Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Fully-prefabricated steel-reinforced concrete structural member for mechanical energy storage
The invention discloses a fully-prefabricated steel-reinforced concrete structural member for mechanical energy storage, which is formed by sequentially splicing a plurality of fully-prefabricated steel-reinforced concrete structural units, each fully-prefabricated steel-reinforced concrete structure unit comprises a vertically-arranged fully-prefabricated steel-reinforced concrete structure column, a horizontally-arranged fully-prefabricated steel-reinforced concrete structure beam and a fully-prefabricated floor slab, and beam-column connecting joints are formed between the fully-prefabricated steel-reinforced concrete structure columns and the fully-prefabricated steel-reinforced concrete structure beams. Fully-prefabricated floor slabs are arranged in grid units defined by the fully-prefabricated steel-reinforced concrete structural columns and the fully-prefabricated steel-reinforced concrete structural beams; when the upper layer and the lower layer of the fully-prefabricated steel-reinforced concrete structural unit are spliced, a column-column connecting node is formed between every two fully-prefabricated steel-reinforced concrete structural columns on the upper layer and the lower layer. The problems that in an existing cast-in-place technology, a connecting joint part is complex in structure and high in installation difficulty are solved, the construction and installation process of a mechanical energy storage structure is simplified, and the construction and delivery progress is accelerated.
本发明公开了一种机械储能用全预制钢骨混凝土结构构件,由若干全预制钢骨混凝土结构单元依次拼接组成,所述全预制钢骨混凝土结构单元包括垂直布置的全预制钢骨混凝土结构柱、水平布置的全预制钢骨混凝土结构梁以及全预制楼板,所述全预制钢骨混凝土结构柱与全预制钢骨混凝土结构梁之间形成梁‑柱连接节点,且所述全预制钢骨混凝土结构柱与全预制钢骨混凝土结构梁围成的网格单元中设置全预制楼板;所述全预制钢骨混凝土结构单元上下层拼接时通过上下层两两全预制钢骨混凝土结构柱之间形成柱‑柱连接节点。本发明解决了现有现浇技术中连接节点部位构造复杂、安装难度高的问题,简化机械储能结构的建设安装过程,加快建造交付进度。
Fully-prefabricated steel-reinforced concrete structural member for mechanical energy storage
The invention discloses a fully-prefabricated steel-reinforced concrete structural member for mechanical energy storage, which is formed by sequentially splicing a plurality of fully-prefabricated steel-reinforced concrete structural units, each fully-prefabricated steel-reinforced concrete structure unit comprises a vertically-arranged fully-prefabricated steel-reinforced concrete structure column, a horizontally-arranged fully-prefabricated steel-reinforced concrete structure beam and a fully-prefabricated floor slab, and beam-column connecting joints are formed between the fully-prefabricated steel-reinforced concrete structure columns and the fully-prefabricated steel-reinforced concrete structure beams. Fully-prefabricated floor slabs are arranged in grid units defined by the fully-prefabricated steel-reinforced concrete structural columns and the fully-prefabricated steel-reinforced concrete structural beams; when the upper layer and the lower layer of the fully-prefabricated steel-reinforced concrete structural unit are spliced, a column-column connecting node is formed between every two fully-prefabricated steel-reinforced concrete structural columns on the upper layer and the lower layer. The problems that in an existing cast-in-place technology, a connecting joint part is complex in structure and high in installation difficulty are solved, the construction and installation process of a mechanical energy storage structure is simplified, and the construction and delivery progress is accelerated.
本发明公开了一种机械储能用全预制钢骨混凝土结构构件,由若干全预制钢骨混凝土结构单元依次拼接组成,所述全预制钢骨混凝土结构单元包括垂直布置的全预制钢骨混凝土结构柱、水平布置的全预制钢骨混凝土结构梁以及全预制楼板,所述全预制钢骨混凝土结构柱与全预制钢骨混凝土结构梁之间形成梁‑柱连接节点,且所述全预制钢骨混凝土结构柱与全预制钢骨混凝土结构梁围成的网格单元中设置全预制楼板;所述全预制钢骨混凝土结构单元上下层拼接时通过上下层两两全预制钢骨混凝土结构柱之间形成柱‑柱连接节点。本发明解决了现有现浇技术中连接节点部位构造复杂、安装难度高的问题,简化机械储能结构的建设安装过程,加快建造交付进度。
Fully-prefabricated steel-reinforced concrete structural member for mechanical energy storage
一种机械储能用全预制钢骨混凝土结构构件
WU HONGLEI (Autor:in) / CHEN HONGYI (Autor:in) / ZHOU JINGJING (Autor:in) / XU HONGSHENG (Autor:in)
01.10.2024
Patent
Elektronische Ressource
Chinesisch
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