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FAC TO RY O F T H E F U T U R E
D e s i g n e d t o p r o g r e s s
FoF
IT'S PEOPLE, WITH OUR KNOWLEDGE AND ABILITY
TO ADAPT TO CHANGE, WHO MOVE THE PIECES
TO CHANGE THE NEW COURSE OF INDUSTRY.
PROGRESS MEANS REDEFINING THE TRADITIONAL INDUSTRIAL MODEL.
THE FACTORY OF THE FUTURE IS THE DRIVING FORCE BEHIND THE FOURTH INDUSTRIAL REVOLUTION.
FoF
FoF KEYS
ACTIVATING PROGRESS
IMPACT TECHNOLOGIES
CURRENT INDUSTRY + NEW SOCIO-ECONOMIC FACTORS + INDUSTRY 4.0 = FoF
CURRENT INDUSTRY + NEW SOCIO-ECONOMIC FACTORS + INDUSTRY 4.0 =
FACTORY OF THE FUTUREWe are living in times of constantly changing socio-economic factors, accelerated by technological development where businesses are taking some production centres back to their countries of origin.
This fact leads us to believe in a manufacturing concept forcing innovation inside the factory to maintain sustainable and fully connected environments.
The fourth industrial revolution is here.
FoF
IN EUROPE, MANUFACTURING GOODS REPRESENT:
UNSTOPPABLE GROWTH OF THE MANUFACTURING INDUSTRY:
Total exports
75%
Productivity growth
60%
2014201320122011
2.7 % annual growth
in developed countries
7.4 % annual growth in developing
countries R&D&I expenses
80%
MANUFACTURING SECTOR IN EUROPE IN 2013:
7billion
30million
EUROPEAN TARGET 2020:
If we could achieve a 20% contribution of industry to GDP by 2020, we would create 15.5 million additional jobs.
Euroin direct businessvolume
in peopleestimated direct employment
2014 2020
employment 15.5million
FAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
5%GDP
10%GDP
15%GDP
20%GDP
Now more than ever we are ready to jump.
To make a jump from traditional factories towards a smarter production and manufacturing model. People are responsible for promoting that change together with the commitment to look after and respect our environment.
Moreover, a change in the traditional market definition, due to an already consolidated globalisation, forces the manufacturing sector to undertake this new line of thought and action. Social behaviour patterns changing at the same time as technological possibilities invite us to plan and model our factory of the future.
ACTIVATING PROGRESS
Six socio-economic trends to promote the factory of the future.
1 6
2
4
3
5
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NEW TECHNOLOGY PENETRATION AND AVAILABILITY.
1 2 3SHORTAGE OF RESOURCESAND RAW MATERIALS.
ENVIRONMENTAL IMPACT.
ACTIVATING PROGRESS
Smarter factories will experience mass development of applications and tools which were unthinkable until now. Such a breakthrough will enable us to reach targets we had never imagined.
We are living in times marked by restriction and shortage of natural resources. Therefore, efficiency is critical to addressing this new situation.
Far from being a mere trend, the impact of human activity on the environment indicates the need to adopt measures to improve sustainability as soon as possible.
1
2 3
AGEING WORKFORCE.
5 6ONGOING CHANGE IN THE QUALIFICATIONS REQUIRED.
CUSTOMISATION.
Our inverted population pyramid and late retirement are leading us to a gradually ageing workforce entailing reduced efficiency in physical work. A breakthrough in manufacturing robotics will reduce impacts caused by this new industrial situation.
The increasingly growing need to have a workforce specialised in specific fields within the factory in relation to their activity, constantly demands workforce qualification levels to be adapted. This inevitably forces us to rethink the traditional model.
The demand for products adapted to the specific needs of each client is already a reality, however, it clashes with traditional mass production focused on the production chain as opposed to the product.
6
54
FAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
4
At TECNALIA we are committed to business progress, real progress with the necessary strength to promote people's welfare. For this reason, we back the factory of the future as the smartest solution to tackle efficiency, sustainability and ultimately, competition.
Smart factories will drive change in a connected environment which never stops evolving, where people and knowledge will continue to be the driving forces of their activity with even greater strength. The industry of the future feeds on knowledge.
FoF KEYS
This will be the factory of the future.
