SU955226A2 - Device for automatic demagnetization of permanent magnets to preset magnetization value - Google Patents

Description

The invention relates to a device for the demagnetization of permanent magnets and can be used in the electronics industry in the manufacture of periodic magnetic systems of microwave devices.

By main auto No. 511636, a device is known for automatically demagnetizing permanent magnets to a predetermined magnetization value, comprising a compensating magnetization meter, an electromagnet, an adjustable electromagnet power supply, a reference signal adder, a memory unit, and a control unit.

The operation of this device is based on the performance of demagnetization cycles, in each of which a demagnetizing field of an electromagnet is applied to a permanent magnet and at the same time the magnetization of the magnet is measured. When a certain value of magnetization is reached, the control unit disconnects the electromagnet from the power source and the magnetization of the magnet obtained after removal of the demagnetizing field is measured. In the next cycle, the demagnetizing field applied to the magnet increases until

7magnetization does not reach the value determined in the memory unit and in the adder of the reference signals. After 5 turns off the demagnetizing field, the magnetization of the magnet is again measured. The practical operation of the device ends when, after the next demagnetizing field is turned off, the magnetization of the magnet becomes equal to the set value [1]. The disadvantage of this device is that the set value of magnetization is achieved with a random value of the field strength in the magnet.

The purpose of the invention is to increase the accuracy of demagnetization of magnets.

The goal is achieved _paragraph in that the device automatically ^2u demagnetization of permanent magnets to a predetermined magnitude of the magnetization, comprising a compensation measuring magnetization with a reference voltage generator and the block of the reference 25 signal electromagnet regulated power supply of the electromagnet, the apparatus is provided with a memory unit, the adder reference signal and the block control, the output of the reference voltage generator 30 by compensation of the 955226 meter is connected to the input of the memory unit and the reference signal block of the compensation meter is connected to the input of the sum of the reference signals, the output of which is connected to the subtraction input of the compensation meter, and the output of the compensation meter is connected to the input of the control unit associated with the memory unit and the electromagnet power supply circuit, equipped with a voltage compensation meter, key, other a power source, a regulating element and another winding of an electromagnet, the output of the amplifier of a compensating tension meter through a key, commutator emy control unit connected to the control electrode of the adjusting member, and the output of other power source is connected through a regulating member to another winding of the electromagnet. .

The drawing shows a functional electrical diagram of the device. ’

The device contains an electromagnet 1 with a partially closed magnetic circuit and two windings, compensation meters 2 and 3 of magnetization and field strength in the magnet, respectively, an adjustable electromagnet power supply 4 connected to a demagnetizing magnet coil, an adder 5 of reference signals, a control unit 6, a key 7, a source 8. power connected through the regulating element 9 with the second winding of the electromagnet ·, memory unit 10.

The device operates as follows.

In the initial state, the voltage at the output of the control unit 6 is zero, while the regulated power supply 4 is disconnected from the electromagnet, the key 7 is open and the signal from the amplifier of the compensating tension meter 3 is supplied to the control electrode of the regulating element 9 and the memory unit 10. The value of the compensating voltage of the intensity meter 3 is set corresponding to a given field strength. If the field strength in the magnet is less than the specified value, a positive signal appears at the output of the amplifier of the intensity meter 3. This signal, passing through the key 7 to the control electrode of the regulating element 9, opens the latter. This leads to the appearance in the second winding of the electromagnet of current from source 8, and, consequently, to an increase in the field strength in the magnet. When the field strength in the magnet reaches a predetermined value, the signal at the output of the amplifier of the compensating tension meter 3 becomes equal to zero and the control element starts to close, decreasing the current of the second winding. Thus, in a permanent magnet with the source 4 turned off, the field strength close to a predetermined value will be automatically maintained.

When the device is started, a voltage appears at the output of unit b, closing the switch 7 and turning on the adjustable source 4. The current in the demagnetizing winding of the electromagnet starts to increase, the current in the second winding becomes zero.

