SU979909A1 - Device for measuring rotating shaft parameters - Google Patents

Description

(54) DEVICE FOR MEASURING PARAMETERS The invention relates to a measurement technique and can be used to measure parameters of a rotating shaft such as stress, strain, temperature, etc. A device is known for measuring the parameters of a rotating shaft, containing a measuring bridge, which includes two nonlinear resistances, and current-collecting contacts G1. However, the device has low accuracy due to the effect on the measurement result of transient resistances in current-collecting contacts. Closest to the invention, according to the technical essence, are devices for measuring parameters of a rotating shaft, comprising a measuring bridge disposed on the shaft, current collection contacts, a power source, an amplifier, a subtractor, and a resistor 12. A disadvantage of the known device is low accuracy. ROTATING SHAFT The purpose of the invention is to improve the accuracy of measurements and by reducing the effect of transient resistances in current collection contacts. This goal is achieved by introducing a second amplifier and multiplying device into the device, the first input of which is connected to the input of the second amplifier and to the output of the subtracting device, the first input of which is connected to the output of the multiplying device, and the second to the output of the first amplifier, to the input of which The first and second current-collecting contacts are connected to the first diagonal of the measuring bridge, while the first pole of the second diagonal of the measuring bridge is connected to the first output of the power source through the third current-collecting contact The second output of which is connected through a resistor to the second input of the multiplication device and through the fourth current collecting contact to BTopcHviy pole of the second diagonal of the measuring bridge. Hit FIG. 1 is a block diagram of a device for measuring one parameter; in fig. 2 is the same for ({emerek of several parameters. The device contains a measuring bridge 1, current-collecting contacts 2-6, a power supply 6, a first mustache) 1 a 7, a subtractive device 8, a resistor 9, a second amplifier 10 and a multiplying device 11. K The output of power supply 6 is connected in series with the third current-collecting contact 4, the first diagonal of the measuring bridge 1, the fourth current-collecting contact 5 and the repeater 9. The second diagonal of the measuring bridge 1 through the first 2 and second 3 current-collecting contacts is connected to the input of a nepBOtx) amplifier 7, out which is connected to the second input of the subtracter 8, whose output is connected to the input of the second amplifier and to the first 1O th entry multiplication device 11 hours a second input connected to the fourth contact of the collector 5, and an output. - to the first input of the subtracting device 8 The first amplifier 7, the subtracting device 8, the second amplifier 10 and the multiplying device 11 are combined into the amplifier-conversion unit 12. The device operates as follows. The signal from measuring bridge 1 is fed to the input of the first amplifier 7. The voltage at its output is described by the expression TT-S. I) where R is the resistance value of one strain gauge bridge 1} IG contact resistances of contacts 4 and 5, respectively} the resistance of resistor 9; the gain of the first amplifier 7; the magnitude of the resistor change of the measuring bridge is proportional to the value of the measured parameter U (- the voltage of the power supply source 6. The voltage across the resistor 9 can be described by the expression. The signal from the amplifier 7 is fed to the second input of the subtractor 8, the output voltage of which is described by the expression Ue 8 de K A is the coefficient of the subtractor 8; and, the voltage at the output of the multiplying device 11, the voltage on the code of the multiplying device 11 is described by the expression. And) de K is the transmission coefficient of the multiplying mouth Conditions 11. Substituting (4) in (3), we find the final expression for the voltage Ug UT By choosing a large value of K in the 1 "VUg to realize the condition j and with a sufficient degree of accuracy, expression (5) can be represented as Substituting in (6) (1) and (2), the second amplifier 1O serves for matching the intermediate stages of the amplifier unit of the conversion unit 12 with the load. If several parameters are measured, then an appropriate number of measuring bridges 1 and amplifier1-conversion units 12 are used. Using the invention, the measurement accuracy of the parameters of the rotating shaft can be improved by eliminating the influence of transient resistances on current-collecting contacts and reducing their number when measuring several parameters jij is the time, where N is the number of measured parameters. Form of the Invention A device for measuring parameters of a rotating shaft, comprising measuring

Claims (1)

Claim A device for measuring the parameters of a rotating shaft, comprising a measuring bridge located on the shaft, current collector contacts, a power source, an amplifier, a subtractor and a resistor, characterized in that, in order to increase the measurement accuracy by reducing the influence of transition resistances in the current collector contacts, a second amplifier and a multiplying device are introduced to it, the first input of which is connected to the input of the second amplifier-JO citel and to the output of the subtractor, the first input of which is connected to the output of the multiplying device state, and the second - to the output of the first amplifier, to the input of which is 979909 6 measuring bridge, at. In this case, the first pole of the second diagonal of the measuring bridge is connected through the third current collector to the first output of the power source, the second input of which is connected through the resistor to the second input of the multiplying device and through the fourth current collector contact to the second pole of the second diagonal (Measuring bridge.