ball bank inclinometer

简明释义

球式倾斜指示器

英英释义

例句

1.During the test drive, the ball bank inclinometer indicated that the vehicle was experiencing excessive lean on the turns.

在测试驾驶中，球形倾斜仪显示车辆在转弯时出现过度倾斜。

2.The data from the ball bank inclinometer helped improve the design of the highway.

来自球形倾斜仪的数据帮助改善了高速公路的设计。

3.The engineer used a ball bank inclinometer to measure the angle of the road curve.

工程师使用球形倾斜仪来测量道路曲线的角度。

4.In the racing industry, teams rely on the ball bank inclinometer for optimal cornering performance.

在赛车行业，车队依赖于球形倾斜仪来获得最佳的转弯性能。

5.To ensure safety, the technician calibrated the ball bank inclinometer before the field measurements.

为了确保安全，技术人员在现场测量之前对球形倾斜仪进行了校准。

作文

The world of engineering and construction is filled with specialized tools and instruments that help professionals ensure safety and accuracy in their projects. One such instrument is the ball bank inclinometer, which plays a crucial role in assessing the banking angle of roads and highways. This device is particularly important in the field of civil engineering, where understanding the dynamics of road design can significantly impact vehicular safety and performance.A ball bank inclinometer is designed to measure the lateral forces acting on a vehicle as it travels along a curved path. This is essential because when vehicles navigate curves, they experience centrifugal force, which can lead to skidding or loss of control if the road is not banked appropriately. The inclinometer consists of a ball that moves within a graduated tube; as the road banks, the ball shifts, indicating the angle of the bank. Engineers use this data to determine whether the curvature of the road is safe for vehicles traveling at specific speeds.Understanding how to properly utilize a ball bank inclinometer involves both theoretical knowledge and practical skills. Engineers must be familiar with the principles of physics that govern motion and forces. When measuring the banking angle, it is important to consider various factors, including the radius of the curve, the speed of the vehicles, and the type of vehicles that will be using the road. For instance, a sharper curve may require a greater banking angle to ensure that vehicles can navigate safely without veering off the road.In real-world applications, the use of a ball bank inclinometer can greatly enhance road safety. For example, during the design phase of a new highway, engineers will conduct field tests using this instrument to collect data on how well the proposed banking angles will perform under actual driving conditions. If the measurements indicate that the banking is insufficient for the expected traffic speeds, adjustments can be made to the road design before construction begins.Moreover, the ball bank inclinometer is not only useful during the design phase but also during maintenance checks on existing roads. Over time, roads can settle or shift due to weather conditions, heavy traffic, or geological changes. Regular assessments using the inclinometer can help identify problems before they lead to accidents or costly repairs. By ensuring that the banking angles remain within safe limits, engineers contribute to the overall safety and reliability of the transportation infrastructure.In conclusion, the ball bank inclinometer is an indispensable tool in the field of civil engineering. Its ability to accurately measure the banking angle of roads helps engineers design safer roadways and maintain existing ones effectively. As we continue to develop our transportation infrastructure, instruments like the ball bank inclinometer will remain vital in promoting road safety and enhancing the driving experience for all road users. Through careful measurement and analysis, engineers can ensure that our roads are built to withstand the demands of modern traffic, ultimately saving lives and reducing accidents.

工程和建筑的世界充满了各种专业工具和仪器，这些工具帮助专业人士确保他们项目的安全性和准确性。其中一个重要的仪器是ball bank inclinometer，它在评估公路和高速公路的倾斜角度方面发挥着关键作用。这个设备在土木工程领域尤为重要，因为了解道路设计的动态可以显著影响车辆的安全性和性能。ball bank inclinometer旨在测量车辆在沿曲线路径行驶时所受的横向力。这一点至关重要，因为当车辆通过曲线时，它们会受到离心力的影响，如果道路的倾斜不合适，可能会导致打滑或失控。倾斜仪由一个在带有刻度的管内移动的球组成；随着道路的倾斜，球会移动，指示倾斜的角度。工程师使用这些数据来确定道路的曲率是否对以特定速度行驶的车辆是安全的。有效利用ball bank inclinometer需要理论知识和实践技能的结合。工程师必须熟悉支配运动和力的物理原理。在测量倾斜角度时，考虑各种因素非常重要，包括曲线的半径、车辆的速度以及将使用该道路的车辆类型。例如，更陡的曲线可能需要更大的倾斜角度，以确保车辆能够安全地通过，而不会驶出道路。在实际应用中，使用ball bank inclinometer可以大大提高道路安全性。例如，在新高速公路的设计阶段，工程师将使用该仪器进行现场测试，以收集有关拟议倾斜角度在实际驾驶条件下表现如何的数据。如果测量结果表明倾斜不足以满足预期的交通速度，可以在施工开始前对道路设计进行调整。此外，ball bank inclinometer不仅在设计阶段有用，在对现有道路进行维护检查时也同样重要。随着时间的推移，由于天气条件、重型交通或地质变化，道路可能会沉降或移动。定期使用倾斜仪进行评估可以帮助识别问题，从而在事故或高昂的维修费用发生之前采取措施。通过确保倾斜角度保持在安全范围内，工程师为交通基础设施的整体安全性和可靠性做出了贡献。总之，ball bank inclinometer是土木工程领域中不可或缺的工具。它准确测量道路的倾斜角度的能力帮助工程师设计更安全的道路，并有效维护现有道路。随着我们继续发展交通基础设施，像ball bank inclinometer这样的仪器将在促进道路安全和增强所有道路使用者的驾驶体验方面保持重要性。通过仔细的测量和分析，工程师可以确保我们的道路能够承受现代交通的需求，最终拯救生命并减少事故。