School membrane structure rostrum
The platform of the membrane structure used for the school uses square steel welding to form the keel frame. The whole frame is subject to anti rust treatment. The column foot is firmly welded with the embedded parts using 10mm thick steel plates. After the embedded parts are poured with concrete during installation, they are connected with the vertical by bolts. The wind resistance coefficient is high, which increases the overall firmness of the platform and can resist the typhoon of level 12 or above. Membrane structure building, as a new building form, began to appear in the world in the 1950s, and has a history of more than 40 years. Especially after the 1970s, the application of membrane structure has developed rapidly. The emergence of membrane structure provides architects with new choices beyond the traditional architectural model.
The light transmission performance of the film material can reduce the lighting intensity and time. The light transmitted by the film material is soft without glare, giving a feeling of openness and brightness, thus greatly saving energy. The membrane structure stand of the square is a supporting facility of the square, which is used to provide a place for residents and spectators to rest around. The membrane structure stand of the square is used for sunshade and rain protection. The light transmission performance of the film material can reduce the lighting intensity and time. The light transmitted by the film material is soft without glare, giving a feeling of openness and brightness. Under normal circumstances, the total project cost and use cost can be reduced by 15%~30% compared with the traditional bleachers. Its shape is free, light, soft, full of strength, flame retardant, easy to make, fast to install, energy saving, easy to construct, safe to use and other advantages. At the same time, the membrane material has the characteristics of high strength. In addition, the application of tensioning technology, according to the mechanical reasons, constructs the siege, making the support and strength of the membrane structure stand far higher than other materials.