Rotary compressor

What is claimed is: 1. A rotary compressor, comprising: at least one cylinder formed in an annular shape; a plurality of bearing plates disposed, respectively, at both sides of the at least one cylinder in an axial direction; at least one roller disposed in the at least one cylinder; and at least one vane slidably inserted into the at least one cylinder and configured to be slidable into contact with an outer circumferential surface of the at least one roller, wherein the at least one cylinder comprises: a vane slot having an inner circumferential surface open so that the vane is slidably inserted therein; a suction port having an inner circumferential surface open and disposed at one side of the vane slot in a circumferential direction; and a partition wall disposed between the vane slot and the suction port to partition the vane slot and the suction port from each other, and wherein the partition wall comprises at least one elastic portion recessed by a predetermined depth in the circumferential direction into an inner surface of the suction port defining one of circumferential side surfaces of the partition wall. 2. The rotary compressor of claim 1 , wherein the at least one elastic portion is located at a position at which the at least one elastic portion overlaps a movement range of the at least one vane in a radial direction, on the inner surface of the suction port defining the one of the circumferential side surfaces of the partition wall. 3. The rotary compressor of claim 1 , wherein the at least one elastic portion has a same cross-sectional area along the axial direction. 4. A rotary compressor, comprising: at least one cylinder formed in an annular shape; a plurality of bearing plates disposed, respectively, at both sides of the at least one cylinder in an axial direction; at least one roller disposed in the at least one cylinder; and at least one vane slidably inserted into the at least one cylinder and configured to be slidable into contact with an outer circumferential surface of the at least one roller, wherein the at least one cylinder comprises: a vane slot having an inner circumferential surface open so that the vane is slidably inserted therein; a suction port having an inner circumferential surface open and disposed at one side of the vane slot in a circumferential direction; and a partition wall disposed between the vane slot and the suction port to partition the vane slot and the suction port from each other, and wherein the partition wall comprises at least one elastic portion that axially penetrates or is axially recessed and is spaced in the circumferential direction apart from an inner surface of the vane slot and an inner surface of the suction port defining the circumferential side surfaces of the partition wall. 5. The rotary compressor of claim 4 , wherein the at least one elastic portion is spaced apart from the circumferential side surfaces of the partition wall at a same distance in the circumferential direction. 6. The rotary compressor of claim 4 , wherein the at least one elastic portion has a same cross-sectional area along the axial direction. 7. A rotary compressor, comprising: at least one cylinder formed in an annular shape; a plurality of bearing plates disposed, respectively, at both sides of the at least one cylinder in an axial direction; at least one roller disposed in the at least one cylinder; and at least one vane slidably inserted into the at least one cylinder and configured to be slidable into contact with an outer circumferential surface of the at least one roller, wherein the at least one cylinder comprises: a vane slot having an inner circumferential surface open so that the vane is slidably inserted therein; a suction port having an inner circumferential surface open and disposed at one side of the vane slot in a circumferential direction; and a partition wall disposed between the vane slot and the suction port to partition the vane slot and the suction port from each other, and wherein the partition wall comprises at least one elastic portion that penetrates or is recessed at at least one of circumferential side surfaces of the partition wall or between the circumferential side surfaces of the partition wall, wherein the at least one elastic portion comprises a plurality of elastic portions, wherein the plurality of elastic portions is spaced apart at predetermined distances along a radial direction of the partition wall, wherein the partition wall is configured such that a cross-sectional area at an inner circumferential side is smaller than a cross-sectional area at an outer circumferential side, and wherein each elastic portion of the plurality of elastic portions is configured such that a cross-sectional area of the elastic portion located at the inner circumferential side of the cylinder is smaller than a cross-sectional area of the elastic portion located at the outer circumferential side of the cylinder. 8. The rotary compressor of claim 7 , wherein the plurality of elastic portions is provided at both of the circumferential side surfaces of the partition wall. 9. A rotary compressor, comprising: at least one cylinder formed in an annular shape; a plurality of bearing plates disposed, respectively, at both sides of the at least one cylinder in an axial direction; at least one roller disposed in the at least one cylinder; and at least one vane slidably inserted into the at least one cylinder and configured to be slidable into contact with an outer circumferential surface of the at least one roller, wherein the at least one cylinder comprises: a vane slot having an inner circumferential surface open so that the vane is slidably inserted therein; a suction port having an inner circumferential surface open and disposed at one side of the vane slot in a circumferential direction; and a partition wall disposed between the vane slot and the suction port to partition the vane slot and the suction port from each other, wherein the partition wall comprises at least one elastic portion recessed in a rectangular shape for which at least a portion of the at least one elastic portion has a same width in the circumferential direction and extends lengthwise in a radial direction. 10. The rotary compressor of claim 9 , wherein the at least one elastic portion has a same cross-sectional area along the axial direction. 11. A rotary compressor, comprising: at least one cylinder formed in an annular shape; a plurality of bearing plates disposed, respectively, at both sides of the at least one cylinder in an axial direction; at least one roller disposed in the at least one cylinder; and at least one vane slidably inserted into the at least one cylinder and configured to be slidable into contact with an outer circumferential surface of the at least one roller, wherein the at least one cylinder comprises: a vane slot having an inner circumferential surface open so that the vane is slidably inserted therein; a suction port having an inner circumferential surface open and disposed at one side of the vane slot in a circumferential direction; and a partition wall disposed between the vane slot and the suction port to partition the vane slot and the suction port from each other, wherein the partition wall comprises at least one elastic portion recessed by a predetermined depth axially into at least one of axial side surfaces of the partition wall, and wherein the partition wall has a non-penetrating portion formed by blocking an inner end portion of the at least one elastic portion in the axial direction. 12. The rotary compressor of claim 11 , wherein the predetermined depth of the at least one el