SU370514A1 - DEVICE FOR TECHNOLOGICAL CONTROL - Google Patents

Description

i

The described device for technological control of permanent magnets is used in the technique of magnetic measurements.

The known devices for monitoring permanent magnets have a magnetic system with a demagnetizing and: a component that coil the magnetic resistance system and a coil to compensate for the effect of dissipation in the working gap on the sensor; converts the flux passing through it into a proportional value of the output voltage.

However, such devices are characterized by a subjective assessment of the indications of the pointer instruments of visual control, manual switching of the magnetizing field, which significantly reduces the speed of the control device, and the adjustment of the magnetic system is difficult.

The proposed device introduces electronic schemes for fixing induction zeros and field strengths and fixing schemes for residual induction and coercive force, the output of the induction zero fixing circuit being connected to the input of the coercive force fixing circuit, and the output of the fixing circuit to zero voltage Paul connected to the circuit input fixation of residual induction.

The drawing shows a block diagram of the device.

The feed mechanism / produces alternately placing the magnets into the gap of the magnetizing unit controlled by the synchronization circuit 5. The magnetizing unit magnets magnetize the gap of the magnet system consisting of a core with a coil and a step-down transformer with two polarized pulses of the field.

Two Hall sensors are installed in the gap of the magnetizing unit. Sensor 4 outputs a sigpal. Proportional to magnetic induction, and sensor 5 gives a proportional voltage of the arrays of the floor. Sensor sensors are amplified by amplifiers 6 and 7, respectively, from which they are fed to zero-value fixing circuits of signals 8 and 9 and fixing circuits of residual indices of 10 coercive forces //.

When the signal is equal to zero, proportional to the magnetic induction at the output of the amplifier 6, the zero-latching circuit 8 outputs a control signal to the latching coercive force // circuit, which "remembers the instantaneous value of the signal from the output of the field-intensity amplifier 7 corresponding to the magnitude of the coercive force.

Similarly, the registration of the value of residual induction. At the moment of equality

the zero signal is proportional to the FIELD intensity at the output of amplifier 7, the zero-value fixing circuit 9. emits a gain signal to the fixation circuit of residual induction 10, which "remembers the instantaneous value of the signal from the output of magnetic induction amplifier 6, corresponding to the residual induction value at that moment.

The voltages from the outputs of circuits 10 and 7 / are applied to a digital block 12, which transforms the input signals into pulses, the duration of which is the power supply, and then the number of high frequency pulses. The digital block computes the count of these pulses and compares the obtained result with the reference numbers entered in the block in advance, which determine the permissible ranges of residual inductance values, and the differential force.

From the output of the digital unit, a "fit-worthless" signal is removed, controlling the operation of the sorting mechanism 13, which separates valid and unusable magnetites. The power supply of the electronic circuitry of the device is carried out by the power supply unit 14.

P. subject of the invention

Device for technological control of permanent. Magnets by residual induction and coercive force, which contains magnetizing node, Hall sensors and measuring

An electronic circuit, characterized in that, in order to increase accuracy, speed and automatic retesting of the static induction and coercive force, it is equipped with electronic schemes for fixing zeroes of induction and field strength and schemes for fixing the magnitude of residual induction and coercive force, with the output of the zero fixing circuit induction is connected to the input of the coercive force fixation circuit, and the output

zero-voltage fixation circuit the floor is connected to the input of the residual fixation circuit

Induction.