SU696369A1 - Device for electromagnetic inspection of mechanical properties of moving ferromagnetic materials - Google Patents

Description

Ki Kotorh connected by summation scheme.

The drawing shows the proposed device for electromagnetic control of the mechanical properties of moving ferromagnetic core-shaped materials.

: The magnetizing solenoids 1 and 2 are located coaxially with the possibility of changing the distance between them and are turned on so that the sex they create is directed towards each other. Reading converters 3, in which quality can be used, for example, flux-gradiometer gauges, are arranged around the perimeter of the inner surface of the solenoid 2 symmetrically about its centerline and turn them on so that the output signals. to the generator, and measuring ones - to the input of the Electoral amplifier, tuned. to the second harmonic- (not shown in the drawing). The power supply of the magnetizing solenoids is dried from generator 4 with an adjustable frequency of the followings of magnetization.

The device works as follows.

Controlled material 5 moves inside. magnetizing solenoids 1 and 2 and between ferroconstructions and E-omer. The windings of the magnetizing solenoids 1 and 2 transmit a pulsed current, which creates magnetic labels. The magnitude of the manipulating pulses is chosen such as to bring the controlled material to saturation. The distance to the meleda magnetizing solenoids is adjusted so as to create the maximum residual field gradient. The frequency of the magnetizing pulses is set depending on the speed of movement of the material being monitored so that at the time of passage of the magnetic marks inside the SECOND solenoid. which carries information about the mechanic black properties of the product. When the monitored material passes exactly between the flux glands, the signal

induced by, equal and the total signal is equal to twice the signal from one flux-gate. When the monitored material during its movement deviates towards one of the flux-probes, the signal induced on the latter will increase, and the signal induced by 1st on the second probe will decrease, but the sum of these signals will remain constant with the same mechanical properties of the material being monitored. .

Since the magnetic trail is applied around the perimeter of the material being monitored, radial oscillations, as well as rotational movement, will not affect the results of the control.

Due to the counter-inclusion of the solenoids and Bbf6opa distance between them, the maximum residual wake is reached, which increases the sensitivity and, consequently, the accuracy of the control.

The use of this device will ensure reliable control of moving ferromagnetic materials, mechanize the process of controlling the mechanical properties of materials in mass and large-scale production.

Claims (1)

1.Patent UK No. 1067764 cl. G 1 N, 1967.. 2. USSR author's certificate No. 451970, cl. G 01 R 33/12, 197-5 prototype.  -T XXXXXXU} XX hhhhh about -: DWvSSSX h XXXXX