Upload
dinhkhuong
View
219
Download
7
Embed Size (px)
Citation preview
Industry 4.0 – the future of textile manufacturing Yves-Simon Gloy
• Institut für Textiltechnik der
RWTH Aachen University
• Industry 4.0
• Successful examples
• Perspectives and opportunities
Control of a weaving machine via tablet;
Reference: ITA
Content
2 von 35
• Institut für Textiltechnik der
RWTH Aachen University
• Industry 4.0
• Successful examples
• Perspectives and opportunities
Control of a weaving machine via tablet;
Reference: ITA
Content
3 von 35
Ap
plicati
on
field
s
Mobility
Building &
living
Health
Energy
Comprehensive textile
process chains
Technology and
competence fields
Raw
mate
rials
:
natu
ralfi
bers
, p
oly
mers
,...
Sem
i-fi
nis
hed
texti
les &
pro
du
cts
ICT
The unique position of ITA
5 von 35
Budget: around. 14,3 Mio. €
Staff:
• 95 Scientists
• 55 Service personnel
• 190 Graduate research assistants
• 50 Students majoring in textile
technology each year
Research and development
• Publicity and third party
funded research
• Academic and industrial education
Development and transfer
• Direct industrial research
• Further education
Partially public P
ublic
Str
ictly c
onfidential Fundamental
Research
ca. 30%
Industrial
Funding
ca. 31%
Industry-Related
Public Funding
ca. 35%
Education
ca. 4%
ITA – Facts and Figures
6 von 35
Content
• Institut für Textiltechnik der
RWTH Aachen University
• Industry 4.0
• Successful examples
• Perspectives and opportunities
Control of a weaving machine via tablet;
Reference: ITA
7 von 35
Industry 4.0
8 von 35
4. industrial revolution Based on Cyber-Physical
Systems
3. industrial revolution uses electronics and IT to
achieve further automation
of manufacturing
2. industrial revolutionfollows introduction of
electrically-powered mass
production based on the
division of labor
1. industrial revolutionfollows introduction of
water- and steam powered
mechanical manufacturing
facilities
co
mp
lex
ity
end of 19th century start of 20th Century start of 1970s today time
1784: First mechanical
loom
1870: First production line
1969: First programmable
logic controller
(PLC)
Content
• Institut für Textiltechnik der
RWTH Aachen University
• Industry 4.0
• Successful examples
• Perspectives and opportunities
Control of a weaving machine via tablet;
Reference: ITA
11 von 35
Successful examples
12 von 35
Successful examples
13 von 35
Successful examples
14 von 35
Successful examples
Winding machine Spinning Yarn
Production
Fabric
Production
Knitting machine Knitted Goods
Fabric
production Loom
SpuleIntelligente
Spule
Konzept
Winding machine Loom
Information Information
Smart Spool
15 von 35
Successful examples
RFID-
Transponder
Spool
RFID -
Antenna
16 von 35
Successful examples
• Future of Manufacturing - Autonomik 4.0
• Aim:
Production of highly individualized products
Highly flexible production infrastructure
• Consideration of
Basic cognitive technologies
Interfaces between process steps
Human-machine interaction
3-D in industrial applications
17 von 35
Successful examples
Successful examples
19 von 35
Successful examples
20 von 35
PLC
Mobile
HMI
Warp knitting machine Robot Cutter Automatic guided vehicle
Ethernet fieldbus
Internet
of things
and
services
PLC
Composites manufacturing
21 von 35
Content
• Institut für Textiltechnik der
RWTH Aachen University
• Industry 4.0
• Successful examples
• Perspectives and opportunities
Control of a weaving machine via tablet;
Reference: ITA
22 von 35
Perspectives and opportunities
26 von 35
Perspectives and opportunities
27 von 35
Thank you for your kind attention
Adjunct Prof. Dr.-Ing. Yves-Simon Gloy
Institut für Textiltechnik (ITA) der RWTH Aachen University
Otto-Blumenthal-Str. 1, 52074 Aachen, Germany
Fon +49 (0)241 80 234 70
35 von 35