quick-acting mechanism

简明释义

速动机构

英英释义

例句

1.The new pain relief medication features a quick-acting mechanism 快速起效机制 that provides relief within minutes.

这种新的止痛药具有一种快速起效机制 快速起效机制，可以在几分钟内缓解疼痛。

2.In emergency situations, a quick-acting mechanism 快速起效机制 is crucial for saving lives.

在紧急情况下，快速起效机制 快速起效机制 对于拯救生命至关重要。

3.This insect repellent has a quick-acting mechanism 快速起效机制 that starts working as soon as it is applied.

这种驱虫剂具有快速起效机制 快速起效机制，一旦涂抹就会立即生效。

4.The fire alarm system incorporates a quick-acting mechanism 快速起效机制 to alert occupants immediately.

火灾警报系统采用了一个快速起效机制 快速起效机制，以便立即警告住户。

5.The device uses a quick-acting mechanism 快速起效机制 to activate the safety features instantly.

该设备使用快速起效机制 快速起效机制 来即时激活安全功能。

作文

In the realm of science and technology, the term quick-acting mechanism refers to a system or process that responds rapidly to stimuli or changes in the environment. This concept is particularly significant in fields such as medicine, engineering, and robotics, where timely responses can be critical to achieving desired outcomes. For instance, in medical applications, a quick-acting mechanism can be the difference between life and death, especially in emergency situations where every second counts.One notable example of a quick-acting mechanism is found in certain medications designed to alleviate acute pain or treat severe allergic reactions. These medications often contain active ingredients that are formulated to be absorbed rapidly into the bloodstream, providing immediate relief to patients. The effectiveness of these drugs lies not only in their chemical composition but also in the way they are delivered into the body. For instance, an epinephrine auto-injector is a device that exemplifies a quick-acting mechanism. When injected, it quickly counteracts the effects of anaphylaxis, allowing individuals to breathe easier and stabilize their condition until further medical help can be obtained.In engineering, the design of machines and devices often incorporates quick-acting mechanisms to enhance performance and efficiency. For example, in the automotive industry, modern vehicles are equipped with advanced braking systems that utilize hydraulic pressure to achieve rapid deceleration. These systems are engineered to react instantly when the driver applies the brakes, ensuring safety and control at high speeds. The quick-acting mechanism in this context not only improves the vehicle's responsiveness but also enhances the overall driving experience.Robotics is another field where quick-acting mechanisms play a crucial role. Robots designed for industrial automation often rely on swift actions to carry out tasks with precision and speed. For instance, robotic arms used in manufacturing processes must be able to move quickly and accurately to assemble components without delay. The integration of sensors and actuators allows these robots to detect changes in their environment and adjust their movements accordingly, showcasing the importance of quick-acting mechanisms in modern technology.Moreover, the concept of a quick-acting mechanism extends beyond physical systems to include psychological and social contexts. In crisis management, organizations often develop strategies that incorporate quick-acting mechanisms to respond to emergencies effectively. These strategies may involve training personnel to act swiftly in high-pressure situations, ensuring that they can mitigate risks and protect lives.In conclusion, the significance of a quick-acting mechanism cannot be overstated. Whether in medicine, engineering, robotics, or crisis management, the ability to respond rapidly to changing circumstances is essential for success. As technology continues to evolve, the development of even more sophisticated quick-acting mechanisms will likely pave the way for innovations that enhance our quality of life and improve safety across various domains. Understanding and harnessing the power of these mechanisms can lead to advancements that were once thought impossible, ultimately benefiting society as a whole.

在科学和技术领域，短语快速反应机制指的是一种能够迅速对刺激或环境变化做出反应的系统或过程。这个概念在医学、工程和机器人等领域尤为重要，因为及时的反应对于实现预期结果至关重要。例如，在医疗应用中，快速反应机制可能是生与死之间的区别，尤其是在紧急情况下，每一秒都至关重要。一个显著的例子是某些药物的设计，这些药物旨在缓解急性疼痛或治疗严重的过敏反应。这些药物通常含有被配方化为迅速被血液吸收的活性成分，从而为患者提供即时的缓解。这些药物的有效性不仅在于其化学成分，还在于它们如何被送入体内。例如，肾上腺素自动注射器就是一个体现了快速反应机制的设备。当注射后，它迅速对抗过敏性休克的效果，使个体能够更容易地呼吸并稳定他们的情况，直到进一步的医疗帮助可以获得。在工程领域，机器和设备的设计往往结合了快速反应机制以提高性能和效率。例如，在汽车工业中，现代车辆配备了先进的制动系统，利用液压压力实现快速减速。这些系统设计为在驾驶员踩下刹车时立即反应，确保在高速行驶时的安全和控制。在这种情况下，快速反应机制不仅提高了车辆的响应能力，还增强了整体驾驶体验。机器人技术是另一个快速反应机制发挥关键作用的领域。用于工业自动化的机器人通常依赖于迅速的动作来精确且快速地执行任务。例如，用于制造过程的机器人手臂必须能够快速而准确地移动，以便在没有延迟的情况下组装组件。传感器和执行器的集成使这些机器人能够检测环境变化，并相应调整其运动，展示了快速反应机制在现代技术中的重要性。此外，快速反应机制的概念不仅限于物理系统，还包括心理和社会背景。在危机管理中，组织往往制定包含快速反应机制的策略，以有效应对紧急情况。这些策略可能涉及培训人员在高压情况下迅速行动，确保他们能够减轻风险并保护生命。总之，快速反应机制的重要性不容小觑。无论是在医学、工程、机器人还是危机管理中，迅速应对变化的能力对成功至关重要。随着技术的不断发展，更复杂的快速反应机制的发展可能会为提升我们的生活质量和提高各个领域的安全性铺平道路。理解和利用这些机制的力量可以导致曾经被认为不可能的进步，最终使整个社会受益。