SU800935A2 - Geophone - Google Patents

Description

(54) SEISMET RECEIVER

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The invention relates to vibration technology and is intended to measure mechanical vibrations of machines and structures.

Known geophone on the main auth.St. 314166, comprising a housing, a sensing element made in the form of two permanent magnets fastened with like poles, a common pole tip, a supporting permanent magnet rigidly attached to the housing, a diamagnetic guide bushing and an inductance coil 11J rigidly attached to the housing.

A disadvantage of the known seismic receiver is the high frequency of free oscillations of the inertial mass and, as a result of this, a limited frequency range.

The purpose of the invention is to expand the frequency range.

This goal is achieved by the fact that the ratio of the diameters of the support, rigidly bonded to the permanent magnet case to the diameters of the permanent magnets of the sensitive element, is selected within 1.5-2.

The drawing shows a seismic receiver, a general view.

The seismic receiver contains a case 1, a supporting permanent magnet 2 fixed in it, a sensitive element made in the form of d | oh permanent magnets 3 and 4, fastened together with poles of the same name with a pole tip 5, a diverging guide sleeve 6, rigidly induction coil 7 fastened to the housing, electrically insulating cover 8, terminals E, external conductors 10, damping coupling 11, cover 12.

. Workshop works as follows

5 way.

In the state of rest, the magnets 3 and 4 are in a suspended state and occupy a position in which the pole tip 5 is located

0 Strictly symmetrical about the middle of the coil 7. In this position, the weight of the inertial system is balanced by the forces of interaction of the opposite magnetic field lines between

The 5 magnetic poles of the same magnet 3 and the supporting magnet 2, pressed into the housing 1. The magnetic power lines of the magnetic poles of the same name of magnetic 3 and 4, concentrated by the pole tip NIC 5, intersect the inductor 7 and through the housing 1 to the opposite pole,

d: a meter, for example, the reference constant magnet 2 is one and a half to two times the diameter of the permanent magnet 3. With a ratio of 1: 1.5 diameters, the natural oscillation frequency is 50% less than with a ratio of 1: 1 diameters, and with diameters of 1: 2 even lower.

The application of the invention allows to reduce the natural frequency of the sensor and expand the range of: working frequencies in the low-frequency region.

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Claims (1)

1. USSR author's certificate. № 314166, cl. G 01 V 1/16, 1971 (prototype). ten x