SU1272361A1 - Demagnetizing device - Google Patents

Abstract

The invention relates to the engineering industry, in particular to demagnetizing, to them the devices used to demagnetize parts after machining. The aim of the invention is to improve the quality of demagnetization of parts. A control unit 8 containing a frequency converter I, includes a sensor 8 for changing the current in electromagnet 3, a driver for switching off pulses 7, waiting for a multivibrator 4, a switching pulse synchronizer 5, and an amplifier 6 with switching equipment. 1 il. (L Yu to 00 O5

Description

The invention relates to the engineering industry, in particular to demagnetizing devices that are used to demagnetize parts after machining.

The purpose of the invention is to improve the quality ^of demagnetization of parts.

The drawing schematically shows a demagnetizing device.

The demagnetizing device consists of a direct frequency converter ω (NPF) 1, a capacitor 2, an electromagnet 3, a waiting multivibrator 4, a synchronization pulse 5 synchronizer with an output inverter, an amplifier 6 with switching equipment, a switching pulse shaper 7, an off pulse pulse transducer 7, and a current change rate sensor 8 electromagnet, contact 9 of the magnetic starter.

The demagnetizing device operates as follows.

Contact 9 of the magnetic starter supplies ₂ θ from the network with an alternating current voltage of industrial frequency. Using the NPC button 1, a bipolar voltage of a given frequency is switched on to a parallel circuit capacitor 2 - an electromagnet 3, in which a bipolar current occurs. Electromagnet 3 25 creates a magnetic field to demagnetize parts. At the same time, the input “Log. 1". At the output of the waiting multivibrator 4, the signal “Log. О ”, which goes to the input of the synchronizer 5. After the time expires for a given number of periods of bipolar current in the electromagnet, the waiting multivibrator is capsized, giving the signal“ Log. 1". The sensor 8, for example a current transformer, outputs a positive or The relative ^35-negative signal depending on the current rate of change in the sign of the electromagnet 3. The signal from the sensor 8 is input to the shaper 7. The output of generator 7 pulses logical "O" or "1" comes to the input of the synchronizer 5. If there is at the input of the synchronizer 5 at the same time a logical “1” coming from the output of the waiting multivibrator 4, and a logical “1” coming from the output of the driver 7, a logical “1” appears at the output of the synchronizer 5 after inversion. Signal “Log. 1 "is fed to the input of amplifier 6 with switching equipment, which opens contact 9 of the magnetic starter. After switching off the LPC in a parallel circuit, the capacitor 2 - electromagnet 3 damped self-oscillations occur due to the energy stored in the capacitor 2, providing demagnetization of parts. The frequency of the bipolar voltage and the number of periods of the bipolar current in the electromagnet 3 is set taking into account the material and mass of the magnetized parts in the package.

Claims (1)

The invention relates to the engineering industry, in particular to demagnetizing devices that are used to demagnetize parts after machining. The purpose of the invention is to improve the quality of demagnetization of parts. The drawing schematically shows a demagnetizing device. The demagnetizer consists of a direct frequency converter (NFC) 1, a capacitor 2, an electromagnet 3, a standby multivibrator 4, a synchronizer 5 for a switching-off pulse with an inverter output signal, an amplifier 6 for switching equipment, a generator for 7-switching-off pulses, a sensor 8 for the rate of current change in the electromagnet, contact 9 magnetic starter. The demagnetizer operates as follows. Contact 9 of the magnetic starter supplies mains voltage of industrial frequency to the mains. The NFC 1 button turns on the bipolar voltage of a given frequency on a parallel circuit. Capacitor 2 is an electromagnet 3 in which a bipol p1 arises: current. The electromagnet 3 creates a magnetic field for demagnetizing the parts. At the same time, the signal "Log." Is input to the standby multivibrator 4. 1. At the output of the standby multivibrator 4, the signal "Log. O, arriving at the input of the synchronizer 5. After the expiration of the time of a specified number of periods of bipolar current in the electromagnet, the waiting multivibrator is tilted, giving the signal "Log." To the input of the synchronizer 5. 1. Sensor 8, for example, a current transformer, generates a positive or negative signal depending on the sign of the rate of change of current in an electromagnet 3. The signal from sensor 8 is fed to the input of the driver 7. From the output of the driver 7, the logical pulses "O or" 1 arrive at the synchronizer input 5. If synchronizer 5 is simultaneously present at the input of a logical "1" coming from the output of a standby multivibrator 4, and a logical "1, coming from the output of the driver 7, the logical output" 1 will appear at the output of the synchronizer 5 after inversion. Signal "Log. 1 is fed to the input of the amplifier b with switching equipment, which opens contact 9 of the magnetic starter. After disconnecting the NFC in a parallel circuit, the capacitor 2 - electromagnet 3, damped self-oscillations occur due to the energy stored in the capacitor 2, providing demagnetization of parts. The frequency of the bipolar voltage and the number of periods of the bipolar current in the electromagnet 3 is set according to the material and weight of the magnetized parts folded in the package. Claims Demagnetizing device containing an electromagnet, a capacitor and a control unit, including a frequency converter, characterized in that, in order to improve the quality of demagnetization, the control unit further comprises an electromagnet current change rate sensor, off pulse shaper, waiting multivibrator, off pulse synchronizer and an amplifier with switching equipment, with the input of the waiting multivibrator connected to the frequency converter, and the output to the first input dy synchronizer pulse turn-off, to the second input of which is connected the output of the turn-off pulse, the input of which is connected to the current sensor rate of change in the electromagnet, and with the input of amplifier switching equipment connected with the output pulse of the synchronizer turn off.