Saturday, December 16, 2023

Toyota's Approach to Industry 4.0 Technologies Adoption

 













https://www.moneycontroller.fr/actualites-de-la-bourse-francaise/societe/toyota-motor-corporation?page=11&show=all

https://toyotapartsandservicehub.com/toyota-news/page/2/

https://www.youtube.com/watch?v=ZazF4pskmRI

The cost reduction approach pioneered by Toyota today is described as  relentless pursuit of continuous improvement and lean enterprise  processes, It helped Toyota Motor Corp. become the largest automaker in the world. The company updates its technology continuously using the Jidoka pillar. It is currently retooling  its production system using a combination of the current cutting-edge technology and it old-school Toyota Production System thinking.


 Toyota plans to implement new techniques, such as giga-cast modules, self-propelled assembly lines and digital twin technology. Various monozukuri (production) technologies/processes using these techniqes are being developed at the Motomachi, Myochi and Teiho plants in Japan. 

It recently held a workshop entitled “Changing the Future of Carmaking” that outlined how the company plans to implement more human-centered manufacturing along with more Industry 4.0 technology.

https://global.toyota/en/newsroom/corporate/39758118.html

https://ts2.space/en/toyota-monozukuri-workshop-changing-the-future-of-carmaking/#gsc.tab=0



“At Toyota, we develop and support  ‘monozukuri and hitozukuri’ (making things and making people).  The ingenuity of people creates advanced technologies and  the development of human resources equipped with the qualities to use these new technologies is one of the company’s front line capabilities and the very foundation of monozukuri of Toyota.


The technology advances and robots are further integrated into production processes. But, it will be humans equipped with the knowledge of the Toyota Production System who will be able to think of further improvements in these new processes.  “With an eye toward ever better manufacturing, [we believe] it is important to train people based on TPS, encouraging the associated skills of masters to be passed on to the next generation, all with an eye toward continuing to advance and evolve monozukuri.


“Through daily improvements, as we continue to work through the cycle of challenging ourselves to continue to reduce lead time, the ability of the front line to respond to evolving customer needs and changing times will support our competitiveness.  


Toyota’s monozukuri will continue to evolve through the fusion of inherited skills and digital tools. 

New Age Thinking

The new initiative represents a next-generation version of TPS designed for the era of digital manufacturing and electric vehicles.

“For instance, in Toyota’s factories, operators are not just overseeing robots; they are actively involved in training them. Toyota rapidly develops its front line employees to become proficient with new technologies. This emphasizes Toyota’s commitment to achieving the highest standards of quality, and it’s also a testament to the engagement of the entire team in new technologies.

“Compared to other companies, Toyota sets itself apart by effectively harmonizing human skills with cutting-edge technology. This approach results in not only high-quality products, but also the flexibility needed to swiftly adapt to changes in the market. It’s a model of production that combines the best of both worlds, where human experience and technological advancement go hand in hand to create products that truly stand out.

Obara, a Toyota verteran says.“this time, I saw much more use of flat screens replacing the old manually updated management boards, and drones being used in maintenance functions and several meetings taking place via video, even between people in the same building." The famous genchi genbutsu (real place, real facts) now being done via video. Toyota engineers designed a vest to hold a camera, so remote people would not need to be on site to see it all.

New Tools and Technology

Toyota’s next-generation EVs will be built upon a new modular structure in which car bodies are divided into three sections: front, center and rear (earlier this year, Tesla outlined a similar assembly concept). The center section will house solid-state batteries, which offer faster charging and longer range than conventional batteries.

The new modular structure entails dividing the underbody, including the front frame and the cabin floor, into three sections, each fitted with its own parts.

According to Shingo, this approach will improve production efficiency, since operators will no longer need to climb inside a vehicle during assembly. “With this new vehicle structure, seats and other components can be mounted before the roof and side panels are attached, simplifying the designs and operations of robots and other equipment. .


