SU369479A1 - DEVICE FOR THE CONTROL OF FERROMAGNETIC - Google Patents

Description

one

The invention relates to a measurement technique and can be used in non-destructive testing of ferromagnetic products.

Devices are known for controlling the structure and mechanical properties of ferromagnetic materials, comprising an added magnet with a ferrosonde, a commutator, a magnetization-demagnetizing unit, a measuring unit and an indicator.

However, the known devices do not allow to unambiguously determine the structure and mechanical properties of products from medium to high carbon steels that have undergone high-temperature heat treatment, as well as cast iron products, since several different structures correspond to the same parameter.

In order to increase the accuracy of control, the proposed device is equipped with connected between a measurement unit and an indicator, which are successively connected by a memory unit and a division unit, which contains a circuit for measuring the ratio of em. with. ferrosonde after magnetization to ed with. ferrosonde after demagnetization and measurement of the ratio of emf after demagnetization to demagnetization current.

The drawing is a block diagram of the proposed device.

The device contains an added electromagnet / with a flux probe, a switch 2, a magnetization unit 3 and a measuring unit including a circuit 4 for measuring the emf. ferrosonde after magnetization, scheme 5 measurement of emf a fluxgate after demagnetization and a demagnetization current measurement circuit 6. The outputs of all the measurement circuits are connected to the memory unit 7, and its output is connected to the input of the division unit 8, which includes the emf ratio measurement circuit. ferrosonde after magnetization to emf ferrosonde after demagnetization and measurement of the ratio of the emf with. after demagnetization to the demagnetization current (index 9 denotes the indicator).

The device works as follows.

The electromagnet I is mounted on the monitored product and a direct current from the magnetization unit 3 is supplied to its coil, after which the switch 2 connects the measuring winding of the fluxgate with the measuring circuit 4 of the em. with. characterizing the magnetic state of the product after magnetization.

Then, switch 2 connects the coil of the electromagnet to the magnetizing unit, which produces an increasing demagnetizing current, and the measuring winding of the fluxgate, to circuit 6, which measures the demagnetizing current, at which the emf. ferrosonde equal to zero. Then switch 2 turns off the coil

electromagnet and connects the output winding of the fluxgate to the measuring circuit 5 to determine the em with. characterized by her magnetic state of the product after demagnetization.

All measurements are transmitted to memory unit 7, and then to dividing unit 8, the output of which is the emf ratios. ferrosonde after magnetization to emf ferrosonde after demagnetization and emf after demagnetization to that demagnetization.

These parameters, together with the demagnetizing current, unambiguously determine the hardness of the product by comparison with the reference M.

Subject invention

A device for monitoring ferromagnetic products, comprising an attached magnet with flux probes, a switch connected to an attached electromagnet, a magnetizing unit connected to the switch, and a measuring unit including measuring circuits of emf. the fluxgate after magnetization of the product, after demagnetization and demagnetization current, and the indicator connected to the measurement unit, characterized in that, in order to increase the control accuracy, it is equipped with series-connected memory unit and the division unit connected to the measurement unit relations emf ferrosonde after magnetization to emf ferrosonde after demagnetization and the ratio measurement scheme with. after demagnetization to demagnetization current.