fly-wheel magneto

简明释义

带飞轮的永磁发电机

英英释义

例句

1.A well-functioning fly-wheel magneto 飞轮磁电机 is crucial for reliable ignition in small engines.

良好运作的飞轮磁电机对于小型发动机的可靠点火至关重要。

2.During the maintenance check, we had to inspect the fly-wheel magneto 飞轮磁电机 for any signs of wear.

在维护检查中，我们需要检查飞轮磁电机是否有磨损迹象。

3.The old motorcycle relied on a fly-wheel magneto 飞轮磁电机 for its ignition system.

这辆老摩托车依靠飞轮磁电机来提供点火系统。

4.We replaced the faulty fly-wheel magneto 飞轮磁电机 to improve the engine's performance.

我们更换了故障的飞轮磁电机以提高发动机的性能。

5.The engine started smoothly thanks to the efficient fly-wheel magneto 飞轮磁电机 system.

由于高效的飞轮磁电机系统，发动机顺利启动。

作文

The invention of the fly-wheel magneto marked a significant advancement in the field of electrical engineering and automotive technology. A fly-wheel magneto is a type of electrical generator that uses a rotating flywheel to produce electricity through electromagnetic induction. This device is particularly important in small engines, such as those found in lawnmowers, chainsaws, and motorcycles, where a reliable ignition system is crucial for performance.The principle behind the fly-wheel magneto lies in its ability to convert mechanical energy into electrical energy. When the flywheel spins, it rotates magnets past coils of wire, inducing an electric current. This current is then used to create a spark that ignites the fuel-air mixture in the engine's combustion chamber. The simplicity and efficiency of this system make it a preferred choice for many small engine applications.One of the key advantages of the fly-wheel magneto is its independence from an external power source. Unlike battery-powered ignition systems, which require regular charging and maintenance, the fly-wheel magneto generates its own electricity while the engine is running. This not only reduces the weight and complexity of the overall system but also enhances reliability, especially in remote or outdoor settings where access to electrical outlets is limited.Moreover, the durability of the fly-wheel magneto contributes to its widespread use. These devices are designed to withstand harsh operating conditions, including exposure to dirt, moisture, and extreme temperatures. As a result, they require minimal maintenance and have a long operational life, making them cost-effective for manufacturers and consumers alike.In addition to its practical applications, the fly-wheel magneto has historical significance in the development of internal combustion engines. Early automobiles relied on similar systems for ignition before the advent of more complex electronic ignition systems. Understanding the mechanics of the fly-wheel magneto provides valuable insights into the evolution of automotive technology and highlights the ingenuity of early engineers who sought to improve engine performance.As technology continues to advance, the principles behind the fly-wheel magneto remain relevant. Modern innovations in materials and design have led to even more efficient and compact versions of this device. Engineers are exploring ways to integrate fly-wheel magneto systems with hybrid and electric vehicles, showcasing the versatility of this technology.In conclusion, the fly-wheel magneto is not just a simple component of small engines; it represents a remarkable intersection of mechanical and electrical engineering. Its ability to generate electricity independently and its robust nature make it an essential part of many machines we use today. Understanding the fly-wheel magneto helps us appreciate the advancements in technology that have shaped our modern world. As we look to the future, the lessons learned from the fly-wheel magneto will undoubtedly inspire new innovations and improvements in engine design and functionality.

飞轮磁电机的发明标志着电气工程和汽车技术领域的重要进步。飞轮磁电机是一种利用旋转飞轮通过电磁感应产生电力的电气发电机。这种设备在小型发动机中尤为重要，例如在割草机、链锯和摩托车中，可靠的点火系统对性能至关重要。飞轮磁电机背后的原理在于其将机械能转换为电能的能力。当飞轮旋转时，它会将磁体旋过线圈，从而诱导出电流。然后，这个电流用于产生火花，点燃发动机燃烧室中的燃料-空气混合物。这种系统的简单性和高效性使其成为许多小型发动机应用的首选。飞轮磁电机的一个主要优点是它不依赖外部电源。与需要定期充电和维护的电池供电点火系统不同，飞轮磁电机在发动机运行时自行发电。这不仅减少了整体系统的重量和复杂性，而且提高了可靠性，尤其是在远离电源的偏远或户外环境中。此外，飞轮磁电机的耐用性也促成了它的广泛使用。这些设备旨在承受恶劣的操作条件，包括暴露于灰尘、潮湿和极端温度。因此，它们所需的维护极少，使用寿命长，使其对制造商和消费者来说都具有成本效益。除了实际应用之外，飞轮磁电机在内燃机的发展中具有历史意义。早期的汽车依赖类似的点火系统，而不是更复杂的电子点火系统。理解飞轮磁电机的机制为我们提供了对汽车技术演变的宝贵见解，并突显了早期工程师为了改善发动机性能而追求的创造力。随着技术的不断进步，飞轮磁电机背后的原理仍然具有相关性。现代材料和设计的创新导致了更高效、更紧凑版本的这种设备的出现。工程师们正在探索将飞轮磁电机系统与混合动力和电动汽车相结合的方法，展示了这项技术的多样性。总之，飞轮磁电机不仅仅是小型发动机的一个简单组件；它代表了机械与电气工程的显著交汇。其独立发电的能力和坚固的特性使其成为我们今天使用的许多机器的核心部分。理解飞轮磁电机有助于我们欣赏塑造现代世界的技术进步。展望未来，从飞轮磁电机中学到的经验教训无疑将激励新的创新和发动机设计与功能的改进。