SU794360A1 - Electromagnetic method for measuring ferromagnetic article diameters - Google Patents

Description

The invention relates to means of controlling the size of ferromagnetic products by parameters of interaction with electroinductive converters and can be used to measure the diameters of ferromagnetic rolled products.

The known electromagnetic method of controlling the sizes of products, which means that the controlled product is placed in the alternating magnetic field of the coil and, by its signals, judge the size of the product {.

However, the accuracy of the control in this way is not sufficient, since the results of the control are affected by the instability of the electrical conductivity of the material of the product.

The closest technical solution to the invention is an electromagnetic method for measuring ferro diameters; magnetic products, which consist in placing a product in a sinusoidal alternating magnetic field of a coil that additionally magnetises a constant magnetic field, register electrical signals from the measuring coil and according to their parameters t about the size of the diameter of the product 2.

However, the accuracy of measurement in this way is not sufficient, since

the variation in the magnetic permeability of the product material.

The purpose of the invention is to increase measurement accuracy. This is achieved by the fact that 5 of the electrical signals separate the second harmonic: Moni (K}, fix the maximum and 0.1 of its maximum value when the constant magnetic field changes, and then the intensity of this field disappears when Benin of the second harmonic disappears, and This tension is judged on the diameter of the product. The drawing shows a structural diagram of the device that implements the proposed method.

5 The device comprises a coil / excitation of a sinusoidal alternating magnetic field, a constant magnetic field excitation coil 2, a measuring coil 5, an adjustable DC source 4, an ammeter 5, a sinusoidal current generator 6, a second harmonic selective amplifier 7 and a second harmonic recording device 8.

Coil / excitation alternating

5 pumped floor is connected to the generator 6 sinusoidal current. The coil 2 of the constant magnetizing field is connected to the source 4 of an adjustable direct current through an amperemeter 5. Voter0, the amplifier 7 serves to isolate and

Wilences of the second g | rmoniki EMF output vypnala. The output of the selective amplifier is connected with the registering iOIP 8.

The method is carried out as follows.

Controlled product 9 is placed in the coil /. The product is magnetized by an alternating magnetic field caused by the excitation current flowing through the excitation roller 1, and is also magnetised by a constant field by the puller 2. The direct current value that determines the intensity of the constant magnetic field is controlled by source 4 and measured with an ammeter 5. As a result of exposure of the product to alternating and constant magnetic fields in the measuring coil 3, a complex shaped signal is induced, containing both odd and even harmonics. The selective amplifier 7 is used to isolate the second harmonic of the EMF and measure it with a registering device 8. The second harmonic is distinguished due to its high sensitivity "change in the constant magnetic field." Using a source 4, a constant magnetic field in the coil 2 is increased until a maximum value of the second harmonic amplitude appears, which is recorded by a recording device 8. Thereafter, the constant magnetic field is again increased until the second harmonic reaches its maximum value of 0.1.

The fulfillment of this condition is necessary so that the samples of different sizes, when magnetized, reach the same magnetic state. If the value of the second harmonic is greater than 0.1

the maximum value decreases sensitivity and control accuracy.

Then, the constant magnetic field is reduced until the second harmonic disappears. At the moment of the disappearance of the second harmonic of the signal, the measurement of the direct current of the field under which the diameter of the Product being controlled is measured is measured by measuring the direct current aiMneipMSTpoM 5.

Claims (1)

1. USSR author's certificate No. 643742, cl. G 01 B 7/02, 1974. 2 USSR author's certificate number 175244, cl. G 01 B 7/06, 1977.