SU1030732A1 - Shaft rotation non-uniformity measuring device - Google Patents

Abstract

A device for measuring the rotational non-uniformity of the shaft, containing an inertial mass, mounted in bearings on the shaft and connected to it through an elastic element, a displacement transducer and a recording unit, characterized in that, in order to simplify the transmission of a signal about uneven rotation of the shaft, it is equipped with a pressure transducer and the elastic element is filled in the form of a tubular spring filled with liquid, the open end of which is connected through the radial and axial channels made in the shaft with a pressure transducer and, mounted coaxially to the shaft, forming with it the Unidur sealed cavity. 00 about

Description

The invention relates to the measurement of motion parameters and is intended to measure the unevenness of rotation of the shaft.

A device for measuring the shaft rotation unevenness included ⁵ sistent sensor comprising an inertial mass mounted in bearings on a shaft and associated with controlled shaft via an elastic member, an optical conversion system and Yu Pitch information and a brush connecting the sensor assembly to the recording device [1] .

The disadvantages of this device are the low accuracy of the measurement 15 And low reliability during prolonged operation. · ·

The closest in technical essence to the proposed, is a device for measuring the unevenness of rotation of the shaft, containing the inertial mass installed in the bearings on the shaft and connected with an elastic coupling, and an optical signal pickup system equipped with a rotary axis mounted on inertial mass perpendicular to the axis of the shaft and the associated drive gear. The mirror of the optical signal pickup system is mounted on the specified. axis at the point of intersection with the axis of the shaft [2].

The optical signal pickup system has several disadvantages: the presence of an additional energy source, low reliability, since the sensitivity is 35: to mechanical stresses, low measurement accuracy, which determines the recording scale, recording line thickness, the distance between the mirror and the diagram, the conversion scale 40 of the angular deviation of the inertial mass into the radial movement of the beam.

In addition, this device allows you to register the magnitude of the non-uniformity of rotation in only one one. the shaft mouth, which is unacceptable during prolonged testing.

The aim of the invention is to simplify the transmission of a signal about uneven jg rotation of the shaft.

This goal is achieved in that the device for measuring the non-uniformity of rotation of the shaft, containing the inertial mass installed in the bearings on the shaft and connected with it ³ through an elastic element, a displacement transducer and a recording unit, is equipped with a pressure transducer. and the elastic element is made in the form of a tubular spring filled with fluid, the open end of which is connected through a radial and axial channels made in the shaft, with a pressure transducer mounted coaxially to the shaft, forming with it. single sealed cavity.

The drawing shows a structural diagram of the device.

The device consists of a connecting bolt 1, a shaft 2 with a base, bearings 3 and 4, on which an inertial mass 5 is mounted, a tubular spring 6 filled with liquid, the open end of which is connected through a radial and axial channel of the base 2 to the pressure transducer 7, and the closed connected to the inertial mass 5 of the connecting node, made in the form of tsilin-. core 8 and mounted on the base of the shaft 2 in bearings 9 and 10. In the axial channel of the cylinder 8 there is a displacement transducer 11 connected to the recording unit 12. In this case, the displacement transducer 11 is made mainly of a bellows type.

A device for measuring the unevenness of rotation of the shaft operates as follows.

Oscillations of the inertial mass 5 caused by the uneven rotation of the controlled shaft 2 are perceived by the tubular spring 6 and transmitted through the fluid through the radial and axial channel of the shaft 2 to the pressure transducer 7, causing its axial movement, which is perceived by the transducer 11 and fixed by the recording unit 12. In this case, cylinder 8 with the converter 11 is stationary.

The resulting closed measuring system thus simplifies the conversion of the angular displacement of the inertial mass and does not require an additional energy source.

The use of a tubular spring as a converting and elastic element in accordance with the design of the connecting node favorably distinguishes the proposed device from the known one, since the use of an additional energy source is excluded, the process of converting the angular displacement of the inertial mass is simplified, which significantly increases the reliability of the proposed device and the measurement accuracy.

vniipi

Order 5203/45

Circulation 873

Subscription

Branch of the PPP Patent, Uzhgorod, Project 4,

Claims (1)

DEVICE FOR MEASURING AN UNIFORMITY OF A SHAFT ROTATION, containing an inertial mass mounted in bearings on the shaft and connected through an elastic element, a displacement transducer and a recording unit, characterized in that, in order to simplify the transmission of a signal about the unevenness of the shaft rotation, it is equipped with a transducer pressure, and the elastic element is made in the form of a tubular spring filled with liquid, the open end of which is connected through a radial and axial channels made in the shaft, with a pressure transducer, installed oval coaxially to the shaft, forming with it a single tight cavity. (L