SU1059454A1 - Device for measuring parameters on rotating shafts - Google Patents

Abstract

A DEVICE FOR MEASURING PARAMETERS ON THE ROTATING HISYA SHAFT, containing stationary and rotating parts, connected to the measuring channel and the power channel, which is made in the form of a transformer with a stationary and rotating windings, the stationary part containing two time parameter converters of pulse signals into voltage, the element NOT and an AC source connected to the stationary winding of the transformer, and the rotating part contains two measuring transducers, each of which contains a resistor The transducer and driver are pulsed signals that are connected to the rotating winding of the transformer through a series of rectifier and stabilizer, characterized in that, in order to improve speed, two current-stabilizing elements are installed on the rotating part, and three potential key, the element And and the element OR, while the measuring kanesh is formed by a photo pair containing an LED located on the rotating part and a photodiode mounted on stationary part and connected via an amplifier to the inputs of potential keys, the output of one of which is connected to the input of one converter of parameters of time and power signals to voltage and through the element NOT to the (L one input of the element AND, to the second input of which the output of the second potential key is connected , and to the output of the element AND one input of the element OR is connected, to the second input of which the output of the third potential key is connected, ai to the output the input of the second parameter converter time of the pulse signals: l to voltage, moreover, the outputs of the measuring transducers are connected to the LED diode via ω; the corresponding current-stabilizing elements 4i are connected to the LED. ate 42a

