A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Modularized steel frame structure and inter-module connecting device
The invention relates to the technical field of building structures, in particular to a modularized steel frame structure and an inter-module connecting device. Most modular building structures in the prior art have the problems that under the transverse effect, modules slide relatively, and upper and lower module beams are difficult to bear force cooperatively. According to the technical scheme, the modularized steel frame structure comprises module units composed of module columns, ceiling beams and floor beams and connecting pieces used for connecting the module units; the floor beams and the ceiling beams are connected with two ends of the module columns to form frame structures; connecting plates and in-column sleeves are connected to form the connecting pieces; and the module columns of the module units are connected with the in-column sleeves of the connecting pieces in an inserted mode, and the beam ends of the floor beams and the ceiling beams are in natural lap joint with the connecting plates of the connecting pieces and are fixedly connected through connecting fasteners. The in-column sleeves and the module columns are combined for stress, the lateral stiffness of the structure is enhanced, relative slippage of the upper and lower module units is avoided, the floor beams and the ceiling beams of the upper and lower module units are cooperatively stressed through the connecting plates, and the beam end bearing capacity is effectively enhanced.
本发明涉及建筑结构技术领域,具体地说是一种模块化钢框架结构及模块间连接装置。现有技术中模块化建筑结构大多存在横向作用下模块间相对滑移且上下模块梁难以协同受力等问题。本发明技术方案包括由模块柱、天花板梁、地板梁组成的模块单元以及用于连接模块单元的连接件;地板梁及天花板梁与模块柱两端连接成框架结构;连接件由连接板及柱内套筒连接组成;模块单元的模块柱与连接件的柱内套筒插接,地板梁及天花板梁梁端与连接件的连接板自然搭接,并通过连接紧固件固接。本发明柱内套筒与模块柱组合受力,增强结构抗侧刚度,避免上下模块单元的相对滑移,上下模块单元的地板梁与天花板梁通过连接板协同受力,有效增强梁端承载力。
Modularized steel frame structure and inter-module connecting device
The invention relates to the technical field of building structures, in particular to a modularized steel frame structure and an inter-module connecting device. Most modular building structures in the prior art have the problems that under the transverse effect, modules slide relatively, and upper and lower module beams are difficult to bear force cooperatively. According to the technical scheme, the modularized steel frame structure comprises module units composed of module columns, ceiling beams and floor beams and connecting pieces used for connecting the module units; the floor beams and the ceiling beams are connected with two ends of the module columns to form frame structures; connecting plates and in-column sleeves are connected to form the connecting pieces; and the module columns of the module units are connected with the in-column sleeves of the connecting pieces in an inserted mode, and the beam ends of the floor beams and the ceiling beams are in natural lap joint with the connecting plates of the connecting pieces and are fixedly connected through connecting fasteners. The in-column sleeves and the module columns are combined for stress, the lateral stiffness of the structure is enhanced, relative slippage of the upper and lower module units is avoided, the floor beams and the ceiling beams of the upper and lower module units are cooperatively stressed through the connecting plates, and the beam end bearing capacity is effectively enhanced.
本发明涉及建筑结构技术领域,具体地说是一种模块化钢框架结构及模块间连接装置。现有技术中模块化建筑结构大多存在横向作用下模块间相对滑移且上下模块梁难以协同受力等问题。本发明技术方案包括由模块柱、天花板梁、地板梁组成的模块单元以及用于连接模块单元的连接件;地板梁及天花板梁与模块柱两端连接成框架结构;连接件由连接板及柱内套筒连接组成;模块单元的模块柱与连接件的柱内套筒插接,地板梁及天花板梁梁端与连接件的连接板自然搭接,并通过连接紧固件固接。本发明柱内套筒与模块柱组合受力,增强结构抗侧刚度,避免上下模块单元的相对滑移,上下模块单元的地板梁与天花板梁通过连接板协同受力,有效增强梁端承载力。
Modularized steel frame structure and inter-module connecting device
一种模块化钢框架结构及模块间连接装置
LIU ZHONGYANG (author) / CHEN JIE (author) / HAO YONG (author) / HU JIANLIN (author) / ZHOU ZHANXUE (author) / MAO HUI (author) / ZHANG MINGPU (author) / WANG SHAN (author) / LI BINGYANG (author) / FU SHUAI (author)
2021-07-30
Patent
Electronic Resource
Chinese