stalling load

简明释义

停转负载

英英释义

例句

1.During the simulation, the software detected a stalling load that could potentially damage the equipment.

在模拟过程中，软件检测到可能会损坏设备的负载停滞。

2.The engineer noticed that the generator was experiencing a stalling load during peak hours, which indicated a problem with the power supply.

工程师注意到发电机在高峰时段经历了负载停滞，这表明电力供应存在问题。

3.When the motor started to slow down, it was clear that it was facing a stalling load, causing it to overheat.

当电动机开始减速时，很明显它面临着负载停滞，导致其过热。

4.The team conducted tests to determine how much stalling load the system could handle without failing.

团队进行了测试，以确定系统在不失败的情况下能够承受多少负载停滞。

5.To avoid a stalling load situation, the technician adjusted the settings on the machinery before starting the operation.

为了避免出现负载停滞的情况，技术人员在开始操作之前调整了机器的设置。

作文

In the field of engineering, particularly in the context of electrical systems, the term stalling load refers to a condition where an electrical motor or device is unable to overcome the resistance presented by the mechanical load it is trying to move. This situation can arise due to various factors, including excessive load weight, mechanical binding, or insufficient power supply. Understanding the implications of a stalling load is crucial for engineers and technicians alike, as it can lead to inefficiencies, equipment damage, or even complete system failure.When a motor experiences a stalling load, it draws more current than it normally would under operational conditions. This increased current can cause overheating in the motor windings, leading to insulation failure and potentially catastrophic results. Therefore, it is essential to monitor the load conditions carefully and ensure that the motor is appropriately sized for the application at hand.In practical applications, a stalling load can occur in various scenarios. For instance, in a conveyor belt system, if the weight of the items being transported exceeds the motor's capacity, the motor may stall, leading to a halt in operations. Similarly, in robotics, if a robotic arm attempts to lift an object that is too heavy, it may encounter a stalling load, which could result in mechanical failure or unintended movements.To prevent stalling loads, engineers often incorporate safety factors into their designs. This involves selecting motors with higher torque ratings or implementing overload protection mechanisms that can detect when a load is approaching stalling conditions. Additionally, regular maintenance of equipment can help identify potential issues before they lead to serious problems. By ensuring that all components are functioning correctly and that the load conditions are within acceptable limits, the risk of encountering a stalling load can be significantly reduced.Moreover, understanding the characteristics of a stalling load also plays a vital role in troubleshooting. When a system fails to operate as expected, technicians must be able to diagnose whether a stalling load is the cause. This often involves measuring current draw, checking for physical obstructions, and assessing the overall health of the motor and its associated components. By systematically evaluating these factors, technicians can pinpoint the source of the problem and implement the necessary corrective actions.In conclusion, the concept of a stalling load is a fundamental aspect of electrical engineering that requires careful consideration and management. Whether in industrial applications or everyday machinery, understanding how to identify and mitigate the risks associated with stalling loads is essential for maintaining efficient and safe operations. As technology continues to advance, the knowledge surrounding stalling load will remain relevant, ensuring that engineers and technicians can effectively address challenges in their respective fields.

在工程领域，特别是在电气系统的背景下，术语stalling load指的是电动机或设备无法克服其试图移动的机械负载所带来的阻力的状态。这种情况可能由于多种因素引起，包括过重的负载、机械卡滞或电源不足。理解stalling load的含义对工程师和技术人员来说至关重要，因为它可能导致效率低下、设备损坏甚至整个系统的故障。当电动机遇到stalling load时，它会比正常操作条件下吸取更多的电流。这种电流的增加可能导致电动机绕组过热，从而导致绝缘失效，甚至可能造成灾难性的结果。因此，仔细监控负载条件并确保电动机适合所需应用是至关重要的。在实际应用中，stalling load可能发生在各种场景中。例如，在输送带系统中，如果运输物品的重量超过电动机的容量，电动机可能会卡住，导致操作停止。同样，在机器人技术中，如果机器人手臂尝试举起一个过重的物体，它可能会遇到stalling load，这可能导致机械故障或意外移动。为了防止卡滞负载，工程师通常会在设计中加入安全因子。这涉及选择扭矩额定值更高的电动机或实施过载保护机制，以检测负载是否接近卡滞条件。此外，定期维护设备可以帮助在问题导致严重后果之前识别潜在问题。通过确保所有组件正常运行，并且负载条件在可接受的范围内，可以显著降低遇到stalling load的风险。此外，了解stalling load的特性在故障排除中也起着重要作用。当系统未按预期运行时，技术人员必须能够诊断卡滞负载是否是原因。这通常涉及测量电流、检查物理障碍以及评估电动机及其相关组件的整体健康状况。通过系统地评估这些因素，技术人员可以准确找出问题的根源并实施必要的纠正措施。总之，stalling load的概念是电气工程的基本方面，需要仔细考虑和管理。无论是在工业应用还是日常机械中，理解如何识别和减轻与卡滞负载相关的风险对于保持高效和安全的操作至关重要。随着技术的不断进步，围绕stalling load的知识将持续相关，确保工程师和技术人员能够有效应对各自领域的挑战。