blade crank

简明释义

轮叶夹肘

英英释义

例句

1.Make sure the blade crank is securely fastened before starting the machine.

在启动机器之前，请确保刀片曲轴牢固固定。

2.I had to replace the blade crank because it was worn out from extensive use.

我不得不更换刀片曲轴，因为它因大量使用而磨损。

3.After examining the blade crank, I realized it needed lubrication.

检查了刀片曲轴后，我意识到它需要润滑。

4.The mechanic adjusted the blade crank to improve the lawnmower's cutting efficiency.

机械师调整了刀片曲轴以提高割草机的切割效率。

5.The blade crank on my snowblower broke during the last storm.

我在最后一场风暴中，雪地清扫机的刀片曲轴坏了。

作文

In the world of mechanical engineering and design, various components play crucial roles in ensuring the efficient functioning of machines. One such component is the blade crank, a term that might not be familiar to everyone but is essential in specific applications. Understanding what a blade crank is and how it operates can provide insight into its significance in machinery. A blade crank is typically used in systems where rotational motion is converted into linear motion or vice versa. It consists of a crank arm attached to a blade, which can pivot around a fixed point. This mechanism allows for the transfer of energy from one form to another, making it invaluable in various machines, including engines, pumps, and even wind turbines. The design of a blade crank varies depending on its application, but its fundamental purpose remains the same: to facilitate movement and enhance efficiency. One of the most common applications of a blade crank is in the field of automotive engineering. In internal combustion engines, the crankshaft plays a vital role in converting the linear motion of the pistons into the rotational motion needed to turn the wheels. The blade crank design helps optimize this process, allowing for smoother operation and improved fuel efficiency. By minimizing friction and maximizing the transfer of energy, engineers can create more powerful and efficient engines.Moreover, blade cranks are also found in renewable energy technologies, such as wind turbines. In these systems, the blades of the turbine rotate in response to wind, and the blade crank converts this rotational energy into electrical energy. The efficiency of this conversion process is critical, as it directly impacts the amount of electricity generated. Engineers continuously work on improving the design of blade cranks to enhance performance and reduce wear and tear, ensuring that renewable energy systems are both effective and sustainable.Another important aspect of the blade crank is its role in robotics and automation. Many robotic systems rely on precise movements to perform tasks effectively. The blade crank mechanism allows for controlled movements, enabling robots to manipulate objects, navigate environments, and carry out complex operations with precision. As technology advances, the integration of blade cranks in robotics will likely increase, leading to more sophisticated and capable machines.In conclusion, the blade crank is a vital component in various mechanical systems, contributing to the efficiency and functionality of machines. Its ability to convert motion and transfer energy makes it indispensable in fields such as automotive engineering, renewable energy, and robotics. As we continue to innovate and improve technology, understanding components like the blade crank will be essential for engineers and designers alike. By mastering the principles behind this mechanism, we can pave the way for more advanced and efficient machines in the future.

在机械工程和设计的世界中，各种组件在确保机器高效运作方面发挥着至关重要的作用。其中一个组件就是blade crank，这个术语可能对每个人来说并不熟悉，但在特定应用中至关重要。理解blade crank是什么以及它如何运作，可以深入了解它在机械中的重要性。blade crank通常用于将旋转运动转换为线性运动或反之亦然的系统。它由一个连接到刀片的曲柄臂组成，该刀片可以围绕固定点 pivot。这种机制允许能量从一种形式转移到另一种形式，使其在各种机器中不可或缺，包括发动机、泵甚至风力涡轮机。blade crank的设计因其应用而异，但其基本目的保持不变：促进运动并提高效率。blade crank最常见的应用之一是在汽车工程领域。在内燃机中，曲轴在将活塞的线性运动转换为转动所需的旋转运动中发挥着至关重要的作用。blade crank设计有助于优化这一过程，允许更平稳的操作和改善的燃油效率。通过最小化摩擦和最大化能量转移，工程师可以制造出更强大、更高效的发动机。此外，blade crank也出现在可再生能源技术中，例如风力涡轮机。在这些系统中，涡轮的叶片响应风的旋转，而blade crank将这种旋转能量转换为电能。这一转换过程的效率至关重要，因为它直接影响发电量。工程师们不断努力改善blade crank的设计，以提高性能并减少磨损，确保可再生能源系统既有效又可持续。blade crank的另一个重要方面是它在机器人和自动化中的作用。许多机器人系统依赖精确的运动来有效执行任务。blade crank机制允许控制运动，使机器人能够操作物体、导航环境并以精确度执行复杂操作。随着技术的进步，blade crank在机器人中的整合可能会增加，从而导致更复杂和更强大的机器。总之，blade crank是各种机械系统中的重要组成部分，为机器的效率和功能做出了贡献。它转换运动和传递能量的能力使其在汽车工程、可再生能源和机器人等领域不可或缺。随着我们继续创新和改进技术，理解像blade crank这样的组件对于工程师和设计师来说将是必不可少的。通过掌握这一机制背后的原理，我们可以为未来更先进和高效的机器铺平道路。