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1X Unveils New Dexterous Tendon-driven Hand for its Neo Humanoid Robots 1X为Neo人形机器人发布新型柔性肌腱驱动灵巧手

1X introduces a new tendon-driven robotic hand for its Neo humanoid platform, featuring 25 degrees of freedom with 22 fully actuated joints in the fingers and palm. The design utilizes a quasi-direct-drive tendon system with motors located in the forearm, enabling lightweight construction while maintaining high force output for tool use and manipulation. Integrated tactile sensing measures normal force, contact location, and shear stress, allowing for real-time slip detection and adaptive grip c 1X发布Neo人形机器人专用肌腱驱动机械手,具备25个自由度,旨在提升灵巧度与触觉感知能力。 采用力控与可反向驱动设计,集成指尖及表面触觉传感器,支持实时检测滑动并调整抓握力度。 机械手具备IP68防水等级及食品级材料,峰值扭矩达3.5Nm,定位精度±0.2mm,满足日常工具使用需求。 1X已建立全自研生产线,今年产能可达10,000只,所有组件包括肌腱、电机及皮肤均在内部制造。

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Analysis 深度分析

TL;DR

  • 1X introduces a new tendon-driven robotic hand for its Neo humanoid platform, featuring 25 degrees of freedom with 22 fully actuated joints in the fingers and palm.
  • The design utilizes a quasi-direct-drive tendon system with motors located in the forearm, enabling lightweight construction while maintaining high force output for tool use and manipulation.
  • Integrated tactile sensing measures normal force, contact location, and shear stress, allowing for real-time slip detection and adaptive grip control.
  • The hand is force-controlled and backdrivable, yielding to external pushes to provide haptic feedback, and features IP68 waterproofing and food-safe materials for durability.
  • 1X claims scalable in-house production capacity of 10,000 units this year, aiming to make humanoids truly useful for everyday tasks like assembling objects and using tools.

Why It Matters

This development marks a significant step toward practical humanoid robotics by addressing the critical bottleneck of dexterous manipulation. By integrating advanced tactile sensing and force control directly into the hardware, 1X enables robots to interact safely and effectively with unstructured environments, moving beyond simple pre-programmed motions to adaptive, human-like handling of objects.

Technical Details

  • Mechanical Architecture: The hand features 25 degrees of freedom (22 in fingers/palm, 3 at the wrist). It employs a tendon-drive system where motors are housed in the forearm, reducing hand weight and inertia while routing tendons through the wrist.
  • Actuation and Control: Utilizes quasi-direct-drive tendons with low gear ratios (5:1 to 15:1). The fingers are force-controlled and backdrivable, allowing them to yield under pressure and report applied force, effectively turning the hand into a sensing system.
  • Sensing Capabilities: Embedded tactile sensors across fingertips and surfaces measure normal force, contact location, and shear. This data enables real-time slip detection and grip adjustment.
  • Performance Specifications: Peak torque reaches 3.5 Nm at the thumb CMC joint and 17.75 Nm at the wrist. Positioning accuracy is maintained at +/- 0.2 mm, with distal flexion forces up to 45 Newtons.
  • Durability and Manufacturing: Features IP68 waterproofing and food-safe materials. All components, including tendons, motors, and skin, are manufactured in-house, with a stated production capacity of 10,000 hands annually.

Industry Insight

  • Shift to Integrated Sensory-Motor Systems: The emphasis on backdrivability and tactile feedback suggests a broader industry shift from purely visual-based manipulation to multimodal sensory integration, essential for safe human-robot collaboration.
  • Vertical Integration as a Competitive Moat: 1X’s decision to manufacture all components in-house highlights the importance of supply chain control in scaling humanoid robotics, potentially lowering costs and improving reliability compared to competitors relying on third-party parts.
  • Standardization of Dexterity Metrics: As companies like 1X publish specific torque and degree-of-freedom specs, the industry may begin to adopt standardized metrics for "dexterity," allowing for more objective comparisons between robotic platforms.

TL;DR

  • 1X发布Neo人形机器人专用肌腱驱动机械手,具备25个自由度,旨在提升灵巧度与触觉感知能力。
  • 采用力控与可反向驱动设计,集成指尖及表面触觉传感器,支持实时检测滑动并调整抓握力度。
  • 机械手具备IP68防水等级及食品级材料,峰值扭矩达3.5Nm,定位精度±0.2mm,满足日常工具使用需求。
  • 1X已建立全自研生产线,今年产能可达10,000只,所有组件包括肌腱、电机及皮肤均在内部制造。

为什么值得看

该机械手标志着人形机器人从“演示”走向“实用”的关键一步,通过高自由度和精密触觉反馈解决了操作日常物体的难题。其全自研供应链和高产能规划展示了商业化落地的可行性,为行业提供了具身智能硬件集成的参考范例。

技术解析

  • 架构与驱动:采用1X自研肌腱驱动系统,电机位于前臂,肌腱穿过手腕,实现轻量化与高力量输出的平衡。齿轮比低(5:1至15:1),属于准直驱设计,确保手指在受力时可反向驱动并报告施加的力。
  • 感知能力:集成全手掌触觉传感,测量法向力、接触位置和剪切力。这种多维感知使机器人能实时检测物体滑动并动态调整抓握策略,不仅作为执行器,更作为触觉感知系统。
  • 性能指标:拥有25个自由度(手指和手掌22个,手腕3个)。拇指CMC关节峰值扭矩3.5Nm,手指MCP关节2.6Nm,腕部扭矩17.75Nm,定位精度高达±0.2mm。
  • 耐用性与生产:具备IP68防水等级和食品级安全材料,经过数百万次交互循环测试。1X实现了从肌腱材料、电机到软聚合物皮肤的全链路自研自制,年产能规划为10,000只。

行业启示

  • 触觉感知是人形机器人落地的核心瓶颈:单纯的运动控制已非唯一重点,高精度、多维度的触觉反馈(如剪切力、滑动检测)是机器人处理非结构化环境物体的关键。
  • 垂直整合供应链加速商业化:1X通过全自研核心部件(电机、肌腱、传感器)并建立规模化生产线,证明了通过垂直整合控制成本和质量是实现大规模部署的有效路径。
  • 肌腱驱动方案的优势显现:对于需要高灵活性和轻量化的末端执行器,将执行器主体后置(前臂)并通过肌腱传动的方案,相比直接驱动手指关节,更能平衡空间限制与动力需求。

Disclaimer: The above content is generated by AI and is for reference only. 免责声明:以上内容由 AI 生成,仅供参考。

Robotics 机器人 Product Launch 产品发布