CS255787B1 - Connection for automatic demagnetizing of permanent magnets - Google Patents

Abstract

The solution relates to wiring for automatic degaussing of permanent magnets especially useful for making magnets where it is necessary to provide a defined default for further processing, and for development work in the field of permanent magnets. The essence of the solution is that the output the envelope curve generator is associated with the first comparator input, the second the comparator input is connected to the dream output amplifier and simultaneously with the indicator input zero position whose output is connected with the first input of the flip-flop, of which the second input is connected to the output of the comparator, with a flip-flop output it is connected to the divider input by two and at the same time with input determining the direction of increment the amplitude of the integration power member, and further with the input of the timing circuit, of which the output is connected to the first blocking input integrating power member whose output is connected to the amplitude sensor input and at the same time with a reversing power input the switch whose output is connected to the input solenoid, while reversing the reversing switch input is connected to the divider by two.

Description

The invention solves a circuit for automatic demagnetization of permanent magnets / useful especially for the production of magnets, where it is necessary to provide a defined starting state for further processing and furthermore for development work in the field of permanent magnets.

Known methods of degaussing use techniques that do not provide perfect degaussing because they do not produce a sufficiently strong and defined variable magnetic field. It is also a major problem to ensure uniform degaussing throughout the magnet volume. The most common specific embodiment for degaussing uses manual control of an electromagnet in / in whose magnetic field the sample being processed is located, wherein the electromagnet current is increased slowly enough to a defined value from which a decrease to zero occurs. This is followed by reversing the current and again increasing the current amplitude to a value lower than in the previous cycle. A large number of these cycles are required for perfect degaussing, with constant operator action required and the result of the entire degaussing procedure depends on the operator's attention and adherence to the prescribed mode.

These disadvantages are eliminated by the circuit for automatic demagnetization of permanent magnets according to the invention. Basically, the output of the envelope curve generator is coupled to the first comparator input, the second comparator input being coupled to the output of the amplitude sensor and simultaneously to the input of the zero position indicator, the output of which is connected to the first input of the flip-flop. with comparator output,

255 787 wherein the flip-flop output is coupled to a divider input of two and at the same time to an input indicating the amplitude increment of the integrating power member, and a timing circuit input whose output is coupled to the first integrator power blocking input connected to the sensor input amplitude and simultaneously with the power input of the reversing switch, the output of which is connected to the

the reversing input of the reversing switch is connected to the output of the divider by two.

The advantage of wiring is the automatic course of the whole process from-; magnetization, which brings great savings in monotonous work. giving high concentration. Missing in manual control; The prescribed mode results in the deterioration of the entire degaussing process, and the erroneous process can only be detected after the end of the process by measuring residual magnetism. The course of the whole degaussing cycle is precisely defined in terms of time and amplitude, which is essential especially in research work. The constant rate of rise and fall of the magnetizing current in each cycle is precisely maintained, and the maximum amplitude in each cycle is precisely determined by the degaussing waveform generator, which waveform can be selected as desired. The new effect of wiring is to fully automate the entire degaussing process, to accurately and reproducibly define the whole process, and thereby to substantially improve the degaussing quality.

An exemplary embodiment of the circuit according to the invention is shown schematically in FIG. The circuit for automatic demagnetization of the permanent magnets is such that the envelope of the enveloping geographer 5 is connected to the first input of the comparators 4 and simultaneously to the input of the cycle end indicator 11, the second input of the comparators 11 to the output of the amplitude sensor 4 and the indicator input. The output of which is connected to the first input of the flip-flop 2, the second input of which is connected to the output of the comparators 2, wherein the output of the flip-flop 2 is connected to the input of the divider 10 » ^And the input of the timing circuit 2, the input of which is connected to the first blocking input 3.1 of the integrating power element 2, the output of which is connected to the input of the 4-amplitude sensor and the power input of the reversing switch 2.

The 255 787 degree is connected to the input of the solenoid 6, the reversing input of the reversing switch 2 being connected to the output of the divider 10 by two and the output of the cycle end indicator 11 connected to the second blocking input 3.3 of the integrating power element 5.

The function of the circuit is that the control voltage to the solenoid 5, which serves to generate the magnetic field, is fed from the integrating power element 5 via a reversing switch 2 which changes the direction of the current through the solenoid 5, ^By means of the amplitude sensor 8, it is compared by means of a comparator T with the voltage at the output of the envelope curve generator 6, the output voltage of the comparator 7 being applied to the second input of the flip-flop 8. to whose first input voltage is applied from the amplitude sensor 6 via the zero position indicator 6. The state of the flip-flop changes whenever the maximum voltage value is reached in each cycle and when it is zero. The output voltage of the flip-flop 6 controls the amplitude increment direction of the integrating power member 4 and simultaneously controls via the divider 10 two reversing switches 2. The timing circuit 9 blocks the operation of the integrating power member 8 for a defined period of time necessary to stabilize the transient event. Test termination when the output voltage of the envelope curve generator 6 falls below a defined value is provided by the cycle end indicator 11, whose output voltage blocks the operation of the integrating power member 6.

Claims (2)

SCOPE OF THE INVENTION 255 787 1. Connection for automatic degaussing. permanent magnets, characterized in that the output of the envelope curve generator (5) is connected to the first comparator input (7), the second comparator input (7) being connected to the output of the amplitude sensor (4) and simultaneously to the input of the zero position indicator (6) whose output is connected to the first input of the flip-flop (8), the second input of which is connected to the output of the comparator (7), the output of the flip-flop (8) being connected to the input of the divider (10) an amplitude increment direction of the integrating power member (3), and an input of a timing circuit (9), the output of which is coupled to the first blocking input (3.1) of the integrating power member (3), the output of which is coupled to the input of the amplitude sensor (4); simultaneously with the power input of the reversing switch (2), the output of which is connected to the input of the electromagnet (1), the reversing input of the reversing switch (2) being by the divider (10) by two. Connection according to claim 1, characterized in that the output of the envelope curve generator (5) is connected to the input of the cycle end indicator (11), the output of which is connected to the second blocking input (3.3) of the integration power member (3).