This　paper　proposes　a　parameter　optimization　method　for　hydrostatic　turntable　with　internal　feedback　in　machine　tools,　considering　stiffness　and　energy　consumption.　For　the　first　time,　a　power　consumption　calculation　method　for　oil　pads　with　built-in　restrictor　is　presented,　and　a　stiffness　calculation　model　for　the　oil　film　is　established　based　on　the　Reynolds　equation.　A　multi-objective　optimization　function　is　constructed　in　the　form　of　weighted　coefficients.　An　experimental　setup　for　performance　testing　of　the　oil　pad　with　internal　feedback　is　developed,　and　finite　element　simulation　analysis　is　combined　to　verify　the　accuracy　of　the　theoretical　method.　Finally,　corresponding　optimization　schemes　for　different　scenarios　are　provided.　The　results　show　that　at　a　speed　of　50　r/min,　power　consumption　can　be　reduced　by　50.1%　by　adjusting　the　coefficients　of　the　objective　function.　This　method　can　serve　as　a　reference　for　the　energy-efficient　design　of　hydrostatic　turntables.