A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention provides a wallboard connecting structure which comprises a first wallboard and a second wallboard, and a connecting piece is mounted between the first wallboard and the second wallboard; a plurality of mutually parallel embedded rods are embedded in the first wall plate and the second wall plate, and a plurality of force resisting plates are arranged on the outer sides of the embedded rods in an axial linear array mode; the outer ends of the embedded rods penetrate through the connecting pieces, the outer ends of the multiple embedded rods in the same embedded device are sleeved with pressing pieces used for abutting against the connecting pieces, the force resisting plates can be attached to the concrete making contact with the force resisting plates after being embedded, and the force resisting plates and the surrounding concrete form a whole after the concrete is solidified. Most of acting force acts on the surfaces of the resistance plates in the form of shearing force, the firmness degree of wallboard connection is improved, meanwhile, the multiple resistance plates are arranged in the axial direction of the embedded rod, the problem that the embedded rod is prone to axial deformation caused by large temperature difference can be solved, and the situation that the embedded rod is separated from surrounding concrete due to axial deformation is avoided.
本发明提供了一种墙板连接结构,包括第一墙板和第二墙板,第一墙板和第二墙板之间安装有连接件;第一墙板内部和第二墙板内部均埋设有若干个相互平行的预埋杆,预埋杆外侧沿轴向线性阵列设置有多个抗力板;预埋杆的外端部贯穿连接件,同一预埋装置中的若干个预埋杆外端部套设有用于抵接连接件的压紧件,其中抗力板预埋后会与相接触的混凝土相贴合,并在混凝土凝固后与周围的混凝土形成一个整体,在当预埋杆受到轴向作用力,大部分的作用力会以剪力的形式作用于抗力板的表面,提高了墙板连接的牢固程度,同时沿预埋杆的轴向设置多个抗力板,能够抵抗因温差较大而造成的预埋杆容易发生轴向形变的问题,避免预埋杆因轴向形变与周围混凝土发生脱离。
The invention provides a wallboard connecting structure which comprises a first wallboard and a second wallboard, and a connecting piece is mounted between the first wallboard and the second wallboard; a plurality of mutually parallel embedded rods are embedded in the first wall plate and the second wall plate, and a plurality of force resisting plates are arranged on the outer sides of the embedded rods in an axial linear array mode; the outer ends of the embedded rods penetrate through the connecting pieces, the outer ends of the multiple embedded rods in the same embedded device are sleeved with pressing pieces used for abutting against the connecting pieces, the force resisting plates can be attached to the concrete making contact with the force resisting plates after being embedded, and the force resisting plates and the surrounding concrete form a whole after the concrete is solidified. Most of acting force acts on the surfaces of the resistance plates in the form of shearing force, the firmness degree of wallboard connection is improved, meanwhile, the multiple resistance plates are arranged in the axial direction of the embedded rod, the problem that the embedded rod is prone to axial deformation caused by large temperature difference can be solved, and the situation that the embedded rod is separated from surrounding concrete due to axial deformation is avoided.
本发明提供了一种墙板连接结构,包括第一墙板和第二墙板,第一墙板和第二墙板之间安装有连接件;第一墙板内部和第二墙板内部均埋设有若干个相互平行的预埋杆,预埋杆外侧沿轴向线性阵列设置有多个抗力板;预埋杆的外端部贯穿连接件,同一预埋装置中的若干个预埋杆外端部套设有用于抵接连接件的压紧件,其中抗力板预埋后会与相接触的混凝土相贴合,并在混凝土凝固后与周围的混凝土形成一个整体,在当预埋杆受到轴向作用力,大部分的作用力会以剪力的形式作用于抗力板的表面,提高了墙板连接的牢固程度,同时沿预埋杆的轴向设置多个抗力板,能够抵抗因温差较大而造成的预埋杆容易发生轴向形变的问题,避免预埋杆因轴向形变与周围混凝土发生脱离。
Wallboard connecting structure
一种墙板连接结构
GUO QIMENG (author)
2023-08-29
Patent
Electronic Resource
Chinese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
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