小程序
传感搜
传感圈

Why Should You Use Low-Code Platform for Lean Manufacturing?

2022-07-19
关注

Illustration: © IoT For All

Lean manufacturing seeks to eliminate or minimize waste and make the production process more efficient. The goal is to streamline production operations while improving customer satisfaction. To deliver on this goal, lean manufacturing optimizes the organization’s production process by adopting a laser focus on the customer. Overall, lean manufacturing is all about removing things that do not add value, thus delivering a product based on customers’ needs and expectations. Using a low-code platform with manufacturing can aid manufacturers in solving an array of issues.

Several studies suggest that production processes in operations only add value 5 percent of the time while the other 95 percent are waste. Waste in the production process refers to any operation that does not add value and is irrelevant to the customer. This includes transport, motion, inventory, over-processing, waiting, defects, and over-production. This is where lean manufacturing becomes critical and low-code software can aid in the process.

'Low-code/no-code helps manufacturers implement a lean manufacturing approach and advance towards Industry 4.0 revolution. ' -Amy Groden-MorrisonClick To Tweet

Benefits of Lean Manufacturing

The philosophy of lean manufacturing was developed by Toyota Production System, one of the biggest and most successful automobile manufacturers. Toyota pioneered lean manufacturing principles, including just-in-time manufacturing marked by low inventory levels, high levels of automation supervised by a few human workers to control the quality of the product (called jidoka), and reduction of downtime. Let’s take a look at a few specific benefits of lean manufacturing.

#1: Improvement in Customer Service

Adding value for the customer is the first principle of lean manufacturing. It focuses on what customers need or want and when they want it. A company can only be successful if its customers are satisfied. As long as the company provides customers with the products they need at the right time, they will keep returning, and the business will thrive.

#2: Ease of Management

One of the most significant benefits of lean manufacturing is the reduction of human resources. It focuses on achieving more with fewer people. The decrease in the workforce means there are fewer people to manage. This means that a single operator can easily manage many types of equipment. Lean manufacturing is a bottom-up approach where workers try to improve their performance.

#3: Improvement in Quality and Reduction of Defects

Reducing waste and additional costs increase product value and thus quality. Any defects in quality manufacturing are also eliminated easily.

#4: Waste Minimization

One of the essential principles of lean manufacturing is waste minimization. Reduction of waste improves the quality and speed of the production process while increasing value for the customer.

#5: Financial Savings

The reduction in waste and defects brings high financial benefits for manufacturers. The money saved can be used for quality improvement and meeting customers’ needs.

#6: Saving Supply Inventory

With higher quality materials and fewer defects, supply inventory during the production process is saved. This means saving up supply materials during the process.

What Is Low-Code Software?

The lean manufacturing approach focuses on waste reduction and optimization of the production process. To effectively implement a lean manufacturing approach, manufacturers have to minimize the usage of materials and reduce any production defects. To accomplish this, manufacturers need to effectively track all aspects of the production process, i.e., the points of highest scrap production, highest usage of materials and quality problems, etc. Manufacturers must have faster, easier ways for employees to collect data and monitor systems on the production floor or as part of the quality management process. Traditional paper forms just don’t offer the speed, accuracy, and rich data collection modern manufacturers require.

The solution is low-code/no-code software that helps manufacturers digitize the collection of data to closely track these aspects of the production process. Low-code allows employees who cannot code apps, or “citizen developers,” to quickly develop powerful apps that can track the manufacturing processes (like inventory, inspections, etc.). This allows manufacturers to adopt lean manufacturing practices at a much lower price without hiring experienced developers. In case of any market changes, citizen developers can easily upgrade the software. With low-code/no-code solutions, manufacturers can build quality apps that easily collect data on any mobile device. This allows manufacturing teams to quickly implement lean manufacturing practices more quickly, affordably, and easily.

Low-Code for Lean Manufacturing

Here are a few ways in which low-code furthers lean manufacturing.

More Agility and Greater Automation

As discussed above, quick and efficient delivery is one of the main principles of lean manufacturing. It focuses on delivering products to the customers quickly and easily without any barriers. With low-code/no-code software, manufacturers can create mobile-friendly applications almost ten times faster than with traditional app development techniques. Unlike apps developed the traditional way, low-code/no-code allows for easy and quick changes or updates. Low-code/no-code allows for automation of different processes, including job assignments, user instructions, work instructions, etc. This streamlines the entire production process, allowing managers stay-at-the-top of the incoming, completed, and delayed tasks.

