SU823835A1 - Device for measuring deformation of machine rotating components - Google Patents

Description

(54) DEVICE FOR MEASURING DEFORMATIONS OF ROTATING MACHINE ELEMENTS.

Claims (2)

       .. . The invention relates to an instrumentation technique, namely strain gauge, and can be used to measure the deformations of rotating elements of machines. A device for measuring the deformations of rotating machines is known, which contains a load carrier that is installed on a rotating object, a power source: A bridge connected to it via rotating transformers, a calibration unit that includes a resistor, a switch, a trigger and filters 1. However, this device is complicated in design, and an abundance of additional blocks leads to a decrease in the accuracy of measurement results. Closest to the present invention is a device for measuring the deformative rotating elements of machines, comprising a movable unit, including a strain gauge, a power source and an output converter of the bridge signal connected to its corresponding diagonal, a fixed unit including an output signal converter connected to the converter of a movable unit through capacitors, registrar strain, a source of stabilized voltage, a voltage divider with two inputs, one of which is nen source output with stabilized voltage and the other with its control input, and an electromagnet coupled with the output of the divider .and in a magnetic field which is placed magnetoresistor connected in parallel with one of the arms tensiometer 2J. The disadvantage of this device is the presence of temperature errors, due to the influence of the temperature at which the test piece and the strain gages attached to it are working. The purpose of the invention is to improve the measurement accuracy by eliminating the effect of measuring the temperature of rotating elements. The goal is achieved by the fact that the device is equipped with a thermocouple placed next to one of the resistor tensors and connected to the input converter of the output signal of the moving unit, and a temp meter with two inputs, one of which is connected to the output converter of the output signal stationary. unit, and the other with the output of the deformation recorder, the output of the temperature meter is connected to the second input of the voltage divider. FIG. 1 shows a block diagram of the proposed device; 2, the curve of the change in the relative increment of resistance (uR / R) versus temperature. The device contains movable 1 and fixed 2 blocks. Mobile unit 1 includes a strain gauge 3 and a converter 4 of the output signal of bridge 3. Bridge 3 consists of strain gauges 5 and 6, as well as active resistors 7 and 8. Next to the strain gauge 5 is a thermocouple 9, connected to the input of converter 4. Tenzomost 3 feeds .6 from source 10. Stationary unit 2 includes an output signal converter 11, a deformation recorder 12 connected to the output of converter 10, a temperature meter 13 with two inputs, one of which is connected to the output n eobrazovatel 11, and the other - with a yield of 12 registrar deformation. And the stationary block 2 also includes a source 14 of stabilized voltage and a divider 15 of a voltage with daum inputs, one of which is connected to the output of a source of 14 stabilized voltage, and the other; with the output of the temperature meter 13. An electromagnet 16 is connected to the output of the voltage divider 15 ,. in a magnetic field. Which is placed a magnetoresistor 17 connected in parallel with the strain gauge 6. Transducer 4. is connected to the inverter 10 via rotating capacitors 18 and 19. The device operates as follows. When exposed to force deformations, the strain gauge 5 changes its resistance. In addition, the strain gauge 5 also changes its resistance when exposed to the temperature (t) at which the part under test operates. (The change in the relative increment of resistance (uR / R) as a function of temperature (t) is shown in Fig. 2. Thermocouple 9 measures the temperature of the heating of the resistance strain gauge 5. The signal of the thermocouple 9 through a converter 4, line of a contactless current collector (rotating capacitors 18 and 19) The generator 11 and the temperature meter 13 control the voltage divider 15 (see Fig. 2) in such a way that the magnetic field of electromagnet 16 changes the resistance of the resistance resistor -17 by the amount of the temperature resistance of the tensor resistor 5. In addition, the strain gauge balanced against the change in resistance of the tena resistor to 5 tons of temperature. The signal of the strain gauge delivered to the input of converter 4, rooted through rotating condensates 18 and 19 and converter 11, sinks to the strain recorder as a signal corresponding to the actual strain. a movable unit including a strain gauge, a power source and a bridge output converter. connected to its corresponding diagonal m, a fixed block, a shaking output converter, connected to a transducer of the moving block via rotating capacitors, a deformation recorder, a source of stabilized voltage, a voltage divider with two inputs, one of which is connected to the output of a source of stabilized voltage and an electromagnet connected to the output of a voltage divider and in a magnetic field of which a magnetoresistor is placed, connected in parallel with one of the arms of the strain bridge, I distinguish it with the fact that, in order to improve measurement accuracy by eliminating the effect of temperature change of rotating machine elements, it is equipped with a thermocouple located next to one of the strain gauges and connected to the input of the output unit of the moving unit, and a meter. The inputs, one of which is connected to the output of the signal converter of the stationary block, and the other to the output of the perRCTpatopa strain, the output of the temperature meter is connected to the second input of the voltage divider. Sources of information taken into account in the examination 1. Testing devices and stands. Express information, 1975, No. 4, abstract 24, p. 21-23. 2. USSR author's certificate No. 544857, class, G 01 B 7/16, 1973 (prototype).