torsion spring

简明释义

扭转弹簧

英英释义

例句

1.The bike's kickstand is held up by a small torsion spring.

自行车的支架由一个小的扭簧支撑。

2.In this mechanical watch, the torsion spring helps regulate the timekeeping.

在这款机械表中，扭簧帮助调节计时。

3.The toy uses a torsion spring to wind up and release energy when it moves.

这个玩具使用扭簧来上发条并在移动时释放能量。

4.The door closer uses a torsion spring to ensure it closes smoothly.

门闭器使用扭簧确保其平稳关闭。

5.A torsion spring is often found in garage doors to assist with lifting.

在车库门中，通常会找到扭簧以帮助提升。

作文

In the world of mechanics and engineering, various components play critical roles in ensuring that machines function smoothly. One such component is the torsion spring, which is an essential element in many mechanical systems. A torsion spring is a type of spring that works by twisting its ends along its axis, storing mechanical energy when it is twisted. This unique design allows it to exert a force when it returns to its original position, making it incredibly useful in a wide range of applications.The operation of a torsion spring can be observed in everyday objects, from clothespins to car suspensions. For instance, when you squeeze a clothespin, you are effectively twisting the torsion spring inside it. Once you release the pin, the spring returns to its original shape, allowing the clothespin to grip the fabric tightly. This simple yet effective mechanism illustrates the practicality of the torsion spring in our daily lives.Moreover, torsion springs are commonly used in larger machinery and equipment. In automobiles, for example, they help in controlling the suspension system, providing stability and comfort during rides. When the vehicle encounters bumps or uneven surfaces, the torsion spring absorbs the impact, allowing the wheels to maintain contact with the ground. This function is crucial for ensuring safety and performance on the road.Another notable application of torsion springs is in the construction of garage doors. Most modern garage doors use a system of torsion springs to assist in opening and closing. These springs are mounted above the door and are designed to counterbalance the weight of the door. When the door is closed, the torsion spring is wound tightly, storing energy. As the door opens, this energy is released, making it easier to lift the heavy door. This not only enhances convenience but also minimizes the risk of injury or damage.The versatility of torsion springs extends beyond these examples. They are also found in toys, such as wind-up mechanisms in music boxes or action figures. The winding action stores energy in the torsion spring, which is then released to power the movement or sound. This playful application showcases how torsion springs can bring joy and entertainment while demonstrating fundamental principles of physics.When designing a torsion spring, engineers must consider several factors, including the material, dimensions, and the amount of torque required for the specific application. The materials used can range from steel to composite materials, depending on the strength and flexibility needed. Additionally, the size and shape of the torsion spring will determine its performance characteristics, such as how much energy it can store and how quickly it can return to its original position.In conclusion, the torsion spring is a remarkable invention that has found its way into numerous applications across various industries. Its ability to store and release energy through twisting makes it an indispensable component in both simple and complex mechanisms. Understanding how a torsion spring works not only enhances our appreciation for engineering but also highlights the importance of such components in our everyday lives. Whether in household items or advanced machinery, the torsion spring continues to play a vital role in enhancing functionality and efficiency.

在机械和工程的世界中，各种组件在确保机器平稳运行方面发挥着至关重要的作用。其中一个关键组件是扭转弹簧，它是许多机械系统中的基本元素。扭转弹簧是一种通过沿其轴线扭转其两端来工作的弹簧，当它被扭转时储存机械能。这种独特的设计使得它在回到原始位置时能够施加力，从而在广泛的应用中极为有用。我们可以在日常物品中观察到扭转弹簧的运作，从夹子到汽车悬挂系统。例如，当你挤压一个夹子时，你实际上是在扭转里面的扭转弹簧。一旦你放开夹子，弹簧就会恢复到原来的形状，使夹子紧紧抓住布料。这一简单而有效的机制说明了扭转弹簧在我们日常生活中的实用性。此外，扭转弹簧通常用于更大型的机械和设备中。例如，在汽车中，它们有助于控制悬挂系统，在行驶过程中提供稳定性和舒适性。当车辆遇到颠簸或不平坦的表面时，扭转弹簧会吸收冲击，使车轮保持与地面的接触。这一功能对于确保行车安全和性能至关重要。另一个显著的扭转弹簧应用是在车库门的构造中。大多数现代车库门使用一套扭转弹簧来帮助开启和关闭。这些弹簧安装在门的上方，旨在平衡门的重量。当门关闭时，扭转弹簧被紧紧缠绕，储存能量。当门打开时，这种能量被释放，使得提升重门变得更加轻松。这不仅增强了便利性，还最小化了受伤或损坏的风险。扭转弹簧的多功能性超越了这些例子。它们也出现在玩具中，例如音乐盒或动作人物中的发条机制。缠绕动作在扭转弹簧中储存能量，然后释放以驱动运动或声音。这种有趣的应用展示了扭转弹簧如何带来乐趣和娱乐，同时展示了物理学的基本原理。在设计扭转弹簧时，工程师必须考虑几个因素，包括材料、尺寸和特定应用所需的扭矩。所用材料可以从钢材到复合材料不等，具体取决于所需的强度和灵活性。此外，扭转弹簧的大小和形状将决定其性能特征，例如它可以储存多少能量以及它能多快返回原始位置。总之，扭转弹簧是一项了不起的发明，已经在各个行业的众多应用中找到了自己的位置。它通过扭转储存和释放能量的能力，使其成为简单和复杂机制中不可或缺的组件。了解扭转弹簧的工作原理不仅增强了我们对工程的欣赏，也突显了这些组件在我们日常生活中的重要性。无论是在家居用品还是先进的机械中，扭转弹簧继续在提高功能性和效率方面发挥着重要作用。