Oscar Gonzalo, Tekniker, ES
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Transcript of Oscar Gonzalo, Tekniker, ES
INTEFIX INTElligent FIXtures for the manufacturing of low rigidity components
23rd and 24th of June/ Amsterdam
Oscar Gonzalo – Project Coordinator
INDEX1. Project Data
2. Introduction and approach
3. Objectives
4. I4MS Initiative
PROJECT DATAINTEFIX project data
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
Starting date: July 2013 Ending date: June 2016 Budget: 10.253.510 € 32 partners Partners’ type:
SMEs: 19 Industrial Organizations: 6 Research and academy: 7
Partners’ role: Integrators: 8 Technology providers: 16 End-users: 8
INTRODUCTION AND APPROACHINTEFIX project introduction
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
Manufacturing:machining processes Machine Fixture Process
FIXTURE:• Securely HOLD and accurately LOCATE the workpiece• Affects PRECISION, QUALITY and COST
INTRODUCTION AND APPROACHINTEFIX approach
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
CONCEPTS:• Mechatronic/Adaptronic systems• Adaptability (Tunable behaviour) • Modularity (Modular elements)• Flexibility (Other applications: welding,
assembly...)
INTELLIGENT FIXTURES
Monitoring (sensors)Control
Adaption (actuators)
PrecisionQuality
Cost
• Fixture main function: Securely HOLD and accurately LOCATE the workpiece
OBJECTIVESINTEFIX project objective
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
Experiments Methodology
State of the art systems Integration
Modular elements Configurability & Reusability
Adaptive fixture Intelligent fixtures – Fast and accurate
The INTEFIX project aims to establish fixture design methodologies taking advantage of the available state of the art software and hardware tools (sensors, actuators, CAD/CAM/CAE, CNC, PLC, process simulation tools,...) combined with ad-hoc ICT tools (control algorithms, simulation tools...) to control and adapt the behaviour of the fixture, resulting in the development of intelligent fixtures. These methodologies will be based on the use of modular elements to obtain highly configurable, fast, accurate and durable fixture systems.
OBJECTIVESINTEFIX scenarios
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
VIBRATION
POSITIONING
DEFORMATION
I4MS Initiative
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
• Establishment of teams for each experiment covering the required capabilities, involving technology suppliers of the relevant markets (Fixtures and fixture elements, sensors, actuators…)
• FOCUS ON the development of new products, systems and applications
SENSORS ACTUATORS END-USERSFIXTURES
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
HOW I4MS HELPED
• Enhanced dissemination activities
• Incorporation of new partners through an OPENCALL Strengthening of the COMPETENCE CENTRES
• Contribution to establishment of Competence Centres based on the working groups, technological methodologies and training material
• Possibilities for NETWORKING in events like this
I4MS 2016: FOSTERING DIGITAL INDUSTRIAL INNOVATION IN EUROPE · 23rd and 24th of June · Amsterdam
IMPACT11 Experiments 47 Exploitable resultsExploitation plan and business models defined for KEY EXPLOITABLE
RESULTSUse of existing Commercial Networks• New and evolved actuators and subsystems applied to Intelligent Fixtures• Evolved/Improved Products and applications
• Already developed markets able to accept the new developments
Aeronautics, precision engineering, machine tools…• Established commercial networks with companies working in FIXTURES
THANK YOUFOR YOUR ATTENTION