Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Energy-saving and environmentally-friendly type high-altitude construction platform for building construction
The invention provides an energy-saving and environmentally-friendly type high-altitude construction platform for building construction. The energy-saving and environmentally-friendly type high-altitude construction platform comprises two lateral support rods, a support platform for connecting the lateral support rods, a plurality of perpendicular surrounding rods, a plurality of transverse gear levers and a special shaped wall self-adaption platform mechanism; the two ends of the support platform are fixedly connected with the inner side faces of different lateral support rods separately; andthe inner side faces of the lateral support rods are arc shaped and relate to the field of buildings. Through researching and analyzing the high-altitude operating situation of the existing special shaped wall space, the energy-saving and environmentally-friendly type high-altitude construction platform designs a working platform realizing self-adaption stability of the wall space, shortens the platform adjusting time and reduces the moving and adjusting times of hoisting equipment, so that the problems that when the common high-altitude construction platform for building construction fits the special shaped wall space and the wall space arris, the platform generally needs to be adjusted for multiple times through the hoisting equipment and even the hoisting equipment needs to be moved for many times for adjustment, as a result, the working efficiency is low and the energy consumption is higher are effectively solved.
本发明提供一种节能环保的建筑房建用高空施工平台,包括两条侧边支撑杆、用于将条侧边支撑杆连接在一起的支撑平台、若干个垂直围杆、若干个横档杆和异性墙自适应平台机构,所述支撑平台的两端分别与不同的侧边支撑杆的内侧面固定连接,所述侧边支撑杆的内侧面呈弧形状,涉及建筑领域。该节能环保的建筑房建用高空施工平台根据对现有异形墙面高空作业情况的研究和分析,设计出可以自适应墙面的稳定的工作平台,缩短平台调整时间,减少起吊设备移动和调整次数,从而有效的解决了一般的房建用高空施工平台在贴合异形墙面和墙面棱角时,常需要通过起吊设备多次调整平台甚至是多次移动起吊设备进行调整,工作效率低且能耗较高的问题。
Energy-saving and environmentally-friendly type high-altitude construction platform for building construction
The invention provides an energy-saving and environmentally-friendly type high-altitude construction platform for building construction. The energy-saving and environmentally-friendly type high-altitude construction platform comprises two lateral support rods, a support platform for connecting the lateral support rods, a plurality of perpendicular surrounding rods, a plurality of transverse gear levers and a special shaped wall self-adaption platform mechanism; the two ends of the support platform are fixedly connected with the inner side faces of different lateral support rods separately; andthe inner side faces of the lateral support rods are arc shaped and relate to the field of buildings. Through researching and analyzing the high-altitude operating situation of the existing special shaped wall space, the energy-saving and environmentally-friendly type high-altitude construction platform designs a working platform realizing self-adaption stability of the wall space, shortens the platform adjusting time and reduces the moving and adjusting times of hoisting equipment, so that the problems that when the common high-altitude construction platform for building construction fits the special shaped wall space and the wall space arris, the platform generally needs to be adjusted for multiple times through the hoisting equipment and even the hoisting equipment needs to be moved for many times for adjustment, as a result, the working efficiency is low and the energy consumption is higher are effectively solved.
本发明提供一种节能环保的建筑房建用高空施工平台,包括两条侧边支撑杆、用于将条侧边支撑杆连接在一起的支撑平台、若干个垂直围杆、若干个横档杆和异性墙自适应平台机构,所述支撑平台的两端分别与不同的侧边支撑杆的内侧面固定连接,所述侧边支撑杆的内侧面呈弧形状,涉及建筑领域。该节能环保的建筑房建用高空施工平台根据对现有异形墙面高空作业情况的研究和分析,设计出可以自适应墙面的稳定的工作平台,缩短平台调整时间,减少起吊设备移动和调整次数,从而有效的解决了一般的房建用高空施工平台在贴合异形墙面和墙面棱角时,常需要通过起吊设备多次调整平台甚至是多次移动起吊设备进行调整,工作效率低且能耗较高的问题。
Energy-saving and environmentally-friendly type high-altitude construction platform for building construction
一种节能环保的建筑房建用高空施工平台
TANG JINGCHEN (Autor:in)
31.07.2020
Patent
Elektronische Ressource
Chinesisch
IPC:
E04G
SCAFFOLDING
,
Baugerüste
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