共查询到19条相似文献,搜索用时 64 毫秒
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面向输电系统检测及维护作业的自动化,提出并设计了一种可以在电力铁塔表面自由移动的五自由度双臂关节式攀爬机器人,以期代替人工完成危险的高空攀爬检测作业任务.该电力铁塔攀爬机器人机构紧凑,左右机构对称,创新采用直线推杆机构实现两臂张合功能,此机构可良好支撑机器人双臂,相比传统关节设计采用的大转矩电机直驱方式,大幅度降低了对驱动电机的转矩要求.建立了机构CAD模型.进行了静力学分析,并在动力学仿真软件Adams软件环境下进行仿真.通过和电机直驱关节方法比较,分析和仿真结果均表明采用直线推杆机构可减小驱动电机转矩.样机试验结果表明电力铁塔攀爬机器人系统的设计组成原理合理,系统方案成功可靠. 相似文献
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电力铁塔机器人攀爬速度一直难以控制,速度过快,机器人容易失去稳定性,导致其从高空掉落下来;速度过慢,则降低巡检效率。针对上述问题,提出一种应用门循环神经网络的电力铁塔机器人攀爬速度自动化控制方法。该方法通过门循环神经网络求取机器人预期攀爬速度,利用激光测速传感器采集机器人实际攀爬速度。计算预期与实际之间的差值,以此为输入,通过构建的模糊PID控制器计算控制量,实现电力铁塔机器人攀爬速度自动化控制。结果表明:与滑模控制、鲁棒控制、PID控制三种方法相比,所研究方法应用下,杰卡德系数更大,说明该方法控制下机器人攀爬速度更接近预期,控制精度更高。 相似文献
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针对铁塔检修工人高空作业时手动挂拆安全绳危险性高和效率低的问题,基于菱形原理设计了一种V型角钢对称夹持机构,主要由夹持爪、外展机构和顶出机构组成,夹持爪通过螺旋升降机与滑动导轨的配合实现对角钢的抓紧,垂直于夹持手臂的外展机构通过调整其展出距离改变夹持爪的位置,顶出机构前端的V型块设计可保证机器人机身始终平行于角钢。绘制机器人的SolidWorks三维模型,依据菱形原理简化模型,并验证其对中夹持性和机构设计的合理性,建立静力学模型,对夹持机构进行静力学分析和静力学仿真。通过样机试验,验证了该夹持机构的可行性。 相似文献
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为满足输电杆塔选件及维护工作智能化发展的需求,提出一种电力杆塔攀爬机器人的设计方案。从机器人组成、机械机构设计及控制系统设计等方面出发,详细论述了攀爬机器人的设计方案,重点介绍了电磁吸附为主、机械夹持为辅的复合式夹持机构和控制逻辑,并制作攀爬机器人样机,在模拟环境中进行实验。实际运行结果证明,设计的攀爬机器人具有行进与越障攀爬能力,实用价值高。 相似文献
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A self-contained wall climbing robot, called MRWALLSPECT (Multi-functional Robot for WALL inSPECTion) II, is developed. It
is designed for scanning external surfaces of gas or oil tanks with small curvature in order to find defects. The robot contains
all the components for navigation in itself without any external tether cable. Although it takes the basic structure of the
sliding body mechanism, the robot has its original characteristic features in the kinematic design with closed link mechanism,
which is enabled by adopting a simple and robust gait pattern mimicking a biological system. By employing the proposed link
mechanism, the number of actuators is reduced and high force-to-weight ratio is achieved. This paper describes its mechanism
design and the overall features including hardware and software components. Also, the preliminary results of experiments are
given for evaluating its performances. 相似文献
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章鱼吸盘具有较强吸附力和较低的能量消耗,其吸附机理对爬壁机器人吸附技术具有重要的借鉴作用。主要论述章鱼的吸盘结构和吸附机理,为研究学者提供了章鱼吸附的基础理论,促进中国爬壁机器人吸附技术的研究与发展。 相似文献
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一种新型的爬楼梯机器人 总被引:1,自引:0,他引:1
研制了一种利用平行四边形变形特点,实现上下楼梯功能的机器人,用于楼道、墙面自动吸尘器。该机器人结构紧凑、体积小、重量轻、操作方便,爬楼梯速度快、平稳可靠,采用单片机控制系统,用以协调整个系统的行走、转向等动作,实现全工作过程的自动化。实验结果验证平行四边形机构机器人具有较强的越障能力和路面适应能力。 相似文献
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Byeong-Sang Kim Quy-Hung Vu Jae-Bok Song Chung-Hyuk Yim 《Journal of Mechanical Science and Technology》2010,24(1):343-350
Mobile robots often encounter complex obstacles during their operation, not the least of which are stairs. Suitable mechanical
structures and adequate control algorithms are both equally important in stair climbing. This paper proposes a novel design
for a multi-active crawler robot (MACbot) capable of autonomous stair climbing. The MACbot has four track modules for extended
mobility and a recovery arm that facilitates self-rescue capabilities. By adopting the proposed smart clutch mechanism, the
MACbot can provide a variety of motions with a minimum number of motors. This paper presents a static analysis for the mechanical
design and details the stability analysis for an autonomous stair climbing algorithm. A series of experiments show that the
MACbot can autonomously climb stairs reasonably well. 相似文献
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Hee Seung Hong TaeWon Seo Dongmok Kim Sunho Kim Jongwon Kim 《Journal of Mechanical Science and Technology》2013,27(1):125-132
Transporting heavy packages while climbing stairs can be a very difficult or dangerous task. In situations where this task is frequently required such as construction sites, workers would use equipment such as a back rack for convenience, but still it becomes a difficult task as the weight increases. In this paper, we propose a stair climbing hand-carrying cart based on the rocker-bogie mechanism. We conduct an optimal design of the kinematic variables of the rocker-bogie mechanism for stable stair climbing using Taguchi methodology. Fluctuations and a tilted angle during stair climbing are considered to formulate the objective function. Three different shapes of typical stairs are selected as user conditions to determine a robust optimal solution. The results are verified by experiments using a testing set-up of three stair profiles, and the experimental results are compared with simulation. We expect that the results of this research can be applied to stair climbing robot design. 相似文献
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He Bin Xu Shoulin Zhou Yanmin Wang Zhipeng 《Journal of Mechanical Science and Technology》2018,32(3):1333-1344
Journal of Mechanical Science and Technology - In this paper, we investigate the Degree of freedom (DOF), workspace and singularity of a wall climbing hexapod robot. The robot has two typical... 相似文献