SU492728A1 - Magnetoelastic transducer - Google Patents

Description

(54) MAGNETIC ELASTIC CONVERTER

Claims (2)

The invention relates to a measurement technique and can be used in the measurement of deformations and forces by a magnetic method. A magnetoelastic transducer is known in which the magnetic circuit is made in the form of a ferromagnetic film glued onto a test surface and the output signal is taken from the measuring winding. However, in known converters, the analog representation of the output information is carried out, and to obtain a pulse code, such converters also require the use of sophisticated secondary measuring equipment, which reduces the reliability and complicates the design of the device as a whole. The aim of the invention is to convert the deformation of the surface layer of the monitored object into a pulse code. For this, the converter is provided with a traction base and an insulating film separating the ferromagnetic film and the conductive element applied on it, the insulating film has holes located along the base axis at a distance from one another, Removed according to a given functional relationship, and the conductive the element is designed as a series-connected point contacts located in the apertures of the film, and provides separate electrical connection of even and odd contacts. The drawing shows a diagram of the design of the Converter. The magnetoelastic transducer contains a mica substrate 1, with which the transducer sticks to the controlled surface. A trapezoidal conductive base 2 is deposited on the substrate 1, onto which a ferromagnetic film 3 and an insulating film 4 with holes for point contacts 5 are successively applied, formed by a conductor overlaying the insulating film 4 by a 1 DIM element 6. An alternating current voltage is supplied to conductors 7 and 8, and the signal is removed from the output pins 9 and 10. The converter operates as follows. Since the base 2 in the direction of its axis of symmetry has a variable cross section, the current density in each section will be at the same time, therefore, as the current increases in the conductive base 2, i, the magnetization of the film 3 will occur gradually, pick up the points of attachment of point contacts 5 to the film 3. At the output terminals 9 and 10 of the conductive element 6, voltage pulses occur due to abrupt changes in magnetic induction at the boundary of the magnetization reversal, the polarity of which depends IT from the direction of magnetization reversal, and the number from the number of contact points 5 covered by the magnetized area. The amplitude of the supply voltage is chosen so that in the absence of deformation the amplitude of the magnetic field created by it is sufficient to reverse the magnetization of at least 3 in the direction of the axis of symmetry of the base 2. Thus, in the absence of an input signal of the converter, terminals 9 and 10 will produce a sequence of positive and negative voltage pulses, the number of which is determined by the number of point contacts covered by the magnetized region for a given alternating current number of pulses at the output of the magnetoelastic converter. L X. The specified conversion characteristic is achieved by the choice of the distances l KI, in particular the linear characteristic is provided choosing equal distances between the point contacts. The invention includes a magnetoelastic transducer containing a ferromagnetic film with a conductive element, characterized in that, in order to convert the deformation of the surface layer of the object under control into a pulse code, it is equipped with a trapezoidal conductive base and an insulating film separating the ferromagnetic applied on it. the film and the conductive element, the insulated film, has apertures located along the base axis at a distance of one from the other, chosen for a given functional The dependence, and the conductive element is a series connected tochechnyhkontaktov located in the apertures of the film, provides the separate electrical connection even and odd contacts. Yu x