multiplying assembly

简明释义

倍增装置

英英释义

例句

1.The factory implemented a new multiplying assembly system to increase production efficiency.

工厂实施了一个新的倍增装配系统，以提高生产效率。

2.By using multiplying assembly, we can produce more units in less time.

通过使用倍增装配，我们可以在更短的时间内生产更多的单位。

3.The engineers designed a multiplying assembly that could handle multiple tasks simultaneously.

工程师设计了一种可以同时处理多个任务的倍增装配。

4.Our new multiplying assembly technique reduces waste and maximizes output.

我们新的倍增装配技术减少了浪费并最大化了产出。

5.The multiplying assembly line is crucial for meeting our quarterly production goals.

这条倍增装配生产线对实现我们的季度生产目标至关重要。

作文

In the world of modern technology, we often hear terms that are specific to certain fields. One such term is multiplying assembly, which refers to a process or mechanism that enhances the efficiency of production by increasing the number of items produced simultaneously. This concept is particularly relevant in manufacturing and engineering, where the goal is to optimize output while minimizing time and resources. Understanding the significance of multiplying assembly can lead to improved productivity and innovation in various industries.To illustrate the importance of multiplying assembly, let’s consider a hypothetical factory that produces electronic components. Traditionally, each component might be assembled one at a time, which can be time-consuming and labor-intensive. However, by implementing a multiplying assembly approach, the factory can design a system where multiple components are assembled at once. This not only speeds up the production process but also reduces the risk of errors, as the assembly line can be calibrated to operate with precision.The advantages of multiplying assembly extend beyond just speed and accuracy. It also allows for better resource management. When multiple products are assembled together, the use of materials can be optimized, leading to less waste. For example, if a factory can assemble ten units at a time instead of one, the amount of raw materials used in each cycle is reduced, thereby lowering costs and contributing to sustainability efforts.Moreover, multiplying assembly fosters innovation within organizations. With increased efficiency, companies can allocate more time and resources to research and development. This means they can experiment with new designs and technologies, ultimately leading to better products and services. In a competitive market, being able to innovate quickly can be a significant advantage.However, implementing a multiplying assembly strategy is not without its challenges. Companies must invest in advanced machinery and training for their workforce to handle the complexities of simultaneous assembly processes. There is also the need for careful planning to ensure that the entire production line is synchronized. If one part of the assembly process fails, it can halt the entire operation, leading to delays and increased costs.In conclusion, the concept of multiplying assembly plays a crucial role in enhancing production efficiency across various industries. By allowing for the simultaneous assembly of multiple items, this approach not only speeds up manufacturing processes but also promotes better resource management and innovation. While there are challenges associated with its implementation, the potential benefits make it a valuable strategy for companies looking to improve their operations. As technology continues to advance, the importance of multiplying assembly will likely grow, paving the way for more efficient and sustainable production methods in the future.

在现代科技的世界中，我们常常会听到一些特定领域的术语。其中一个术语是乘法装配，它指的是一种通过同时增加生产项目数量来提高生产效率的过程或机制。这个概念在制造和工程领域尤为相关，其目标是在最小化时间和资源的同时优化产出。理解乘法装配的重要性可以促进各个行业的生产力和创新。为了说明乘法装配的重要性，让我们考虑一个假设的工厂，该工厂生产电子元件。传统上，每个元件可能是一件一件地组装，这样可能会耗时且劳动密集。然而，通过实施乘法装配的方法，工厂可以设计一个系统，在一次组装多个组件。这不仅加快了生产过程，还减少了错误的风险，因为装配线可以精确校准以运行。乘法装配的优势不仅仅体现在速度和准确性上。它还允许更好的资源管理。当多个产品一起组装时，材料的使用可以得到优化，从而减少浪费。例如，如果工厂能一次组装十个单元而不是一个，那么每个周期使用的原材料量就会减少，从而降低成本并有助于可持续发展。此外，乘法装配还促进了组织内部的创新。随着效率的提高，公司可以分配更多的时间和资源用于研究和开发。这意味着他们可以尝试新的设计和技术，最终导致更好的产品和服务。在竞争激烈的市场中，能够快速创新可以成为一个重要的优势。然而，实施乘法装配策略并非没有挑战。公司必须投资于先进的机械设备，并对其员工进行培训，以处理同时组装过程的复杂性。此外，还需要仔细规划，以确保整个生产线的同步。如果装配过程中的一个环节出现故障，可能会导致整个操作停滞，从而导致延误和成本增加。总之，乘法装配的概念在提高各个行业的生产效率方面发挥着至关重要的作用。通过允许同时组装多个物品，这种方法不仅加快了制造过程，还促进了更好的资源管理和创新。尽管实施过程中存在挑战，但潜在的好处使其成为希望改善运营的公司的宝贵策略。随着技术的不断进步，乘法装配的重要性可能会进一步增长，为未来更高效和可持续的生产方法铺平道路。