Hamza Sohail, Amir Hamza, N. Rashid, Muhammad Saad Ali, T. Ghani
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引用次数: 0
摘要
可扔式无人地面车辆(TUGV)是一种抗冲击机器人,其设计目的是在7米高的下落后存活并保持功能。该机器人的尺寸为29 x 25 x 12厘米,便于携带和部署。重量较轻,约2.1 Kg。它可用于重型机械和管道的检查,位置调查,监视等目的。它可以部署在人的生命和努力可能受到损害的情况下。为了减小冲击力,机器人主体采用高强度重量比的碳纤维材料制造。由于车轮吸收大部分的冲击,PCTPE被使用,因为它是坚韧和半柔性。车轮采用蜂窝状结构吸收部分着陆能量,避免了对UGV部件的损伤,减小了整车重量。为了保证机器人的功能性,进行了完整的计算和ANSYS分析。该机器人配备了ESP32 CAM用于视觉反馈。
Design and Analysis of Throwable Unmanned Ground Vehicle
Throwable Unmanned Ground Vehicle (TUGV) is an impact resistant robot which has been designed to survive and stay functional after a fall of 7 meters. With dimensions of 29 x 25 x 12 cm, the robot is portable and easily deployable. It is comparatively light weight and weighs about 2.1 Kg. It can be used for inspection of heavy machinery and pipelines, location surveys, surveillance, and other such purposes. It can be deployed in situations where human life and effort may otherwise be compromised. To reduce the impact force, the mainframe of the robot was fabricated in carbon fiber material which has a high strength to weight ratio. Since wheels absorb most of the impact, PCTPE was used as it is tough and semi-flexible. Honeycomb structure for wheels were used to absorb part of UGV's landing energy to prevent damage to UGV's components and to minimize its weight. Complete Calculations and ANSYS analysis were done to ensure the functionality of the robot. The robot is equipped with ESP32 CAM for visual feedback.
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