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Embedded energy-dissipating module of coupled shear wall and using method of embedded energy-dissipating module of coupled shear wall

A shear wall, built-in technology, applied in the direction of walls, building components, building structures, etc., can solve the problems of lack of practical engineering applications, lack, and limit the use of coupling beam dampers, and achieve structural energy dissipation capacity and resistance. The effect of enhanced collapsibility, strong applicability, and reduced design difficulty

Inactive Publication Date: 2013-07-17
滕军
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Problems solved by technology

[0008] Figure 23~Figure 25 The dampers shown have a certain control effect, but most coupling beam dampers are only analyzed theoretically and lack practical engineering applications
Moreover, the research on the end structure of the coupling beam damper, especially the connection structure with the concealed column is still relatively lacking, which greatly limits the use of the coupling beam damper

Method used

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  • Embedded energy-dissipating module of coupled shear wall and using method of embedded energy-dissipating module of coupled shear wall
  • Embedded energy-dissipating module of coupled shear wall and using method of embedded energy-dissipating module of coupled shear wall
  • Embedded energy-dissipating module of coupled shear wall and using method of embedded energy-dissipating module of coupled shear wall

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Embodiment Construction

[0053] This embodiment is a preferred implementation mode of the present invention, and other principles, basic structures or implementation methods that are the same or similar to this embodiment are within the protection scope of the present invention.

[0054] In the present invention, the design target of the connected-limb shear wall structure using embedded energy-dissipating modules is: after using several energy-dissipating modules for the connecting beam, the dynamic characteristics of the structure under frequent earthquakes are approximately unchanged compared with the conventional connected-limb shear wall structure (that is, to ensure that the structural stiffness remains unchanged under normal use), the damper fully functions under the fortification intensity or rare earthquakes, and concentrates on absorbing the structural vibration energy input by the earthquake to protect the limbs of the shear wall from entering the plastic or restricted wall Limb plastic deve...

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Abstract

The invention provides an energy-dissipating module convenient to design and construct. With the energy-dissipating module, energy-dissipating capacity of coupling beams can be increased when construction difficulty is not increased. Dampers with different span-depth ratios can be assembled by the energy-dissipating modules in a horizontal direction and in a vertical direction, the energy-dissipating zone is integrated with a build-in zone, a row of long-strip-shaped holes are reserved on the energy-dissipating zone in the long-side direction, the ends of the holes are processed into non-closed angles, the energy-dissipating modules are embedded in the reinforced concrete in a coupled shear wall, and thus, the problems in the prior art are solved.

Description

technical field [0001] The invention discloses a built-in energy consumption module and a use method thereof, in particular to a built-in energy consumption module for enhancing energy consumption of a shear wall with limbs and a use method thereof. Background technique [0002] The shear wall structure has high rigidity and good lateral resistance, and is a commonly used structural form of reinforced concrete high-rise buildings. The conceptual design of the shear wall structure requires improving the ductility of the structure to meet the "strong wall limbs and weak connecting beams", so that the connecting beams yield before the wall limbs under the action of rare earthquakes, forming plastic hinges to dissipate the input energy of the earthquake, and at the same time change the structure The vibration frequency avoids the excellent period of the earthquake, weakens the resonance response of the structure to a certain extent, and ensures that vertical components such as w...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98E04B2/64E04G21/00
Inventor 滕军李祚华王立山
Owner 滕军
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