Rotary compressor

What is claimed is: 1. A rotary compressor comprising: a cylinder having a cylinder chamber in an inner portion thereof and provided with an approximately circular bush groove at a position adjacent to the cylinder chamber; a piston housed in the cylinder chamber and configured to rotate eccentrically; a blade integrally formed with the piston and separating the cylinder chamber into a low-pressure chamber and a high-pressure chamber; and a pair of bushes each having a substantially semicircular shape and including a flat surface and a curved surface, the pair of bushes being fitted in the bush groove such that the flat surfaces face each other and the curved surfaces face the bush groove, and the pair of bushes holding the blade placed between the flat surfaces in such a manner that allows the blade to swing, one of the bushes being disposed on a low pressure side, the curved surface of at least the bush on the low-pressure side sliding with an inner surface of the bush groove while being pushed toward the cylinder chamber due to a pressure difference between a low pressure in the cylinder chamber and a high pressure in a back pressure space opposed to the cylinder chamber with respect to the bush, and the bush on the low-pressure side being provided with a crowned portion disposed between the flat surface and the curved surface at an edge of the bush closer to the cylinder chamber, the crowned portion being formed by performing a crowning process from a predetermined crowning start position on the flat surface of the bush to a crowning end position disposed toward the edge of the bush closer to the cylinder chamber, and a parameter α, which is a ratio of L′ to L, being determined to satisfy 0.2≤α<0.5 where L represents a length of the flat surface of the bush before being subjected to the crowning process, and L′ represents a length between the edge of the at least one bush closer to the cylinder chamber and the predetermined crowning start position. 2. The rotary compressor of claim 1 , wherein a shift length x, which is a distance from the flat surface of the bush to the crowning end position in a direction perpendicular to the flat surface, satisfies x≤α·C where C represents a total length of gaps between the flat surfaces of the pair of bushes and the blade and gaps between the curved surfaces of the pair of bushes and the bush groove. 3. The rotary compressor of claim 1 , wherein the crowned portion is in a form of an arc in contact with the blade at the predetermined crowning start position. 4. The rotary compressor of claim 1 , wherein the flat surface of each of the bushes lies in a plane orthogonal to a center line of the bush and parallel to an imaginary plane in contact with the curved surface of the bush. 5. The rotary compressor of claim 1 , wherein the bush provided with the crowned portion at the edge thereof closer to the cylinder chamber is further provided with another crowned portion at an edge thereof closer to the back pressure space so as to be symmetrical about the center line of the bush as viewed in plan view.