Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Aerodynamics-based pneumatic wind-resistant appearance of corridor building
The invention relates to the technical field of house buildings, in particular to a corridor building pneumatic wind-resistant appearance based on aerodynamics, which comprises building bodies and corridors, in the building construction process, the cross sections of the building bodies are arranged to be wing-shaped, meanwhile, two adjacent building bodies are rigidly connected through the corridors, and the corridors are also wing-shaped. On one hand, when the building bodies are subjected to the action of airflow, wind is directly blown to the outer side walls of the building bodies, according to the arrangement of the wing types of the building bodies, gas gives certain transverse moving force to the building bodies, and through the arrangement of the positions of the two building bodies, the transverse force, acting on the two building bodies, of the gas is transmitted to the corridor at the same time; on the one hand, the cross section of the building body is arranged to be in a wing shape, the position, 40.0% of the wing chord, of the cross section of the building body is arranged to be in a straight shape, the requirement for the building space can be met, and the construction cost is reduced. Therefore, the contradiction between the building space arrangement and the aerodynamic configuration is avoided.
本发明涉及房屋建筑技术领域,具体涉及一种基于空气动力学的连廊建筑气动抗风外形,其包括楼体和连廊,在建筑施工过程中,将楼体的横截面设置为翼型,同时在相邻两个楼体之间使用连廊进行刚性连接,连廊也为翼型。一方面,在楼体受到气流的作用时,风直接吹向楼体的外侧壁,根据楼体翼型的设置,使得气体给予楼体一定的横向移动力,通过对两个楼体的位置设置,使得气体作用在两个楼体上的横向力同时传递至连廊上,且两个楼体传递至连廊上的力大小相同反向相反,确保两个楼体保持相对稳定的状态,另一方面,通过将楼体的横截面设置为翼型,其中在翼弦的40.0%处设置为平直状,能够满足对建筑空间的需求,从而避免建筑空间设置与气动外形之间的矛盾。
Aerodynamics-based pneumatic wind-resistant appearance of corridor building
The invention relates to the technical field of house buildings, in particular to a corridor building pneumatic wind-resistant appearance based on aerodynamics, which comprises building bodies and corridors, in the building construction process, the cross sections of the building bodies are arranged to be wing-shaped, meanwhile, two adjacent building bodies are rigidly connected through the corridors, and the corridors are also wing-shaped. On one hand, when the building bodies are subjected to the action of airflow, wind is directly blown to the outer side walls of the building bodies, according to the arrangement of the wing types of the building bodies, gas gives certain transverse moving force to the building bodies, and through the arrangement of the positions of the two building bodies, the transverse force, acting on the two building bodies, of the gas is transmitted to the corridor at the same time; on the one hand, the cross section of the building body is arranged to be in a wing shape, the position, 40.0% of the wing chord, of the cross section of the building body is arranged to be in a straight shape, the requirement for the building space can be met, and the construction cost is reduced. Therefore, the contradiction between the building space arrangement and the aerodynamic configuration is avoided.
本发明涉及房屋建筑技术领域,具体涉及一种基于空气动力学的连廊建筑气动抗风外形,其包括楼体和连廊,在建筑施工过程中,将楼体的横截面设置为翼型,同时在相邻两个楼体之间使用连廊进行刚性连接,连廊也为翼型。一方面,在楼体受到气流的作用时,风直接吹向楼体的外侧壁,根据楼体翼型的设置,使得气体给予楼体一定的横向移动力,通过对两个楼体的位置设置,使得气体作用在两个楼体上的横向力同时传递至连廊上,且两个楼体传递至连廊上的力大小相同反向相反,确保两个楼体保持相对稳定的状态,另一方面,通过将楼体的横截面设置为翼型,其中在翼弦的40.0%处设置为平直状,能够满足对建筑空间的需求,从而避免建筑空间设置与气动外形之间的矛盾。
Aerodynamics-based pneumatic wind-resistant appearance of corridor building
一种基于空气动力学的连廊建筑气动抗风外形
LUO ZHENXIAN (Autor:in) / ZHANG YINGKE (Autor:in) / YUE JIANWEI (Autor:in) / ZHAO LIMIN (Autor:in) / KONG QINGMEI (Autor:in) / SONG XIAO (Autor:in)
02.02.2024
Patent
Elektronische Ressource
Chinesisch
| Europäisches Patentamt | 2024
Aerodynamics simulation on density jump in a long corridor fire
| Online Contents | 2015
Aerodynamics simulation on density jump in a long corridor fire
| British Library Online Contents | 2015
Aerodynamics simulation on density jump in a long corridor fire
| British Library Online Contents | 2015
| TIBKAT | 1968