DE1623477B2 - DEVICE FOR MEASURING ABSOLUTE VIBRATIONS IN A MACHINE CONSISTING OF A ROTOR AND STATOR - Google Patents

Description

The present invention relates to converters from non-electrical quantities to electrical ones Output signal, especially seismic converters of mechanical vibrations into an output signal in the form of an alternating electrical current, the frequency and amplitude of which are corresponding the change in the characteristics of the mechanical vibrations to be measured.

The present invention is preferably various for use in vibrators Machines and mechanisms are determined, which consist of a rotor and a stator (steam turbine, Turbo generator ^ electric motor, diesel engine, lathe, etc. a.) if the parameter to be measured is expressed by vibratory movements.

Seismic type devices are known, the output signal of the amplitude and the Frequency of the mechanical vibrations to be measured depends, which immediately set the converter housing in motion and which in an electrical Signal to be converted.

The facilities mentioned must, however, have direct contact with the person to be monitored Object have what they come in handy for measurements of absolute vibrations at high rotational speeds makes rotating rotors unusable.

There were facilities for a contactless measurement of absolute vibrations of the rotating Proposed shaft in which a permanent magnet suspended on an elastic element is uninterrupted follows the vibrations of the rotating part of the work. ·: ::: ... ^: /; ■

To eliminate the vibration at the attachment point an additional oscillation system identical to the main system is used in the encoder housing, whose permanent magnet moves away from the ferromagnetic part of the encoder housing in a certain, distance independent of the position of the rotor center.

A major disadvantage of these facilities is the non-linear dependence of the interaction force between rotor and permanent magnet on the Size of the distance between them, which in turn is a nonlinear dependence of the sensitivity of the converter is conditioned by the magnitude of the rotor vibration.

When operating a rotor-stator system, the position of the Roior center changes in relation to the Bearing housing; As a result, the distance between the rotor and the permanent magnet of the main oscillation system will increase differ from the original, while the distance between permanent magnet of the additional Vibration system and the ferromagnetic section of the ^ housing remains unchanged, hence the equilibrium conditions are distorted.

Another major disadvantage is the dependency on the mechanical interaction force of the rotor with the permanent magnet from the magnetic fields in the rotating rotor.

The disadvantages also include the presence of two identical vibration systems with the same Degree of damping.

The disadvantages mentioned do not allow the facilities set out above z. B. under working conditions of the rotor in plain bearings because of the relatively slow displacements of the axis of rotation of the rotor significantly exceed the oscillation deflections of the rotor.

In addition, the rotatable body is sensitive to magnetic fields, which is why such devices in Rotor-stator systems are not used.

The task is as follows: The development of bodies that only have a single seismic Have system and allow the absolute vibration to be measured without contact.

The development of devices that allow the absolute vibrations of the rotor and Measure stator at the same time and very accurately. ·

To create a device that can also, work normally, when in the rotor during operation Magnetic fields arise.

The development of a device whose inertial mass is practically immobile in an inertial system and against the housing vibrations of the device that cannot be measured in the operating range of frequencies and amplitudes would be insensitive.

A device with constant sensitivity to the vibrations to be measured independently of the location of the axis of rotation of the rotating part.

A vibratory system with a unified seismic: to develop a system Simultaneous measurement of absolute rotor and stator vibrations using a contactless method guaranteed. . ".. ■

In order to achieve the stated object, the device for measuring absolute vibrations is according to the invention on the sustained mass, which remains at rest with respect to an inertial system and a distributed one Having damping both the mass itself and the elements of the elastic suspension, a In the housing arranged, non-contact transducer rigidly attached, which the oscillation amplitudes of the Converts the rotor into a proportional electrical output signal. .

In one of the exemplary embodiments of the invention, the contactless converter is an inductive high-frequency converter present, 'whose resonance circuit to the output of the self-excited Vibration generator with a supercritical coupling factor is connected, in which the working area the converter frequencies on the inner (falling) branch of the curve of the resonance characteristic of the circle which results in a linear dependency of the voltage at the output of the converter on the size

of the distance between converter and rotor ~ results.