When a permanent magnet reaches magnetization equal to the magnetization set on the compensation meter 2, block 6 turns off the source 4 and turns on the key 7. The magnet sets the set value of tension, after which block 6 issues a command to turn on block 10. Block 10 measures the received after the first demagnetization cycle magnetization value of a permanent magnet at a given field strength, and remembers the difference between the achieved and required magnetization. After this, the second demagnetization cycle begins. The cyclic operation of the device stops when the magnetization of the magnet at a given field strength becomes equal to a predetermined value.

The device allows to accelerate the process of tuning magnetic systems by eliminating the need for tuning the system after its assembly.

Claims (1)

The meter is connected to the input of the memory unit, the outputs of the memory unit and the reference signal block of the compensation meter are connected to the input, the adder of the reference signals, the output of which is connected to the subtraction input of the compensation meter, and the output of the compensation measurement are connected to the input of the control unit, associated with the memory unit and the power supply circuit of the electromagnet,. equipped with a compensating voltage meter, switch, other power supply, regulating element and other electromagnet winding, the output of the amplifier of the compensating voltage meter through a switch switched by the control unit is connected to the control electrode of the regulating element, and the output of another source The power is connected through a regulating element to another winding, an electromagnet. . The drawing shows the functional electrical circuit of the device,. The device contains an electromagnet 1 with an incompletely closed magnetic core and two windings, a compensation meter of the 2nd 3 magnetization and intensity of the magnet field, respectively, an adjustable electromagnet 4-power supply connected to the demagnetizing winding of the electromagnet, a sum of 5 reference signals, control unit 6 , key 7, power source 8, connected through the regulating element 9 with the second winding of the electromagnet, memory block 10. The device works as follows. In the initial state, the voltage at the output of the control block b is zero, while the adjustable power supply 4 is disconnected from the electromagnet key 7 is opened and the signal from the amplifier of the voltage compensation meter 3 is applied to the control electrode of the regulating element 9 and the memory block 10. The magnitude of the compensating voltage of the meter 3 ..: The voltage is set to the corresponding predetermined voltage floor. If the strength of the field in the magnet is less than the specified one, a positive signal appears at the output of the amplifier of the meter 3 of the tension. This signal, the passage through the switch 7 to the control electrode of the regulating element 9, opens the latter. This leads to the appearance in the second winding of the electromagnet of the current from the source 8, and, consequently, to an increase in the intensity of the field in the magnet. When the voltage in the magnet is equal to the specified one, the signal at the output of the amplifier of the compensation meter 3 will become zero and the regulating element will begin to close, reducing the current of the second winding. Thus, in a permanent magnet with the source 4 turned off, the field strength will be automatically maintained close to a predetermined value. When the device starts up, the output of the block b will cause the voltage to close the switch 7 and turn on the adjustable source 4. Current in the demagnetizing winding of the electromagnet. Begins to increase, the current in the second winding becomes equal to zero. When the magnetization is reached by a permanent magnet equal to the magnetization compensator meter 2 installed on the unit 6, the source 4 turns off the source 4 and turns on the key 7. The magnet sets the specified voltage value, after which the unit b issues a command to turn on the unit 10. The unit 10 measures the received after the first demagnetization cycle, the value of the magnetization of the permanent magnet at a given field strength, and remembers the difference between the achieved and the required magnetization. After this, the second degaussing cycle begins. The cyclic operation of the device stops when the magnetization of the magnet at a given field strength becomes equal to the specified value. The device allows speeding up the process of adjusting magnetic systems by eliminating the need to adjust the system after it is assembled. The invention of the device is an automatic demagnetization of permanent magnets to a predetermined magnitude of the magnetization of the author. No. 511636, characterized in that, in order to increase the demagnetization of the magnets, the device is equipped with a compensating voltage meter, a key, another power source, a regulating element, and another electromagnet winding, the output of the compensating voltage meter amplifier through a key switched by the control unit, connected to the control electrode of the regulating element, and the output of another power source is connected through the regulating element to another winding of the electromagnet. Sources of information taken into account during the examination 1. USSR author's certificate No. 511636, cl. H 01 T 13/00, 1976. ten