Giga-casting is one of the new production technologies that will make these modular structures possible. Currently, the rear section of the Toyota bZ4X EV is made with 86 sheet metal parts and 33 press processes. Using integrated molding with aluminum die-casting can reduce this to a single part made by a single process. This approach seeks to reduce both cost and weight below conventional models, as well as boost productivity. The process starts with injecting molten aluminum alloy into a mold at high speed and pressure. In a matter of seconds, the material is cooled from 700 C to 250 C and solidified, then the mold is opened to remove the integrated cast part.

To explore uses for giga casting in mass production, Toyota engineers focused on improving productivity by reducing two types of waste: downtime during mold replacement and defects or reworking. “Whereas a typical changeover might take 24 hours and require a large crane, giga-casting molds, which weigh more than 100 tons, leads to even greater time loss.  The approach to giga casting divides molds into two types: general-purpose molds that remain mounted on the machinery and specialized molds whose shape differs by car model. During a replacement, only the compact specialized molds detach themselves automatically from the general-purpose molds.With these just-in-time mold changes—replacing only what is needed, when it is needed, in the quantity needed—Toyota is aiming to bring lead times down to 20 minutes or less.

“This division of molds and automated mounting-detaching is the culmination of improvements made over many years of handling every aspect of mold design, fabrication and maintenance in-house. When molds expand or contract under the heat of casting, the general-purpose and specialized parts may become misaligned, with the latter unable to release. The necessary clearance is maintained by the skills of mold craftsmen.

The second type of waste stems from defects and reworking. In their giga-casting analysis, Toyota engineers used proprietary simulation software that draws on expertise accumulated in the mass production of engine blocks and other components. Takumi (artisan) skills have also been digitized and incorporated into parameters and computation methods to create high-quality parts.

“Amid a general trend toward using commercially available equipment, in-house development allows [us] to add parameters or change computation methods. Building high quality into the machinery reduces the number of defects. “Driven by the skills of experts with intimate knowledge of casting, as well as the waste and lead time reductions made possible by the TPS, [our] monozukuri continues to improve and evolve,” says Shingo.

Toyota engineers have also developed a “self-driving assembly line” that enables vehicles to move between workstations on their own.

“At a minimum, a vehicle needs only the three modular components and a battery, motor, tires and wireless terminal to drive independently. “Such a setup eliminates conveyors from the assembly line, allowing for more flexible factory layouts. This will help shorten the years-long lead times needed to prepare for mass production and reduce the required plant investment.


“This self-propelled assembly line utilizes the vehicle control and sensor technologies that [we have] cultivated through the development of autonomous driving,” notes Shingo. “Cameras [and lidar sensors installed] throughout the plant track the cars, keeping them moving along the set route at 0.22 mile per hour.”

A simplified line concept using unmanned transport has already been trialed in part of the welding process for NOAH and Voxy models at the Motomachi assembly plant, which is Toyota’s most flexible factory.

Toyota engineers are also using digital twin technology to design two-way production processes that boost productivity and efficiency. The goal is to improve plants and equipment through interactive frontline improvements that are enhanced digitally before being fed back to the plant floor.

“Before coming into the hands of [operators], new production equipment usually undergoes a process of design, parts machining and assembly. However, the drawings prepared in the design stage may include parts whose shape proves impossible to machine. The equipment may not run properly after being adjusted or the people on the production floor may find it hard to use, “Much of the manufacturing lead time is taken up dealing with such issues, causing waste through defects and reworking.

“To tackle this, [our new] current process uses 3D drawings and involves workers from later stages of production, who view the drawings as they are being prepared and share expertise that is incorporated into the designs,” 


“[We are] transforming the way employees work through a holistic approach that encompasses the entire equipment manufacturing process,” says Shingo. “As part of efforts to shorten lead times, [we are] aiming to eliminate reworking by bringing forward and synchronizing jobs.”


https://www.assemblymag.com/articles/98199-toyota-outlines-future-production-processes


https://www.marketscreener.com/quote/stock/TOYOTA-MOTOR-CORPORATION-6492484/news/Toyota-Motor-unveils-a-manufacturing-site-that-will-change-the-future-of-cars-44869732/



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