all hydraulic
简明释义
全液压的;
英英释义
Referring to a system or mechanism that operates entirely through the use of hydraulic fluid under pressure. | 指的是一个完全通过高压液压流体操作的系统或机制。 |
例句
1.Our construction team prefers all hydraulic machinery for its efficiency and power.
我们的施工团队更喜欢全液压机械,因为它的效率和动力。
2.The new excavator is designed to be all hydraulic, which means it operates entirely on hydraulic power.
这款新挖掘机设计为全液压,意味着它完全依靠液压动力操作。
3.The all hydraulic system in this loader reduces maintenance costs significantly.
这台装载机的全液压系统显著降低了维护成本。
4.With an all hydraulic design, the backhoe can maneuver in tight spaces more easily.
由于采用了全液压设计,反铲斗可以更轻松地在狭小空间内操控。
5.This model of crane is all hydraulic, allowing for smoother lifting operations.
这种型号的起重机是全液压的,允许更平稳的提升操作。
作文
In recent years, the construction industry has seen a significant shift towards more efficient and sustainable methods. One of the most notable advancements in this field is the use of technology that is described as all hydraulic. This term refers to systems that rely entirely on hydraulic power for their operations, eliminating the need for mechanical components that can wear out or fail over time. The adoption of all hydraulic systems has revolutionized the way heavy machinery operates, leading to improved performance, reduced maintenance costs, and enhanced safety features.The core principle behind all hydraulic technology is the use of fluid mechanics to transmit power. Hydraulic systems utilize pressurized fluid to create motion and force, making them incredibly efficient for lifting, pushing, and pulling heavy loads. For instance, excavators equipped with all hydraulic systems can easily dig into tough soil and move large amounts of earth without the risk of mechanical breakdowns that traditional machines face.Moreover, the design of all hydraulic systems allows for greater versatility and adaptability. Operators can adjust the flow of hydraulic fluid to control the speed and force of the machinery with precision. This level of control not only enhances productivity but also minimizes the chances of accidents on job sites. With less reliance on mechanical parts, the risks associated with wear and tear are significantly reduced, leading to safer working conditions for operators.Another advantage of all hydraulic systems is their environmental impact. Traditional machinery often relies on fossil fuels and emits harmful pollutants. In contrast, many all hydraulic systems can be powered by electricity or biofuels, contributing to a greener construction industry. This shift towards sustainability is crucial as companies strive to meet stricter environmental regulations and reduce their carbon footprint.Furthermore, the implementation of all hydraulic technology aligns with the growing trend of automation in construction. As the industry embraces digital transformation, integrating hydraulic systems with smart technology enables real-time monitoring and data analysis. This innovation allows for predictive maintenance, meaning potential issues can be identified and resolved before they lead to costly downtime.Despite the numerous benefits, transitioning to all hydraulic systems does require an initial investment. Companies must consider the costs associated with new equipment and training for their workforce. However, the long-term savings through reduced maintenance and increased efficiency often outweigh these initial expenses.In conclusion, the rise of all hydraulic systems in the construction industry represents a significant leap forward in technology. With their efficiency, safety, and environmental benefits, these systems are paving the way for a more sustainable future in construction. As we continue to innovate and adapt to the challenges of modern construction, the role of all hydraulic technology will undoubtedly become even more prominent, shaping the landscape of the industry for years to come.
近年来,建筑行业经历了向更高效和可持续方法的显著转变。其中一个最显著的进展是使用被称为全液压的技术。这个术语指的是完全依赖液压动力进行操作的系统,消除了机械部件的需求,这些机械部件可能会随着时间的推移而磨损或失效。采用全液压系统彻底改变了重型机械的操作方式,导致了性能提高、维护成本降低和安全特性增强。全液压技术的核心原理是利用流体力学传递动力。液压系统利用加压液体来创造运动和力量,使其在提升、推动和拉动重物方面极为高效。例如,配备全液压系统的挖掘机可以轻松地挖掘坚硬的土壤,并移动大量的土方,而不必担心传统机器面临的机械故障风险。此外,全液压系统的设计允许更大的灵活性和适应性。操作员可以调整液压液体的流量,以精确控制机械的速度和力量。这种控制水平不仅提高了生产力,还最小化了工地上发生事故的机会。由于对机械部件的依赖较少,与磨损相关的风险显著降低,从而为操作员创造了更安全的工作环境。全液压系统的另一个优势是其对环境的影响。传统机械通常依赖化石燃料并排放有害污染物。相比之下,许多全液压系统可以通过电力或生物燃料供电,从而为建筑行业的绿色发展做出贡献。这种向可持续发展的转变至关重要,因为公司努力满足更严格的环境法规并减少其碳足迹。此外,将全液压技术应用于建筑行业与日益增长的自动化趋势相一致。随着行业拥抱数字化转型,将液压系统与智能技术集成使实时监控和数据分析成为可能。这一创新使得预测性维护成为可能,意味着潜在问题可以在导致昂贵停机之前被识别和解决。尽管有众多好处,过渡到全液压系统确实需要初始投资。公司必须考虑新设备和员工培训相关的费用。然而,通过减少维护和提高效率所带来的长期节省通常会超过这些初始费用。总之,全液压系统在建筑行业的崛起代表了技术的重大飞跃。凭借其效率、安全性和环境效益,这些系统正在为建筑领域的可持续未来铺平道路。随着我们继续创新并适应现代建筑的挑战,全液压技术的作用无疑会变得更加突出,塑造未来几年行业的面貌。
相关单词
