SU98834A1 - Electric magnetometer - Google Patents

Description

The precursor maciitometer for measuring the vertical component of the magnetic field of magnetic earth is a known type of device, the movable component of which is made as a rotatable frame on the horizontal axis surrounded by a fixed Helmholtz type cathode fed to compensate for the effect of the measured vertical composition current intensity on the indicated frame by direct current. The magnitude of the compensation current is measured by a potentiometer at zero deviation of the mirror galvanometer attached to it.

The use of such a magnetometer requires two operators, of which one observes the mirror of the magnetometer at the moment of switching on the current in the frame, and the other sets up a potentiometer and observes the mirror of the galvanometer attached to it.

The peculiarity of the proposed magnetometer of this type is that the galvanometer is enclosed in the body of the magnetometer, thus allowing one operator to fill in the readings of the magnetometer and the galvanometer. In order to avoid the mutual influence of the magnetometer and the galvanometer, the latter is made, according to the invention, partly astatic of the two movable magnetites facing the same poles in opposite directions. whose magnetic moments are proportional to the third degree of their distance to the center of the magnetometer.

In this case, the total magnetic field created by the wallpaper with magnets in the center of the magnetometer is zero, and the total torque created by the action of the magnetometer frame on both magnets of the moving galvanometer system is also equal to. The unevenness of the influence of the earth's magnetic field on both magnets is also used to orient the magnetometer. The drawing schematically shows a vertical section of the proposed magnetometer for measuring the vertical component of) Ce1

intensity magnetic field of the earth.

The magnetometer consists of a housing with a compensated ring / Helmholtz system, a telescope tube 2, a rotary frame 5 supported by a quartz knife 4 on agate pillows 5, a galvanometer 6 and a number of auxiliary parts.

The galvanometer 6, mounted on the housing cover 7, contains a partially astatic system of magnets 8 and 9, illuminated by an elastic spring 10 and located in the magnetic field of the coils 11.

The axes of the magnets 8 and 9 are rotated 180 ° relative to each other, i.e. the poles of the same name are turned in opposite directions, their magnetic moments are not equal, but made proportional to the third step of the distance from the center of the magnetometer. As a result, the total magnetic field produced by both magnets 5 and 9 and the current frame 3 of the magnetometer is zero. It also turns out to be zero and sum total torque acting on the magnetic system of the galvanometer and created by the current flowing through the frame 3.

The mirror 12 of the galvanometer is lowered inside the body of the magnetometer and with the aid of the periscope 13 can be observed through the telescope 2 simultaneously with the mirror 14 of the frame 3.

The resulting moment of the magnetic system of the galvanometer 6 ne is zero, and the system is oriented by the horizontal component along the magnetic meridian.

In order to see the reflection in the mirror of a galvanometer, it is necessary to orient the entire magnetometer in a certain azimuth. The magnetic system of the galvanometer is thus used to orient the magnetometer, which in this position is fixed by the stopper 15.

The compensating rings / include the current and select its value so as to compile the vertical component of the earth's magnetic field. The current value, when KOiopoH comes compensation, is determined with the help of an epciometer with a bullet deflection of the galvanometer attached to it 6 ,.

The onset of the moment of compensation, i.e., the equality of the sex created by the rings, the earth's field, is judged by the behavior of frame 3 at the moment the current is switched on. Its deviation in the mode of current switching from the previous equilibrium state means that the sum of the magnetic fields acting on frame 3 is not equal to zero. The magnitude of the compensating current changes until the frame 3 ne ceases to deflect when the current is switched on.

In order to eliminate the effect of the magnetic field of the wires supplying current to the frame 3, the measurement is performed twice with two opposite directions of current. In order to eliminate the influence of the horizontal component, a second pair of measurements is made in azimuth, o t and h from the first one by 180 °, i.e. after the frame is rotated 180 ° in azimuth. The design provides the ability to rotate only one frame, while the galvanometer remains fixed with the telescope.

Subject invention

An electrical magnetometer for measuring the vertical strength of the magnetic field of the earth, the mobile system of which is designed as a frame rotatable on a horizontal axis, carrying a mirror and surrounded by a fixed Helmholtz type coil fed to compensate for the vertical component of the earth’s intensity with a constant current the measured potentiometer with zero deviation of the mirror galvanometer averaged to it, characterized in that to ensure the possibility of using this a galvanometer for orienting a magnetometer and a simultaneous reading of a magnetometer and a galvanometer with a common optical device; the galvanometer is enclosed inside the case of the magnetometer and made partially static of two moving magnets opposite in direction to the opposite axis of the magnetic magnets. , in order to eliminate the mutual influence of the magnetometer and the galvanometer on each other.