FoF
People
Clients
PROCES
SES
Suppliers
Means of production
PROCES
SES SOCIAL
CON
NEC
TED
SUSTA
INA
BLE
SMA
RT
FLEXIBLE
AU
TOM
ATED
FoF
FoF KEYS
SUSTAINABLE
The concept of sustainable manufacturing is possible thanks to the rational use of resources and energy. A responsible production model with high productivity rates and contributing to global business sustainability.
SOCIAL
The workforce knowledge and innovation skills are increasingly playing a leading role in the manufacturing sector. Although people are still the centre of the activity and concentrate the highest value in factories.
SMART
Smart manufacturing in processes and systems with greater awareness of environmental changes and capable of reporting on maintenance tasks, thus helping the employee in programming and fine-tuning tasks.
Manufacturing flexibility accelerates resetting of machinery, plants and logistic processes. A flexible factory quickly adapts to production changes.
FLEXIBLE
Factory automation increases speed and process repeatability, while overcoming ergonomic restrictions and improving plant productivity.
AUTOMATED
FAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
CONNECTED
The digital era promotes the interconnection of all stakeholders in the Factory of the Future. Greater connection, improved relationships and around 20% increase in productivity thanks to better management of systems for business information exchange.
Thanks to the identification and selection of key technologies, we can fully develop wide-ranging innovative solutions opening and positioning companies in the new 4.0 environment.
We make our motto “Inspiring Business” a reality by materialising real projects around the factory of the future.
1. Flexible Robotics
6. Additive Manufacturing
2. Advanced Mechatronics
5. Advanced Materials
4. Internet of Things (IoT)
3. Big Data and Cloud Computing
IMPACT TECHNOLOGIES
At TECNALIA we work to generate real business opportunities.
FoF
1. FLEXIBLE ROBOTICS
AT TECNALIA WE RESEARCH ON COLLABORATIVE ROBOTICS TO COMBINE AND SHARE MACHINE CAPABILITIES WITH PEOPLE SKILLS.
DESCRIPTION: HIRO is a two-armed mobile humanoid robot which is easy to transport. Thanks to this robot, precision operations in manufacturing and assembly lines can be automated in a flexible smart way.
PROBLEM-SOLUTION: The ideal solution for applications requiring great operating functionality, such as assembly processes. Its vision system makes it more autonomous, offering greater ability to adapt to the environment and simplified programming.
ADVANTAGES: Automation of manual and semi-manual processes. Highly flexible use. Increased productivity. Improved repeatability and final quality.
SECTOR: Manufacturing.
Flexible and Compact
HiroFAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
WE FOCUS ON ADVANCED MECHANICAL TECHNOLOGIES TO MAKE PROCESSES FLEXIBLE AND AUTOMATED.
2. ADVANCED MECHATRONICS
DESCRIPTION: A new manufacturing concept that enables manual processes to be automated, incorporating flexibility into the production process and the plant configuration.
PROBLEM-SOLUTION: Maaximus is an automated solution for fuselage orbital joints, including drilling, countersinking, sealant application and blind rivet installation processes as well as computer vision reference system.
ADVANTAGES: Manual process automation. High process lead time reduction. Operation integration. System flexibility for relocation to plant and target part adaptation. Cost reduction.
SECTOR: Aerospace.
Flexible and Automated
MaaximusFAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
WE FIND THE MOST ACCURATE SOLUTIONS IN THE AGE OF BIG DATA AND CLOUD COMPUTING. WE MAKE THE MOST OF ITS POTENTIAL BY STREAMLINING MANAGEMENT AND ANALYSIS PROCESSES.
3. BIG DATA & CLOUD COMPUTING
DESCRIPTION: Monitoring, diagnosis and prognosis of tooling failures for cold-stamping machines.
PROBLEM-SOLUTION: Over the last twenty years several process control devices have been launched to the cold-stamping industry market, leading to a significant increase in the volume of data obtained from processes. However, this monitoring improvement did not always come with an improvement in sufficiently useful and effective failure diagnosis processes.
The use of Data Mining techniques facilitates major added-value provision in terms of robustness, reliability and flexibility of the systems monitored and knowledge optimisation.
Predictive Maintenance
PrediceFAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
ADVANTAGES: Advantages derived from failure prevention are not only based on minimising costs and increasing the machine useful life-cycle but also on inferring valid knowledge implicit in data analysed, typically difficult to process, about the process and the reasons behind the failures.
