A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
High-altitude sliding platform building fastening structure and construction method thereof
The invention discloses a high-altitude sliding platform building fastening structure, and relates to the technical field of fastening structures, the high-altitude sliding platform building fastening structure comprises a base and a limiting assembly, fixing rods are fixed to the positions, close to the edges of the two sides, of the top of the base, and the limiting assembly comprises parallel rods. During construction, in the weather of strong wind and heavy rain, in order to guarantee the stability of the high-altitude sliding platform, magneto-rheological liquid in a sealing tank is firstly extruded into a conveying pipe through a negative pressure pump and finally enters an inclined strut through the conveying pipe, and when the outer surface of a touch ball is in contact with a touch alarm, the magneto-rheological liquid in the sealing tank is pressed into the inclined strut through the conveying pipe. When the high-altitude sliding platform is in use, liquid in the inclined strut is fully filled, then the electromagnet is electrically connected with an external power supply to generate a magnetic field, then the magnetorheological liquid is solidified and retained in the inclined strut, and the problem that in the prior art, the structure of the high-altitude sliding platform is not fastened and damaged easily when the high-altitude sliding platform encounters extreme weather is solved.
本发明公开了一种高空滑移平台搭建紧固结构,涉及紧固结构技术领域,包括:底座和限位组件,所述底座的顶部靠近两侧边缘处均固定有固定杆,所述限位组件包括有平行杆。本发明通过在施工时,当遇到大风大雨天气时,为了保证高空滑移平台的稳定,首先通过负压泵使得密封罐内部的磁流变液体受到挤压进入到输送管的内部,最后通过输送管进入到斜撑内部,当触摸球的外表面与触摸报警器接触时,表示斜撑内部的液体已经装满,然后将电磁铁与外部电源电性连接,使其产生磁场,进而使得磁流变液体固化,滞留在斜撑的内部,解决了现有技术中高空滑移平台遭遇极端天气时容易导致其结构不紧固而损坏的问题。
High-altitude sliding platform building fastening structure and construction method thereof
The invention discloses a high-altitude sliding platform building fastening structure, and relates to the technical field of fastening structures, the high-altitude sliding platform building fastening structure comprises a base and a limiting assembly, fixing rods are fixed to the positions, close to the edges of the two sides, of the top of the base, and the limiting assembly comprises parallel rods. During construction, in the weather of strong wind and heavy rain, in order to guarantee the stability of the high-altitude sliding platform, magneto-rheological liquid in a sealing tank is firstly extruded into a conveying pipe through a negative pressure pump and finally enters an inclined strut through the conveying pipe, and when the outer surface of a touch ball is in contact with a touch alarm, the magneto-rheological liquid in the sealing tank is pressed into the inclined strut through the conveying pipe. When the high-altitude sliding platform is in use, liquid in the inclined strut is fully filled, then the electromagnet is electrically connected with an external power supply to generate a magnetic field, then the magnetorheological liquid is solidified and retained in the inclined strut, and the problem that in the prior art, the structure of the high-altitude sliding platform is not fastened and damaged easily when the high-altitude sliding platform encounters extreme weather is solved.
本发明公开了一种高空滑移平台搭建紧固结构,涉及紧固结构技术领域,包括:底座和限位组件,所述底座的顶部靠近两侧边缘处均固定有固定杆,所述限位组件包括有平行杆。本发明通过在施工时,当遇到大风大雨天气时,为了保证高空滑移平台的稳定,首先通过负压泵使得密封罐内部的磁流变液体受到挤压进入到输送管的内部,最后通过输送管进入到斜撑内部,当触摸球的外表面与触摸报警器接触时,表示斜撑内部的液体已经装满,然后将电磁铁与外部电源电性连接,使其产生磁场,进而使得磁流变液体固化,滞留在斜撑的内部,解决了现有技术中高空滑移平台遭遇极端天气时容易导致其结构不紧固而损坏的问题。
High-altitude sliding platform building fastening structure and construction method thereof
一种高空滑移平台搭建紧固结构及其施工方法
JIANG SILIANG (author) / WANG KANGJIAN (author) / LUO JIAN (author) / CHEN KEXIN (author) / HE LONG (author)
2024-12-10
Patent
Electronic Resource
Chinese
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