line layout

简明释义

按生产线的布置［即按产品的布置］

英英释义

例句

1.A good line layout 生产线布局 can significantly lower production costs.

良好的生产线布局可以显著降低生产成本。

2.The factory's line layout 生产线布局 was designed to maximize efficiency.

工厂的生产线布局被设计用来最大化效率。

3.The new line layout 生产线布局 improved our output by 20%.

新的生产线布局使我们的产量提高了20%。

4.The engineers presented a new line layout 生产线布局 for the assembly line.

工程师们为装配线提出了新的生产线布局。

5.We need to revise the line layout 生产线布局 to reduce bottlenecks.

我们需要修改生产线布局以减少瓶颈。

作文

In the world of manufacturing and production, efficiency is paramount. One of the key aspects that contribute to this efficiency is the design of the workspace, particularly the arrangement of machines and workstations. This arrangement is commonly referred to as the line layout, which is a systematic way of organizing equipment and personnel in a production line to maximize productivity. A well-designed line layout can significantly reduce the time taken for products to move from one stage of production to another, thereby enhancing overall workflow.The concept of line layout involves strategically placing machines and workstations in a manner that minimizes movement and transportation time. For instance, in an assembly line setup, each workstation is designed to perform a specific task, and the product moves along the line from one station to the next. This linear arrangement ensures that workers can focus on their specific tasks without unnecessary interruptions, leading to faster production rates.Moreover, the effectiveness of a line layout is influenced by various factors such as the type of product being manufactured, the volume of production, and the capabilities of the workforce. For example, in high-volume production environments, a straight-line layout may be most effective, as it allows for a continuous flow of materials and products. On the other hand, in situations where customization is required, a more flexible layout may be necessary to accommodate different product designs.Another important aspect of line layout is its impact on worker safety and ergonomics. A well-planned layout not only enhances productivity but also ensures that workers are not subjected to undue strain or hazards. For instance, placing tools and materials within easy reach can help prevent injuries and improve comfort levels, which in turn can lead to higher job satisfaction and lower turnover rates.In addition to physical arrangements, the concept of line layout also extends to the flow of information and communication within the production environment. Effective communication channels must be established to ensure that all workers are aware of their responsibilities and any changes in the production schedule. This is crucial for maintaining a smooth operation and addressing any issues that may arise during the production process.Furthermore, technology plays a significant role in optimizing line layout. The integration of automated systems, such as robotics and conveyor belts, can enhance the efficiency of the production line. These technologies can streamline processes, reduce human error, and increase the overall speed of production. As industries continue to evolve, the importance of adapting line layout to incorporate new technologies cannot be overstated.In conclusion, the design and implementation of an effective line layout are essential for achieving operational efficiency in manufacturing. By carefully considering the arrangement of workstations, the flow of materials, and the well-being of workers, companies can create a productive environment that meets the demands of modern production. Ultimately, a well-executed line layout not only boosts productivity but also contributes to the overall success of the organization in a competitive marketplace.

在制造和生产的世界中，效率至关重要。影响这种效率的关键方面之一是工作空间的设计，特别是机器和工作站的排列。这种排列通常被称为线性布局，是一种系统地组织设备和人员在生产线上的方式，以最大化生产力。一个设计良好的线性布局可以显著减少产品从一个生产阶段移动到另一个阶段所需的时间，从而提高整体工作流程。线性布局的概念涉及战略性地将机器和工作站放置在一种最小化移动和运输时间的方式。例如，在装配线设置中，每个工作站被设计为执行特定任务，产品沿着生产线从一个站点移动到下一个站点。这种线性排列确保工人可以专注于他们的特定任务，而不会受到不必要的干扰，从而导致更快的生产速度。此外，线性布局的有效性受到多种因素的影响，例如所制造产品的类型、生产量和劳动力的能力。例如，在高产量生产环境中，直线布局可能是最有效的，因为它允许材料和产品的连续流动。另一方面，在需要定制的情况下，可能需要更灵活的布局来适应不同的产品设计。线性布局的另一个重要方面是其对工人安全和人体工程学的影响。一个经过精心规划的布局不仅提高了生产力，还确保工人不受到不必要的压力或危险。例如，将工具和材料放置在易于触及的位置可以帮助防止受伤并提高舒适度，这反过来又可以导致更高的工作满意度和更低的员工流失率。除了物理安排外，线性布局的概念还扩展到生产环境中的信息和沟通流。必须建立有效的沟通渠道，以确保所有工人都了解他们的职责以及生产计划中的任何变化。这对于维护顺利的操作以及解决生产过程中可能出现的任何问题至关重要。此外，技术在优化线性布局中也发挥着重要作用。自动化系统（如机器人和传送带）的集成可以提高生产线的效率。这些技术可以简化流程，减少人为错误，并增加整体生产速度。随着行业的不断发展，适应新技术的线性布局的重要性不容忽视。总之，有效的线性布局的设计和实施对于实现制造业的运营效率至关重要。通过仔细考虑工作站的排列、材料的流动以及工人的福祉，公司可以创造出满足现代生产需求的高效环境。最终，一个执行良好的线性布局不仅提升了生产力，还为组织在竞争激烈的市场中的整体成功做出了贡献。