分析自行车几何结构和货物装载对货运自行车骑行性能及安全性的影响:一项调查研究。
Analyzing the impact of bicycle geometry and cargo loading on the rideability and safety of cargo bikes: An investigative study.
作者信息
Paudel Milan, Yap Fook Fah
机构信息
Transport Research Centre @ NTU (TRC@NTU), Nanyang Technological University, Singapore, 50 Nanyang Avenue, 639798.
School of Mechanical and Aerospace Engineering, Nanyang Technological University, Singapore, 50 Nanyang Avenue, 639798.
出版信息
Heliyon. 2024 Apr 11;10(8):e29524. doi: 10.1016/j.heliyon.2024.e29524. eCollection 2024 Apr 30.
INTRODUCTION
Electric cargo bikes have become popular for transporting goods and people due to their small size and strong carrying capacity. However, the way they perform, handle, and operate safely can be affected by the weight of the cargo, where it is placed on the bike, and the bike's design.
METHOD
This paper analyzes the rideability and safety of eight different cargo bikes representing three different design categories, Retrofitted, Long-john, and Long-tail bikes, also considering three different cargo loading locations. We quantitatively examined the rideability by computing the minimum speed for self-stability, the maximum possible acceleration and deceleration without losing wheel-ground contact, the handlebar torque for steady-state turning, and the force required to overcome obstacles. The effect of using powerful motorized wheels has also been discussed.
RESULTS
Long-john cargo bikes are unstable for lightweight cargo loads, more sensitive to cargo loads, and therefore may not be suitable for riding in narrow, crowded spaces like footpaths. Moreover, retrofitted cargo bikes should only be used to carry lightweight cargo as a combination of heavy cargo load and a powerful rear wheel motor poses a potential risk of accidents. Long-tail cargo bikes are less affected by changes to the cargo load and are thus safer than retrofitted bikes. Their relatively compact length also makes for a smaller turning radius.
CONCLUSION
Rideability and safe handling of the cargo bikes strongly depend on the bike design and load and loading position. Retrofitted bikes are not suitable for carrying heavy loads and any load at the front has an adverse effect on the overall rideability and safety.
PRACTICAL APPLICATION
The results highlight the benefits and limitations of different cargo bike designs and, therefore, could have implications for the cargo bike manufacturers, service providers, and policymakers.
引言
电动货运自行车因其体积小、承载能力强而在货物运输和载人方面广受欢迎。然而,它们的性能、操控性和安全操作方式会受到货物重量、货物在自行车上的放置位置以及自行车设计的影响。
方法
本文分析了代表三种不同设计类型(改装型、长约翰型和长尾型自行车)的八种不同货运自行车的骑行性能和安全性,同时考虑了三种不同的货物装载位置。我们通过计算自稳定的最小速度、不失去车轮与地面接触的最大可能加速度和减速度、稳态转弯时的车把扭矩以及克服障碍物所需的力,对骑行性能进行了定量研究。还讨论了使用强大电动轮的影响。
结果
长约翰型货运自行车在装载轻量货物时不稳定,对货物负载更敏感,因此可能不适合在狭窄、拥挤的人行道等空间骑行。此外,改装型货运自行车仅应用于运载轻量货物,因为重货负载与强大的后轮电机相结合会带来潜在的事故风险。长尾型货运自行车受货物负载变化的影响较小,因此比改装型自行车更安全。它们相对紧凑的长度也使得转弯半径更小。
结论
货运自行车的骑行性能和安全操控在很大程度上取决于自行车的设计、负载及装载位置。改装型自行车不适合承载重物,且前部的任何负载都会对整体骑行性能和安全性产生不利影响。
实际应用
研究结果突出了不同货运自行车设计的优点和局限性,因此可能对货运自行车制造商、服务提供商和政策制定者产生影响。
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