Feasibility Study for the Application of CellRail as an Automated Weight-Bearing Scaffolding Solution

CellRail作为自动化承重脚手架解决方案的可行性研究

• 批准号: 99401
• 金额: $ 8.79万
• 依托单位: RESOLVE ROBOTICS LIMITED
• 依托单位国家: 英国
• 项目类别: Feasibility Studies
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=99401
• 关键词: Feasibility; Study; Application; CellRail; Automated

Resolve Robotics delivers start-to-end full system design, development, testing and calibration of complex integrated electro-mechanical and software systems. Our active projects include a world-leading computer vision algorithm, robotics system integration, a distributed modular manufacturing ecosystem, and multiple novel robotic deployment systems for nuclear sites.CellRail is a modular deployment and retrieval mechanism for robotic payloads which deploy sensors and tools through a 150mm access port. It delivers a payload to any position and orientation in inaccessible locations, at height, and in confined spaces, something which cannot currently be achieved by other robotic systems. It improves safety, increases productivity, and reduces costs.We are seeking funding to analyse and explore the scaffolding structure's maximum weight bearing capabilities. If the structure can support the intended weight, including the total weight of persons using the scaffolding, tools, equipment and transmitted loads, it can replace manually built scaffolding to aid the fast, safe and cost-effective construction, inspection, maintenance, and repair of structures at height across multiple global heavy industries.

Resolve Robotics为复杂的集成机电和软件系统提供从头到尾的完整系统设计、开发、测试和校准。我们正在进行的项目包括世界领先的计算机视觉算法、机器人系统集成、分布式模块化制造生态系统以及多个用于核电站的新型机器人部署系统。CellRail是一种用于机器人有效载荷的模块化部署和检索机制，可通过150 mm的接入端口部署传感器和工具。它将有效载荷传递到无法到达的位置、高度和密闭空间中的任何位置和方向，这是目前其他机器人系统无法实现的。我们正在寻求资金来分析和探索脚手架结构的最大承重能力。如果结构能够支撑预期的重量，包括使用脚手架、工具、设备和传输载荷的人员的总重量，则它可以取代人工建造的脚手架，以帮助全球多个重工业中的高空结构的快速、安全和具有成本效益的施工、检查、维护和维修。