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Torsion-prevention shock-insulation tensile structure for construction projects

A technology for construction engineering and building structure, which is applied to building components, earthquake resistance, etc., can solve the problem of insufficient tensile capacity of laminated rubber isolation bearings, affecting the horizontal shock absorption coefficient of vibration isolation bearings, and inability to fully limit vibration isolation bearings. Tensile displacement and other problems, to achieve the practical value of large projects, solve the problem of tensile strength, and facilitate maintenance.

Active Publication Date: 2016-07-06
捷能系统建材(上海)有限公司
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Problems solved by technology

The existing peripheral tensile device has the problem of coupling the horizontal degree of freedom and the vertical degree of freedom of the isolation support. The existence of the tensile device also affects the horizontal shock absorption coefficient of the isolation support. The existing separate Although the tensile device alleviates this effect to a certain extent, it cannot fully limit the tensile displacement of the seismic isolation bearing due to a certain distance from the seismic isolation bearing. Insufficient capacity has become an urgent problem to be solved

Method used

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  • Torsion-prevention shock-insulation tensile structure for construction projects

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Embodiment Construction

[0019] In the following, a clear and complete description will be made of the anti-torsion, seismic isolation and tensile structure for construction engineering of the present invention in conjunction with the accompanying drawings.

[0020] Such as figure 1 As shown, the anti-torsion, seismic isolation and tensile structure for construction engineering of the present invention is arranged between the lower building structure 1 and the upper building structure 2, which includes an upper buttress 3, a lower buttress 4 located below the upper buttress 3, The shock-isolation support 5 between the upper buttress 3 and the lower buttress 4, the first shock-isolation device 6 on one side of the shock-isolation support 5, the first shock-isolation device 6 on one side The second shock-isolating device 7, the third shock-isolating device 8 on one side of the second shock-isolating device 7, the fourth shock-isolating device 9 on one side of the third shock-isolating device 8, and the ...

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Abstract

The invention discloses a torsion-prevention shock-insulation tensile structure for construction projects. The torsion-prevention shock-insulation tensile structure is arranged between a lower construction structure and an upper construction structure, and comprises an upper buttress, a lower buttress, a shock-insulation support, a first shock-insulation device, a second shock-insulation device, a third shock-insulation device, a fourth shock-insulation device and a sliding device. The first shock-insulation device comprises a first fixing frame, a first transverse rod, a first spring, a second spring, a second transverse rod and a first connecting rod. The second shock-insulation device comprises a second fixing frame, a third fixing frame, a first ejection rod, a third transverse rod, a third spring, a fourth spring, a fourth transverse rod, a fourth fixing frame and a fifth fixing frame. The third shock-insulation device comprises a fifth transverse rod, a first steel wire, a sixth transverse rod, a second ejection rod, a fifth spring, a sixth spring, a first supporting rod, a second connecting rod and a second supporting rod. The torsion-prevention shock-insulation tensile structure can solve the problem that a laminated rubber shock-insulation support is not good in tensile capacity, and can ensure the horizontal freedom degree and vertical freedom degree of the laminated rubber shock-insulation support.

Description

technical field [0001] The invention relates to the technical field of construction engineering, in particular to an anti-torsion, shock-isolation and tension-resistant structure for construction engineering. Background technique [0002] Due to the advantages of clear concept, obvious effect, and significant economic benefits, the seismic isolation technology of building structures has been widely used and has withstood the test of actual earthquakes. With the deepening of research, more and more high-rise buildings and irregular buildings are used. Using shock isolation technology. [0003] Compared with multi-storey buildings, the overturning effect of high-rise buildings under horizontal earthquakes is more obvious. After adopting seismic isolation technology, when subjected to large earthquakes, the seismic isolation bearings in high-rise buildings are likely to have tensile stress, while the engineering is more Commonly used laminated rubber bearings have a low tensil...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98
CPCE04B1/98
Inventor 刘湘静
Owner 捷能系统建材(上海)有限公司
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