power-operated system
简明释义
动力操纵系统
英英释义
例句
1.The factory uses a power-operated system for its assembly line, which increases efficiency.
工厂使用一个电动系统来进行装配线工作,从而提高了效率。
2.In modern vehicles, the power-operated system controls various features like windows and seats.
在现代汽车中,电动系统控制着窗户和座椅等各种功能。
3.The theater has a power-operated system for adjusting the stage lights remotely.
剧院有一个电动系统可以远程调节舞台灯光。
4.The farm uses a power-operated system for irrigation, making it easier to manage water resources.
农场使用一个电动系统进行灌溉,使水资源管理变得更容易。
5.Many elevators are equipped with a power-operated system to ensure smooth operation.
许多电梯配备了一个电动系统以确保平稳运行。
作文
In today's rapidly advancing technological landscape, the concept of a power-operated system has become increasingly prevalent. A power-operated system refers to any mechanism or device that is driven by an external source of energy, typically electricity, hydraulic fluid, or compressed air. These systems are integral to various industries, from manufacturing to transportation, and they play a crucial role in enhancing efficiency and productivity.One of the most common examples of a power-operated system can be found in modern automobiles. Vehicles today are equipped with numerous power-operated systems that control everything from power steering to braking mechanisms. The implementation of these systems has not only improved safety but also provided a smoother driving experience. For instance, power steering allows drivers to maneuver their vehicles with ease, even at low speeds, which is particularly beneficial in urban environments where tight turns and parking are frequent.Moreover, the use of power-operated systems extends beyond transportation. In industrial settings, machinery such as conveyor belts, robotic arms, and automated assembly lines rely heavily on these systems to operate efficiently. The automation of these processes has revolutionized manufacturing, enabling companies to produce goods at a scale and speed that was previously unimaginable. This shift has led to significant cost savings and has allowed businesses to meet the ever-increasing demands of consumers.Another area where power-operated systems have made a significant impact is in the realm of home appliances. From washing machines to refrigerators, many household devices now utilize power-operated systems to enhance functionality and user convenience. For example, a modern washing machine employs a power-operated system to automate the washing process, allowing users to simply load their clothes and select the desired settings without manual intervention. This not only saves time but also ensures a consistent level of performance.However, it is essential to recognize that while power-operated systems offer numerous advantages, they also come with challenges. One primary concern is the dependency on electrical power sources. In regions where electricity supply is unreliable, the effectiveness of power-operated systems can be severely compromised. Additionally, as these systems become more complex, the potential for mechanical failures increases, which can lead to costly repairs and downtime.Furthermore, the environmental impact of power-operated systems cannot be overlooked. Many of these systems consume significant amounts of energy, contributing to carbon emissions and other environmental issues. As a result, there is a growing emphasis on developing more sustainable power-operated systems that minimize energy consumption and reduce waste. Innovations such as energy-efficient motors and renewable energy sources are paving the way for greener alternatives that maintain performance while being environmentally responsible.In conclusion, the significance of power-operated systems in our daily lives and various industries cannot be overstated. They have transformed the way we drive, manufacture, and manage our homes, leading to increased efficiency and convenience. However, it is crucial to address the challenges associated with their use, including energy dependence and environmental impact. As technology continues to evolve, the future of power-operated systems will likely focus on sustainability and resilience, ensuring that they remain a vital component of modern society while minimizing their ecological footprint.
在当今快速发展的技术环境中,‘电力驱动系统’的概念变得越来越普遍。‘电力驱动系统’是指任何由外部能源源驱动的机制或设备,通常是电力、液压流体或压缩空气。这些系统在各个行业中都是不可或缺的,从制造业到运输业,它们在提高效率和生产力方面发挥着至关重要的作用。最常见的‘电力驱动系统’的例子可以在现代汽车中找到。如今的车辆配备了许多‘电力驱动系统’,控制从动力转向到制动机制的所有功能。这些系统的实施不仅提高了安全性,而且提供了更平稳的驾驶体验。例如,动力转向使驾驶者即使在低速时也能轻松操控车辆,这在城市环境中尤为有利,因为那里经常需要紧急转弯和停车。此外,‘电力驱动系统’的使用超越了交通运输。在工业环境中,诸如输送带、机器人手臂和自动化装配线等机械设备在很大程度上依赖这些系统来高效运行。这些过程的自动化彻底改变了制造业,使公司能够以以前无法想象的规模和速度生产商品。这一转变导致了显著的成本节约,并使企业能够满足消费者日益增长的需求。‘电力驱动系统’对家庭电器领域的影响也不容小觑。从洗衣机到冰箱,许多家用设备现在利用‘电力驱动系统’来增强功能和用户便利性。例如,现代洗衣机采用‘电力驱动系统’来自动化洗涤过程,让用户只需加载衣物并选择所需设置,无需人工干预。这不仅节省了时间,还确保了性能的一致性。然而,必须认识到,尽管‘电力驱动系统’提供了许多优势,但它们也带来了挑战。一个主要问题是对电力来源的依赖。在电力供应不可靠的地区,‘电力驱动系统’的有效性可能会受到严重影响。此外,随着这些系统变得更加复杂,机械故障的潜在风险增加,这可能导致昂贵的维修和停工。此外,‘电力驱动系统’对环境的影响也不能被忽视。许多这些系统消耗大量能源,导致碳排放和其他环境问题。因此,越来越强调开发更可持续的‘电力驱动系统’,以最小化能耗和减少浪费。能源效率电机和可再生能源等创新正在为绿色替代方案铺平道路,这些方案在保持性能的同时又负责任地对待环境。总之,‘电力驱动系统’在我们日常生活和各个行业中的重要性不容小觑。它们改变了我们的驾驶、制造和管理家庭的方式,提高了效率和便利性。然而,必须解决与其使用相关的挑战,包括能源依赖和环境影响。随着技术的不断发展,未来的‘电力驱动系统’可能将重点放在可持续性和韧性上,确保它们在现代社会中仍然是一个重要组成部分,同时最小化其生态足迹。
