Super high-rise building integration health management system design method

Abstract

A super high-rise building integration health management system design method relates to building health management. A containment health monitoring subsystem, a building structure health monitoring subsystem, a fire protection monitoring subsystem, a multi-function sensor network, a super high-rise building safety decision and maintenance subsystem, a super high-rise building integration evaluation subsystem and a super high-rise building integration control subsystem are included, wherein the containment health monitoring subsystem is used for monitoring a super-high-rise-building external containment system (including a fence and a glass wall) in real time; the building structure health monitoring subsystem is used for monitoring an important structure unit of a super high-rise building in real time; the fire protection monitoring subsystem is used for monitoring a fire protection system of the super high-rise building in real time; the multi-function sensor network is used for collecting various monitoring parameters in real time; the super high-rise building safety decision and maintenance subsystem is used for making a decision according to an evaluation result of the integration evaluation subsystem, generating corresponding early warning or maintenance information and predicting a service life of a building; the super high-rise building integration evaluation subsystem is used for comparing and processing data from a monitoring system, and carrying out integration evaluation on the data; and the super high-rise building integration control subsystem is used for executing a decision command from a safety decision and maintenance system and managing a sensor network.

Description

technical field [0001] The invention relates to building health management, in particular to a design method for a super high-rise building comprehensive health management system. Background technique [0002] Super high-rise buildings are affected by various uncertain natural environmental factors (such as typhoons and earthquakes) and human factors (such as war and terrorism) during the whole life process (construction, operation and maintenance), and are prone to foundation settlement and vertical deformation. 1. The aging and corrosion of materials will reduce the ability of the structure to resist disasters, and structural damage will occur, leading to safety problems in super high-rise buildings (such as falling curtain walls). Once a safety problem occurs in a super high-rise building, it will be sudden, and the harm and impact will be extremely serious. The comprehensive health management system of super high-rise buildings uses advanced sensing technology and data ...

AI Technical Summary

Problems solved by technology

[0004] Although the comprehensive health management of super high-rise buildings has achieved certain results in structural health monitoring, there are still some deficiencies, mainly reflected in: (1) It mainly focuses on the building structure, and the other systems of super high-rise buildings, such as enclosure systems and fire protection systems.

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