Difference between revisions of "Msc2G7:Expert3"
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The most influential decision for the design of the joint is the way the joint is driven. In this document we argue the different drive and the best suitable on for our design needs. | The most influential decision for the design of the joint is the way the joint is driven. In this document we argue the different drive and the best suitable on for our design needs. | ||
Revision as of 14:04, 10 March 2015
Motors & Sensors
4/3 Drive
The most influential decision for the design of the joint is the way the joint is driven. In this document we argue the different drive and the best suitable on for our design needs.
Criteria for the drive
- Handle high torques/forces (or high speed with a gearbox)
- Power/weight ratio
- Accurately controllable
- Size
- Sharing energy
- Maintaining position
- (Degrees of freedom (+/- 180°) (actually possible for every drive))
- Accessible for testing
The 4 Differtent Drives
Mechanical
Powerfull, but not sustainable and sharing energy enhances the risk of explosions.
Hydraulic
Unlimited torque, but efficiency starts at high weight. Also extra weigth of the fluids.
Pneumatic
Good power/weight ratio, but low forces and hard to share energy.
Electrical (Best suitable for our design)
The most suitable option. Powerfull and light.
http://www.designnews.com/document.asp?doc_id=230452
http://en.wikipedia.org/wiki/Power-to-weight_ratio
http://www.rcheliwiki.com/Power_to_weight_ratio
http://www.inmoco.co.uk/electro-mechanical_vs_pneumatic_actuators