Rotary compressor having reduced pressure loss of refrigerant flow

The invention claimed is: 1. A rotary compressor comprising: a longitudinally-mounted sealed cylindrical compressor chassis that is provided with a discharge unit for a refrigerant in an upper section thereof and provided with a suction unit for the refrigerant in a lower section thereof; a compression unit that is disposed in the lower section of the compressor chassis to compress the refrigerant suctioned from the suction unit and discharge the refrigerant through the discharge unit; and a motor that is disposed in the upper section of the compressor chassis to drive the compression unit, the compression unit including a circular cylinder; end plates that cover an upper side and a lower side of the cylinder, respectively; a rotary shaft that includes an eccentric portion and that is rotated by the motor; a piston that is engaged with the eccentric portion and orbitally moved along an inner circumference of the cylinder to form a cylinder chamber in the cylinder; a vane that protrudes from a vane groove provided in the cylinder into the cylinder chamber and that is brought into contact with the piston to divide the cylinder chamber into a suction chamber and a compression chamber; and a suction passage for the refrigerant, which is provided in the cylinder by extending in a radial direction of the cylinder and which communicates with the suction unit, the suction passage includes a first passage that is cylindrical and connected to the suction unit; and a second passage whose one end is connected to the first passage and other end has an opening on the inner circumference of the cylinder, and the second passage is formed, from the one end to the other end, in a slit-like shape penetrating the upper side and the lower side of the cylinder, and satisfies L≥W 1 , W 1 ≤D 1 ×0.7, W 2 ≤D 1 where a width of the second passage at the other end in a circumferential direction of the cylinder is W 1 , the width of the second passage at the one end is W 2 , a length of the second passage from the one end to the other end is L, and an inner diameter of the first passage at an area connected to the second passage is D 1 . 2. The rotary compressor according to claim 1 , wherein the width W 1 of the second passage satisfies [(Dc−Dp)×0.3]≤W 1 ≤[(Dc−Dp)×0.7] where an inner diameter of the cylinder is Dc and an outer diameter of the piston is Dp. 3. The rotary compressor according to claim 1 , wherein one end of the first passage at a side of the second passage is provided with a chamfered portion toward the upper side and the lower side of the cylinder such that the first passage is gradually enlarged. 4. The rotary compressor according to claim 1 , wherein the second passage is formed at a position away from a side surface of the vane groove at a side of the suction passage toward the suction passage with a central angle of equal to or more than 30° with an intersection point between the side surface at the side of the suction passage and the inner circumference of the cylinder as a center on a plane perpendicular to an axial direction of the rotary shaft. 5. The rotary compressor according to claim 1 , wherein the second passage has a tapered portion which satisfies W 1 <W 2 .