To ensure a distributed damping is

it is advisable to put the inertial mass in the form of a KoI-ben execute, which is in a cylindrical

. ■ Housing moves freely and is suspended on simple leaf springs that are transverse to the longitudinal axis of the housing lie. A sensitive device can be installed in the housing to measure the stator vibration be responsive to vibrations of the housing with respect to the inertial mass.

In the following the present invention is based on an exemplary embodiment and with reference to the drawings explained in more detail. It shows

F i g. 1 shows the general view of a device for measuring absolute vibrations of parts of the Unit rotor-stator according to the invention,

F i g. 2 shows the basic circuit diagram of an inductive high-frequency converter in the device according to FIG present invention.

The device has the following parts: Housing 1, inertial mass 2, two springs 3, which on the housing between Sheath 4 and housing 1 are clamped, a screw bolt 5 and a nut 6 zum'Verbinden the carry mass 2 with the springs 3, the current pick-up 7, a sensitive device 8 and a non-contact converter 9.

The mass 2, together with the springs 3, forms the piston of a damping unit and the housing 1 together with the jacket 4 represent the cylinder of this unit.

An ordinary inductive transducer can be used as the sensitive device.

The contactless converter 9 represents a series resonance circuit 12, the inductive (14) and capacitive with the self-excited vibration generator 13 (15) and an amplitude detector 16. The capacitance allows a connection between Resonant oscillating circuit 12 and self-excited oscillation generator with a supercritical coupling factor manufacture at which the working range of the frequencies of the converter on the inner (falling) branch of the curve of the resonance characteristic of the circle, creating a linear dependence the output voltage results from the size of the distance between rotor and converter.

The self-excited vibration generator 13 and the amplitude detector 16 can both inside of the housing 1 of the device as well as be arranged outside.

The vibrations of the rotor 11 are sluggish with a contactless converter 9 compared to the Mass 2 measured, with which the converter 9 is rigidly connected.

In the operation of the system, the stator 10 and together with it also the housing 1 are the device in oscillating motion, but these oscillations are practically not passed on to mass 2, as the seismic system and the distributed damping prevent this.

The use of distributed attenuation according to the present invention also allows the influence to exclude secondary resonances of the springs from the transverse vibrations of the housing 1, the connected mass of the damping fluid to lower the natural frequency of the seismic system to use and thus to expand the area by adding the inertial mass 2 with respect to the inertial system remains in peace.

The vibrations of the housing 1 of the device and thus also of the stator 10 are sensitive Device 8 measured inside the housing 1 of the device between the walls of the Housing 1 and the inertial mass 2 is rigidly attached.

From the high-frequency signal of the resonant circuit 12, which is modulated by oscillations of the rotor 11, a signal is filtered out by means of the amplitude detector 16, which is proportional to the amplitude and the oscillation frequency of the rotor, fed via resistor 17 and high-frequency choke 18 to the input of an amplifier 19 ίο and further displayed in a measuring device 20. The capacitance of the amplitude detector 16 fulfills, in addition to its direct function, the role of a filter which does not allow the signals from the magnetic field of the rotor to pass through to the output of the converter. . 15th

Claims (4)

Patent claims: 1. Device for measuring absolute vibrations in a rotor and stator System having a hermetically sealed housing connected to the stator, in to which an inertial mass is suspended from elastic elements, characterized in that that in it on the inert mass (2), which remains at rest with respect to an inertial system and a distributed damping of both the mass (2) itself and the elements (3) of the elastic Suspension, a non-contact converter (9) arranged in the housing (1) is rigidly attached which converts the oscillations of the rotor into a proportional electrical output signal converts. 2. Apparatus according to claim 1, characterized in that the converter (9) is an inductive one High-frequency converter with a resonance circuit (12) is used, which is connected to the output of a Self-excited vibration generator (13) connected with a supercritical coupling factor is where the work area is Converter frequencies on the inner (falling) branch of the curve of the resonance characteristic of the circle (12) lies. 3. Apparatus according to claim 1 and 2, characterized in that the inertial mass (2) in the form a piston is designed, which can move freely in the cylindrical housing (1) and on simple leaf springs is suspended, which are transverse to the longitudinal axis of the housing (1). 4. Apparatus according to claims 1 to 3, characterized in that the housing (1) has a sensitive Device (8) is attached to the vibrations of the housing (1) with respect to the inert mass (2) responds. 1 sheet of drawings