SU1275342A1 - Device for checking movement time of measuring mechanism - Google Patents

Abstract

The invention relates to electrical measuring technique and makes it possible to improve the accuracy of monitoring the travel time of the movable part of the measuring mechanism of a magnetoelectric system. Under the influence of the opposing moment of the coil spring, the movable part of the measuring mechanism 1 returns to a quiescent state. In the frame of the measuring mechanism 1, an EMF is induced at the input to the differentiation unit 6 (D). From the output of the block D 6 to the input of the block D 7 a signal is received, proportional to the first derivative of the emf over time. From the output of the block D 7 to the input of the comparator 8 receives a signal proportional to the second derivative of the emf over time. When moving the movable part of the measuring mechanism 1 of the zero mark of the scale, the signal at the output of the D 7 block changes the sign to positive, and at the output of the comparator 8 the signal changes to a single one, which transfers trigger 4 to the zero state (Ln. Signal from trigger 4 enters counter 5 and further - on indicator 9, which shows the time of the measuring mechanism 1. 1 or silt 00 00

Description

The invention relates to electrical engineering and is used to time control automation stroke of the moving part of the measuring mechanism ₅ magnetoelectric systemic theme in their manufacture and operation.

Control of the running time is used to synchronize the operation of the measuring mechanisms of the magnetoelectric 10 system in the production of indicators for monitoring the level of the electric signal through two channels in stereo radio equipment.

The aim of the invention is to increase the accuracy of time control, the progress of the movable part of the measuring mechanism of the magnetoelectric system.

The drawing shows a diagram of a device for controlling the stroke time 20 of the measuring mechanism.

The device contains a controlled measuring mechanism 1, the current-carrying terminals of which are connected to the switched terminals of the time relay 2. 25 The input of the time relay 2 is connected to the output of the current source 3, the second output of the time relay 2 is connected to the second input of the trigger 4 and to the second input of the counter 5. The first output of the time relay 2 is connected to the input of the first differentiation unit 6, the output of which is connected to the input of the second block 7 differentiation. The output of the second differentiation unit 7 is connected to the input of com ~ _{35 of the} parator 8, the output of which is connected to the second input of the trigger 4. The output of the trigger 4 is connected to the first input of the counter 5, the output of which is connected to the input of the indicator 9. 40

The device operates as follows.

The time relay 2 is turned on, which switches the current-carrying terminals of the measuring mechanism 1 to the input of the current source 3 and supplies a potential signal Reset to the second inputs of the trigger 4 and counter 5.

The movable part of the measuring mechanism 1 is deflected by an angle that coot corresponds to the current supplied from the source 3. At the end of the integration time, the maximum allowed for this type of measuring mechanisms, the time relay 2 switches the current- ₅₅ leading terminals of the measuring mechanism 1 from the output of the current source 3 to the input of the first differentiation unit 6 and disconnects the signal Cross of the second inputs of trigger 4 and counter 5.

Under the influence of the counteracting moment of the coil spring, the movable part of the measuring mechanism 1 returns to its idle state. At the same time, in the frame of the measuring mechanism 1, an EMF is fed to the input of the first differentiation unit 6. From the output of the latter to the input of the second block 7 differentiation receives a signal proportional to the first derivative of the EMF in time. From the output of the second differentiation unit 7, a signal proportional to the second derivative of the EMF with respect to time is received at the output of comparator 8.

When the moving part of the measuring mechanism of the zero mark of the scale, the signal at the output of the second differentiation unit 7 changes sign from negative to positive. At the output of comparator 8, the zero signal is changed to unity. This signal, arriving at the first input of trigger 4, translates its output from a single to a zero state. This signal, arriving at the first input of counter 5, stops the counting ”of time. The information from the output of the counter 5, received at the input of the indicator 9, no longer changes. Indicator 9 shows the travel time of the measuring mechanism.

Claims (1)

Claim A device for monitoring the running time of the measuring mechanism, comprising an indicator and a current source, characterized in that, in order to improve the accuracy of monitoring the running time of the measuring mechanism, a time relay, a first differentiation unit, a second differentiation unit, a comparator, a trigger and a counter are introduced moreover, the output of the current source is connected to the input of the time relay, • the switchable terminals of which are connected to the current-carrying terminals of the measuring mechanism, and the second output of the time relay to the second and move the trigger counter. ВНИИПИ Order 6556/36 Circulation 728 Subscription Custom polygr. ave, city of Uzhhorod, st. Project, 4