assembly line

简明释义

组装线

英英释义

例句

1.Innovations in technology have transformed the traditional assembly line 装配线 into a highly automated process.

技术的创新将传统的装配线 assembly line转变为高度自动化的过程。

2.The car manufacturer relies heavily on its assembly line 装配线 for mass production.

这家汽车制造商在大规模生产中严重依赖其装配线 assembly line。

3.Each worker is responsible for a specific task on the assembly line 装配线.

每个工人在装配线 assembly line上负责特定的任务。

4.Workers on the assembly line 装配线 must follow strict safety protocols.

在装配线 assembly line上的工人必须遵循严格的安全规程。

5.The factory implemented a new assembly line 装配线 to increase production efficiency.

工厂实施了一条新的装配线 assembly line以提高生产效率。

作文

The concept of the assembly line has revolutionized the manufacturing process, allowing for mass production of goods in a more efficient manner. An assembly line refers to a series of workers and machines in a factory that assemble products in a sequential manner. This method was popularized by Henry Ford in the early 20th century when he introduced it to automobile production. By breaking down the manufacturing process into smaller, repetitive tasks, Ford was able to significantly reduce the time it took to produce a car. The use of the assembly line has several advantages. Firstly, it increases productivity. Workers become specialized in their tasks, which allows them to work faster and with greater precision. For instance, in a car manufacturing plant, one worker may be responsible for attaching the doors, while another handles the installation of the engine. This specialization leads to a smoother workflow and minimizes downtime. Secondly, the assembly line reduces production costs. With increased efficiency, companies can produce more goods in less time, which lowers labor costs and increases profitability. However, the assembly line is not without its drawbacks. One significant downside is the potential for worker dissatisfaction. The repetitive nature of the tasks can lead to monotony and boredom, which may affect employee morale and productivity. Additionally, if a problem arises at any point in the assembly line, it can halt the entire production process. For example, if a machine breaks down or a worker makes an error, it can cause delays that impact the overall output. Despite these challenges, the assembly line remains a fundamental aspect of modern manufacturing. It has evolved over the years, incorporating advanced technologies such as robotics and automation to further enhance efficiency. Today, many factories utilize automated assembly lines that require minimal human intervention, allowing for even faster production rates. Moreover, the principles of the assembly line have been applied beyond traditional manufacturing. In industries such as food processing, electronics, and even software development, the idea of breaking down complex processes into simpler, manageable tasks has proven effective. For example, in software development, Agile methodologies often employ a form of assembly line approach where tasks are divided among team members to streamline the development process. In conclusion, the assembly line has played a crucial role in shaping the way products are manufactured today. While it offers numerous benefits in terms of productivity and cost reduction, it also presents challenges that need to be managed. As technology continues to advance, the assembly line will likely evolve further, adapting to the demands of modern industry while maintaining its core principles of efficiency and specialization.

“流水线”这一概念彻底改变了制造过程，使得商品的大规模生产变得更加高效。“流水线”是指工厂中一系列工人和机器按照顺序组装产品的方法。这个方法在20世纪初由亨利·福特推广，当时他将其引入汽车生产中。通过将制造过程拆分为更小的重复性任务，福特能够显著减少生产一辆汽车所需的时间。使用“流水线”有几个优点。首先，它提高了生产力。工人们在各自的任务上变得专业化，这使他们能够更快、更精确地工作。例如，在一家汽车制造厂，一名工人可能负责安装车门，而另一名则处理发动机的安装。这种专业化导致了更顺畅的工作流程，并最大限度地减少了停工时间。其次，“流水线”降低了生产成本。随着效率的提高，公司可以在更短的时间内生产更多的商品，从而降低了劳动力成本并增加了盈利能力。然而，“流水线”并非没有缺点。一个显著的缺点是可能导致工人不满。任务的重复性可能导致单调和乏味，这可能影响员工的士气和生产力。此外，如果在“流水线”的任何环节出现问题，可能会导致整个生产过程的停滞。例如，如果某台机器发生故障或某位工人犯了错误，可能会造成影响整体产出的延误。尽管面临这些挑战，“流水线”仍然是现代制造业的基本组成部分。多年来，它不断演变，融入先进的技术，如机器人和自动化，以进一步提高效率。如今，许多工厂利用自动化“流水线”，这需要最少的人力干预，从而实现更快的生产速度。此外，“流水线”的原则也被应用于传统制造业之外的领域。在食品加工、电子产品以及软件开发等行业，将复杂过程分解为更简单、可管理的任务的想法被证明是有效的。例如，在软件开发中，敏捷方法论通常采用一种“流水线”的方式，将任务分配给团队成员，以简化开发过程。总之，“流水线”在塑造当今产品制造方式中发挥了至关重要的作用。虽然它在生产力和成本降低方面提供了许多好处，但也带来了需要管理的挑战。随着技术的不断进步，“流水线”可能会进一步发展，适应现代工业的需求，同时保持其效率和专业化的核心原则。