STATIC CHARACTERISTICS AIR-DRIVEN CONICAL TURN-ON OF SPINDLE ASSEMBLY WITH LONGITUDINAL SLOTS THE RIBLE DEPTH

Authors

  • В. І. Савуляк Vinnitsa National Technical University, Vinnitsa, Ukraine
  • І. В. Федотова Vinnitsa National Technical University, Vinnitsa, Ukraine

DOI:

https://doi.org/10.20535/2305-9001.2012.64.44362

Keywords:

a conical turn-on, longitudinal slot, the rible depth, radial power, angular, axial inflexibility, axial elevating power.

Abstract

We consider the gas pneumatic suspensions spindles and their static strength properties. The comparative characteristics of the suspensions with tapered grooves of constant and variable depth. The dependence of the static characteristics of the angular and radial displacements for the pneumatic suspension conical spindle assembly with grooves of varying depth. For a conical turn-on with longitudinal slots the depth of which diminishes with the step of gas flow the dimensionless structural parameters of slots which provide the increase of radial elevating power on 36% are found, if the corner at the top of cone is α=20 and on 40% if α=60 in comparison with conical support with the slots of permanent depth at the almost identical charges of gas. Increase of economy of gas supports with longitudinal slots due to decreasing expendables of gas and increasing power characteristics of supports by the use of slots of variable depth. Calculations showed that the use of longitudinal slots of variable depth was instrumental in increasing a carrying power and recuperative moment at the angular moving of shaft at decreasing dimensionless expendables of gas.

References

Stepanchuk V.І. Linear dynamic analysis hazostatychnyh conical pendants, shaped longitudinal grooves. Bulletin of the VPI. 1995. no 4, p. 57 - 64.

Stepanchuk V.I. Linear dynamic analysis hazostatychnyh conical pendants, shaped longitudinal grooves. Bulletin of the VPI. 1995.no 4, p. 57 - 64.

Stepanchuk V.I., Fedotov V.A. Linear analysis of the phenomenon of self-oscillations in the axial spindle of conical pendants, shaped longitudinal grooves. Bulletin of the VPI. 1998. no 2, p. 90 – 92.

Pinegin S. The method of investigation of antifriction properties of materials appropriate to work with a gas-lubricated bearings. SV Pinegin, VP Petrov. The study and application of sliding bearings with gas lubrication: All-Union Coordination Meeting, 12 May 14, 1983: Abstracts. Vinnitsa, 1983. PP. 72 -74.

Schneider A.G., Stepanchuk V.I. Static characteristics of a conical gas lubricant layer radial - thrust engine - bearing and raising their cost of gas flow. Friction and wear. V. 13. 1992. no 3. PP. 431, 437.

Hirs. Design of journal bearings with longitudinal grooves and external injection lubrication / Hirsi (GG Hirs). Problems of friction and lubrication. 1968. no 4. PP. 324 – 33.

Published

2015-08-31

Issue

Section

Статті