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Annular integral porous energy consumption tuned mass damper

A tuning mass damping, integrated technology, applied in the direction of building components, anti-vibration, etc., can solve the problems of increased windward area, unfavorable installation, etc., achieve the effect of small size, stable damping characteristics, and reduce the possibility of wind-induced fatigue damage

Active Publication Date: 2015-06-03
SUZHOU UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, frictional energy consumption often occurs when the case is stuck and does not work, and the viscous damper must have enough space. Excessive space often increases the local windward area of ​​the self-supporting towering structure, and is not conducive to installation.

Method used

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  • Annular integral porous energy consumption tuned mass damper
  • Annular integral porous energy consumption tuned mass damper
  • Annular integral porous energy consumption tuned mass damper

Examples

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Embodiment Construction

[0025] The integrated pore energy-dissipating annular tuned mass damper of the present invention consists of a self-supporting towering structure 1; an external stiffening plate 2; a TMD shell 3; an adjustable spring 4; a mass piston 5; a viscous fluid 6; 8; the inner stiffening beam 9 is formed. The TMD shell 3 includes an upper cover 31, a lower cover 32, an outer baffle 33, and an inner baffle 34; the adjustable spring 4 includes a spring coil 41, a telescopic guide rod 42, an adjustment bolt 43, and a spring node 44 The mass piston 5 includes a piston body 51 and a damping hole 52; the partition 7 includes an inner partition 71 and an outer partition 72; the sealed sliding plate 8 includes an outer sealing sliding plate 81, an inner sealing sliding Plate 82; the tuned mass damper is connected to the free-standing towering structure 1 through the TMD shell 3; the adjustable spring 4 is connected to the mass piston 5 and the TMD shell 3 through a horizontally hinged spring n...

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Abstract

The invention relates to an annular integral porous energy consumption tuned mass damper. The annular integral porous energy consumption tuned mass damper comprises an outer reinforcing plate, a TMD (tuned mass damper) shell, an adjustable spring, a mass piston, viscous fluid, a partition plate, a seal sliding plate and an inner reinforcing beam. The tuned mass damper is closely connected with a structure through a TMD shell, the adjustable spring is connected with the mass piston and the TMD shell through spring nodes hinged horizontally, inner and outer sliding plates of the seal sliding plate are capable of sliding mutually, and a cavity is filled with the viscous fluid. Mass and rigidity are provided by the mass piston and the adjustable spring respectively, the mass piston slides under the action of inertial force, and the viscous fluid flows through a damping hole to generate required damping force. The annular integral porous energy consumption tuned mass damper has the advantages of simple structure, small size, high durability, stability and high efficiency in damping output and the like.

Description

technical field [0001] The invention belongs to the technical field of vibration control devices for civil engineering structures, and relates to an integrated pore energy-dissipating ring-shaped tuned mass damper for self-supporting towering structures. Background technique [0002] Self-supporting high-rise structures are widely used in social production and life. With the continuous development of the national economy, wind power towers, self-supporting transmission line towers, high-rise chimneys and other structures are gradually increasing, and they are increasingly developing in the direction of high and soft. Since the cross-section is often circular or nearly circular polygon, the slender structure makes them very prone to vortex induced resonance, so that they are in the working state of reciprocating stress for a long time, so that when the ultimate load is not reached, the Destruction due to fatigue damage is very likely to occur, causing great economic losses....

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98
Inventor 陈鑫李爱群毛小勇赵宝成
Owner SUZHOU UNIV OF SCI & TECH
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