SU866424A2 - Device for measuring parameters of machine rotating parts - Google Patents

Description

(54) DEVICE FOR THE CALIBRATION OF PARAMETERS OF THE ROTATION OF THE DURING THE MACHINE PARTS

The invention relates to the field of temperature measurements, namely, devices for measuring the temperature of rotating objects.

According to the main author. St. No. 263219, a device for measuring the parameters of rotating parts of machines, comprising an oscillator made on a series-connected tunneled diode and a cumulative inductance, located stationary, and a resonant circuit with a temperature-sensitive element, j acnono% eHHbM on a rotating object.

The drawback of the device is the low accuracy of measuring the temperature of the rotating &: parts, since it measures the temperature at only one point.

The purpose of the invention is to improve the accuracy of temperature measurement with an increase in the number of measurement points.

The goal is achieved by the fact that the device is additionally entered

The tt of the resonant circuits with temperature-sensitive elements located on the rotating part and the inductances located stationary, each of which is inactively connected with the corresponding resonant circuit and the conclusions of which are directly and through a switch connected to the accumulative inductance pins.

The drawing shows the princes10 on the device diagram.

The device contains h located on the rotating parts 1 of the resonant circuits, of which one consists of inductance and temperature sensor S body element (temperature capacitor sensor). Each resonant circuit is inductively coupled to one of the inductances fixedly located. For example, the first resonant

20, the circuit consists of inductance 2 and capacitor sensor 3 and is inductively coupled to inductance 4 connected by means of a switch,

An example, on a relay 5, to a cumulative inductance 6 included in an oscillator on a tunnel diode 7, powered from a power source 8. The oscillator output is connected to a frequency meter 9.

The device works as follows.

When power is applied, the oscillator begins to generate relaxation oscillations with a frequency, defined. "

inductance 6.

When the additional inductance 4 is turned on, the frequency of the relaxation oscillation of the generator will be determined by the magnitude of the inductance 6 and 4, HacTOTafp also depends on the parameters of the tunnel diode 7 and the voltage of the power source 8, which remain constant during the interrogation of n points. Due to the inductive coupling of inductance .4 with one of the resonant circuits 2, in the latter an electromotive force (EMF) with a frequency | , leading to the appearance of oscillations in it, which, in turn, lead to the induction of an electromotive force in the circuit with the frequency of a given resonant circuit. If the frequency of the contour € to is close to the frequency of relaxation oscillations fp, then the EMF introduced from the side of contour 2 into the inductively connected to H1N intuitiveness 4 gradually increases. This EMF is summed with the voltage of the power source 8 and at that moment when the sum of these voltages becomes greater than the voltage corresponding to the minimum current of the tunnel diode 7, synchronization occurs, i.e. the frequency of the oscillator skipxm is changed, from IP to € c. When the tempurature changes at the point of fixing the capacitor sensor 3, its capacitance changes, and with it the natural frequency of the resonant circuit. By measuring the frequency of oscillations sncnonized by the oscillator with a frequency meter 9, it is possible to measure the natural frequency of the resonant circuit 2, the value of which is uniquely cBsiaAHO with the measured temperature.

When the position of the switch on the relay 5 is changed, the remaining additional inductances are alternately connected to the cumulative inductance 6, and the oscillator is alternately synchronized by the resonant circuits | located on the rotating part, and consequently, a sequential measurement of the temperature at I points of the rotating part is carried out.

The introduction of additional resonant circuits and inductors and the presence of new connections between resonant circuits and additional inductances distinguishes the proposed device from the known one, since the accuracy increases, the noise immunity (x; x and reliability of multipoint measurements) and the possibility of constant Monitoring the frequency of the unsynchronized oscillator makes it possible to completely eliminate the effect of oscillator frequency instability on the measurement accuracy.

Claims (1)

Invention Formula A device for measuring the parameters of rotating machine parts according to ed. St. Ms 263219, which is so that, in order to improve the accuracy of temperature measurement with increasing number of measurement points, n was added to it n resonant circuits with temperature-sensitive elements located on the rotating part and at the inductive type, motionless, each of which is inductively coupled to a corresponding resonant circuit and whose conclusions are connected directly and via switches to accumulator inductances Sources of information taken into account during the examination 1. USSR Author's Certificate No. 263219, class. 01 K 13/08, 1968. 4g