机器人
模块化设计
有效载荷(计算)
模拟
工程类
控制器(灌溉)
计算机科学
工作(物理)
桨
一致性(知识库)
汽车工程
控制工程
对偶(语法数字)
功率(物理)
机制(生物学)
接口(物质)
机构设计
主动安全
灵活性(工程)
质量(理念)
帧(网络)
实时计算
方案(数学)
机器人运动学
领域(数学)
本质安全
全球定位系统
固有安全性
作者
S. K. Li,Chaofeng Liu,Zhiyuan Chen,Mingheng Yu,Yujun Li,Yan Zhang
出处
期刊:Industrial Robot-an International Journal
[Emerald Publishing Limited]
日期:2026-03-18
卷期号:: 1-12
标识
DOI:10.1108/ir-12-2025-0444
摘要
Purpose This study aims to present a façade-cleaning robot for safe, efficient maintenance of high-rise glass curtain walls, combining active safety with a block-wise cleaning strategy. Design/methodology/approach The robot uses a modular Cartesian architecture with a synchronous-belt lifting module, worm-gear self-locking and multipoint vacuum anchoring. A distributed master–slave controller coordinates multiaxis motion, and a block-wise planner decomposes façades into overlapping units. Indoor and outdoor experiments quantify safety, cleaning quality and efficiency. Findings Field tests with a 30 kg payload at 10 m show that the dual-channel active safety mechanism arrests motion in power failures and keeps the platform stable against disturbances. The block-wise strategy yields uniform coverage on façades with protruding frames and restores glass transmittance comparable to manual cleaning. The robot matches skilled workers in efficiency while offering higher consistency and about 26% lower water use. Research limitations/implications Validation covers only a single prototype on flat façades under moderate wind; long-term reliability, extreme weather and highly irregular façades require further study. Practical implications The robot provides a solution for safe, water-efficient maintenance of high-rise curtain walls, offering quantifiable safety and resource-usage indicators for facility managers. Originality/value Unlike existing façade-cleaning systems based on passive safety and linear scanning, this work integrates intrinsically safe lifting hardware, a dual active safety mechanism and a block-wise cleaning strategy into one deployable robot, providing a practical reference for intrinsically safe, resource-efficient façade maintenance.
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