A method for optimizing design of building aseismic support and hanger type selection

Abstract

A method for optimizing design of building aseismic support and hanger type selection includes the steps of arranging and assembling main accessories in seismic support and hanger according to different type to obtain all combination types of main accessories of seismic support and hanger; calculating the design bearing capacity and cost of the aseismic support and hanger corresponding to each combination type are calculated by choosing the combination type which accords with the aseismic support and hanger layout form among all the combination types of the main accessories of the aseismic support and hanger. The design bearing capacity of each type of aseismic support and hanger is transformed into the maximum mass of the mechanical and electrical pipelines. According to the type and quality of mechanical and electrical pipelines and the maximum quality and cost of mechanical and electrical pipelines can be borne by the corresponding seismic support and hanger of each different combination type, the optimal combination type is selected in different combination types. The invention can effectively select the optimal combination scheme from the combination schemes of different typesof the main accessories of the seismic support and hanger, has high safety and low cost, and can meet the related requirements.

Description

technical field [0001] The invention relates to the technical field of building electromechanical anti-seismic technology, in particular to a type selection optimization design method for anti-seismic supports and hangers of buildings. Background technique [0002] At present, the development of the construction electromechanical anti-seismic industry is uneven, and the degree of intelligence and informatization is low. Most anti-seismic support and hanger manufacturers do not have mature building electromechanical anti-seismic design capabilities, and they do not have a set of mature design software to help them solve construction problems that are mostly based on engineering experience. The current situation of the selection of seismic supports and hangers leads to a large difference between the safety and economy of building electromechanical anti-seismic design and the relevant requirements. Therefore, an optimal design method for the selection of anti-seismic supports an...

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Problems solved by technology

[0002] At present, the development of the construction electromechanical anti-seismic industry is uneven, and the degree of intelligence and informatization is low. Most anti-seismic support and hanger manufacturers do not have mature building electromechanical anti-seismic design capabilities, and they do not have a set of mature design software to help them solve construction problems that are mostly based on engineering experience. The current situation of the selection of seismic supports and hangers leads to a large difference between the safety and economy of building electromechanical anti-seismic design and the relevant requirements. Therefore, there is an urgent need for an optimal design method for the selection of anti-seismic supports and hangers of buildings to solve the above technical problems

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