SU1758680A1 - Demagnetization device - Google Patents

Abstract

The use of demagnetizing devices The essence of the invention allows to significantly reduce the energy consumption for demagnetization of products with different coercive force. The goal is achieved by introducing a coercive force measurement unit whose power circuit is connected to the coil, the first and second alternating voltage generators. The measuring circuit is connected to the input of the second alternating voltage generator. The control electrode of the second triac is connected to the common connection point of the second one-shot and the third differentiating circuit. 1 silt

Description

The invention relates to electrical engineering, namely to demagnetizing devices.

A demagnetizing device is known, comprising a demagnetization coil connected in series, a first and a second alternating voltage generator, and a resistor with a rectifier connected in parallel to it, the output of which is connected to a threshold element. In order to reduce the demagnetization energy costs and simplify the control circuit, the first differentiated circuit, single vibrator, second differentiating circuit and microcomputer, as well as a sylistor connected to the second alternator, are connected to it to the common point of connection of the one-shot and the second differentiating circuit, and the input of the first differentiating circuit is connected to the output of the threshold element.

The effectiveness of this device dramatically reduces in the case of demagnetization of moving products with different coercive force Hc in the process flow. This is due to the fact that the initial fixed amplitude value of the demagnetization current is chosen from the condition of demagnetization of parts with maximal Hs, which causes excessive energy consumption and reduces the efficiency of the device when demagnetized parts with a little Ng

The purpose of the invention is to reduce energy costs and automate the degaussing process.

This is achieved by adding a coercive force measurement unit to the device, the power circuit of which is connected between the first alternating voltage generator and the free output of the resistor, and its measuring circuit is connected to the free input of the first generator, parallel to the coercive force measuring unit the newly introduced second triac is connected to the output

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the second differentiating circuit is connected to a chain of newly introduced serially connected second one-oscillator and the third differentiating circuit, to the output of which the microcomputer is connected, and the control electrodes of the first and second triacs are connected respectively to the output of the second one-oscillator and the output of the first one-oscillator.

The drawing shows a diagram of the device.

The demagnetizer comprises a demagnetization coil 1, the first 2 and second 3 alternating voltage generators, a coercive force measurement unit 4 consisting of the power target 5 and the measuring circuit 6, the second 7 and the first 8 triacs. The device is equipped with a resistor 9. connected to the input of the rectifier 10. the output of which is connected through the threshold element 11 and the first differentiating circuit 12 to the input of the first one-oscillator 13. The output of the first one-oscillator is connected to the control electrode of the second triac 7 and through the second differentiating circuit 14 - with the input of the second one-shot 15, the input of which is connected to the control electrode of the first triac 8 and through the third differentiating circuit 16 to the microcomputer 17.

The device works as follows

In the initial state, in the absence of the demagnetized product 18 in the coil 1, the current of the first alternating voltage generator 2 flows, while the triacs 6 and 8 are open

When the product 18 enters the range of the coil 1, the inductance of the latter increases, which leads to a decrease in the current in the coil and. accordingly, the voltage on the resistor 9 and on the output of the rectifier 10. At the moment of reducing this voltage to a predetermined value, the threshold element 11 is triggered, the signal from the output of which triggers the first one-oscillator 13 for the time required to determine the coercive force. The impulse from the first one-shot 13 brings the second triac to the closed state, which leads to the activation of the measuring unit Hc. During this period of time, the power circuit 5 forms the dipole of the magnetizing current-demagnetization flowing through the coil 1, and the measuring circuit 6 produces and supplies to the input of the second generator 3 of the alternating voltage a signal equivalent to Hc. This is proportional to the coercive force of the amplitude of the first pulse of the damped periodic oscillation of the demagnetization current of the low frequency of the second generator 3.

Then, at the end of the pulse of the first single vibrator 13, the Hc measurement unit 4 is turned off, the second differentiation circuit 14 is activated, and the second single vibrator 15 is turned on, the pulse of which puts the first triac 8 in the closed state, which ensures the switching on of the second oscillator 3, generating a sequence of low-frequency alternating pulses.

At the moment when the pulse of the second one-shot 15 ends, the first triac 8 opens, the second alternating voltage generator 3 is turned off, and through the third differentiating circuit 16 a demagnetization completion signal is sent to the input of the microcomputer of the control system.

When the product 18 leaves the coil 1, the inductance of the latter decreases, and the voltage across the resistor 9 and the output of the rectifier 10 increases. As this voltage increases to a predetermined value, the threshold element 11 turns off and the device returns to its original state.

The proposed technical solution significantly reduces energy consumption, allows automatically selecting the optimal mode of demagnetization of products with different magnetic properties.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION A demagnetizing device comprising a chain of two series-connected alternating voltage generators, a demagnetization coil and a resistor, in parallel to which a rectifier is connected, the output of which is connected to a chain of series-connected threshold element, the first differentiating circuit, the first single vibrator and the second differentiating circuit, microcomputer, parallel to the first alternating voltage generator, a triac is switched on, characterized in that, in order to reduce energetically costs and automating the demagnetization process, a coercive force measurement unit is added to it, the power circuit of which is connected between the first alternator and the free output of the resistor, and its measuring circuit is connected to the free input of the first generator, parallel to the power circuit of the coercive force measurement unit introduced second triac. to the output of the second differentiating circuit is connected to a chain of newly introduced serially connected second single-oscillator and a third differentiating circuit, to the output of which is connected a micro- The computer and the control electrodes of the first and second triacs are connected respectively to the output of the second one-shot and the output of the first one-shot