Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Corridor truss structure
The invention discloses a corridor truss structure, and belongs to the technical field of corridor trusses. According to the corridor truss structure, the supporting columns are arranged at the joints of the lower chords at the positions 0.214 times of the length of the corridor away from the ends of the truss corridor, so that the supporting columns can be used for controlling the internal force and deformation of the corridor truss and improving the safety of the truss corridor in this way, and then when main body structures on the two sides move, the truss corridor moves along with the main body structures, so that the safety of the truss corridor is improved. If the sliding displacement between the upper anti-sliding layer and the lower anti-sliding layer is frequent, the upper anti-sliding layer and the lower anti-sliding layer are heated through friction, the heat is conducted downwards to the heat dissipation fins, and the heat is conducted out of the shell, so that the friction heat between the upper anti-sliding layer and the lower anti-sliding layer is reduced; and meanwhile, the movable frame displaces, air can be exhausted through the inner elastic air bag and the outer elastic air bag, the air is blown to the ends of the cooling fins, the cooling efficiency of the cooling fins is improved, and therefore the service life of the displacement limiting support assembly can be prolonged, and the safety of the truss corridor is further improved.
本发明公开了一种连廊桁架结构,属于连廊桁架技术领域。该连廊桁架结构,通过将支撑柱布设在与距桁架连廊端部0.214倍连廊长度位置的下弦杆节点处,使其通过此方式可用于控制连廊桁架的内力与变形,提高桁架连廊的安全性,其次在两侧主体结构产生运动时,使桁架连廊跟随运动,并使上耐滑层在下耐滑层上产生滑动位移,而两者之间若滑动位移产生频繁,使其通过摩擦起热,热量向下传导至散热翅片,并将热量导出外壳,降低上耐滑层和下耐滑层之间摩擦的热量,同时活动框位移可通过内弹性气囊和外弹性气囊进行排气,使气体吹向散热翅片的端部,加快散热翅片的散热效率,从而可提高限位移支座组件的使用寿命,进一步提高桁架连廊的安全性。
Corridor truss structure
The invention discloses a corridor truss structure, and belongs to the technical field of corridor trusses. According to the corridor truss structure, the supporting columns are arranged at the joints of the lower chords at the positions 0.214 times of the length of the corridor away from the ends of the truss corridor, so that the supporting columns can be used for controlling the internal force and deformation of the corridor truss and improving the safety of the truss corridor in this way, and then when main body structures on the two sides move, the truss corridor moves along with the main body structures, so that the safety of the truss corridor is improved. If the sliding displacement between the upper anti-sliding layer and the lower anti-sliding layer is frequent, the upper anti-sliding layer and the lower anti-sliding layer are heated through friction, the heat is conducted downwards to the heat dissipation fins, and the heat is conducted out of the shell, so that the friction heat between the upper anti-sliding layer and the lower anti-sliding layer is reduced; and meanwhile, the movable frame displaces, air can be exhausted through the inner elastic air bag and the outer elastic air bag, the air is blown to the ends of the cooling fins, the cooling efficiency of the cooling fins is improved, and therefore the service life of the displacement limiting support assembly can be prolonged, and the safety of the truss corridor is further improved.
本发明公开了一种连廊桁架结构,属于连廊桁架技术领域。该连廊桁架结构,通过将支撑柱布设在与距桁架连廊端部0.214倍连廊长度位置的下弦杆节点处,使其通过此方式可用于控制连廊桁架的内力与变形,提高桁架连廊的安全性,其次在两侧主体结构产生运动时,使桁架连廊跟随运动,并使上耐滑层在下耐滑层上产生滑动位移,而两者之间若滑动位移产生频繁,使其通过摩擦起热,热量向下传导至散热翅片,并将热量导出外壳,降低上耐滑层和下耐滑层之间摩擦的热量,同时活动框位移可通过内弹性气囊和外弹性气囊进行排气,使气体吹向散热翅片的端部,加快散热翅片的散热效率,从而可提高限位移支座组件的使用寿命,进一步提高桁架连廊的安全性。
Corridor truss structure
一种连廊桁架结构
LI YUNPENG (Autor:in) / SUN HAOJUN (Autor:in) / HE JUAN (Autor:in) / MA WENYAN (Autor:in) / REN HAOTIAN (Autor:in) / BAI PENG (Autor:in) / WANG DEYUE (Autor:in) / RUI KANXING (Autor:in)
07.01.2025
Patent
Elektronische Ressource
Chinesisch
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