trembler coil

简明释义

带断续器的感应线圈

英英释义

例句

1.The trembler coil mechanism is crucial for the operation of many mechanical toys.

对于许多机械玩具来说，颤动线圈机制是至关重要的。

2.The electrician replaced the faulty trembler coil in the old bell system.

电工更换了旧铃声系统中故障的颤动线圈。

3.When the trembler coil vibrates, it generates a series of electrical pulses.

当颤动线圈振动时，它会产生一系列电脉冲。

4.The technician explained how the trembler coil works in the circuit.

技术员解释了颤动线圈在电路中的工作原理。

5.In vintage alarm clocks, a trembler coil is often used to create the ringing sound.

在复古闹钟中，通常使用颤动线圈来产生铃声。

作文

The invention of the trembler coil marked a significant advancement in the field of electrical engineering and sound production. A trembler coil is a type of electromagnetic device that converts electrical energy into mechanical energy, producing vibrations that create sound waves. This device operates on the principle of electromagnetic induction, where a coil of wire generates a magnetic field when an electric current passes through it. The trembler coil is often used in various applications, including doorbells, alarms, and even musical instruments.To understand the function of a trembler coil, one must first grasp the basic components involved. The primary parts include the coil itself, a power source, and a contact mechanism. When the power source activates the coil, it generates a magnetic field that attracts a metal armature. As the armature moves, it makes contact with a set of contacts, breaking the circuit and causing the coil to de-energize. This action allows the armature to return to its original position, re-establishing the circuit and repeating the cycle. The rapid on-and-off motion creates vibrations that produce sound.Historically, the trembler coil has played a crucial role in the development of early telecommunication devices. In the late 19th century, inventors utilized the trembler coil in telegraph systems to generate audible signals for operators. This innovation improved communication efficiency and laid the groundwork for future advancements in sound signaling technology.In contemporary applications, the trembler coil remains relevant, particularly in the realm of electronics. For instance, it is commonly found in toy products that require sound effects. The simplicity and reliability of the trembler coil make it an ideal choice for manufacturers looking to incorporate sound into their designs without the complexity of digital sound systems.Moreover, the trembler coil can also be seen in some forms of musical instruments, particularly in those that aim to produce unique sound effects. By adjusting the frequency and amplitude of the electrical current supplied to the coil, musicians can manipulate the sound output, creating a diverse range of auditory experiences.Despite the rise of modern technologies, the trembler coil continues to be a valuable component in various devices. Its ability to efficiently convert electrical energy into sound has not only made it a staple in simple electronic devices but has also inspired further innovations in sound production mechanisms. As we continue to explore the capabilities of electromagnetic devices, the trembler coil serves as a reminder of the foundational principles that have shaped the world of electronics and sound.In conclusion, the trembler coil is more than just a simple mechanical device; it represents a pivotal development in our understanding of sound production and electromagnetic theory. From its historical significance in telegraphy to its modern applications in toys and music, the trembler coil exemplifies the intersection of engineering and creativity. As technology advances, it will be fascinating to see how devices like the trembler coil evolve and inspire new innovations in sound and beyond.

颤动线圈的发明标志着电气工程和声音生产领域的重要进展。颤动线圈是一种电磁装置，它将电能转化为机械能，产生振动并创造声波。该装置基于电磁感应原理，当电流通过一根线圈时，会产生一个磁场。颤动线圈通常用于各种应用，包括门铃、警报，甚至乐器。要理解颤动线圈的功能，首先必须掌握其中涉及的基本组件。主要部件包括线圈本身、电源和接触机制。当电源激活线圈时，它会产生一个磁场，吸引金属电枢。随着电枢的移动，它与一组接点接触，切断电路，导致线圈失去电能。这一动作使得电枢返回到原始位置，重新建立电路并重复循环。快速的开关运动产生振动，从而产生声音。历史上，颤动线圈在早期电信设备的发展中发挥了至关重要的作用。在19世纪末，发明家们利用颤动线圈在电报系统中生成可听信号供操作员使用。这一创新提高了通信效率，并为未来声音信号技术的进一步发展奠定了基础。在当代应用中，颤动线圈仍然具有相关性，特别是在电子产品领域。例如，它通常出现在需要声音效果的玩具产品中。颤动线圈的简单性和可靠性使其成为制造商在设计中融入声音的理想选择，而无需复杂的数字音响系统。此外，颤动线圈也可以在某些形式的乐器中看到，尤其是在那些旨在产生独特声音效果的乐器中。通过调整提供给线圈的电流的频率和幅度，音乐家可以操控声音输出，创造出多样化的听觉体验。尽管现代技术不断崛起，颤动线圈仍然是各种设备中宝贵的组成部分。它高效地将电能转化为声音的能力不仅使其成为简单电子设备的基础，还激发了声音生产机制的进一步创新。随着我们继续探索电磁设备的能力，颤动线圈提醒我们奠定了塑造电子和声音世界的基础原则。总之，颤动线圈不仅仅是一个简单的机械装置；它代表了我们对声音生产和电磁理论理解的关键发展。从它在电报中的历史意义到它在玩具和音乐中的现代应用，颤动线圈体现了工程与创造力的交汇。随着技术的进步，观察像颤动线圈这样的设备如何演变并激发新的声音及其他领域的创新，将会非常有趣。