automatic discharge
简明释义
自动卸载
英英释义
例句
1.In the event of a power surge, the system will initiate an automatic discharge 自动放电 to protect the equipment.
在电涌发生时,系统将启动<自动放电>以保护设备。
2.After reaching full charge, the charger will perform an automatic discharge 自动放电 to balance the cells.
充电器在达到满电后会执行<自动放电>以平衡电池单元。
3.The safety protocol requires an automatic discharge 自动放电 in case of emergency shutdown.
安全协议要求在紧急关闭的情况下进行<自动放电>。
4.The device is designed to ensure an automatic discharge 自动放电 after a certain period of inactivity.
该设备设计为在一段时间不活动后确保<自动放电>。
5.The battery management system includes an automatic discharge 自动放电 feature to prolong battery life.
电池管理系统包括一项<自动放电>功能,以延长电池寿命。
作文
In the realm of engineering and technology, the term automatic discharge refers to a system or mechanism that allows for the release or expulsion of materials or energy without the need for manual intervention. This concept is particularly significant in various fields such as manufacturing, waste management, and even in medical applications. The efficiency and reliability of automatic discharge systems can greatly enhance operational productivity and safety.For instance, in manufacturing processes, automatic discharge systems are utilized to streamline the handling of raw materials and finished products. These systems can include conveyor belts that automatically transport items to different stages of production or machines that can automatically release excess materials, reducing waste and improving overall efficiency. By minimizing human interaction, these systems not only save time but also reduce the risk of accidents that could occur during manual handling.Moreover, in the context of waste management, automatic discharge plays a crucial role in ensuring that waste is efficiently processed and disposed of. Automated systems can be designed to manage the collection, sorting, and disposal of waste materials, which helps in maintaining cleanliness and hygiene in urban environments. For example, smart bins equipped with sensors can automatically discharge waste into larger containers when they reach capacity, thus preventing overflow and promoting more effective waste management practices.In the medical field, automatic discharge mechanisms are increasingly being integrated into healthcare devices. For example, infusion pumps can be programmed to deliver medication at set intervals and automatically discharge any remaining fluid once the dosage is complete. This not only ensures that patients receive their medications on time but also minimizes the chances of human error in administering treatments.The advantages of automatic discharge systems extend beyond mere convenience; they also contribute to cost savings. By automating processes, organizations can reduce labor costs and minimize the likelihood of errors that could lead to financial losses. Additionally, automatic discharge systems often require less maintenance than their manual counterparts, further decreasing operational costs.However, the implementation of automatic discharge systems is not without its challenges. Organizations must invest in training personnel to operate and maintain these systems effectively. There is also the need for regular monitoring and updates to ensure that the systems function correctly and safely. Furthermore, there may be initial costs associated with the installation of automated systems, which can deter some businesses from making the transition.In conclusion, the concept of automatic discharge is integral to modern engineering and technology, providing numerous benefits across various industries. From enhancing productivity in manufacturing to improving waste management and patient care in healthcare settings, the impact of automatic discharge systems is profound. As technology continues to advance, we can expect to see even more innovative applications of automatic discharge that will further revolutionize how we operate in both industrial and everyday contexts.
在工程和技术领域,术语自动排放指的是一种系统或机制,允许材料或能量的释放或排出,而无需人工干预。这个概念在制造、废物管理甚至医疗应用等各个领域都特别重要。自动排放系统的效率和可靠性可以极大地提高操作的生产力和安全性。例如,在制造过程中,自动排放系统用于简化原材料和成品的处理。这些系统可以包括自动运输物品到生产不同阶段的输送带,或可以自动释放多余材料的机器,从而减少浪费并改善整体效率。通过最小化人类的互动,这些系统不仅节省了时间,还降低了在手动处理过程中可能发生的事故风险。此外,在废物管理的背景下,自动排放在确保废物得到有效处理和处置方面发挥着至关重要的作用。可以设计自动化系统来管理废物材料的收集、分类和处置,这有助于维护城市环境的清洁和卫生。例如,配备传感器的智能垃圾箱可以在达到容量时自动将废物排入更大的容器,从而防止溢出,并促进更有效的废物管理实践。在医疗领域,越来越多的自动排放机制被整合到医疗设备中。例如,输液泵可以被编程为在设定间隔内输送药物,并在剂量完成后自动排放剩余液体。这不仅确保患者按时接受药物,还最大限度地减少了在给药过程中可能出现的人为错误。自动排放系统的优势超越了便利性;它们还为节省成本做出了贡献。通过自动化流程,组织可以降低劳动力成本,并最小化可能导致财务损失的错误的可能性。此外,自动排放系统通常比其手动对应物需要更少的维护,从而进一步降低运营成本。然而,实施自动排放系统并非没有挑战。组织必须投资于培训人员,以有效地操作和维护这些系统。还需要定期监控和更新,以确保系统正常和安全运行。此外,安装自动化系统可能会产生初始成本,这可能会阻碍一些企业进行转型。总之,自动排放的概念是现代工程和技术不可或缺的一部分,为各个行业提供了许多好处。从提高制造业的生产力到改善废物管理和医疗保健中的患者护理,自动排放系统的影响深远。随着技术的不断进步,我们可以期待看到更多创新的自动排放应用,这将进一步革新我们在工业和日常生活中的运作方式。
