When you think of batteries and, more specifically, Arbin’s role in the research that is driving the battery industry forward, it’s likely you picture electric vehicles and other stalwarts of the industry that have gained momentum and become more visible over the past several years.
However, Arbin’s role in the battery industry extends well beyond those boundaries.
Prosthetics and the robotics they’re using to accomplish never-before-seen feats of engineering are using advanced battery innovations to deliver all sorts of incredible results for users, and Arbin is proud to support that progress via support for the battery research making it possible.
利用机器人技术制作更先进、更有益的假肢方面的进展
最近,先进电池的使用为假肢的各种进步打开了大门,包括。
- 延长电池寿命,使之更实用
- 支持机器人技术使假肢更安静、更节能
- 充分利用模块化电池
特别是,一个 机器人假肢原型 uses small and powerful motors originally designed for use on a robotic arm at the International Space Station to more than double a user’s walking needs on a single charge – without giving up comfort, power, or functionality.
生物机械化假肢 他们还对非机器人假肢进行了改进和创新,这些假肢传统上都是由石膏和钢铁制成的。
这些假肢结合了生物传感器、机械传感器、由微处理器驱动的控制器和执行器,为用户提供了更逼真的效果。
电池如何帮助塑造机器人假肢的未来
在其他行业和技术中,生物机电假肢的创新者正在不断寻找电池和电池组技术的进步,以帮助支持他们提供逼真、实用和舒适的假肢的使命。
These robotic prosthetics need more compact, high-density battery solutions not only to provide longer battery life, but to increase overall comfort. As they’re quite literally a part of the user’s body, no amount of incredible engineering can make a prosthetic more bearable if it’s too heavy to be used comfortably.
Arbin’s Role in Battery Progress for Robotic Prosthetics
除了进行 材料研究 为各种行业和创新,阿尔宾帮助进行假肢领域的研究,并分享共同的愿景,即通过电池的进步产生更舒适、更逼真、更强大、更实用的解决方案。
要了解更多信息,请访问 https://arbin.com/.