mechanical interlock

简明释义

机械联锁

英英释义

例句

1.The safety system of the machine uses a mechanical interlock to prevent accidental operation.

机器的安全系统使用机械联锁来防止意外操作。

2.To enhance safety, the control panel features a mechanical interlock that disables the power supply when the cover is removed.

为了增强安全性，控制面板配备了一个机械联锁，当盖子被移除时会切断电源。

3.The mechanical interlock in this circuit breaker prevents simultaneous operation of multiple switches.

这个断路器中的机械联锁防止多个开关同时操作。

4.In this design, the mechanical interlock ensures that the doors cannot be opened while the equipment is running.

在这个设计中，机械联锁确保设备运行时门无法打开。

5.The mechanical interlock between the gears prevents slippage during high torque operations.

齿轮之间的机械联锁在高扭矩操作期间防止滑动。

作文

In the world of engineering and design, the concept of mechanical interlock plays a crucial role in ensuring the safety and functionality of various systems. A mechanical interlock refers to a physical connection between two or more components that prevents them from moving independently of one another. This mechanism is widely utilized in numerous applications, ranging from machinery to electronic devices, and even in architectural designs.The primary purpose of a mechanical interlock is to enhance safety by preventing unintended movements. For instance, in electrical panels, a mechanical interlock can ensure that two circuit breakers cannot be turned on at the same time, which could otherwise lead to catastrophic failures or hazards. This is particularly important in high-voltage environments where a mistake can have dire consequences.Moreover, mechanical interlocks are also essential in machinery where multiple components must work in unison. For example, in the automotive industry, the transmission system relies on a series of mechanical interlocks to ensure that the gears engage properly. This not only improves the performance of the vehicle but also ensures that the driver has complete control over the car, reducing the risk of accidents.In addition to safety, mechanical interlocks contribute to the efficiency and reliability of systems. By ensuring that components operate in a predetermined sequence, these interlocks help to streamline processes and reduce the likelihood of errors. In manufacturing, for instance, assembly lines often utilize mechanical interlocks to coordinate the movement of parts, thereby optimizing production speed and quality.The design of a mechanical interlock can vary significantly depending on its application. Some common forms include pin and slot mechanisms, gear systems, and lever actions. Each type of interlock serves a specific function, tailored to the unique requirements of the system it is a part of. Engineers must carefully consider the materials, dimensions, and forces involved when designing a mechanical interlock to ensure its effectiveness and durability.In recent years, advancements in technology have led to the development of more sophisticated mechanical interlocks. With the integration of sensors and automated controls, modern interlocks can provide real-time feedback and adjustments, further enhancing safety and efficiency. This evolution highlights the importance of mechanical interlocks in modern engineering practices, as they adapt to meet the demands of increasingly complex systems.In conclusion, the significance of mechanical interlock in engineering cannot be overstated. These devices are fundamental to ensuring safety, enhancing efficiency, and maintaining the reliability of various systems. As technology continues to advance, the role of mechanical interlocks will likely evolve, presenting new opportunities and challenges for engineers. Understanding the principles and applications of mechanical interlocks is essential for anyone involved in design and manufacturing, as they are integral to the creation of safe and effective products.

在工程和设计的世界中，概念机械联锁在确保各种系统的安全性和功能性方面发挥着至关重要的作用。机械联锁是指两个或多个组件之间的物理连接，防止它们独立移动。这种机制广泛应用于许多领域，从机械到电子设备，甚至在建筑设计中。机械联锁的主要目的是通过防止意外运动来增强安全性。例如，在电气面板中，机械联锁可以确保两个电路断路器不能同时开启，否则可能导致灾难性的故障或危险。这在高电压环境中特别重要，因为一个错误可能会产生严重后果。此外，机械联锁在机器中也至关重要，其中多个组件必须协同工作。例如，在汽车工业中，传动系统依赖一系列机械联锁来确保齿轮正确啮合。这不仅提高了车辆的性能，还确保驾驶员对汽车的完全控制，降低了事故风险。除了安全性，机械联锁还提高了系统的效率和可靠性。通过确保组件按预定顺序操作，这些联锁有助于简化流程，减少错误的可能性。例如，在制造业中，装配线通常利用机械联锁来协调零件的移动，从而优化生产速度和质量。机械联锁的设计可以根据其应用而有显著不同。一些常见形式包括销和槽机制、齿轮系统和杠杆动作。每种类型的联锁都服务于特定功能，量身定制以满足其所处系统的独特要求。工程师必须仔细考虑设计机械联锁时涉及的材料、尺寸和力，以确保其有效性和耐用性。近年来，技术的进步导致更复杂的机械联锁的发展。随着传感器和自动控制系统的集成，现代联锁可以提供实时反馈和调整，进一步增强安全性和效率。这一演变突显了机械联锁在现代工程实践中的重要性，因为它们适应以满足日益复杂系统的需求。总之，机械联锁在工程中的重要性不可低估。这些装置对于确保安全、提高效率和维护各种系统的可靠性是基础。随着技术的不断进步，机械联锁的角色可能会发展，为工程师带来新的机遇和挑战。理解机械联锁的原理和应用对于任何参与设计和制造的人来说都是必不可少的，因为它们是创建安全和有效产品的关键。