1 / 13

Self condition monitoring mobile machinery

Self condition monitoring mobile machinery. Per-Erik Larsson. Per-erik.larsson@skf.com. Self condition monitoring mobile machinery. Contributors: SKF, Midroc , Eistec, LKAB, Boliden, LTU. Objectives.

alea-pacheco
Télécharger la présentation

Self condition monitoring mobile machinery

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Self condition monitoring mobile machinery Per-Erik Larsson Per-erik.larsson@skf.com

  2. Self condition monitoring mobile machinery Contributors: SKF, Midroc, Eistec, LKAB, Boliden, LTU

  3. Objectives The objective is to demonstrate mobile machine self monitoring key technologies at machine level with service interfaces to system level.

  4. Objectives (contd.) Emphasized areas Self condition monitoring – A wireless monitoring node, Eistec’sMulle, connected to the cloud where measurement data is displayed in a web browser Self localization using of-the-shelf components – will be demonstrated in generation 2 Energy management of embedded sensors – a first prototype for energy harvesting Communication from enclosed locations – will be demonstrated in generation 2 Data and information security Integration to SOA enabling service and device configuration and system integration Integration to maintenance scheduling system Provision of CM information to stakeholders Arrowhead Framework

  5. Pilot Plan Demonstration - 1:st generation, Q3-2013 to Q3-2014 Integration of a smart bearing in a wheel loader providing basic measurements of bearing performance in lab environment Demonstration - 2:nd generation, Q4-2014 to Q4-2015 Integration of smart bearing to wheel loader with service integration to wheel loader controller making use of Arrowhead common framework Demonstration - 3:rd generation, Q4-2015 to Q4-2016 Integration of wheel loader system to site maintenance system. With further integration of results from Arrowhead common framework (CoAP and/or OPC-UA using demo 1, and 2 features)

  6. Technology needed Demonstration - 1:st generation, Q3-2013 to Q3-2014 Integration of a smart bearing in a wheel hub in lab environment Demonstration - 2:nd generation, Q4-2014 to Q4-2015 Integration of smart bearing to wheel loader Service integration to wheel loader controller Demonstration - 3:rd generation, Q4-2015 to Q4-2016 Integration of wheel loader system to site maintenance system

  7. Pre-test performed on the wheel loader

  8. Wireless sensor platform Mulle

  9. Mulle on the wheel loader

  10. Lab test equipment

  11. Communication architecture Mulle platform • 6LoWPAN w/ IPv6 • CoAP • SenMLwith XML+EXI Gateways Services Arrowhead Common Framework

  12. Smart phone screenshot

  13. Web screen shot

More Related