pneumatic steering gear

简明释义

气动式舵机

英英释义

例句

1.Our yacht is equipped with a state-of-the-art pneumatic steering gear for enhanced maneuverability.

我们的游艇配备了最先进的气动舵机以增强机动性。

2.The captain relied on the pneumatic steering gear to make sharp turns during the regatta.

船长依靠气动舵机在比赛中进行急转弯。

3.The pneumatic steering gear system is known for its quick response time.

气动舵机系统以其快速响应时间而闻名。

4.During the maintenance check, the engineer inspected the pneumatic steering gear for any signs of wear.

在维护检查中，工程师检查了气动舵机是否有磨损迹象。

5.The ship's pneumatic steering gear allows for precise navigation even in rough waters.

船只的气动舵机即使在恶劣水域也能实现精确导航。

作文

The evolution of technology has significantly impacted various industries, particularly in the realm of transportation. One of the most fascinating advancements is the development of the pneumatic steering gear (气动转向装置), which has revolutionized how vehicles and machinery are controlled. This innovative system utilizes compressed air to facilitate steering, offering several advantages over traditional mechanical systems.To understand the significance of pneumatic steering gear, we must first explore its components and functionality. The core of this system consists of a pneumatic actuator, which converts compressed air into mechanical motion. When the driver turns the steering wheel, it triggers the actuator, allowing for precise control of the vehicle's direction. Unlike conventional steering mechanisms that rely on physical linkages and hydraulic fluids, the pneumatic steering gear operates with air pressure, making it lighter and often more responsive.One of the primary benefits of using a pneumatic steering gear is its weight efficiency. Vehicles equipped with this system tend to be lighter, which can lead to improved fuel efficiency and enhanced performance. The reduction in weight is especially advantageous in industries where every kilogram counts, such as aerospace and automotive engineering. Moreover, the use of air as a medium reduces the risk of fluid leaks, a common issue in hydraulic systems that can lead to maintenance challenges and environmental concerns.In addition to weight savings, the pneumatic steering gear offers superior responsiveness. The immediate reaction to steering inputs allows for a more dynamic driving experience, crucial for high-performance applications like racing or heavy machinery operation. Operators can achieve sharp turns and quick adjustments without the lag often associated with traditional steering systems.Moreover, the pneumatic steering gear is known for its adaptability. It can be integrated into various types of vehicles, from cars to trucks, and even specialized equipment like cranes and forklifts. This versatility makes it an attractive option for manufacturers looking to enhance their product offerings. As industries continue to push for greater efficiency and performance, the demand for such innovative technologies will likely grow.However, there are also challenges associated with pneumatic steering gear. The reliance on compressed air means that the system requires a constant supply of air, which can complicate design and operational logistics. Additionally, while the technology is advancing, it may not yet match the reliability and robustness of established hydraulic systems in certain heavy-duty applications.In conclusion, the pneumatic steering gear (气动转向装置) represents a significant leap forward in steering technology. Its lightweight design, responsiveness, and adaptability make it an appealing choice for many applications. As research and development continue, we can expect to see further improvements that will address current limitations and expand the use of this innovative steering solution across various industries. The future of transportation and machinery control may very well hinge on advancements like the pneumatic steering gear, paving the way for more efficient and effective systems that meet the demands of modern society.

科技的进步对各个行业产生了显著影响，尤其是在交通运输领域。其中一个最引人注目的发展是气动转向装置的出现，它彻底改变了车辆和机械的控制方式。这种创新系统利用压缩空气来促进转向，相较于传统的机械系统，提供了多种优势。要理解气动转向装置的重要性，我们首先必须探讨其组成部分和功能。该系统的核心由一个气动执行器组成，它将压缩空气转化为机械运动。当驾驶员转动方向盘时，它会触发执行器，从而实现对车辆方向的精确控制。与依赖物理连接和液压流体的传统转向机制不同，气动转向装置使用空气压力进行操作，使其更轻且通常反应更快。使用气动转向装置的主要好处之一是其重量效率。配备该系统的车辆往往更轻，这可以提高燃油效率并增强性能。在航空航天和汽车工程等每千克都至关重要的行业中，减轻重量尤其具有优势。此外，使用空气作为介质减少了液体泄漏的风险，这是液压系统中常见的问题，可能导致维护挑战和环境问题。除了重量节省外，气动转向装置还提供了卓越的响应性。对转向输入的即时反应使得驾驶体验更加动态，对于赛车或重型机械操作等高性能应用至关重要。操作人员可以在没有传统转向系统常见延迟的情况下，实现急转弯和快速调整。此外，气动转向装置以其适应性而闻名。它可以集成到各种类型的车辆中，从汽车到卡车，甚至是起重机和叉车等专业设备。这种多功能性使其成为制造商寻求提升产品吸引力的理想选择。随着各行业不断追求更高的效率和性能，对此类创新技术的需求可能会持续增长。然而，气动转向装置也面临一些挑战。对压缩空气的依赖意味着该系统需要持续的空气供应，这可能会复杂化设计和操作物流。此外，尽管技术正在进步，但在某些重型应用中，其可靠性和坚固性可能尚未达到成熟液压系统的水平。总之，气动转向装置（气动转向装置）代表了转向技术的重大飞跃。其轻量设计、响应性和适应性使其成为许多应用的吸引选择。随着研究和开发的持续推进，我们可以期待看到进一步的改进，以解决当前的局限性，并扩大这一创新转向解决方案在各个行业的应用。交通运输和机械控制的未来很可能依赖于如气动转向装置这样的进步，为满足现代社会的需求铺平了道路。