Implementing Smart Factories

With the help of low-code platforms, manufacturers get access to real-time data that reflects the machine output, thus gaining greater visibility and productivity. This real-time data is also helpful in pre-empting maintenance needs, which normally require a large downtime.

Like other industries, the manufacturing sector is rapidly evolving to catch up with the incoming wave of digital transformation. The manufacturing sector is entering Industry 4.0 (smart factories) that is powered by technologies like machine learning, artificial intelligence, cloud computing, advanced analytics, etc. Low-code/no-code platforms can help in implementing smart factories by reducing data silos by integrating data from different systems into a single application, predicting real-time customer demands even in the most precarious times, and improving efficiency by interweaving all the systems and processes together.

Since the organizations get real-time signals of what’s happening on the production floor, they are in a much better place with regard to improving the efficiency of the entire process. For instance, the 5S audit app, built on low-code software, allows for a quick and efficient visual management of the working facility. 5S helps eliminate any unnecessary items, movement, inventory, and time daily. This improves the efficiency and safety of workers. Such integration of systems also helps the workers who now have to manage fewer interfaces while switching between systems.

Continuous Development

Disorganized production processes can create chaos on the production floor. As discussed above, low-code platforms can help develop apps that provide greater visibility to the manufacturer. This allows manufacturers to track the time taken in each segment of the process and understand the best practices associated with it. Then, manufacturers can integrate the best practices into their workflows to ensure that their workers are working to a minimum working standard. Low-code apps can be customized to track workers’ activities, location, and productivity. With such access to multiple data points, both workers and managers work together to maximize their performance and productivity, which is one of the key aspects of lean manufacturing.

The Low-Code Approach

Low-code/no-code helps manufacturers implement a lean manufacturing approach and advance towards Industry 4.0 revolution. The goal is to streamline production operations while improving customer satisfaction. To effectively implement a lean manufacturing approach, manufacturers could benefit from utilizing low-code/no-code software to digitize their collection of data and closely track the production process.

