SU122808A3 - Electric magnetometer - Google Patents

Description

The proposed electrical magnetometer for measuring the vertical component of the earth’s magnetic field is of a known type for devices of the same purpose, consisting of two magnetic probes, highlighted vertically on a self-adjusting gimbal and each winding fed by an alternating current of increased frequency and winding powered by adjustable DC source to partially or fully compensate for the measured magnetic field acting on the probes.

A special feature of the magnetometer is the implementation of a calm system, which prevents random oscillations of its moving system, in the form of two, fixed at the ends of the body common to the probes, permanent magnets, against which fixed hemispherical metal cups are installed. The centers of the latter coincide with the center of oscillations of the said body so that eddy currents arise in them during oscillations of the magnets, which decelerate the moving system. In the proposed magnetometer, an electric DC compensator is provided, equipped with two identical resistance groups simultaneously switched using a dual switch so that, when switched during the compensation process, the total resistance and the current value in the compensator input circuit remain unchanged. na load current source.

.№ 122808-2 -

FIG. 1 shows a general diagram of a magnetometer; in fig. 2-electrical compensator circuit; in fig. 3 shows a device for damping a moving magnetometer system.

Similarly to the known magnetometers, the proposed magnetometer, shown in FIG. 1, consists of two magnetic probes /, suspended vertically, on a self-adjusting cardan suspension and supplied with windings 2 fed by alternating current of increased frequency from source 3.

A winding is applied to the probes / in which, when the probes are biased by the measured constant magnetic field of the earth, an alternating voltage arises at the frequency of the second harmonic and magnetizing alternating current. This alternating voltage is amplified by amplifier 5 and, after rectification, is fed to dial gauge 6.

When measuring the increments of the vertical component of the geomagnetic field, the intensity of the geomagnetic field on the reference point is compensated by an oppositely directed magnetic field created by a constant winding 7 fed from an adjustable DC source 8.

The probe body 9 is mounted vertically on a self-adjusting gimbal, not shown in the drawing.

FIG. Figure 2 shows a compensator circuit that provides compensation for the measured magnetic field acting on the probes. With this compensator, the possibility of both stepwise and continuous adjustment of the compensation DC current is achieved. Continuous regulation (fine) is carried out by the slider 10 moving along resistance 11, stepwise by a double switch 12 serving for simultaneously switching two resistance groups 13 and 14.

These two groups of resistances ensure the input and output resistances during the measurement of the compensation current and, consequently, the constant load of the current source 15. The correct value of the go-ka is set. produced by adjustable resistance 16, does not affect the measurement accuracy. For control, it serves as a voltmeter 17. Resistances 18 and 19 allow to compensate for voltage changes during long-term operation.

FIG. 3 shows a device for preventing random oscillations of a moving system of a magnetometer. This device consists of two permanent magnets 20, reinforced aa ends of the body 9, and of fixed hemispherical baffles 21 installed against these magnets whose centers coincide with the center of vibration of the body 9. The eddy currents excited in the metal of the cups 21 provide relaxation of the body oscillations and can be simultaneously used to create a compensation field.

Subject invention

Claims (2)

1. An electrical magnetometer for measuring the vertical component of the earth's magnetic field, consisting of two magnetic probes, illuminated vertically on a self-adjusting cardan suspension and each equipped with a winding powered by an alternating current of increased frequency, and a winding fed by an adjustable DC source for a partial or full compensation of the measured magnetic field acting on the probes, which is due to the fact that, with In order to prevent random oscillations of the moving magnetometer system, permanent magnets are fixed at the ends of the body common to the probes, against which fixed hemispherical metal cups are installed, whose centers coincide with the oscillation center of the said body so that eddy currents occur in them when the magnets oscillate. deceleration of the moving system. 2. In the magnetometer according to claim 1, the use of an electric DC compensator, equipped with two identical resistance groups, simultaneously switched using a dual switch so that when switching in the compensation process, the total resistance and the current in the compensator input circuit remain unchanged.