RU1778510C - Device for contactless checking of profile of complicated-shape rotating parts - Google Patents

Abstract

The invention relates to measuring and control technology and is aimed at improving the accuracy of monitoring a device for non-contact control of the profile of rotating articles of a solitary form, which contains an eddy current gap transformer with an open ferrite magnet wire, on the rods of which are placed an excitation winding and a measuring winding. An additional winding is located on the ferromagnetic partition, separated from the rods of the magnetic circuit by non-magnetic gaskets and located on the section of the magnetic circuit between the windings located on it. The voltage induced on this winding does not depend on the measured gap and varies only depending on temperature changes in the magnetic permeability of the magnetic core material. This voltage is applied to the control input of the supply generator, changing the magnitude of the supply current of the field winding of the eddy current converter, which ensures compensation of temperature error, 1 ill. with

Description

The invention relates to measuring and control technology and can be used for non-contact control of the profile of rotating articles of complex shape, for example, collectors of electrical machines, rotors of power plants, etc.

A device is known for non-contact control of the profile of rotating articles of complex shape, comprising an eddy current gap transducer with an open ferrite magnetic circuit and an excitation winding and a measuring winding 1 located on its rods.

However, the known device has insufficient control accuracy. it

due to the fact that the magnetic permeability of ferrite, from which the magnetoconductor of the eddy current transducer is made, depends on the ambient temperature and when it changes, the signal at the transducer output changes, i.e. a temperature error occurs.

The closest in technical essence to this invention is a device for contactless control of the profile of rotating articles of complex shape, containing an eddy current gap transformer with an open ferrite magnetic circuit, an excitation winding and a measuring winding connected to the winding located on its rods

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excitation is a high-frequency power generator and a signal processing unit and a recorder 2 connected to the measuring winding.

The disadvantage of this device is the low accuracy of the control.

The aim of the invention is to increase the accuracy of control by compensating for temperature error.

This goal is achieved in that a device for contactless control of the profile of rotating articles of complex shape, containing an eddy current gap transformer with an open ferrite magnetic circuit, an excitation winding and a measuring winding connected to the excitation winding, a high-frequency supply generator and connected to the measuring the signal processing unit and the recorder are equipped with an additional winding and a voltage measuring unit connected to it ke, the area of the magnetic circuit between coil excitation and measuring windings are ferromagnetic partition separated from its rods nonmagnetic spacers, the additional winding is arranged on this wall and the supply generator is a control input to which is connected the output of unit measuring the voltage across the additional winding.

The drawing shows a diagram of a device for contactless control of the profile of rotating articles of complex shape.

A device for non-contact control of the profile of rotating articles of complex shape contains an eddy current gap transformer with an open ferrite magnetic circuit 1, placed on the rods 2 and 3 of the magnetic circuit 1, an excitation winding 4 connected to the output of the high-frequency supply generator 5, and a measuring winding 6 connected to the input of the block 7 processing e e signals, an additional winding 8, located on the ferromagnetic partition 9, made in the magnetic circuit between the field winding 4 and the measuring coil 6 and separated from the rods 2, 3 by non-magnetic gaskets 10, the voltage measuring unit 11 on the additional winding connected to the input to the additional winding 8, and the output to the control input of the high-frequency supply generator 5, as well as the recorder 12 connected to the output unit 7 signal processing measuring winding.

The device operates as follows.

When the field winding 4 of the eddy current transducer is fed with a high-frequency current from the supply generator 5, a magnetic flux Φ occurs in the ferrite magnetic circuit 1, which consists of a flux F1 interacting with the surface of the monitored article 13 and a stream

Ф2 penetrating the additional winding 8. A useful signal from the measuring winding 6, depending on the size of the gap d between the magnetic circuit 1 and the controlled product 13 and the carrier

information about the profile parameters of the rotating product is extracted and processed by the signal processing unit 7 of the measuring winding and is transmitted to the recorder 12.

The input of the voltage measuring unit 11 on the additional winding receives a signal from the additional winding 8, the value of which depends on the ambient temperature and does not depend on the value

gap e, since the flow Ф2 does not interact with the controlled product 13. At the output of the voltage measuring unit 11, a high-frequency current control signal is generated on the additional winding

supply generator 5, which compensates for temperature changes in the fluxes F1 and F2 caused by the dependence of the magnetic permeability of the ferrite magnetic circuit on the ambient temperature

medium, and compensation of temperature changes in the signal on the measuring winding 6.

Non-magnetic gaskets 10 serve to increase the magnetic resistance of the ferromagnetic partition 9, which prevents the weakening of the working magnetic flux F1 and a decrease in the sensitivity of the eddy current transducer.

The recorder may digitally represent the output signal parameters and have an oscilloscope output to visually observe the profile of the rotating product.

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Claims (1)

The claims A device for noncontact monitoring of the profile of rotating articles of complex shape, containing an eddy current gap converter with an open ferrite magnetic circuit, excitation winding and a measuring winding connected to the excitation winding frequencies and the signal processing unit and the recorder connected to the measuring winding, which, in order to increase the accuracy of the control by compensating for the temperature error, it is equipped with an additional winding and a voltage measuring unit connected to it on this winding, in the area the magnetic circuit between the field winding and the measuring winding is made of a ferromagnetic partition, separated from its rods by non-magnetic spacers, an additional winding is placed on this partition, and the supply the generator is made with a control input, to which the output of the voltage measuring unit on the additional winding is connected. 4