Tweet

Share

Share

Email

  • Manufacturing
  • Manufacturing Analytics
  • Smart Manufacturing

  • Manufacturing
  • Manufacturing Analytics
  • Smart Manufacturing

参考译文
精益制造为什么要使用低代码平台?
精益生产寻求消除或减少浪费,使生产过程更高效。目标是在提高客户满意度的同时简化生产操作。为了实现这一目标,精益制造通过以客户为中心来优化组织的生产过程。总的来说,精益制造就是去除那些不能增加价值的东西,从而根据客户的需求和期望交付产品。在制造业中使用低代码平台可以帮助制造商解决一系列问题。几项研究表明,生产过程在运作中只增加了5%的时间价值,而其他95%的时间都是浪费。生产过程中的浪费是指任何不增加价值,与客户无关的操作。这包括运输、移动、库存、过度加工、等待、缺陷和生产过剩。这就是精益制造变得至关重要的地方,低代码的软件可以在这个过程中提供帮助。精益生产的理念是由最大最成功的汽车制造商之一丰田生产系统开发的。丰田首创了精益制造原则,包括以低库存水平为标志的即时制造、由少数人工监督的高水平自动化来控制产品质量(称为jidoka),以及减少停机时间。让我们来看看精益制造的一些具体好处。为客户增值是精益制造的首要原则。它关注的是顾客需要什么,什么时候需要。一个公司只有在顾客满意的情况下才能成功。只要公司在正确的时间为客户提供他们需要的产品,他们就会不断返回,生意就会兴旺。精益制造最显著的好处之一是减少人力资源。它专注于用更少的人获得更多。劳动力的减少意味着需要管理的人变少了。这意味着一个操作人员可以轻松地管理多种类型的设备。精益制造是一种自下而上的方法,工人试图提高他们的表现。减少浪费和额外成本可以提高产品价值和质量。质量制造中的任何缺陷也很容易消除。精益生产的基本原则之一是最小化浪费。减少浪费可以提高生产过程的质量和速度,同时为客户增加价值。减少浪费和缺陷为制造商带来了很高的经济效益。节省下来的钱可以用于质量改进和满足客户的需求。材料质量更高,缺陷更少,节省了生产过程中的供货库存。这意味着在这个过程中节约供应材料。精益制造的重点是减少浪费和优化生产过程。为了有效地实施精益制造方法,制造商必须尽量减少材料的使用,减少任何生产缺陷。为了做到这一点,制造商需要有效地跟踪生产过程的各个方面,即废料产量最高的点、材料利用率最高的点、质量问题点等。制造商必须为员工提供更快、更简单的方式来收集数据和监控生产车间的系统,或将其作为质量管理过程的一部分。传统的纸质表单无法提供现代制造商所需要的速度、准确性和丰富的数据收集。 解决方案是低代码/无代码软件,帮助制造商数字化数据收集,以密切跟踪生产过程的这些方面。低代码允许不能编写应用程序的员工或“公民开发者”快速开发强大的应用程序,可以跟踪生产过程(如库存、检查等)。这使得制造商可以以更低的价格采用精益生产实践,而无需雇佣有经验的开发人员。在任何市场变化的情况下,公民开发者可以很容易地升级软件。通过低代码/无代码解决方案,制造商可以构建高质量的应用程序,轻松地在任何移动设备上收集数据。这使得制造团队能够更快、更经济、更容易地快速实施精益制造实践。以下是低代码推进精益生产的几种方式。如上所述,快速高效的交付是精益制造的主要原则之一。它专注于将产品快速、轻松地交付给客户,没有任何障碍。通过低代码/无代码软件,制造商可以以比传统应用程序开发技术快十倍的速度创建移动友好的应用程序。与传统方式开发的应用程序不同,低代码/无代码允许轻松和快速的更改或更新。低代码/无代码允许不同过程的自动化,包括工作分配、用户指令、工作指令等。这简化了整个生产过程,使经理们能够在即将到来的、已完成的和延迟的任务中处于领先地位。在低代码平台的帮助下,制造商可以获得反映机器输出的实时数据,从而获得更高的能见度和生产率。这些实时数据还有助于预先满足维护需求,这通常需要大量的停机时间。与其他行业一样,制造业也在快速发展,以赶上即将到来的数字化转型浪潮。制造业正在进入由机器学习、人工智能、云计算、高级分析等技术驱动的工业4.0(智能工厂)。低代码/无代码平台可以帮助实现智能工厂,通过将不同系统的数据集成到单个应用中,减少数据竖井,即使在最不稳定的时间也能实时预测客户需求,并通过将所有系统和流程交织在一起提高效率。由于组织获得了生产车间正在发生的实时信号,他们在提高整个过程的效率方面处于一个更好的位置。例如,基于低代码的5S审核应用程序可以快速高效地可视化管理办公设施。5S有助于消除任何不必要的项目,移动,库存和每天的时间。这提高了工人的效率和安全。这样的系统集成还有助于工作人员在系统之间切换时管理更少的接口。无组织的生产流程会给生产车间带来混乱。如前所述,低代码平台可以帮助开发为制造商提供更高可见度的应用程序。这使得制造商可以跟踪每个过程片段所花费的时间,并了解与之相关的最佳实践。然后,制造商可以将最佳实践融入他们的工作流程,以确保他们的工人在最低工作标准工作。低代码应用程序可以定制,以跟踪员工的活动、位置和工作效率。通过对多个数据点的访问,工人和管理人员一起工作,以最大限度地提高他们的业绩和生产力,这是精益制造的关键方面之一。 低代码/无代码帮助制造商实施精益制造方法,推进工业4.0革命。目标是在提高客户满意度的同时简化生产操作。为了有效地实施精益生产方法,制造商可以利用低代码/无代码软件来数字化他们的数据收集,并密切跟踪生产过程。
您觉得本篇内容如何
评分

评论

您需要登录才可以回复|注册

提交评论

iotforall

这家伙很懒,什么描述也没留下

关注

点击进入下一篇

如何投资无人机行业:深入研究无人机ETF

提取码
复制提取码
点击跳转至百度网盘