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相关概念视频

Electro-mechanical Systems01:19

Electro-mechanical Systems

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Electromechanical systems are intricate configurations that effectively combine electrical and mechanical elements to achieve a desired outcome. Central to many of these systems is the DC motor, a device that converts electrical energy into mechanical motion, enabling various applications ranging from simple fans to complex robotic mechanisms.
A key component of the DC motor is the armature, a rotating circuit positioned within a magnetic field. As an electric current passes through the...
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Mechanical Systems01:22

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Mechanical systems are analogous to to electrical networks where springs and masses play similar roles to inductors and capacitors, respectively. A viscous damper in mechanical systems functions similarly to a resistor in electrical networks, dissipating energy. The forces acting on a mass in such systems include an applied force in the direction of motion, counteracted by forces from the spring, a viscous damper, and the mass's acceleration. This interplay of forces is mathematically...
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Stability of structures01:14

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In mechanical engineering, the stability of systems under various forces is critical for designing durable and efficient structures. One fundamental way to explore these concepts is by analyzing systems like two rods connected at a pivot point, O, with a torsional spring of spring constant k at the pivot point. This system is similar in appearance to a scissor jack used to change tires on a car. In this case, the arms of the linkage (equivalent to the rods in this system) are entirely vertical,...
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Control systems are foundational elements in automation and engineering. They are broadly categorized into open-loop and closed-loop systems. These classifications hinge on the presence or absence of feedback mechanisms, significantly influencing the system's performance, complexity, and application.
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Torque Free Motion01:15

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The torque-free motion refers to the movement of a rigid body in space when no external torques are acting upon it. This type of motion can be observed in environments where there are no external forces or frictions, like in outer space. For example, a rotation of Mars in space is a torque-free motion. Mars is an axisymmetric object, meaning it has an axis of symmetry along which it rotates, designated as the z-axis. The rotating frame of reference is defined such that the center of mass of...
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Hydraulic Jump: Problem Solving01:16

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To analyze a hydraulic jump in a rectangular channel with a flow speed of 6 meters per second, follow these steps:Calculate Effective Upstream Velocity:When the downstream gate closes, a hydraulic jump forms, traveling upstream at 2 meters per second. This wave speed combines with the initial channel flow velocity, creating an effective upstream velocity.Identify Flow Velocities Before and After the Hydraulic Jump:Upstream of the hydraulic jump, the effective flow velocity includes both the...
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Design and Implementation of a Bespoke Robotic Manipulator for Extra-corporeal Ultrasound
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电液压堵塞可变刚度 机器人链接

Quan Xiong1, Xuanyi Zhou1, Dannuo Li1

  • 1Evolution Innovation Lab, Department of Biomedical Engineering, National University of Singapore, Singapore, Singapore.

Soft robotics
|June 4, 2025
PubMed
概括
此摘要是机器生成的。

这项研究引入了一种新的可变刚度机器人链路 (VSRL),使用电液阻塞. 这项创新提高了机器人的安全性和适应性,通过允许在没有大型组件的情况下控制硬度.

关键词:
电液动力执行器 电液动力执行器软机器人软机器人 软机器人变化的硬度变量.

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科学领域:

  • 机器人技术 机器人技术 机器人技术
  • 材料科学 材料科学 材料科学
  • 执行系统 执行系统

背景情况:

  • 传统的刚性机器人链路存在安全风险,缺乏适应性.
  • 可变刚度机器人链接 (VSRL) 提供了更高的安全性和任务多功能性.
  • 液压放大自愈电静电 (HASEL) 执行器是VSRLs的一个有希望的技术.

研究的目的:

  • 为了介绍和描述一个新的电液压卡塞VSRL.
  • 为了证明VSRL能够显著改变刚度的能力.
  • 探索VSRL在实际机器人应用中的潜力.

主要方法:

  • 使用带状的HASEL执行器用于电液阻塞.
  • 通过调整液体体积和密封,优化了VSRL设计.
  • 集成了一个自传感策略,利用VSRL的容量特性.

主要成果:

  • 通过电液压阻塞实现了高达8.3倍的刚度变化.
  • 展示了一个轻量级,紧的VSRL设计,没有外部.
  • 经验证的有效承载能力和显著的硬度变化.
  • 展示了多个VSRL组件和用于节能飞行的无人机应用程序.

结论:

  • 电液阻塞VSRL为机器人提供了安全,适应性和精确的解决方案.
  • 该技术在协作机器人,可穿戴设备和空中系统中具有广泛的应用.
  • 这种VSRL进步承诺在各种现实世界机器人应用中提高功能和安全性.