SU1278649A1 - Device for checking lubricating conditions of rolling contacts - Google Patents

Abstract

The invention relates to the field of measurement technology and is intended to control the quality of lubrication of support assemblies. The purpose of the invention is to improve the accuracy of monitoring the lubricant regime by reducing the effect of an electrorheological effect on the lubricant. A multivibrator, a detector, a Schmitt trigger and a trigger with a counting input are introduced into the device circuit. From the output of the multivibrator, through a resistor, two-pole pulses are applied to the controlled object. The device allows synchronizing the switching frequency of the multivibrator with the frequency of rotation of the object being monitored and changing the polarity of the electrical voltage applied to the object after each three-turn shaft. 1 il.

Description

The device relates to measuring equipment and can be used to control the lubrication mode of rolling contact contact.

The purpose of the invention is to increase the accuracy of control of the mode of lubrication of rolling contacts.

The drawing is given a functional diagram of the proposed device.

The lubrication mode monitoring device contains cascade-connected frequency sensor 1, auto-oscillator 2, output resistance switching unit 3 with voltage divider, matching amplifier 4, full-wave detector 5, regenerative comparator 6, single-wave detector 7, switch 8, indicator 9, the input of which through the switch 8 is also connected to the output of the detector 5, as well as the Schmitt trigger 10 to the input for connecting the speed sensor and the trigger 11 to the counting input, the input of which is connected to the trigger output Serra 10, and the output to the synchronization input of the multivibrator 2, and the output of the output impedance switching unit 3 is connected to the input terminals of the device for connection with the object being monitored.

The device works as follows.

Multivibrator 2 generates a bipolar voltage in the form of rectangular pulses of equal duration and amplitude modulo. The frequency of the multivibrator 2 is set by changing the resistance of variable resistors and switching the capacitance of the capacitors in the frequency setting unit 1. In the case of variable rotation frequency of the object being monitored, the signal from the shaft speed sensor is fed to the input of a Schmitt trigger 10, rectangular pulses from the output of which are fed to the input of trigger 11 with a counting input that performs the role of frequency divider I1 1 pulses by two. The signal from the trigger output 11 is fed to the synchronization input of the multivibrator 2, the output voltage of the multivibrator 2 through a divider and additional resistors of the output impedance switching unit 3 is fed to the input terminals of the device and the input of the matching amplifier 7864

The amplifying amplifier 4 is up to half a full-wave detector 5 and is fed to the input of comparator 6, which switches if the voltage

5 signal, determined by the resistance of the object being monitored, is above or below the set trigger threshold. The rectangular pulses from the output of the comparator 6 are converted to

10 unipolar half-wave detector 7 and through switch 8 are fed to the input of indicator 9, which measures the average value of the signal with pulse-width modulation

15 and graduated in terms of the relative time of the absence of metallic contact in the friction zone. To measure the resistance of a continuous lubrication unit, the input of a respectively graduated indicator 9 is connected via switch 8 to the output of detector 5.

Using the proposed device due to the reduction of the influence

5 electric field on the lubricant, it is possible to conduct long-term non-destructive testing of the friction units, to obtain more reasonable recommendations when choosing lubricants, materials for working under the toughened conditions of the friction units, as well as to obtain an economic effect when introducing diagnostics of the lubrication mode due to the increased reliability of the friction centers rolling of responsible machines and mechanisms and the transition from servicing them at a fixed resource to servicing according to the actual condition.

Claims (1)

The device relates to measuring equipment and can be used to control the mode of lubrication and contact rolling. The purpose of the invention is to improve the accuracy of controlling the lubrication mode of rolling contacts. The drawing is given a functional diagram of the proposed device. The lubrication mode monitoring device comprises a cascade connected for frequency sensor 1, an auto-oscillator multivibrator 2, an output impedance switching unit 3 with a voltage divider, a matching amplifier 4, a full-wave detector 5, a regenerative comparator 6, a full-wave detector 7, switch 8, indicator 9, the input of which through the switch 8 is also connected to the output of the detector 5, as well as the Schmitt trigger 10 to the input for connecting the speed sensor and the trigger 11 to the counting input, the input of which is connected to the output trigger and 10, and the output - to the input of a synchronization multivibrator 2, the output of block 3, the switching output impedance connected to the input terminals of the device for connection to the controlled object. The device works as follows. Multivibrator 2 generates two polar voltages in the form of rectangular pulses of equal duration and magnitude modulo. The frequency of the multivibrator 2 is set by changing the resistance of variable resistors and switching the capacitance of the capacitors in the frequency setting unit 1. In the case of a variable rotation frequency of the monitored object, the signal from the shaft speed sensor is fed to the input of Schmitt trigger 10, rectangular pulses from the output of which are fed to the trigger input 11 with a counting input, which acts as a frequency splitter I1 of 1 pulses by two. The signal from the trigger output 11 is fed to the synchronization input of the multivibrator 2, the output voltage of the multivibrator 2 through the divider and additional resistors of the output resistance switching unit 3 is fed to the input terminals of the device and the input of the matching amplifier 4. Vlp ml of full-wave detector 5 and fed to the input of comparator 6, which switches, if the signal voltage determined by the resistance of the object being monitored, is higher or lower than the set threshold rabatyvani The rectangular pulses from the output of the comparator 6 are converted into single-pole single-half-detector 7 and through the switch 8 arrive at the input of the indicator 9, which measures the average value of the signal with pulse-width modulation and is graduated in terms of the relative time of the absence of metallic contact in the friction zone . To measure the resistance of a continuous lubricant, the input of a properly calibrated indicator 9 is connected via switch 8 to the output of detector 5. Using the proposed device, by reducing the effect of the electric field on the lubricant, long-term non-destructive testing of friction units can be carried out, more reasonable recommendations can be obtained when choosing lubricants, materials for working under the toughened conditions of the friction units, as well as to obtain an economic effect when introducing diagnostics benching lubrication due povppeni reliability friction nodes responsible rolling machines and mechanisms, and their transition from the service at a fixed resource to the service according to the actual state of the. The formula of the invention - And a device monitoring the lubrication mode of rolling contacts, containing adaptations amplifier, regenerative comparator, switch and indicator, characterized in that, in order to increase the accuracy of control p, it is equipped with series-connected frequency adjuster, auto-oscillator, output resistance switching unit with by a voltage divider, through a harmonic amplifier with a full-wave detector, through a regenerative comparator of a single-wave detector, the output of which is the cut switch is connected to an indicator connected in series by a Schmitt trigger and which is connected to the second input of the oscillator - multivibrator, not with full-wave detector output.