SU385250A1 - - Google Patents

Description

DEVICE FOR

I

The invention relates to devices for geophysical reconnaissance, in particular for measuring variations in the tension of a non-temporary magnetic field.

Known vyakoroproizvoditelnaya apparatus., The use of. to record variations in the intensity of the magnetic iol.

The disadvantage of this apparatus is its condition, branching to microseismic numbers, which reduces the accuracy of measurements, reduces the resolution of the method of investigation, and limits the scope of application. (Pad microseiomic interference is understood as wind interference, interference from mechanical transport, interference from the rolling of the ship, micro-oscillation of the soil., Etc.)

In order to (increase the accuracy of geophysical measurements in the conditions of microseismic interference, the proposed device is equipped with two magnetostatic sensors that register one and the same component of the magnetic field, so that they are rotated in ipasHbix directions in their vertical under the action of microseismic interferences - in one direction. In the first case, the photoreducer's current increases in direct proportion to the sum of the angles of rotation of each mirror, and in the second, the proportion tionally difference noBOipOTa mirror angles.

The proposed device is shown in the drawing, where / is the base; 2 and 5 - indicator magnets; 4 U1 5 - magnetostatic sensors; 6 t 7 - permanent magnets.

Two identical 4 p 5 sensors with indicator magnets 2 vi 3 (the direction of their polarity is shown in the drawing) are fixed on a common base — base 1. Under the action of a magnetic field, the indicator magnets 2 and 5 rotate B01K, opposite the vertical axis. . Under the action of mechanical vibrations of the base 1, caused by microseismic interference, the indicator magnets rotate in one direction. If one of them is used as a mirror or attached to it flat mirror 8, 9 w. To illuminate the light source 10, then the rays reflected from them are displaced: under the action of microseismic influences on the base in one direction, and under the influence of the magnetic field - one towards the other.

The rays reflected from the sensors fall on a common aperture 11 of the photoelectric converter 12. Thus, when exposed to sensors of variations of the magnetic field, the photoconverter current is directly proportional to the increment of light on the diaphragm from each sensor, and when exposed to microseismic oscillations, is proportional to the difference of the MEASUREMENT VARIABLE VOLTAGE GETTING.

increments of light. If this difference tends to zero, then the system practically does not respond to the microseis.

Reducing this difference to a minimum is produced by: selecting sensors of different sensitivity with the help of additional magnets 6 and 7; In the presence of two light sources - adjustment of the illumination of one of them; in the presence of two diaphragms - a change in the height of one of them, etc.

Since the sensors are identical and installed on a common base, their immunity to micron seismic interference is almost the same. The distance between the sensor is selected depending on the magnitude of the intrinsic magnetic moments of the magnetic indicators.

If the sensor and the sensor are manufactured and installed identically, and the distance between them is small, the difference in the angles of rotation of the mirrors will be small and, therefore, the system will be protected from the influence of microseismic interference. The currents of the photoelectric converter are amplified by the amplifier and recorded by the recorder. Thus, the device allows one to register oscillations / magnetic fields of small magnitudes with a minimum level of noise in the mnpOiKo.M range of instrument sensitivities.

It is possible to replace one of the sensors with a device that is identical but has a reaction to microseismic vibrations, i.e., has the same geo-metric dimensions,

inertia and rigidity of stretching, but not having a magnetic moment, for example, a plate made of a nonmagnetic material. In this case, you can have a sensor and an additional device in close proximity.

one from the other because there are no magnetic effects.

PROPOSITION OF I 6 RECENTS

A device for the purpose of variations of the geomagnetic field degradation, containing

two magnetostatic sensors mounted on a common base one in parallel

To another, an illuminator and a phototransducer, characterized in that, in order to increase the measurement accuracy, the magnetostatic sensors are oriented so that the direction of the magnetization axis of the magnet indicator is

of the sensors is opposite to the direction of the axis on the magnetism of the magnet indicator of another sensor.