Characteristic Analysis on Heavy Hydrostatic Bearing of DVT500 Vertical Lathe

Li, Xi Bing; Du, Xiaohui; Wang, Shi Gang; Li, Dongsheng; Yu, Yue Qiang

doi:10.4028/www.scientific.net/amm.151.121

Cited by 2 publications

(2 citation statements)

References 1 publication

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“…Zhang et al (2008) numerically simulated large-size hydrostatic bearing's temperature field. Li et al (2012)analyzed oil-pads' lubrication performances in the sector cavity of DVT500 vertical lathe's heavy hydrostatic bearing. In terms of oil-film's thickness and pressure fields, Liu and Liu (2006) did the two-dimensional (2-D) numerical simulation of radial air bearing pressure field with the finite difference method, calculated the stomata outlet pressure, bearing capacity, flow and pressure distributions under different eccentricities and pressures, and obtained its pressure field distribution under different eccentricities.…”

Section: Introductionmentioning

confidence: 99%

Theoretical research on sector oil-pads’ mechanical property in hydrostatic thrust bearing based on constant flow

Cheng

et al. 2017

ILT

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Purpose The purpose of this study with the rapid development of the heavy/large mechanical equipment, the heavy computer numerical control (CNC) vertical lathe has become the ideal processing equipment for the parts of those mechanical equipments. The main factor which affects the machining quality and efficiency of heavy CNC vertical lathe is the mechanical properties of the hydrostatic thrust bearing. Design/methodology/approach This paper did the research based on the large size sector oil pad’s lubrication performance of the hydrostatic thrust bearing in the heavy/large equipments, establishing the lubrication performance distribution mathematical model of the velocity field, flow field, pressure field and so on, analyzing the bearing behavior of the large size sector oil pad. Findings The results show that the oil flow generated by the plate relative motion will be greater than that generated by the pressure difference in area B, with the rotational speed’s increasing of the hydrostatic thrust bearing, and the direction is opposite. The oil flow generated by the centrifugal force will be greater than that generated by the pressure difference in area C, with the rotational speed’s increasing of the hydrostatic thrust bearing, and the direction is opposite. When the rotational speed of the hydrostatic thrust bearing is too high, the friction heat will be not easy to be sent out. The bearing rotating speed should be lower than the comparatively smaller one of ω1 and ω2, which can help avoid the rise of too high temperature. Originality/value The research provides powerful theoretical foundation for practical application of the large size sector oil pad hydrostatic thrust bearing, its structure design and operating reliability, realizing the lubrication performance prediction of the large size hydrostatic thrust bearing.

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Section: Introductionmentioning

confidence: 99%

Theoretical research on sector oil-pads’ mechanical property in hydrostatic thrust bearing based on constant flow

Cheng

et al. 2017

ILT

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“…(2009) made simulation analysis of temperature field for heavy hydrostatic bearing’s fan cavity and circular chamber. Li et al . (2012) analyzed oil pad’s lubrication characteristics in the fan cavity of DVT500 vertical lathe’s heavy hydrostatic bearing.…”

Section: Introductionmentioning

confidence: 99%

Theoretical research on mechanical property of rectangular oil pad in hydrostatic thrust bearing based on constant flow

Cheng

et al. 2016

ILT

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Purpose This paper aims to research the lubrication performance of large-size rectangular oil pad in hydrostatic thrust bearing for heavy computer numerical control (CNC) vertical lathe. Design/methodology/approach The research establishes the mathematical models of velocity, flux and pressure fields, etc., for lubrication performance distribution, and analyzes its load-bearing behavior. Findings When hydrostatic thrust bearing’s rotating speed is within ω1-ω2, the oil flow generated by plate’s relative motion is greater than that generated by pressure difference and centrifugal force, and in the opposite direction, making it not easy to emit friction heat, so the rotating speed range ω1-ω2 should be avoided for bearing. Originality/value The research provides powerful theoretical basis for the structure design, operating reliability and practical application of large size rectangular oil pad hydrostatic thrust bearing, and realizing the prediction of its lubrication performance.

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Characteristic Analysis on Heavy Hydrostatic Bearing of DVT500 Vertical Lathe

Cited by 2 publications

References 1 publication

Theoretical research on sector oil-pads’ mechanical property in hydrostatic thrust bearing based on constant flow

Theoretical research on sector oil-pads’ mechanical property in hydrostatic thrust bearing based on constant flow

Theoretical research on mechanical property of rectangular oil pad in hydrostatic thrust bearing based on constant flow

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