将静压支承原理和圆锥动压浮环轴承结合起来，提出了一种新型结构的滑动轴承——圆锥浮环动静压轴承，并对此进行了理论分析，有限元计算和试验研究。导出了基本微分，积分方程组，提出了保证浮环启动的设计准则，较好地解决了数值计算中的多重迭代和快速收敛问题，讨论了不同条件下的轴承性能，揭示了轴心，环心，环轴速比等的变化规律，理论计算和试验取得了较好的一致，并表明，该轴承兼具圆锥，动压，静压，浮环滑动轴承之优点，在高速旋转机械领域将有广阔的应用前景。 The hydrostatic bearing principle and the cone dynamic pressure floating ring bearings are combined to form a new type of sliding bearing - conical floating ring hydrostatic bearing, and theoretical analysis, finite element calculation and experimental research. The basic differential and integral equations are derived, and the design criteria of floating ring start-up are proposed. The problems of multiple iterations and fast convergence in numerical calculation are solved. The bearing performance under different conditions is discussed. Heart and ring shaft speed ratio and other changes, the theoretical calculations and tests made a good agreement, and shows that the bearing both cone, dynamic pressure, static pressure, the advantages of floating ring bearings in the field of high-speed rotating machinery will be Has broad application prospects.