SU1679179A2 - Device for calibrating linear displacement meter - Google Patents

Abstract

The invention relates to a measurement technique that can be used for calibrating displacement meters. The aim of the invention is to expand the field of application of the device by making it possible to calibrate vibration displacement meters on it. In the indicated mode, on the mount 5 of the sensor 6, the inductive coil 17 is fixed coaxially with the measuring coil 7. The replaceable element 10 is moved with the help of the reference setting unit 4 until it touches the end of the coil 17 and the readings of the measuring unit 8 are fixed about and 6 rev. Moving the measuring surface 11 of the replaceable element 10 and the calibrated distance 3gi, is achieved by closing the electronic key 20 with a variable resistor 19 of the readings of the measuring unit 8 equal to O- Transfer the measuring unit 8 to the mode of vibratory movements and set using a periodic signal generator 22 through the driver The 21 pulses are a signal that periodically closes the key 20 at a predetermined frequency, thereby setting the reference signal of the vibration displacement. By assigning a series of calibrated 5gi movements, vibration displacement meters are monitored. 1 il. (L

Description

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This invention relates to a measurement technique.

The aim of the invention is to expand the field of application of the device by making it possible to calibrate vibration displacement meters on it.

The drawing shows a block diagram of the device.

The device comprises a bracket 2 fixed on the base 1 with two coaxial holes 3, in one of which a unit 4 for setting reference movement is installed, made, for example, in the form of a micrometer. In the other hole 3 is installed node 5

mounting sensor (transducer) 6 calibrated gauge, made in the form of eddy current transducer, for example, of the parametric type with the measuring coil 7 inductance. A measuring unit 8 is connected to the eddy current transducer 6. A replaceable element 10 with a surface 11 is mounted on the movable rod 9 of the reference setting unit 4. The sensor attachment unit 5 of the calibrated meter contains a replaceable collet 12 placed in the housing 13, which is fixed to the bracket 2 screw 14. On housing 13 an adjustable electric heater 15c is placed with a temperature meter I

ry (not shown). The collet 12 is provided with a locking nut 16. The measuring surface 11 of the element 10 can be displaced by a predetermined amount of 53st from the initial position.

In order to impart to the device the function of a simulator of vibratory displacement, an inductor 17 in the case 18 is fixed on its mounting node 5 of the sensor 6 of the calibrated gauge. The terminals of the coil 17 are connected to a variable resistor 19, one of which is connected via an electronic switch 20 whose control input is connected to a driver of 21 pulses, for example, a Schmitt trigger connected by its input to a generator 22 of a periodic signal tunable in frequency.

The device works as follows.

To calibrate the gauge on the movable rod 9 of the node 4, the tasks of the reference movement establish a replaceable element 10 with material properties and a curvature of the surface 11 that corresponds, for example, to the rotor of the turbomachine. - - setting the scale to its original position, for example, zero. The interchangeable sensor 6 of the eddy current transducer is moved in the collet 12 until its end face, which serves as one of the measurement surfaces, touches the surface 11 of the element 10 and is fixed in this position with a lock nut 16. The calibration movements (5 rear) of the electrically conductive measuring surface 11 are carried out by moving the element 10 using the reference motion setting unit 4. The value of the static displacement b of the measuring surface 11 is read from the measuring unit 8 at the nominal temperature of the sensor 6 of the eddy current transducer and at the selected temperature set by the electric heater 15.

To determine the dynamic characteristics of the calibrated linear vibration displacement meter with eddy current transducer, an inductive coil 17 is fixed in the housing 18 in the housing 18 coaxially with the measuring coil 7. The interchangeable element 10 is moved with the help of the reference displacement unit 4 to contact the end of the coil 17, fix on a scale of node 4, the value of 3 and reads its value d meas.

on measuring unit 8 with an open circuit of coil 17. Move measuring surface 11 to a calibrated distance d gi, for example, equal to the upper limit of measurement of the range of vibration displacements, using the reference movement setting unit 4. In this case, the indication on the measuring unit 8 must correspond to (d Change ° + d d).

the circuit of the coil 17 to the variable resistor 19 with the help of an electronic switch 20 and change the value of the resistor 19. set the indication on the measuring unit 8 to the value (5 °, i.e.,

the readings that were on the measuring unit 8 when the measuring surface 11 touches the end of the coil 17. The measuring unit 8 is switched to the vibration displacement measurement mode, to the control input of the electronic key 20 a signal is sent from the generator 22 through Schmitt trigger 21, which results in periodic disconnection and short circuit of the coil 17 to the resistor 19c with the signal frequency installed on the generator 22. This is equivalent to moving the measuring surface 11 by the amount of the calibrated movement 5gi. By varying the frequency of the generator 22 in the desired frequency range, the amplitude-frequency characteristic of the calibrated linear displacement meter is determined and the dynamic error of the calibrated gauge is estimated. In addition, specifying a number of values

calibrated movements of 6 d using the reference movement setting unit 4, obtain the corresponding values of the vibration displacement at a given (base) frequency according to the indications of the measuring unit 8 and determine the measurement errors of the vibration displacement of the calibrated linear displacement meter. These test operations of the displacement meter are performed both at the nominal temperature of the sensor 6 of the eddy current transducer and at a given (working) temperature by heating it with electric heaters 15. As a result, the temperature error is also determined.

Claims (1)

Invention Formula A device for calibrating a linear displacement meter for aut. St. No. 1580152, characterized in that, in order to expand the scope of application by calibration of vibration displacement meters on it, it is equipped with a series-connected coil inductance, a variable resistor and an electronic key; A generator of a periodic electronic key, and an inductive signal coil and pulse generator, the output of which is installed on the mount, coaxially connected to the control input of the axis of this node. 16 tf a n p y Yu