locking gear
简明释义
锁紧装置锁定装置
英英释义
A locking gear is a mechanism that secures or holds a component in place to prevent movement or disengagement during operation. | 锁定齿轮是一种机制,用于固定或保持组件在适当位置,以防止在操作过程中发生移动或脱离。 |
例句
1.When operating the crane, make sure the locking gear 锁定齿轮 is engaged to prevent any accidental movement.
在操作起重机时,请确保locking gear 锁定齿轮已锁定,以防止任何意外移动。
2.The mechanic explained how to adjust the locking gear 锁定齿轮 on the bicycle for better performance.
机械师解释了如何调整自行车上的locking gear 锁定齿轮以获得更好的性能。
3.The locking gear 锁定齿轮 on the camera tripod helps stabilize your shots.
相机三脚架上的locking gear 锁定齿轮有助于稳定拍摄。
4.The car's locking gear 锁定齿轮 prevents the vehicle from rolling when parked.
汽车的locking gear 锁定齿轮可以防止停车时车辆滑动。
5.To ensure safety, always check the locking gear 锁定齿轮 before starting the machine.
为了确保安全,启动机器前务必检查locking gear 锁定齿轮。
作文
In the world of machinery and automotive engineering, the term locking gear refers to a specific mechanism that is designed to secure parts in place, preventing them from moving unexpectedly. This is particularly important in applications where safety and precision are paramount. For instance, in vehicles, locking gear systems are often employed in the transmission to ensure that the gears engage properly and do not slip during operation. This functionality is crucial for maintaining control over the vehicle's speed and direction, which can be vital in emergency situations.The concept of locking gear is not limited to automotive applications; it is also prevalent in various industrial machines. In manufacturing, machines often use locking gear systems to hold tools securely in position while they operate. This prevents any accidental disengagement that could lead to malfunction or injury. The reliability of these mechanisms directly impacts productivity and worker safety, making them a fundamental aspect of modern engineering.Understanding how locking gear works involves delving into the mechanics of gear systems. Typically, a locking gear will engage when certain conditions are met, such as when a lever is pulled or a button is pressed. Once engaged, the gear creates a physical barrier that keeps components from moving apart. This engagement can be temporary or permanent, depending on the design and application of the gear system.One common example of locking gear in everyday life is found in bicycles. Many bicycles utilize a locking gear mechanism in their derailleurs to ensure that the chain stays in place on the selected gear. When a rider shifts gears, the locking gear momentarily disengages, allowing the chain to move to a different sprocket before re-engaging to lock the chain in place. This seamless transition is crucial for maintaining the efficiency of pedaling and ensuring a smooth ride.Moreover, locking gear mechanisms can also be found in various types of locks and security devices. For example, a padlock employs a locking gear system to secure its shackle. When the key is inserted and turned, the internal gears align to either lock or unlock the device. This principle of mechanical engagement is what makes locking gear systems reliable for securing valuables and enhancing safety.In conclusion, the significance of locking gear cannot be overstated. Whether in vehicles, industrial machinery, or everyday locks, these mechanisms play a critical role in ensuring safety, efficiency, and functionality. As technology continues to advance, the designs and applications of locking gear systems will likely evolve, leading to even more innovative solutions in engineering and beyond. Understanding and mastering the concept of locking gear is essential for anyone interested in mechanical engineering or related fields, as it represents a foundational principle of how we create safe and reliable machines.
在机械和汽车工程的世界中,术语locking gear指的是一种特定的机制,旨在固定部件,防止它们意外移动。这在安全和精确度至关重要的应用中尤为重要。例如,在车辆中,locking gear系统通常用于传动装置,以确保齿轮在操作过程中正确啮合而不会滑动。这一功能对于保持对车辆速度和方向的控制至关重要,这在紧急情况下可能是生命攸关的。locking gear的概念并不限于汽车应用;它在各种工业机器中也很普遍。在制造业中,机器经常使用locking gear系统来在操作时将工具牢固地固定在位置上。这防止了任何可能导致故障或伤害的意外脱离。这些机制的可靠性直接影响生产力和工人安全,使其成为现代工程的基本方面。理解locking gear的工作原理需要深入了解齿轮系统的机械结构。通常,当满足某些条件时,例如拉动杠杆或按下按钮,locking gear就会啮合。一旦啮合,齿轮就会形成一个物理屏障,阻止组件分开。这种啮合可以是临时的,也可以是永久的,具体取决于齿轮系统的设计和应用。日常生活中一个常见的locking gear例子是在自行车中。许多自行车在变速器中利用locking gear机制,以确保链条保持在所选齿轮的位置。当骑行者变速时,locking gear会短暂脱离,允许链条移动到不同的齿轮上,然后重新啮合以将链条锁定在适当的位置。这种无缝的过渡对于保持踏板的效率和确保顺畅的骑行至关重要。此外,locking gear机制还可以在各种类型的锁具和安全设备中找到。例如,挂锁采用locking gear系统来固定其锁舌。当钥匙插入并转动时,内部齿轮对齐,以锁定或解锁设备。机械啮合的这一原理使得locking gear系统在保护贵重物品和增强安全性方面具有可靠性。总之,locking gear的重要性不容低估。无论是在车辆、工业机械还是日常锁具中,这些机制在确保安全、效率和功能方面发挥着关键作用。随着技术的不断进步,locking gear系统的设计和应用可能会不断演变,带来更具创新性的工程解决方案。理解和掌握locking gear的概念对于任何对机械工程或相关领域感兴趣的人来说都是至关重要的,因为它代表了我们创造安全可靠机器的基础原则。
相关单词
