The pneumatic robot USES air to move and sticks to surfaces by suction.
气动机器人利用空气来移动,靠吸力附着于各种表面。
The pneumatic robot can put the armature into the working position automatically.
气动机械爪可将排列放置的工件自动送入工作位置。
They sale their pneumatic robot which USES air to move and sticks to surfaces by suction.
他们出售他们的气动机器人,这些机器人依靠空气来移动,靠吸力附着于物体表面。
They sale their pneumatic robot which USES air to move and sticks to surfaces by suction.
气动机器人利用空气来移动,靠吸力附着于各种表面。
The paper presents a newly typed pneumatic squirming robot and analyses the driving principle, the dynamic characteristic.
本文提出了一种新型气动蠕动机器人,分析了它的驱动机理和动态特性。
The emphasis is application research of position servo control system in squirming robot based on pneumatic columnar elastic shell actuator in this article.
本文的重点是基于气动橡胶驱动器的蠕动机器人位置伺服控制系统的应用性研究。
The new idea of a pneumatic worming robot self - climbing, maintaining and inspecting stayed cables is presented in this paper.
提出用气动蠕动式爬升机器人自爬升缆索对其进行检测和维护的新思想。
The flags of PMAC is used as the general I/O interface and the pneumatic control loop of the wafer robot is designed.
并将PMAC的标志控制口改作为通用I/O口,在此基础上进行了硅片传输机器人的气动控制回路的设计。
This paper designs a step forward pneumatic climbing robot by means of vacuum pads which can move on flat surfaces, especially vertical plane walls with the features of simplicity and flexibility.
本文根据真空吸附原理,采用先进的气动元器件设计一个能在垂直墙面上,通过脚步行进方式,在四个方向垂直移动的气动爬墙机器人。
The robotic research institute in Zhejiang University of Technology is now developing a new typical squirming robot based on pneumatic columnar elastic shell actuator.
本文的重点是基于气动橡胶驱动器的蠕动机器人位置伺服控制系统的应用性研究。
Japanese scientists build a robot suit with pneumatic "muscles" that can help lift the elderly or disabled.
日本科学家制造一种机器人,配备空压动力“肌肉”,可协助扶起年长或残障者。
In this paper, a kind of pneumatic pole-climbing robot was designed for satisfying the great demands on pole-climbing tasks in city planning engineering.
针对市政工程中需要大量的爬杆作业等的需求,研制了一种基于气动元件的爬杆机器人。
The robot arm actuated by pneumatic muscles is one kind of the robot arm with good compliance and it is superior to other robot arms in some cases.
气动肌肉驱动的机器人手臂是一类具有良好柔顺性能的机器人手臂,在很多应用领域具有突出的优势。
First, it explains the significance and the solution of the task, and then it briefly introduces the pneumatic control system, PLC and robot, etc.
首先说明课题的意义和解决方案,然后介绍气动系统、PLC利机器人。
This paper designs a step-forward pneumatic climbing robot by means of vacuum pads which can move on flat surfaces, especially vertical plane walls with the features of simplicity and flexibility.
设计了一种新型的吸附式爬墙机器人并制作了实物模型,通过理论计算选择所用的气动元件,并在机器人实际运动过程中得以验证和得出实验结论。
The bionic robot adopts the external air supply to drive pneumatic artificial muscles, so as to realize moving forwards, turning and heave movement of the bionic robot in water.
该仿生机器人采用外置气源驱动气动人工肌肉实现仿生机器人在水中的前进、转弯和升沉运动。
This system is made up of robotic, PLC and pneumatic technology, The design for gripe of robot, electric screwdriver and the communication between robot and PLC has a certain feature .
其中,机械手指、电动改锥、螺钉盘、机械手与PLC控制器间的通讯及双方软件协调方面的设计都具有一定的特点。
The mechanism driven by a bidirectional pneumatic cylinder for climb robot is composed of two groups of slider-crank mechanism in series.
本机构由两组曲柄滑块机构串接而成,双作用气缸驱动,实现机械手的主爬升运动。
This type pneumatic flexible joint and robot finger should be have more extensive application prospect in the industry, agriculture, medicine and services.
本文所设计出的气动安全柔性关节以及由该关节构成的机器人手指应该在工业,农业,医疗以及服务业中有较好的应用前景。
So the research on the pneumatic driver and flexible joints have significant application value for the robot areas.
而研究以气体为动力的驱动器以及由其所构成的柔性关节对机器人领域具有重大的应用价值。
The mobile mechanism of the robot is flexibly actuated by a 3-DOF pneumatic rubber actuator.
该机器人系统采用三自由度空气压橡胶驱动器驱动的柔性移动机构。
The mobile mechanism of the robot is flexibly actuated by a 3-DOF pneumatic rubber actuator.
该机器人系统采用三自由度空气压橡胶驱动器驱动的柔性移动机构。
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