O
Orclever
Back to Journal
Research Article Open AccessOrclever Native

Design model and analysis of a Hydrostatic Bearing for Hydraulic rotary actuators

Ömer Faruk Uysal1,
Tolga Cankurt2,
Zekeriya Parlak3
1Motion Control Technology Center (HKTM)
2Motion Control Technology Center (HKTM)
3Sakarya University
Published:December 31, 2023
DOI: 10.56038/oprd.v3i1.363
Vol. 3, No. 1 · pp. 477–489

Abstract

Hydraulic rotary actuators are actuators that enable the piston, which is moved linearly by
hydraulic fluid, to rotate the shaft to which it is connected through an involute gear system inside
and outside, between certain angles. In this study, hydrostatic bearing that use a fluid film for load
support and movement precision in rotary actuators is implemented in place of standard bearing.
These bearings work on the principle of hydrostatic lubrication, in which oil is pressurized and
used to separate the surfaces from each other. In this way, it minimizes friction and wear, increases
the efficiency and life time of the machine in which it is used. This article provides a brief overview
of Hydrostatic bearing systems and hydrostatic bearing brake system and focuses on our work at
HKTM on the application of these systems in rotary actuator.
Mathematical modeling, flow analysis and structural design have been carried out in this study.
By mathematical modelling, design parameters of the hydrostatic bearing under a determined load,
such as film thickness, land length, orifice diameter of capillary restrictor, and operating
parameters such as supply pressure, pad pressures, stiffness and flow rate have also been
determined. Flow analyses have been performed to verify the fluid flow in the hydrostatic bearing
and the required pressure within the bearing. This paper provides a detailed description of our
research findings and conclusions.

Keywords
HydraulicRotaryActuatorHydrostaticBearingBrake

References

  1. 1.Wong, A. R. (2012). Design of a low cost hydrostatic bearing (thesis).
  2. 2.Liu, Z., Wang, Y., Cai, L., Zhao, Y., Cheng, Q., & Dong, X. (2017). A review of hydrostatic
  3. 3.bearing system: Researches and applications. Advances in Mechanical Engineering, 9(10),
  4. 4.https://doi.org/10.1177/1687814017730536DOI
  5. 5.Srinivasan, V. (2013). Analysis of static and dynamic load on hydrostatic bearing with
  6. 6.variable viscosity and pressure. Indian Journal of Science and Technology, 6(sp6), 1–6.
  7. 7.https://doi.org/10.17485/ijst/2013/v6isp6.11DOI
  8. 8.La Hera, P. M., Mettin, U., Westerberg, S., & Shiriaev, A. S. (2009). Modeling and control of
  9. 9.hydraulic rotary actuators used in forestry cranes. 2009 IEEE International Conference on
  10. 10.Robotics and Automation. https://doi.org/10.1109/robot.2009.5152522DOI
  11. 11.Patil, Sumit, et al. "Design of self-compensating hydrostatic bearing for actuators."
  12. 12.Proceedings of TRIBOINDIA-2018 An International Conference on Tribology. 2018.
  13. 13.Yuan, Shijian, and Decheng Zhou. "Design procedure of an advanced spherical hydrostatic
  14. 14.bearing used in rotary forging presses." International Journal of Machine Tools and
  15. 15.Manufacture 37.5 (1997): 649-656.
  16. 16.Xu, Enle, et al. "Investigations on the applicability of hydrostatic bearing technology in a
  17. 17.rotary energy recovery device through CFD simulation and validating experiment."
  18. 18.Desalination 383 (2016): 60-67.
  19. 19.Kowalski, Konrad, and Tadeusz Zloto. "An analysis of pressure distribution in water and
  20. 20.water emulsion in a front gap of a hydrostatic bearing." Teka Komisji Motoryzacji i
  21. 21.Energetyki Rolnictwa 14.4 (2014)
Download PDF
Cite This Article
Uysal, Ö. F., Cankurt, T., Parlak, Z. (2023). Design model and analysis of a Hydrostatic Bearing for Hydraulic rotary actuators. *Orclever Proceedings of Research and Development*, 3(1), 477-489. https://doi.org/10.56038/oprd.v3i1.363

Bibliographic Info

JournalOrclever Proceedings of Research and Development
Volume3
Issue1
Pages477–489
PublishedDecember 31, 2023
eISSN2980-020X