A platform for research: civil engineering, architecture and urbanism
Prefabricated concrete perforated beam frame structure system connected through UHPC and design and construction method of prefabricated concrete perforated beam frame structure system
The invention discloses a prefabricated concrete perforated beam frame structure system connected by UHPC (Ultra High Performance Concrete). The prefabricated concrete perforated beam frame structure system comprises a prefabricated concrete upper column, a prefabricated concrete lower column, a prefabricated concrete perforated superposed beam, a UHPC node core area and a superposed plate, the upper longitudinal main reinforcements extend out of the bottom face of the prefabricated upper column and are directly anchored in the UHPC node core area, the lower longitudinal main reinforcements extend out of the top face of the prefabricated lower column and are directly anchored in the UHPC node core area, and the common reinforcements extend out of the end face of the prefabricated concrete perforated beam and are directly anchored or anchored in the UHPC node core area in a bent mode. The structural system is convenient and rapid in site construction, improves the component installation efficiency, can greatly reduce the anchoring length of the steel bars, greatly reduces the use amount of stirrups in the node core area, avoids crowding of the steel bars in the node core area, and improves the anti-seismic property of the whole frame structure. UHPC is used in a node core area, and the design principle of strong columns, weak beams, strong nodes and weak components can be truly achieved.
本发明公开了一种UHPC连接的预制混凝土开孔梁框架结构体系,包括预制混凝土上柱、预制混凝土下柱、预制混凝土开孔叠合梁、UHPC节点核心区和叠合板。所述上纵向主筋伸出预制上柱底面并直接锚固在UHPC节点核心区内,下纵向主筋伸出预制下柱顶面并直接锚固在UHPC节点核心区内,普通钢筋伸出预制混凝土开孔梁端面并直接锚固或弯折锚固在UHPC节点核心区内。该结构体系不仅现场施工方便快速、提高构件安装效率,而且既能大幅度减少钢筋锚固长度,大幅减少节点核心区箍筋用量,避免节点核心区钢筋拥挤,改善整体框架结构的抗震性能。节点核心区使用UHPC可真正实现强柱弱梁、强节点弱构件的设计原则。
Prefabricated concrete perforated beam frame structure system connected through UHPC and design and construction method of prefabricated concrete perforated beam frame structure system
The invention discloses a prefabricated concrete perforated beam frame structure system connected by UHPC (Ultra High Performance Concrete). The prefabricated concrete perforated beam frame structure system comprises a prefabricated concrete upper column, a prefabricated concrete lower column, a prefabricated concrete perforated superposed beam, a UHPC node core area and a superposed plate, the upper longitudinal main reinforcements extend out of the bottom face of the prefabricated upper column and are directly anchored in the UHPC node core area, the lower longitudinal main reinforcements extend out of the top face of the prefabricated lower column and are directly anchored in the UHPC node core area, and the common reinforcements extend out of the end face of the prefabricated concrete perforated beam and are directly anchored or anchored in the UHPC node core area in a bent mode. The structural system is convenient and rapid in site construction, improves the component installation efficiency, can greatly reduce the anchoring length of the steel bars, greatly reduces the use amount of stirrups in the node core area, avoids crowding of the steel bars in the node core area, and improves the anti-seismic property of the whole frame structure. UHPC is used in a node core area, and the design principle of strong columns, weak beams, strong nodes and weak components can be truly achieved.
本发明公开了一种UHPC连接的预制混凝土开孔梁框架结构体系,包括预制混凝土上柱、预制混凝土下柱、预制混凝土开孔叠合梁、UHPC节点核心区和叠合板。所述上纵向主筋伸出预制上柱底面并直接锚固在UHPC节点核心区内,下纵向主筋伸出预制下柱顶面并直接锚固在UHPC节点核心区内,普通钢筋伸出预制混凝土开孔梁端面并直接锚固或弯折锚固在UHPC节点核心区内。该结构体系不仅现场施工方便快速、提高构件安装效率,而且既能大幅度减少钢筋锚固长度,大幅减少节点核心区箍筋用量,避免节点核心区钢筋拥挤,改善整体框架结构的抗震性能。节点核心区使用UHPC可真正实现强柱弱梁、强节点弱构件的设计原则。
Prefabricated concrete perforated beam frame structure system connected through UHPC and design and construction method of prefabricated concrete perforated beam frame structure system
一种UHPC连接的预制混凝土开孔梁框架结构体系及其设计、施工方法
XIONG XUEYU (author) / FENG CHUANSHAN (author) / XIONG BIN (author) / CHEN JINGBIN (author)
2022-12-30
Patent
Electronic Resource
Chinese
European Patent Office | 2022
|European Patent Office | 2022
|