Description

The invention relates to measurement technology and may. used to measure parameters of physical quantities on rotating shafts, such as deformations, temperature, pressure, etc. A device for measuring parameters on rotating shafts is known, consisting of several measuring strain gauge bridge circuits with pulsed power, the output signals of which are memorized and transformed alternately by a transducer during pulse signals, which are also alternately transmitted to the stationary units of the device. one . A disadvantage of the known device is low speed. Closest to the present invention is a device for measuring parameters on rotating shafts, comprising a stationary and rotating part connected by a measuring channel and a power channel, which is made D in the form of a transformer with stationary and rotating windings, and the stationary part contains two time parameter converters impulse signals to the voltage, the element is NOT and the source of alternating current connected to the stationary winding of the transformer, and the rotating part contains two measuring converters bodies, from which the resistor transducer and the former time pulse signals, and which are connected to the rotating winding of the transformer through a serial chain of rectifier and stabilizer (2j. However, this device also has insufficient speed The purpose of the invention is to increase the speed of the projectile. This goal is achieved by the fact that in a device for measuring parameters on rotating shafts containing a stationary and rotating parts connected by the measuring channel and the power channel, which is made in the form of a transformer with a stationary and rotating winding, with the stationary part containing; and then two parameter converters, the time of the pulse signals, to the voltage, the element and the source of the flowed current, connected to the stationary winding of the transformer, and the rotating part contains two measuring transducers, each of which contains a resistor converter and a driver for the time of the pulse signals that are connected to the rotating winding of the transformer through a series of straighteners and a stabilizer, on the rotating part yc-i two current stabilizing elements are mounted, and on the stationary part there is an amplifier, three potential switches, an element AND and an element OR, while the measuring channel is formed by a photo pair containing an LED located on the rotating part, and a photodiode mounted on the stationary part and connected via an amplifier to the inputs of potential switches, the output of one of which is connected to the input of one converter Parameters of the time of pulse signals in, the voltage and through the element NOT to the single input of the element AND, to the BTOPONV input of which the output of the second potential key is connected, and to the output of the element AND connected to one input of the ele-. OR, to the second input of which the output of the third potential key is connected, and to the output - the input of the second parameter converter, the time of pulse signals to voltage, and the outputs of the measuring transducers are connected to the LED through the corresponding current-stabilizing elements. The drawing shows a functional diagram of the device. The device consists of an alternating current source 1, a stationary winding 2 of a rotating transformer 3, a secondary winding 4 of a rotating drive transducer, a stabilizer 6, a first driver 7, a pulse signal, a first bridge circuit 8, a second driver 9, a pulse signal time, a second bridge circuit 10 , two current-stabilizing elements 11 and 12, LED 13, photodiode 14, matching amplifier 15, three potential ISIS switches, circuit AND 19, circuit HE 20, circuit OR 21, and two transducers 22 and 23, pulse signal time in to voltage. An alternating current source 1 is connected via a stationary 2 and a rotating winding 4 of a transformer 3 with a series-connected rectifier 5 and a stabilizer 6. The output of the stabilizer 6 is connected to the power supply circuit of the formers 7 and 9 of the pulse signals, whose inputs are connected to bridge circuits 8 and 10, containing sensitive elements of the measured parameters, such as strain gages. The outputs of the transducers 7 and 9 are connected via the current-stabilizing elements 11 and 12 to the LED 13. The photodiode 14, mounted coaxially with the LED 13, is connected to the input of potential switches 16-18 through a matching amplifier 15. The output of the first potential key 16 is connected to the first input of the circuit AND 19, the output of the second potential key 17 is connected to the input of the first converter 23, the pulse signal time, voltage, and through the circuit NOT 20 to the second input of circuit 19, output 19 of the circuit 19 and the output of the third potential switch 18 is connected via the OR 2X circuit to the input of the second converter 22, the time of the pulse signals to the voltage. The voltage from the output of the AC source 1 is fed through a rotating transformer 3 to the input of amplifier 5 and then stabilized in the stabilizer 6. The output voltage of the stabilizer b is used: to supply the formers 7 and 9 BP and pulse signals. Under the influence of the measured parameters on the sensitive elements of the bridge circuits 8 and .10, the latter change their resistance, which leads to a change in the temporal parameters of the pulses at the output of the formers. 7 and 9. During the operation of the output pulse of the first shaper of the 7th time of the pulse signals, a pulse is generated. In the current-stabilizing element 11, during the pulse from the output of the second shaper 9, the time of the pulse signals is generated by the current pulse in the stabilizing element 12, and the current amplitude in the current-stabilized element 12 is greater than the current amplitude in the current-stabilizing element 11, for example, twice. The current impulse arriving at the LED 13 causes a different luminance in brightness. In this case, the pulses from current-stabilizing element 11 cause one level of brightness to the candle of LED 13; On the stationary part of the device, the BcnijuiKH LEDs 13 are sensed with a photodiode 14. The current of the photodiode 14 is amplified in the matching amplifier 15 and its output voltage is proportional to the luminous intensity of the LED 13. The potential switches 16-18 are set to different thresholds for their operation. The first potential switch 16 is set to operate at a voltage corresponding to the luminescence intensity of the LED 13 when a 13 current pulse is received from the costabilizing element 11 only. The second potential switch 17 is set to the operation voltage corresponding to pkh) LED Lights | 13 in the case when the LED 13 receives a current pulse only from the state-stabilizing element 12.. In the example under consideration, the response voltages of the potential switches 16 and 17 are equal to V and 2V, respectively. The voltage value is selected in the middle of the output voltage variation range at the output of the matching amplifier 15 when a pulse from the current-stabilizing element 11 is applied to the LED 13. The third potential switch 18 has a threshold 3V triggers corresponding to the simultaneous supply of pulses from current-stabilizing elements 11 and 12 to the LED 13. In the case when the LED 13 receives pulses only from stabilizing cells element 11, the period of which is functionally related to the first measured value, the logical 1 is formed at the output of the potential key 16. At the output of the potential key 17 is held logical O, the output of the AND 19 circuit appears and through the OR 21 circuit the converter 22 starts vregl pulsed signals to voltage, the output voltage of which is functionally related to the first measured value. The transducer 23 does not trigger the pulse signal voltage, since the output of the potential key 17 has a logical o1. In the case when the LED 13 receives pulses only from the current-stabilizing element 12, the period of which is functionally related to the second measured value, the formation of a logical unit at the outputs of the potential keys 16 and 17 occurs. The logical unit from the output of the potential key 17 starts the converter 23 the time of the pulse signals to voltage, the output voltage of which It is functionally related to the second measured quantity. The logical unit from the output of the potential key 16 does not cause the converter 22 to start the time of the pulse signals into voltage, since a logical zero from the output of the circuit is NOT 2 O comes to the second input of the AND 19 circuit. In this case, the LED 13 receives both pulses from current-stabilizing elements 11 and 12, all three potential switches 16–18 are triggered, and the two converters 22 and 23 are triggered by the time of the pulse signals to the voltage and, thus, simultaneously output the output voltages, functions

Claims (1)

DEVICE FOR MEASURING PARAMETERS ON ROTATING SHAFT, containing stationary and rotating parts connected by measuring channel and channel ”! power supply, which is made in the form of a transformer with stationary and rotating windings, the stationary part containing two converters of the parameters of the time-pulse signals to voltage, the element NOT and an AC source connected to the stationary winding of the transformer, and the rotating part contains two measuring transducers, each of which contains a resistor converter and a driver of time-pulse signals that are connected to the rotating winding of the transformer through a serial from a rectifier and a stabilizer, characterized in that, in order to improve performance, two current-stabilizing elements are installed on the rotating part, and an amplifier, three potential switches, an AND element and an OR element are installed on the stationary part, and the measuring channel is formed by a photocouple containing an LED located on the rotating part, and a photodiode mounted on the stationary part and connected through an amplifier to the inputs of potential keys, the output of one of which is connected to the input of one parameter converter in pulsed signals to the voltage and through the NOT element to one input of the And element, to the second input of which the output of the second potential key is connected, and to the output of the And element is connected one input of the OR element, to the second input of which the output of the third potential key is connected, and the input is connected to the output a second converter of parameters of the time-pulse signals to voltage, and the outputs of the measuring transducers are connected to the LED through the corresponding current-stabilizing elements. >