RU201732U1 - DEVICE FOR DEMAGNETIZING MAGNETIC SHIELDING CHAMBER - Google Patents

Abstract

The utility model relates to the field of electrical engineering and can be used to demagnetize magnetic screens. A device for demagnetizing a magnetic shielding chamber is proposed, consisting of a power supply, a relay, a relay control unit, a demagnetizing coil, while a posistor included in the demagnetizing coil circuit is used as an element providing smooth attenuation of the amplitude of the demagnetizing field. The technical result achieved in this case consists in obtaining a residual magnetic field in accordance with the technical requirements for a particular magnetic shielding chamber.

Description

The utility model relates to the field of electrical engineering and can be used to demagnetize magnetic screens.

Closest to the proposed utility model is the device described in the document [patent RU 135846 U1, publ. 12/20/2013]. The device consists of a low frequency power supply, a low frequency demagnetization coil, a relay, a relay control unit and rectifier diodes.

The specified device works as follows. The device generates a strong magnetic field of low frequency due to the formation of an alternating field of low frequency from an alternating field of industrial frequency. This is done by passing into a low-frequency coil, which creates a magnetic field alternately, either the voltage of only positive half-periods, then the voltage of only negative half-periods of the mains current 220 V, 50 Hz. As a low-frequency power source, an industrial frequency network of 220 V, 50 Hz can be used.

The disadvantage of this device is the lack of clarity of the achieved technical result, namely, how smooth decay of the demagnetizing field is ensured.

The proposed utility model is aimed at solving a technical problem to eliminate this disadvantage.

The technical result achieved in this case is to obtain a residual magnetic field in accordance with the technical requirements for a particular magnetic shielding chamber.

The technical result is achieved by a device for demagnetizing a magnetic shielding chamber, consisting of a power supply, a relay, a relay control unit, a demagnetizing coil, while a posistor included in the demagnetizing coil circuit is used as an element providing smooth attenuation of the amplitude of the demagnetizing field.

The indicated features of the utility model are essential and the combination of these features is sufficient to obtain the required technical result.

FIG. 1 shows a block diagram of the claimed utility model. The utility model contains a power supply 1, a relay 2, a posistor 3, a demagnetizing coil 4 and a relay control unit 5.

The presented design is not the only possible one, but it clearly demonstrates obtaining the required technical result.

The device works as follows. When a 50 Hz mains voltage is applied to power source 1, the control unit of relay 5 is started, which closes relay 2. When relay 2 closes, an alternating current begins to flow through the demagnetizing coil 4. When current flows through the demagnetizing coil 4, a demagnetizing field is excited with a frequency of 50 Hz. The flow of current through the posistor 3 causes it to heat up, thereby increasing its electrical resistance. An increase in the resistance of the posistor 3 leads to a smooth decrease in the amplitude of the current flowing through the demagnetizing coil 4, which leads to a smooth decrease in the amplitude of the demagnetizing field. Opening of relay 2 occurs after a predetermined time interval determined by the control unit of relay 5. Thus, when a magnetic shielding chamber is placed inside the demagnetizing coil 4, the chamber is demagnetized. On the basis of the proposed technical solution, a residual magnetic field of 10 nT was obtained inside a cylindrical magnetic shielding chamber with a volume of 0.14 m ³ , made of amorphous AMAG-172 alloy.

Claims (1)

A device for demagnetizing a magnetic shielding chamber, consisting of a power supply, a relay, a relay control unit, a demagnetizing coil, characterized in that a posistor included in the demagnetizing coil circuit is used as an element that ensures smooth attenuation of the amplitude of the demagnetizing field.

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