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Page Overview: BMW Group - Innovation - Industry 4.0
Industry 4.0 Digitalisation
in production.

AT THE BMW GROUP, THE FUTURE HAS ALREADY BEGUN.

Digitalisation in production, also referred to as Industry 4.0, opens up new opportunities for the entire BMW Group production system – enabling fulfilment of individual customer wishes and enhancing the flexibility and quality of production processes. Modernisation also benefits our associates over the long term. The BMW Group is pressing ahead with digitalisation of its production system in the following technology clusters:

Smart data analytics; smart logistics; innovative automation & assistance systems and additive manufacturing.

Digitalisation and innovative technologies are impacting the entire BMW Group production value chain. From press shop to body shop to paint shop, from assembly to logistics – every stage of production benefits from the use of digital processes.

We leverage the opportunities of digitalisation in many areas. Complex processes can be made even more efficient by using IT-supported technologies in production.

Oliver Zipse

Member of the Board of Management of BMW AG, Production

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Smart data analytics includes applications used to capture and evaluate data and improve processes. Factory digitalisation, for example, enables a three-dimensional image of a production plant to be generated with millimetre accuracy. Later, 3D data can also be used in modifications and calculations at the factory.

Innovativer Arbeitshandschuh.

Innovative nutsetter.

Algorithms analyse thousands of bolted connections in vehicle assembly and provide important input for more reliable identification of errors before they occur. A green light means everything is OK!

Innovativer Arbeitshandschuh.

Virtual reality for process optimisation.

Virtual reality is used to simulate an interactive 3D environment in real time. The technology offers both gamers and companies real added value. The international team at the BMW Group Virtual Reality Lab creates virtual spaces and scenarios that can be used to optimise processes and safety, for example, for the logistics sector.

Bavarian smarts!

The findings of intelligent data analysis are used to help improve quality in all areas of production and logistics and beyond. Colleagues were easily able to expand process specifications to include a subjective analysis that was important to them.

 

 

 

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The BMW Group is developing ground-breaking systems in the area of smart logistics. Smart data technologies provide real-time information on the entire supply chain. This ensures that delivery of supplies to plants can be adjusted quickly and flexibly in response to changing conditions.

Smart Transport Robot.

Autonomous tugger train.

Autonomous tugger trains are mainly used in assembly logistics, relying on laser signals to navigate themselves independently through the production halls.

Connected Distribution.

Smart Transport Robot.

Smart Transport Robots are able to transport components weighing up to 0.5 tons independently from A to B. Once wireless transmitters have determined their location, they can calculate the best route to the destination for themselves. Powered by recycled BMW i3 batteries, they can drive for eight hours.

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Hi, my name is Lucy!

You can get to know me on a tour of the supply logistics hall at the Wackersdorf location. As a self-propelled robot, I am able to move freely – equipped with radio transmitters and a digital map, I can find my own way to where I am needed.

Connected Distribution.

With Connected Distribution, the vehicle sends and receives important information en route from the plant to the dealership. When it comes to a stop, the vehicle relays its current geolocation and status to the logistics centre via a mobile phone connection.

Innovative automation means using intelligent solutions to relieve employees, on the one hand, and complementing human flexibility and sensitivity with the strengths of robots, on the other. Lightweight robots work side by side with employees, no form of protective barrier needed.

Exoskelett.

Collaborative lightweight robots.

Collaborative robots work directly alongside employees, where they perform strenuous and high-precision tasks. Their speed is limited and they come to a standstill if any danger arises.

Friday morning in Bavaria.

Our lightweight robots are extremely versatile, working alongside production employees. One of the ways we tested this was in a typical breakfast scenario.

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Leichtbauroboter.

Exoskeleton.

Exoskeletons, like a second skeleton, serve as an external support structure for the body and strengthen the employee's legs, arms or back.

Working with an industrial robot.

Nowadays, it is even possible for humans to work directly with conventional, large-scale industrial robots. Naturally, safety is also paramount here: If a person gets dangerously close to a robot, the latest safety technology kicks in to halt the movement of the robot arm.

The BMW Group has used additive manufacturing in prototyping since 1990 and has continued to develop this technology, also known as 3D printing, ever since. New additive manufacturing methods will further shorten production times for parts from the 3D printer. Tool-less production holds great potential for more economical and flexible production, as well as for individualisation of components.

Individuelle Orthesen.

Additive Manufacturing Centre.

The Additive Manufacturing Centre at the BMW Group Research and Innovation Centre in Munich handles almost 25,000 prototype orders and builds more than 100,000 components per year – from small plastic holders to design samples to metal chassis components for function trials. In the meantime, parts are also produced this way for series production of customer vehicles.

CLIP-Verfahren.

Individualised side indicators.

Side indicators sporting the names of MINIs in the DriveNow car-sharing fleet come from the 3D printer. German customers chose names for 100 MINIs as part of a social media campaign.

Individuelle Orthesen.

Series components generated by 3D printers.

The BMW Group celebrated its first successful use of this technology in small-series production in 2010, with the additively-manufactured water pump wheel still fitted in its DTM vehicles to this day. Further use in series production followed in 2012, with additively-manufactured plastic parts for Rolls-Royce Motor Cars. The BMW i8 Roadster has also used an additively-manufactured metal part in series production since 2017.

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CLIP-Verfahren.

Technological edge.

Together with BMW i Ventures, the Additive Manufacturing Centre is investing in start-ups and new companies developing ground-breaking technologies. 

Individuelle Orthesen.

Customised assembly aids.

3D printing is also used to produce individual thumb supports to relieve employees working in vehicle assembly. The flexible assembly aid is individually moulded to fit the shape of the employee’s hand and avoid excessive strain on the thumb joint.