Hermetically sealed rotary compressor and refrigeration cycle device

What is claimed is: 1. A hermetically sealed rotary compressor comprising: a compressor body comprising a well-closed container; an electric motor unit accommodated in an upper part of the well-closed container; a compression mechanism section comprising a cylinder forming a cylinder chamber and a roller driven by the electric motor unit through a shaft to perform an eccentric motion in the cylinder chamber, the compression mechanism section being accommodated in a lower end portion of the well-closed container; first, second, third, and fourth support legs welded to the lower end portion of the well-closed container, each of the first, second, third, and fourth support legs comprising a mounting through hole for attaching and securing the hermetically sealed rotary compressor to a mounting spot, and the first, second, third, and fourth support legs being arranged at regular intervals along a circumference of the well-closed container; an accumulator disposed on a lateral part of the well-closed container, the lateral part corresponding to a center between the first and second support legs, which are adjacent to each other; an upper bearing member disposed between the upper part of the well-closed container and the electric motor unit, the upper bearing member comprising: a rolling bearing engaged with the shaft; a support frame attached to an inner peripheral wall of the well-closed container; and a housing attached to the inner peripheral wall of the well-closed container by the support frame, the housing supporting the rolling bearing, and the housing including a bearing holding portion and mounting leg portions; a refrigerant pipe provided on the upper part of the well-closed container, to which a gas refrigerant containing an oil mist travels from the compression mechanism section; and an oil separator plate disposed between the refrigerant pipe and the rolling bearing, wherein: the bearing holding portion comprises a ring-shaped fitting portion fitted on the rolling bearing and an inclined receiving portion, the inclined receiving portion being bent outward from an upper end of the fitting portion and being inclined so that an inner peripheral end of an upper part of the inclined receiving portion is lower than an outer peripheral end of the upper part of the inclined receiving portion, the mounting leg portions each have a predetermined width, are located above the bearing holding portion, are combined with an outer peripheral end of the bearing holding portion, and are attached to the support frame, the support frame includes a flat circular ring plate to which the mounting leg portions are attached, an overall height H of the compressor body, which is a height measured from a bottom surface of the first, second, third, and fourth support legs to an upper end of the compressor body, is set to be at least 2.5 times greater than an outer diameter D of the compressor body (H/D≧2.5), a height Hg of a center of gravity of the compressor body, which is a height measured from the bottom surface of the first, second, third, and fourth support legs to the center of gravity of the compressor body, is set to be ½ or less than the overall height H of the compressor body (Hg≦H/2), and the hermetically sealed rotary compressor satisfies the following expression (1): Rc /cos θ< Rb, Rb<L,   (1) where Rb is a distance from a longitudinal central axis of the compressor body to a center of the mounting through hole of each of the first, second, third, and fourth support legs, Rc is a distance from the longitudinal central axis of the compressor body to an outer peripheral surface of the compressor body, L is a distance from the longitudinal central axis of the compressor body to a longitudinal central axis of the accumulator, and θ is an angle (45°) of half an angle formed between the first and second support legs about the longitudinal central axis of the compressor body. 2. The hermetically sealed rotary compressor according to claim 1 , wherein the mounting leg portion is integrally combined with an outer peripheral edge of an upper part of the inclined receiving portion such that an outer end portion of the mounting leg portion is attached and secured to the well-closed container, and the mounting leg portion is located above the bearing holding portion and inclined downward from the outer end portion thereof toward the inclined receiving portion. 3. A refrigeration cycle device comprising the hermetically sealed rotary compressor according to claim 1 , a heat-source-side heat exchanger, an expander, and a user-side heat exchanger. 4. The hermetically sealed rotary compressor according to claim 1 , wherein the oil separator plate is provided on an upper end portion of the shaft. 5. The hermetically sealed rotary compressor according to claim 1 , wherein the oil separator plate faces the inclined receiving portion from above such that oil mist adhered to a lower surface of the oil separator partly expands and drops onto an upper surface of the inclined receiving portion which guides a drop of lubricating oil to the rolling bearing.