SU1718172A1 - Seismic detector spring - Google Patents

Abstract

The invention relates to seismic exploration and can be used in seismic receivers. The purpose of the invention is to reduce stiffness. The spring contains two concentric support rings / interconnected by elastic cross-beams located symmetrically with the axis of the spring. Each traverse includes two straight radially directed segments. The outer end of the segment connected to the inner support ring is located farther from the center of the spring than the inner end of the segment connected to the outer support ring. 1 hp ff, 1 ill.

Description

The invention relates to instrumentation, in particular, to the design of springs for the elastic suspension of inert masses of seismic receivers.

A known spring consisting of two concentric support rings connected by elastic beams in the form of radial rays. The disadvantage of this spring is a significantly high rigidity and a slight movement in the axial direction. In addition, this spring has significant dimensions.

Also known is a spring consisting of two supporting elements: an inner one in the form of a ring and an outer one in the form of a complex washer with protrusions directed toward the center, interconnected by elastic W-shaped traverse beams. The middle leg of each traverse is located radially and connected to the inner support ring, and the lateral legs are parallel to the middle leg and connected to the projections of the outer bearing washer 1.

The disadvantage of this spring is high axial stiffness due to the limited total length of the cross member. In addition, these springs have a small linear displacement range.

Closest to the present invention is a spring consisting of two concentric support rings interconnected by elastic beams arranged symmetrically to the axis of the spring, each of which is made in the form of two straight segments, with one of the segments of each beam being radially 2.

The disadvantage of this spring is a relatively high axial stiffness and a small linear range.

Reducing the axial stiffness and increasing the linear range can be achieved by changing the parameters of the elastic cross member, such as reducing the thickness and width of the cross member and increasing the length of the cross member. The first two parameters can be reduced without changing the shape of the beam, but at the same time the strength x (L

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characteristics of the springs and, in addition, it is limited by technological possibilities. Increasing the length of the traverse is possible by increasing the space between the support rings or by changing the shape of the traverse. Increasing the space between the rings is possible by increasing the diameter of the outer ring and minimizing the diameter of the inner ring. An increase in the diameter of the outer ring leads to an increase in the dimensions of the geophone, which, as a rule, are regulated by the terms of reference, and the decrease in the inner ring is also not infinite. Increasing the length of the crosspiece by changing its shape allows us to solve the problem of reducing the axial stiffness and increasing the linear range of the spring movements with optimal (from the point of view of the seismic receiver design) sizes of the support rings and without compromising the strength of the spring itself.

- The aim of the invention is to reduce the stiffness of the spring.

The goal is achieved by having a seismic receiver spring containing two concentric support rings interconnected by elastic traverses consisting of sections and located symmetrically with the axis of the spring, the first of the sections of each of the crossheads being straight, radially directed and connected to the internal reference the second section is straight and connected to the outer support ring, the second section is located radially, and the outer end of the first section is located at a greater distance from the center of the spring than the inner end of the second section, and these ends are bridged.

The jumper connecting two radial sections of the traverse is made in the form of an annular sector.

The implementation of the crosspiece in the form of two radially directed sections interconnected by a jumper in the form of an annular sector makes it possible to increase the length of the crosspiece while maximizing the use of the inter ring space. Increasing the length of the traverse contributes to

reducing axial stiffness and increasing the range of linear displacements of the support rings of the spring one relative to another.

The drawing shows the design

the proposed geophone spring. The spring consists of an inner 1 and outer 2 concentric support rings interconnected by three cross-beams, each of which consists of two radial straight sections 4 and 5, connected respectively to the inner 1 and outer 2 supporting rings, and the free ends of sections 4 and 5 connected by a ring sector 3.

When exposed to the inner ring 1 external mechanical stress and rigid sealing of the outer ring 2 due to deformation of the traverse some

moving the first relative to the second. Bearing rings 1 and 2 are conditionally accepted as absolutely rigid. The axial stiffness of a spring is defined as the ratio of the load increment to the displacement of the reference

rings 1 and 2 are relative to each other. As is well known, as the length of the crosspiece connecting the support rings 1 and 2 increases, the displacement of the latter increases, and consequently, the spring stiffness decreases.

Ph o rm l l a and z o b r ete n i

Claims (2)

1. A seismic receiver spring containing two concentric support rings interconnected by elastic cross-beams consisting of sections and located symmetrically with the spring axis, the first of the sections of each cross-beam being straight, radially directed and connected to the inner bearing ring, and the second the section is straight and connected to the outer support ring, characterized by tew, in order to reduce stiffness, the second section is located radially, and the outer end of the first section is located on a larger distance from the center of the spring than the inner end of the second section, and these ends are connected with a jumper. 2. The spring according to claim. Characterized in that the jumper is made in the form ring sector. one /