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Double-curvature seismic isolation and reduction spherical bearing with high damping

A spherical bearing, vibration reduction and isolation technology, applied in the direction of earthquake resistance, building types, bridge parts, etc., can solve the problems of difficult to control the displacement of the bridge after the earthquake, cannot automatically reset, and the friction coefficient of the friction pendulum bearing is small, etc., to achieve good Anti-vibration function, improve the effect of anti-vibration and isolation, and overcome the effect of low energy consumption

Pending Publication Date: 2019-05-28
LUOYANG SUNRUI SPECIAL EQUIP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In recent years, with the development of bridge anti-seismic design technology, more and more bridges need to adopt shock-absorbing design schemes. At present, common shock-absorbing products include lead rubber bearings, high-damping rubber bearings, friction pendulum bearings and Metal nonlinear energy-dissipating bearings, etc. Among them, the disadvantages of lead core bearings and high-damping rubber bearings are low initial stiffness, small seismic displacement, and poor durability. They are rarely used in important bridges, and metal nonlinear energy-dissipating bearings have greater The initial rigidity and excellent energy dissipation, but after the earthquake, the damping pair has obvious elastic-plastic deformation and cannot be automatically reset. The metal damping pair needs to be replaced, and the use is limited. The friction pendulum support has good shock absorption and shock isolation functions. , and has the function of self-recovery after the earthquake, it is an ideal bridge anti-seismic product, but because the friction coefficient of the friction pendulum bearing is small, the damping is small, and the energy dissipation capacity is limited, it is difficult to control the post-seismic displacement of the bridge in high-intensity areas

Method used

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  • Double-curvature seismic isolation and reduction spherical bearing with high damping
  • Double-curvature seismic isolation and reduction spherical bearing with high damping
  • Double-curvature seismic isolation and reduction spherical bearing with high damping

Examples

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Embodiment 1

[0030] Example 1, such as Figure 1 to Figure 5 As shown, the present invention discloses a large damping hyperboloid shock-absorbing spherical bearing, including a lower seat plate 1, an upper seat plate 11, a spherical crown lining plate 17, and a damping device. The lower seat plate 1 and the upper seat plate 11 A housing part is formed between them, and a spherical crown lining board 17 is arranged in the housing part. The spherical crown lining board 17 can rotate and move in the housing part. Curved surface rotating friction pair, the contact between the spherical crown liner 17 and the upper seat plate 11 forms a metal skateboard - the curved surface rotating friction pair of the non-metallic skateboard, the spherical crown lining 17 forms a hyperboloid friction with the lower seat plate 1 and the upper seat plate 11 Vice, the top seat plate 12 is set above the upper seat plate 11, and the upper seat plate 11 and the top seat plate 12 form a non-metallic slide plate—a p...

Embodiment 2

[0041] Embodiment 2, specifically, the support is mainly composed of a lower seat plate 1, a key 2, a stopper 4, a stainless steel slide plate for the stopper 5, a slider slide plate 6, a slide block 7, a damper fixing block 8, and a viscous damper 10. Upper seat plate 11, top seat plate 12, plane stainless steel slide plate 13, plane non-metallic slide plate 14, guide slide plate 15, guide stainless steel slide plate 16, spherical crown lining plate 17, spherical non-metallic slide plate 18, spherical stainless steel slide plate 19, limit Plate 22, connecting bolt 23, shear pin 24 and other components.

[0042] The concave spherical surface of the lower seat plate 1 of the present invention and the lower convex spherical surface of the spherical crown lining plate 17, the concave spherical surface of the upper seat plate 11 and the upper convex spherical surface of the spherical crown lining plate 17 form the rotation mechanism of the bearing, and the concave spherical surface...

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Abstract

The invention aims to provide a double-curvature seismic isolation and reduction spherical bearing with high damping. A damping device and a corresponding motion device are additionally arranged on the basis of an existing double-curvature seismic isolation and reduction spherical bearing to increase damping of the bearing when an earthquake occurs and dissipate earthquake energy, so that seismicreduction and seismic isolation of the bearing are effectively combined, seismic isolation and reduction functions of the bearing are substantially improved, and displacement of the bearing after theearthquake is effectively controlled. The double-curvature seismic isolation and reduction spherical bearing with high damping has a good seismic isolation function of the double-curvature seismic isolation and reduction spherical bearing and an automatic reset function after the earthquake, meanwhile, damping force of the bearing is increased by the damping device, ground motion peak accelerationof a bridge is reduced, structural safety of the bridge is effectively guaranteed, meanwhile, the damping device has a good energy dissipation effect, and therefore, earthquake energy of the bridge can be substantially reduced. The double-curvature seismic isolation and reduction spherical bearing with high damping has a full hysteretic curve, has greater energy-dissipating capacity than the double-curvature seismic isolation and reduction spherical bearing and other anti-seismic products and is particularly suitable for a bridge anti-seismic structure in an area with high intensity and longfield period.

Description

technical field [0001] The invention belongs to the field of bridges and building structures, and relates to a hyperboloid spherical shock-absorbing and isolating support product with a large damping function. Background technique [0002] In recent years, with the development of bridge anti-seismic design technology, more and more bridges need to adopt shock-absorbing design schemes. At present, common shock-absorbing products include lead rubber bearings, high-damping rubber bearings, friction pendulum bearings and Metal nonlinear energy-dissipating bearings, etc. Among them, the disadvantages of lead core bearings and high-damping rubber bearings are low initial stiffness, small seismic displacement, and poor durability. They are rarely used in important bridges, and metal nonlinear energy-dissipating bearings have greater The initial rigidity and excellent energy dissipation, but after the earthquake, the damping pair has obvious elastic-plastic deformation and cannot be...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E01D19/04E04B1/98E04H9/02
Inventor 何平根高云郑娜张永兆曹翁恺
Owner LUOYANG SUNRUI SPECIAL EQUIP
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