SECTOR: Maintenance and machine-tooling.
WE ARE COMMITTED TO SYSTEM SENSORING FOR THE PURPOSE OF MONITORING THEIR USE.
4. INTERNET OF THINGS (IoT)
DESCRIPTION: Integrating sensors in bearings to be used in capital goods.
PROBLEM-SOLUTION: Sensor integration aims to promote the use of smart bearings to help monitoring the systems in working conditions contributing to improving both the useful life of current equipment and design of future equipment.
ADVANTAGES: Low Cost. Wireless. Energy Efficiency. Predictive Maintenance.
SECTOR: Manufacturing.
Flexible and Smart
FAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
Smart Bearing
SOCIO-ECONOMIC FACTORS TRIGGER DEMAND FOR NEW PRODUCTS WHICH REQUIRE NEW MATERIALS AND THEREFORE NEW PROCESSES ADAPTED TO THOSE REALITIES.
5. ADVANCED MATERIALS
DESCRIPTION: This is a versatile manufacturing technology enabling us to obtain recyclable light composite parts (reinforced plastic) yet only requiring low initial equipment and mould investment.
PROBLEM-SOLUTION: Applied to the automotive sector, Caprocast allows replacement of the vehicle structure metallic components with composite components to achieve a weight reduction of 60% while maintaining the same properties.
ADVANTAGES: It allows composite parts to be produced at competitive prices while considerably reducing the weight of systems.
SECTOR: Automotive and Aeronautical.
Light and Automated
CaprocastFAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
6. ADDITIVE MANUFACTURING
SET OF TECHNOLOGIES CAPABLE OF PRODUCING 3D PARTS OR COMPONENTS BY ADDING OR PILING UP DIFFERENT 2D LAYERS.
DESCRIPTION: Additive manufacturing for efficient production of metal products in the aeronautical sector.
PROBLEM-SOLUTION: Additive manufacturing of metals is starting to become a reality after TECNALIA has taken steps to manufacture parts for the aeronautical sector. Thanks to the European project Amaze, we embrace this challenge while exploring endless possibilities offered by part manufacturing through Plasma Arc Welding.
ADVANTAGES: Reduced production costs of high added value parts. Raw material savings. Possibility of part design optimisation. Reduced machining operations.
SECTOR: Aeronautical.
Flexible and Sustainable
AmazeFAC TO RY O F T H E F U T U R E D e s i g n e d t o p r o g r e s s
INDUSTRY 4.0
INDUSTRY 4.0 is a strategic line of work for TECNALIA where ICTs serve production processes to provide intelligence leading to new services associated to new products demanded.
At TECNALIA we have developed our own diagnostic model [MDI 4.0], the first model capable of prioritisation and determination of R&D projects which bring the INDUSTRY 4.0 idea closer to each company.
At TECNALIA we make it our business to ensure that you obtain results from your R&D investment in a smarter and more sustainable business.
Towards the future 4.0 of your company.
INDUSTRY 4.0
FLEXIBLE ROBOTICS
Machines
Automation
Analysis
Monitorin
g
Perform
ance
Revolution
Ver
sati
lity
Prec
isio
n
Man
agem
ent
Sen
sor
syst
ems
Flex
ibil
ity
Peop
le
ADVANCED MECHATRONICS
BIG DATA & CLOUD COMPUTING
INTERNET OF THINGS (IOT)
ADVANCED MATERIALS
ADDITIVE MANUFACTURING
TECNALIA IS COMMITTED TO THE FACTORY OF THE FUTURE AS THE STRONGEST SOLUTION TO EMERGING
SOCIO-ECONOMIC CHALLENGES FORCING US TO RE INVENT SOME OF THE TRADITIONAL
PRODUCTION MODELS .
T H A N K S TO A F L E X I B L E S M A RT S T RU C T U R E W E W I L L B E B E T T E R E QU I P P E D TO FAC E T H E C H A N G E S O F A N I N C R E A S I N G LY M O R E U N C E RTA I N, V E R S AT I L E A N D
C H A L L E N G I N G E N V I RO N M E N T.
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DOWNLOAD OUR FACTORY OF THE FUTURE REPORT:www.tecnalia.com/images/stories/Catalogos/informe-fabrica-del-futuro-EN.pdf
www.tecnalia.com