplifier V becomes the emf emitted by the thermocouple T with that emitted by the wiper N on the potentiometer P compared to the tapped voltage. If the two voltages compared are equal are large, the input variable of the amplifier is equal to zero, as is the output variable, so that the motor M stops.

If there is a difference between the voltage to be measured and that on Potentiometer P through the tap N tapped voltage on, then the difference amplified by the amplifier V. The output of the amplifier sets the servo motor M in motion. This moves the tap N of the potentiometer P until the the voltage picked up by the tap N on the potentiometer P is again the measuring voltage is equivalent to. The position of the tap N is then a measure of the EMF of the thermocouple T. If now, for example, by dust particles or other small foreign bodies The wiper N of the potentiometer is lifted from the contact wire and is not conductive Connection with the slip wire has more, then the input circuit of the amplifier V interrupted. The amplifier V no longer delivers an output voltage, and so does the motor M remains in the position he is currently taking.

Any changes in the measured value are not taken into account, and the display of the measured value is falsified without this being noticed.

An interruption in one of the leads to the thermocouple T or A break in the thermocouple solder joint also has the consequences described, because thereby the input circuit of the amplifier is interrupted. According to the invention The resistance H provided is between that connected to the tap N of the potentiometer P. Input terminal of the amplifier and connection point A of the supply voltage source connected to the compensation circuit. In the event that the grinder is lifted off N from the slip wire of the potentiometer P is the input circuit of the amplifier V. connected to the supply voltage source via H. The resulting input voltage of the amplifier causes the corresponding output current of the amplifier sets the motor M in motion and this sets the tap N of the potentiometer P in the direction turns towards one of the end positions. If the tap N comes back during this movement with the sliding wire of the potentiometer P in conductive contact, then again the difference between the emf of the thermocouple T and that of the wiper N on the contact wire of the potentiometer P tapped voltage to the amplifier input effective. The motor M fed by the amplifier output shifts the tap N in Direction to the point corresponding to the adjustment, at which the tapped Voltage is the same as the thermal EMF. Through the resulting in this way Movement of the wiper is often the cause of the break in contact eliminated automatically. Is used in the event of a break in contact between the tap N and the sliding wire of the potentiometer P by moving the wiper N the cause of the interruption is not eliminated, then tap N is replaced by the Motor M moved to one of the end positions, where an alarm contact indicates a fault can be effected.

In the event of an interruption in the supply lines to the thermocouple T or of the thermocouple itself connects the resistor provided according to the invention J the input terminal of the amplifier V connected to the thermocouple with the Connection point S of the supply voltage source. Through this connection of the amplifier input terminals with the connection point of the supply voltage source is even with interruption of the Thermocouple or the thermocouple leads are the input circuit of the amplifier V remain closed. The motor fed by the output of the amplifier V. moves the wiper N of the potentiometer P into one of the end positions, where also through an alarm contact can be used to display the fault that has occurred. the Resistors H and J cause a during normal operation of the measuring arrangement Detuning and a shift of the wiper N by a certain amount the position in which the voltage tapped at potentiometer P is exactly that to be measured Voltage corresponds. The associated change in the display can be caused by the Choosing a high resistance value of the resistor or J can be kept so small that that it lies within the measurement tolerance, but it can also, if the required The accuracy of the measuring circuit is extremely high, right from the start during the calibration the compensation arrangement are taken into account, so that they can be used even with the highest requirements no longer appears disturbing.

The arrangement shown in Fig. 2 corresponds in principle Structure of the measuring circuit of the arrangement according to Fig. 1. The compensation resistor P, the tap, the balancing resistors Rs, Rp, B, C as well as the amplifier V and the zero motor M. correspond to the switching elements of the arrangement which are provided with the same reference symbols according to Fig. 1.

In the arrangement according to Fig. 2, one leg is the thermocouple connected to the tap N of the sliding wire potentiometer P, the other with the an input terminal of the amplifier 7. The other input terminal of the amplifier V lies at the connection point of resistors B and C. The effect corresponds to the arrangement basically the effect of the arrangement according to Fig. 1. In the case of the one shown in Fig. 2 Switching the thermocouple, a single resistor K is sufficient to monitor the Measuring circle. Both in the event of an interruption in the supply lines to the thermocouple and of the thermocouple itself as well as in the event of an interruption of the contact between The one input terminal becomes the contact wire of the potentiometer P and the tap N of the amplifier V to a connection point of the supply voltage source of the compensation arrangement tied together. As a result, the wiper becomes active in the event of a permanent interruption of the contact N is moved into one of the end positions by the motor M and is already pointing through this position the occurrence of a fault. When the grinder N is lifted off the grinding wire of the Potentiometer P is the grinder N by the motor M also in the direction of one of the end positions is closed. If he does it again with the Slip wire in contact comes, it is determined by the difference between the voltage to be measured and the compensation voltage is moved back to the point of the sliding wire, at which the measuring voltage and the compensation voltage correspond to one another. if by the resulting, possibly multiple, back and forth movement of the grinder N the cause of the interruption of contact between the wiper N and the sliding wire of the potentiometer P is eliminated, the measurement can be continued without interruption will.

Claims (4)

PATENT CLAIMS: 1. Circuit arrangement for displaying interruptions of the measuring circuit with automatically adjusting potentiometer or bridge circuits with a zero branch in which the tap of a operated by a servomotor Sliding wire potentiometer that feeds the servomotor with its output voltage The amplifier and, if applicable, the voltage source to be measured are switched on, characterized in that one of the input terminals of the switched into the zero branch Amplifier via a high-ohmic resistor to the supply voltage source of the Bridge or compensation circuit is connected. 2. Circuit arrangement according to claim 1 for automatically adjusting Voltage compensation arrangements, characterized in that the with the tap input terminal of the zero amplifier connected to the compensation potentiometer a high-resistance resistor with one pole that feeds the compensation potentiometer Voltage source is connected. 3. Circuit arrangement according to claim 1 and 2, characterized in that that another high-resistance resistor between the voltage source to be measured connected amplifier input terminal and the other pole of the compensation resistor supply voltage source is switched on. 4. Circuit arrangement according to claim 1 for automatically adjusting Potentiometer circuits for voltage measurement with compensation of the input voltage by means of a compensation voltage taken from a sliding wire potentiometer, characterized in that the wiper of the compensation potentiometer and the voltage source to be measured applied in series to a terminal of the zero amplifier and this terminal of the zero amplifier also has a high-ohmic resistor connected to one pole of the voltage source feeding the compensation potentiometer is. Publications considered: German Patent No. 711 081; German Auslegeschrift No. 1 076 236; German patent application A 15346 VIII b / 21 c (published on November 18, 1954).