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Shape memory alloy type multistage inerter damping system

A technology of memory alloy and shock absorption system, which is applied in the direction of earthquake resistance, building types, building components, etc., can solve the problems of insufficient energy consumption capacity, achieve the effect of small installation quality, convenient and flexible setting, and improve energy consumption capacity

Active Publication Date: 2018-05-29
TONGJI UNIV
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  • Abstract
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AI Technical Summary

Problems solved by technology

As a shock-absorbing energy-dissipating component, the ability of the shape memory alloy damper to absorb and dissipate energy is limited by the displacement and speed of both ends of the device, and the energy dissipation capacity is often insufficient.

Method used

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  • Shape memory alloy type multistage inerter damping system
  • Shape memory alloy type multistage inerter damping system
  • Shape memory alloy type multistage inerter damping system

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Embodiment

[0068] Such as Figure 1 to Figure 5 As shown, the present invention provides a shape memory alloy type multi-stage inertial shock absorption system, which includes a mounting connection unit, a shape memory alloy type energy dissipation unit and a multistage inertial capacity energy-absorbing and efficiency-enhancing unit. Among them, the shape memory alloy type energy dissipation unit is used to efficiently dissipate the vibration energy of the structure and provide self-resetting capability for the shock absorption system; the multi-stage inertial energy absorption efficiency unit is connected with the shape memory alloy type energy dissipation unit for As an energy-absorbing and efficiency-enhancing mechanism of the shock-absorbing system; the entire shape-memory alloy type multi-stage inertial capacity shock-absorbing system is set in the structure by installing connection units.

[0069] The installation and connection unit includes a closed protective case 1 and earring...

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Abstract

The invention provides a shape memory alloy type multistage inerter damping system and belongs to the technical field of civil engineering. The shape memory alloy type multistage inerter damping system comprises an installation connecting unit, a shape memory alloy type energy consumption unit and a multistage inerter energy absorption synergistic unit; the shape memory alloy type energy consumption unit is used for efficiently dissipating structural vibration energy and providing self-resetting abilities for the shape memory alloy type multistage inerter damping system; the multistage inerterenergy absorption synergistic unit is connected with the shape memory alloy type energy consumption unit and serves as the energy absorption synergistic mechanism of the shape memory alloy type multistage inerter damping system; the shape memory alloy type multistage inerter damping system is arranged in the structure through the installation connecting unit. The shape memory alloy type multistage inerter damping system makes full use of the mass synergistic effects of two nodes of the multistage inerter damping energy absorption synergistic unit to absorb vibration energy and dissipates theenergy through the shape memory alloy type energy consumption unit to provide self-resetting abilities; the shape memory alloy type multistage inerter damping system can effectively reduce structuraldynamic response, control interlayer displacement and have the advantages of efficient energy consumption, self-resetting, multistage control and the like, thereby meeting the damping control requirements under action of earthquakes of different magnitudes and having high promotion and application values.

Description

technical field [0001] The invention belongs to the technical field of energy consumption shock absorption of civil engineering structures, and in particular relates to a shape memory alloy type multi-stage inertial capacity shock absorption system. Background technique [0002] Energy dissipation and vibration reduction technology, by adding energy dissipation and vibration reduction devices to the structure, and the structure itself bears the effects of earthquakes and wind vibrations, the energy dissipation of the additional vibration reduction devices can reduce the dynamic response of the structure itself and ensure the safety of the structure , comfort and normal usability and other functional requirements. [0003] The inertial damping system in this field is an acceleration-dependent energy dissipation damping device, and its inertial unit is a two-node unit with mass synergistic capability. The existing mass efficiency mechanism mainly uses the ball screw and the r...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98E04H9/02
CPCE04H9/021E04H9/023
Inventor 赵志鹏张瑞甫
Owner TONGJI UNIV
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