solenoid brake

简明释义

螺线管制动器

英英释义

例句

1.In the assembly line, the robotic arm is equipped with a solenoid brake to ensure precision.

在生产线上，机器人手臂配备了电磁制动器以确保精确度。

2.When the power goes out, the solenoid brake automatically engages to stop the machinery.

当停电时，电磁制动器会自动启用以停止机器。

3.The bicycle's advanced model features a solenoid brake system for better control.

这款先进的自行车型号配备了电磁制动器系统，以提供更好的控制。

4.The elevator relies on a solenoid brake for safety during operation.

电梯在运行过程中依赖于电磁制动器来确保安全。

5.The train uses a solenoid brake for quick stops in emergencies.

火车使用电磁制动器在紧急情况下快速停车。

作文

The concept of a solenoid brake is crucial in the field of mechanical engineering and automotive design. A solenoid brake is an electromechanical device that uses electromagnetic force to apply braking action. The mechanism typically consists of a solenoid, which is a coil of wire that generates a magnetic field when an electric current passes through it. This magnetic field can then be used to move a plunger or armature that engages the brake pads against a rotating disc or drum, effectively slowing down or stopping the motion of a vehicle or machine.One of the primary advantages of using a solenoid brake is its quick response time. When the electrical signal is activated, the solenoid can engage the brake almost instantaneously. This feature makes it particularly useful in applications where rapid stopping is necessary, such as in electric vehicles or automated machinery. Additionally, solenoid brakes are often designed to be compact and lightweight, which helps in reducing the overall weight of the system they are integrated into.Another benefit of solenoid brakes is their ability to be controlled electronically. This allows for sophisticated control systems that can adjust the braking force based on various parameters, such as speed, load, and driver input. For instance, in modern vehicles, electronic stability control systems can utilize solenoid brakes to enhance safety by applying brakes selectively to individual wheels during slippery conditions.However, there are also some limitations to consider when using solenoid brakes. One major concern is heat generation. Continuous use of the brakes can lead to overheating, which may cause the solenoid to fail or reduce its effectiveness. Therefore, it is essential to design the braking system with adequate cooling mechanisms to prevent this issue. Furthermore, the reliance on electrical power means that in the event of a power failure, the solenoid brake may not function, which could pose safety risks.In terms of applications, solenoid brakes are commonly found in various industries. They are widely used in electric bicycles, industrial machinery, and even in some types of elevators. Their versatility and efficiency make them an attractive choice for many engineers looking to implement reliable braking systems.In conclusion, understanding the functionality and characteristics of solenoid brakes is essential for anyone involved in mechanical design or automotive engineering. Their ability to provide quick and efficient braking, coupled with electronic control capabilities, makes them an invaluable component in modern technology. However, it is also important to be aware of their limitations and ensure that appropriate measures are taken to mitigate any potential issues. As technology continues to advance, the role of solenoid brakes is likely to evolve, leading to even more innovative applications and improved safety features in various fields.

“电磁铁制动器”的概念在机械工程和汽车设计领域至关重要。solenoid brake是一种电机机械装置，利用电磁力来施加制动作用。该机制通常由一个电磁铁组成，当电流通过时，电磁铁的线圈会产生磁场。然后，这个磁场可以用来移动一个活塞或电枢，使制动垫与旋转的盘或鼓接触，从而有效地减缓或停止车辆或机器的运动。使用solenoid brake的主要优点之一是其快速响应时间。当电信号被激活时，电磁铁几乎可以瞬间施加制动。这一特性使其在需要快速停车的应用中尤为有用，例如在电动车或自动化机械中。此外，solenoid brakes通常设计得紧凑且轻便，有助于减少它们所集成系统的整体重量。solenoid brakes的另一个好处是它们可以电子控制。这允许根据各种参数（如速度、负载和驾驶员输入）调整制动力。例如，在现代车辆中，电子稳定控制系统可以利用solenoid brakes在滑溜条件下通过选择性地对单个车轮施加制动来增强安全性。然而，在使用solenoid brakes时也有一些限制需要考虑。一个主要问题是热量产生。制动的持续使用可能导致过热，从而可能导致电磁铁失效或降低其有效性。因此，设计制动系统时必须配备足够的冷却机制以防止此问题。此外，依赖电力意味着在发生电力故障时，solenoid brake可能无法正常工作，这可能会带来安全风险。在应用方面，solenoid brakes在各个行业中都很常见。它们广泛用于电动自行车、工业机械，甚至某些类型的电梯。它们的多功能性和高效性使其成为许多工程师在实施可靠制动系统时的理想选择。总之，理解solenoid brakes的功能和特性对于任何参与机械设计或汽车工程的人来说都是至关重要的。它们提供快速和高效的制动能力，加上电子控制能力，使其成为现代技术中不可或缺的组件。然而，了解它们的局限性并确保采取适当措施以减轻潜在问题也很重要。随着技术的不断进步，solenoid brakes的角色可能会演变，从而在各个领域带来更具创新性的应用和改进的安全特性。