Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Nuclear power structure composite shock isolation and absorption system
The invention discloses a nuclear power structure composite shock isolation and absorption system. The system comprises a box body which is composed of box body side walls and a box body bottom plate and has high rigidity, and an independent space used for arranging a deeply-buried nuclear island structure is formed in the box body; several shock insulation supports are arranged between the bottom of the nuclear island structure and the box body, and the shock insulation supports are connected with the bottom of the nuclear island structure and the bottom of the box body to form a shock insulation system; several layers of shock absorption devices are arranged between the side wall of the nuclear island structure and the side wall of the box body to form a shock absorption system; and the vertical shock absorption devices are connected with the side wall of the nuclear island structure and the side wall of the box body through an outrigger cantilever structure, and the horizontal shock absorption devices are directly connected with the side wall of the nuclear island structure and the side wall of the box body. Compared with the prior art, the site adaptability of a small reactor power station is greatly improved, and a power station is built under complex geological conditions; and standardized design of the small reactor power station is achieved, the design period of the power station is greatly shortened, the design cost is reduced, and the aim of the invention is achieved.
本发明的目的在于公开一种核电结构复合隔震减震系统,包括由箱体侧墙和箱体底板组成的具有大刚度的箱体,所述箱体的内部具有用于布置深埋核岛结构的独立空间;在核岛结构的底部与箱体之间布置若干隔震支座,隔震支座与核岛结构的底部以及箱体的底部连接形成隔震系统;在核岛结构的侧墙与箱体侧墙之间布置若干层减震装置形成减震系统;竖向的减震装置通过伸臂悬挑结构与核岛结构的侧墙以及箱体侧墙相连接,水平的减震装置直接与核岛结构的侧墙以及箱体侧墙相连接;与现有技术相比,极大改善小型反应堆电站的厂址适应性,在复杂地质条件下进行电站建造;实现小型反应堆电站的标准化设计,大幅缩短电站设计周期,降低设计成本,实现本发明的目的。
Nuclear power structure composite shock isolation and absorption system
The invention discloses a nuclear power structure composite shock isolation and absorption system. The system comprises a box body which is composed of box body side walls and a box body bottom plate and has high rigidity, and an independent space used for arranging a deeply-buried nuclear island structure is formed in the box body; several shock insulation supports are arranged between the bottom of the nuclear island structure and the box body, and the shock insulation supports are connected with the bottom of the nuclear island structure and the bottom of the box body to form a shock insulation system; several layers of shock absorption devices are arranged between the side wall of the nuclear island structure and the side wall of the box body to form a shock absorption system; and the vertical shock absorption devices are connected with the side wall of the nuclear island structure and the side wall of the box body through an outrigger cantilever structure, and the horizontal shock absorption devices are directly connected with the side wall of the nuclear island structure and the side wall of the box body. Compared with the prior art, the site adaptability of a small reactor power station is greatly improved, and a power station is built under complex geological conditions; and standardized design of the small reactor power station is achieved, the design period of the power station is greatly shortened, the design cost is reduced, and the aim of the invention is achieved.
本发明的目的在于公开一种核电结构复合隔震减震系统,包括由箱体侧墙和箱体底板组成的具有大刚度的箱体,所述箱体的内部具有用于布置深埋核岛结构的独立空间;在核岛结构的底部与箱体之间布置若干隔震支座,隔震支座与核岛结构的底部以及箱体的底部连接形成隔震系统;在核岛结构的侧墙与箱体侧墙之间布置若干层减震装置形成减震系统;竖向的减震装置通过伸臂悬挑结构与核岛结构的侧墙以及箱体侧墙相连接,水平的减震装置直接与核岛结构的侧墙以及箱体侧墙相连接;与现有技术相比,极大改善小型反应堆电站的厂址适应性,在复杂地质条件下进行电站建造;实现小型反应堆电站的标准化设计,大幅缩短电站设计周期,降低设计成本,实现本发明的目的。
Nuclear power structure composite shock isolation and absorption system
一种核电结构复合隔震减震系统
YANG JIE (Autor:in) / HUANG XIAOLIN (Autor:in) / DOU YI (Autor:in) / LI SHAOPING (Autor:in) / GE HONGHUI (Autor:in) / CHU MENG (Autor:in) / SUN YUGANG (Autor:in)
10.09.2021
Patent
Elektronische Ressource
Chinesisch
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