Rotary compressor

What is claimed is: 1. A rotary compressor comprising: a sealed vertically-placed cylindrical compressor housing in which a discharging pipe of a refrigerant is provided in an upper portion, and an inlet pipe of the refrigerant is provided in a lower portion; a compressing unit which is disposed in the lower portion of the compressor housing, and which compresses the refrigerant suctioned from the inlet pipe, and which discharges the refrigerant to the discharging pipe; and a motor which is disposed in the upper portion of the compressor housing, and which drives the compressing unit, wherein the compressing unit includes an annular upper cylinder and an annular lower cylinder, an upper end plate which closes an upper side of the upper cylinder, a lower end plate which closes a lower side of the lower cylinder, an intermediate partition plate which is disposed between the upper cylinder and the lower cylinder, and which closes the lower side of the upper cylinder and the upper side of the lower cylinder, a rotation shaft which is rotated by the motor, an upper eccentric portion and a lower eccentric portion which are provided on the rotation shaft and which are arranged with a phase difference of 180° therebetween, an upper piston which is fitted to the upper eccentric portion, and which revolves along an inner circumferential surface of the upper cylinder, and which forms an upper cylinder chamber on an inside of the upper cylinder, a lower piston which is fitted to the lower eccentric portion, revolves along an inner circumferential surface of the lower cylinder, and which forms a lower cylinder chamber on an inside of the lower cylinder, an upper vane which protrudes to the inside of the upper cylinder chamber from an upper vane groove provided in the upper cylinder, and which divides the upper cylinder chamber into an upper inlet chamber and an upper compression chamber by abutting against the upper piston, a lower vane which protrudes to the inside of the lower cylinder chamber from a lower vane groove provided in the lower cylinder, and which divides the lower cylinder chamber into a lower inlet chamber and a lower compression chamber by abutting against the lower piston, an upper end plate cover which covers the upper end plate, and which forms an upper end cover plate chamber between the upper end plate and the upper endplate cover, and which has an upper end plate cover discharge hole that communicates with the upper end plate cover chamber and an inside of the compressor housing, a lower endplate cover which covers the lower end plate, and which forms a lower endplate cover chamber between the lower end plate and the lower end plate cover, an upper discharge hole which is provided in the upper end plate, and which communicates with the upper compression chamber and the upper end plate cover chamber, a lower discharge hole which is provided in the lower end plate, and which communicates with the lower compression chamber and the lower end plate cover chamber, and a refrigerant path hole which penetrates the lower end plate, the lower cylinder, the intermediate partition plate, the upper end plate, and the upper cylinder, and which communicates with the lower end plate cover chamber and the upper end plate cover chamber, wherein a communication groove, which communicates with the lower end plate cover chamber, is provided on a mating surface between the lower end plate and the lower end plate cover, wherein the lower end plate cover is formed in a shape of a flat plate, and has a through hole that is provided to penetrate in a thickness direction of the lower end plate cover and that communicates with the communication groove, wherein, when 1) a sectional area of the communication groove seen from cross-sectional view taken along a center line of the rotation shaft is S1 [mm 2 ], 2) an area of an overlapping portion in which the through hole and the communication groove overlap each other on a plane orthogonal to the rotation shaft is S2 [mm 2 ], and 3) a displacement volume of the lower cylinder chamber is V[cc], each of 0.10<(52/V)<0.50, and 1.0<(S2/S1)<7.0 is satisfied, and wherein lubricant oil and the refrigerant remaining in the lower end plate cover chamber are discharged from the through hole into the lower portion of the inside of the compressor housing through the communication groove and the overlapping portion. 2. The rotary compressor according to claim 1 , wherein the compressing unit has an injection hole which communicates with the lower cylinder chamber, and which injects a liquid refrigerant into the inside of the lower cylinder chamber. 3. The rotary compressor according to claim 1 , wherein the communication groove is provided in the lower end plate cover. 4. The rotary compressor according to claim 3 , wherein a sectional shape of the communication groove is a V groove. 5. The rotary compressor according to claim 1 , wherein a bolt, which fastens the lower end plate and the lower cylinder to each other, is inserted into the through hole.