SU1418533A1 - Geophone spring - Google Patents

Abstract

The invention relates to geophysical instrumentation, in particular, to the design of springs for the elastic suspension of inert masses of seismic receivers. The purpose of the invention is to increase: e linear dianazone and reduce the influence of spatial perturbations on the power characteristic. When seismic vibrations are affected by seismic resistance, the inert mass is displaced along the axis and the support ring 2 is displaced from the support ring 1. In this case, the traverse bends. Since the elastic traverse 3 of the spring is located symmetrically in one plane and form an equilateral triangle in space. pacHir, the linear characteristic of the springs, and the effect of the lateral signal on the ceiicMoiipiicMunK is minimized. 1 hp c) 2 n, 1.

Description

33

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WITH

I The invention relates to the design of I springs, in particular to springs for supporting JHoro suspension of inert masses of seismic receivers.

I The purpose of the invention is to increase the linear range and reduce the influence of spatial perturbations on the power characteristic.

FIG. 1 shows a seismic spring with a constant cross section,

:view from above; in fig. 2 - seismic spring: receiver with a variable cross section of the traverse,

I top view.

 The seismic receiver spring contains an outer support ring 1, a coaxially deployed inner support ring 2 and elastic propulinear traverses 3, which connect each other, I and 2 between each other; forming an equilateral triangle. The cross-sectional area I of the crossmember 3 along the length of the length I may be constant or increase from the middle to the end m according to the distribution of the stresses along the length of the bending moment.

The geophone spring works with c; ie, in the following way.

When exposed to seismic vibrations on the seismmon receiver, the inert mass (not

0

five

0

five

is shown), is mixed along the axis and displaces the support ring 2 relative to ring 1. In this case, the traverse 3 is bent.

Since the horizontal arms 3 of the spring are located in one plane symmetrically and form an equilateral triangle in space, the linear characteristic of the spring expands, and the influence of the side signal on the receiver is minimized.

Claims (1)

1. A seismic receiver spring containing coaxially arranged rings interconnected by three elastic traverses, characterized in that, in order to increase the linear range and skill, the influence of spatial disturbances on the power characteristic, other straight linear traverses are located in the same plane symmetrically with respect to the axis of the spring as follows. that in equatorial section they form an equilateral triangle 2. The spring according to claim 1, characterized in that the elastic traverse has a variable cross-section with increasing it from the middle traverse to the ends.