A platform for research: civil engineering, architecture and urbanism
Prestress reinforcing structure of constructional engineering
The invention discloses a prestressed reinforcing structure for constructional engineering, which comprises a prestressed carbon fiber plate fixedly pasted on the surface of a wall body, the surface of the prestressed carbon fiber plate is coated with a glue layer, and the prestressed carbon fiber plate is fixedly connected with the wall body through the glue layer; the connectors are fixedly installed at the two ends of the prestressed carbon fiber plate, moving bodies are arranged at the positions, located at the two ends of the prestressed carbon fiber plate, of the wall body, and the connectors are arranged in the moving bodies in a sliding mode; the fixed bodies are arranged at the two ends of the prestressed carbon fiber plate, the fixed bodies are fixedly installed on a wall body, the two fixed bodies are both connected with traction bodies in a sliding mode, and the traction bodies and the moving bodies are fixedly connected together through pull shafts; and the clamping mechanism is arranged on the connecting body. According to the device, due to the fact that the prestressed carbon fiber plates make full contact with the wall body, in the process of applying acting force, the acting force can evenly act on all positions of the wall body, and therefore the good construction effect is achieved.
本发明公开了一种建筑工程的预应力加固结构,包括:固定黏贴在墙体表面上的预应力碳纤维板,所述预应力碳纤维板的表面涂抹有胶层,所述通过胶层与墙体固定连接;固定安装在预应力碳纤维板两端的连接体,所述墙体上位于预应力碳纤维板两端的位置设置有移动体,所述连接体滑动设置在移动体内;设置在预应力碳纤维板两端位置的固定体,所述固定体固定安装在墙体上,两个所述固定体上均滑动连接有牵拉体,所述牵拉体与移动体通过拉轴固定连接在一起;设置在连接体上的卡接机构。本装置由于预应力碳纤维板采用与墙体的全面接触方式,则在施加作用力的过程中,能够较为均匀的作用到墙体的各个位置,从而实现较好的施工效果。
Prestress reinforcing structure of constructional engineering
The invention discloses a prestressed reinforcing structure for constructional engineering, which comprises a prestressed carbon fiber plate fixedly pasted on the surface of a wall body, the surface of the prestressed carbon fiber plate is coated with a glue layer, and the prestressed carbon fiber plate is fixedly connected with the wall body through the glue layer; the connectors are fixedly installed at the two ends of the prestressed carbon fiber plate, moving bodies are arranged at the positions, located at the two ends of the prestressed carbon fiber plate, of the wall body, and the connectors are arranged in the moving bodies in a sliding mode; the fixed bodies are arranged at the two ends of the prestressed carbon fiber plate, the fixed bodies are fixedly installed on a wall body, the two fixed bodies are both connected with traction bodies in a sliding mode, and the traction bodies and the moving bodies are fixedly connected together through pull shafts; and the clamping mechanism is arranged on the connecting body. According to the device, due to the fact that the prestressed carbon fiber plates make full contact with the wall body, in the process of applying acting force, the acting force can evenly act on all positions of the wall body, and therefore the good construction effect is achieved.
本发明公开了一种建筑工程的预应力加固结构,包括:固定黏贴在墙体表面上的预应力碳纤维板,所述预应力碳纤维板的表面涂抹有胶层,所述通过胶层与墙体固定连接;固定安装在预应力碳纤维板两端的连接体,所述墙体上位于预应力碳纤维板两端的位置设置有移动体,所述连接体滑动设置在移动体内;设置在预应力碳纤维板两端位置的固定体,所述固定体固定安装在墙体上,两个所述固定体上均滑动连接有牵拉体,所述牵拉体与移动体通过拉轴固定连接在一起;设置在连接体上的卡接机构。本装置由于预应力碳纤维板采用与墙体的全面接触方式,则在施加作用力的过程中,能够较为均匀的作用到墙体的各个位置,从而实现较好的施工效果。
Prestress reinforcing structure of constructional engineering
一种建筑工程的预应力加固结构
WANG MINGMING (author) / ZHONG DAOTAN (author) / CHENG YANGYANG (author) / ZHANG SHAN (author) / LI QIAO (author) / YANG YUECHAO (author)
2022-09-09
Patent
Electronic Resource
Chinese
Steel bar prestress machine for constructional engineering
European Patent Office | 2021
|Supporting beam prestress supporting column for constructional engineering
European Patent Office | 2022
|Frame reinforcing structure for constructional engineering
European Patent Office | 2020
|Reinforcing supporting structure for constructional engineering
European Patent Office | 2021
|Pile foundation reinforcing structure for constructional engineering
European Patent Office | 2023
|