Design and build of a portable apparatus for measuring lace tension

Kelly Lockwood, Tzu-Ting Hsu, Colin Dunne, John-Allan Ellingson
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Abstract

Laces have traditionally been used to secure the foot, limit slippage, enhance fit, and prevent injury across different types of footwear. Quantitatively assessing the merits and effectiveness of laces is technically challenging due to the lack of portable instrumentation that can measure lace tension reliably. Therefore, the purpose of the study was to design and build a portable apparatus to quantify lace tension to be used on footwear in both laboratory and real-world environments. The apparatus was designed to meet three major design criteria: (i) portable, (ii) able to accommodate different types of footwear, lace materials, and lacing patterns, and (iii) able to measure lace tension while the footwear is secured on the foot. As a result of the design process, the apparatus consisted of a base, fabricated from High Density Polyethylene (HDPE), and a frame, made from aluminum and 3D printed Acrylonitrile Butadiene Styrene (ABS). A measurement system was affixed to the frame and consisted of a lever, a non-deformable cable with a hook, a load cell, a caliper, and a microcontroller to measure the force and change in length of laces when a force was applied. The total height and weight of the apparatus was 25.5 cm and 6.35 kg, respectively. A reliability analysis was conducted using three different types of laces (waxed, non-waxed, and carbon fiber blend) and revealed a high internal consistency within lace types with alpha values of 0.95, 0.81, 0.91, respectively. The interclass reliability coefficient across lace types revealed an alpha value of 0.84. As a result of the design, build, and reliability analysis, the apparatus was able to provide reliable measurements of lace tension while satisfying the design criteria. It is envisioned that the apparatus can be used for ongoing investigations across different types of footwear and different types of laces.
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设计和制造用于测量花边张力的便携式仪器
鞋带历来用于固定脚部、限制滑动、增强合脚性以及防止不同类型鞋类的损伤。由于缺乏能够可靠测量鞋带张力的便携式仪器,定量评估鞋带的优点和有效性在技术上具有挑战性。因此,本研究的目的是设计和制造一种便携式仪器,用于在实验室和实际环境中量化鞋带张力。该仪器的设计符合三大设计标准:(i) 便携;(ii) 能够适应不同类型的鞋类、鞋带材料和鞋带模式;(iii) 能够在鞋类固定在脚上的同时测量鞋带张力。经过设计,该仪器包括一个由高密度聚乙烯(HDPE)制成的底座和一个由铝和 3D 打印丙烯腈-丁二烯-苯乙烯(ABS)制成的框架。框架上安装了测量系统,该系统由杠杆、带钩的不变形电缆、称重传感器、卡尺和微控制器组成,用于测量受力时的力和鞋带长度的变化。仪器的总高度和重量分别为 25.5 厘米和 6.35 千克。使用三种不同类型的鞋带(打蜡鞋带、无蜡鞋带和碳纤维混合鞋带)进行了信度分析,结果表明鞋带类型之间具有很高的内部一致性,α值分别为 0.95、0.81 和 0.91。不同花边类型之间的类间信度系数为 0.84。经过设计、制造和可靠性分析,该仪器能够可靠地测量花边张力,同时满足设计标准。预计该仪器可用于不同类型鞋类和不同类型鞋带的持续调查。
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