Detail publikace

Design of Hydraulic Travel of Reapers Drive Unit

SMEJKAL, D. BRANDEJS, J.

Originální název

Design of Hydraulic Travel of Reapers Drive Unit

Anglický název

Design of Hydraulic Travel of Reapers Drive Unit

Jazyk

en

Originální abstrakt

This project deals with the design of a hydraulic reapers drive unit and the realization of its working prototype. The unit is designed with freelance wheel drive and continual change of speed and direction. A part of the drive unit is a remote control, primarily used for control of movement and mowing. The concept design, fulfilling all requirements for building a prototype and its subsequent testing, was created based on a research analysis. Engineering design was performed in Autodesk Inventor 2012. The final prototype was built by a sponsoring company. Components were chosen with regard to their functionality, quality and cost.

Anglický abstrakt

This project deals with the design of a hydraulic reapers drive unit and the realization of its working prototype. The unit is designed with freelance wheel drive and continual change of speed and direction. A part of the drive unit is a remote control, primarily used for control of movement and mowing. The concept design, fulfilling all requirements for building a prototype and its subsequent testing, was created based on a research analysis. Engineering design was performed in Autodesk Inventor 2012. The final prototype was built by a sponsoring company. Components were chosen with regard to their functionality, quality and cost.

Dokumenty

BibTex


@inproceedings{BUT97829,
  author="David {Smejkal} and Jan {Brandejs}",
  title="Design of Hydraulic Travel of Reapers Drive Unit",
  annote="This project deals with the design of a hydraulic reapers drive unit and the realization of its working prototype. The unit is designed with freelance wheel drive and continual change of speed and direction. A part of the drive unit is a remote control, primarily used for control of movement and mowing. The concept design, fulfilling all requirements for building a prototype and its subsequent testing, was created based on a research analysis. Engineering design was performed in Autodesk Inventor 2012. The final prototype was built by a sponsoring company. Components were chosen with regard to their functionality, quality and cost.",
  address="Brno University of Technology",
  booktitle="53rd International Conference of Mechine Desing Departments",
  chapter="97829",
  edition="1.",
  howpublished="print",
  institution="Brno University of Technology",
  year="2012",
  month="september",
  pages="255--260",
  publisher="Brno University of Technology",
  type="conference paper"
}