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Improved shock insulation, damping or energy consumption layer structural system with non-horizontal linear section

A horizontal isolation, linear technology, applied in the field of building structure isolation, energy dissipation system, and shock absorption

Active Publication Date: 2015-01-14
赵世峰
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to solve the problem of overturning (poor tensile capacity), insufficient seismic isolation effect (long cycle), limited aspect ratio, and avoiding "self-locking" problem in many high-rise isolation structures, only horizontal isolation layers are set up at present. , in order to improve the shock isolation and shock absorption capacity of the structure, the present invention provides several improvement measures to solve the existing technical problems, defects and related research and application difficulties

Method used

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  • Improved shock insulation, damping or energy consumption layer structural system with non-horizontal linear section
  • Improved shock insulation, damping or energy consumption layer structural system with non-horizontal linear section
  • Improved shock insulation, damping or energy consumption layer structural system with non-horizontal linear section

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Embodiment Construction

[0073] exist Figure 8 to Figure 53 Among them, when the seismic isolation, shock absorption or energy dissipation layer adopts the conventional setting method, it can be set at the bottom of the building or in the middle, or in the basement or foundation, one layer or multiple layers can be set. For example, the bearings can be rubber bearings, friction bearings, rolling bearings, sliding bearings, pendulum bearings, pendulum bearings.

[0074] Figure 39 ~ Figure 47 Among them, the vibration-isolation, shock-absorbing or energy-dissipating layer in the rotation, shock-absorbing, and energy-dissipating bearings are installed and constructed according to the design inclination angle.

[0075] exist Figure 8 to Figure 53 Among them, the hinge connection can be a steel hinge connection or an approximate hinge connection. If a weak position can be set, the reinforced concrete hinge can be realized by adding less steel bars.

[0076] exist Figure 8 to Figure 53 Among them, t...

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Abstract

The invention discloses an improved shock insulation, damping or energy consumption layer structural system with a non-horizontal linear section. A part of the vertical section or horizontal section of a shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. In an improved rotary shock insulation, damping or energy consumption layer structural system with a non-horizontal linear section, the vertical section or horizontal section of a rotary shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. In an improved vertical shock insulation, damping or energy consumption layer structural system with the non-horizontal linear section, the vertical section or horizontal section of a vertical shock insulation, damping or energy consumption layer can be of a diagonal form, a curved form, a folded-line form or a combined form. By adopting the improved shock insulation, damping or energy consumption layer with the non-horizontal linear section, overturning can be resisted, overturning rotation displacement can be limited and reduced, surpassing of maximum allowed displacement can be prevented, the tension of a damping support can be reduced, long-period structural damping can be realized, and self-locking can be avoided; the shock insulation, damping or energy consumption layer can be provided with a plurality of vertical segments or diagonal segments.

Description

technical field [0001] The present invention relates to several kinds of building structure shock isolation, shock absorption and energy consumption systems, and relates to non-horizontal linear (such as broken line, curved, or its combination) building structure insulation layer, shock absorbing layer or energy dissipation layer. Shock, shock absorption, energy consumption system, can resist overturning. It is a shock isolation, shock absorption, and energy dissipation system that can be applied to high-rise buildings or buildings with large height-to-width ratios; it can also be used in high-rise structures and multi-storey structures. It can resist the overturning moment, and can limit the overturning displacement and rotational displacement. Can be adjusted with larger structural stiffness contrast changes. The section of the set shock-absorbing layer, shock-absorbing layer or energy-dissipating layer can be in the shape of a broken line, a curve or a combination of both...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98E02D31/08E04G23/02
Inventor 赵世峰
Owner 赵世峰
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