Fluid-filled tubular vibration-damping device

What is claimed is: 1. A fluid-filled tubular vibration-damping device comprising: an inner shaft member; an intermediate tube member spaced radially outward from the inner shaft member; a main rubber elastic body connecting the inner shaft member and the intermediate tube member; an outer tube member fastened externally onto the intermediate tube member; a pair of fluid chambers formed between the inner shaft member and the outer tube member, the fluid chambers being formed on opposite sides of the inner shaft member; and an orifice passage through which the fluid chambers are held in communication, wherein: in at least one of the fluid chambers, at least one side wall of side walls positioned on axially opposite sides includes: a thick central connector positioned in a circumferentially central portion of the at least one side wall and extending in an axis-perpendicular direction, and thin flexible walls that are thinner than the central connector while being positioned and spreading on circumferentially opposite sides of the at least one side wall, the at least one side wall of the at least one of the fluid chambers includes recesses that are positioned on the circumferentially opposite sides thereof and open to an axial outer face thereof, and the flexible walls are provided by the at least one side wall being thin-walled by the recesses, and an axial inner face of the at least one side wall spreads in a circumferential direction with an inner face shape that is constant over the central connector and the flexible walls. 2. The fluid-filled tubular vibration-damping device according to claim 1 , wherein the flexible walls have a cross-sectional shape curving and extending in the axis-perpendicular direction between the inner shaft member and the outer tube member. 3. A fluid-filled tubular vibration-damping device comprising: an inner shaft member; an intermediate tube member spaced radially outward from the inner shaft member; a main rubber elastic body connecting the inner shaft member and the intermediate tube member; an outer tube member fastened externally onto the intermediate tube member; a pair of fluid chambers formed between the inner shaft member and the outer tube member, the fluid chambers being formed on opposite sides of the inner shaft member; and an orifice passage through which the fluid chambers are held in communication, wherein: in at least one of the fluid chambers, at least one side wall of side walls positioned on axially opposite sides includes: a thick central connector positioned in a circumferentially central portion of the at least one side wall and extending in an axis-perpendicular direction, and thin flexible walls that are thinner than the central connector while being positioned and spreading on circumferentially opposite sides of the at least one side wall, and in both of the fluid chambers formed on the opposite sides of the inner shaft member, each of the side walls positioned on the axially opposite sides includes the central connector and the flexible walls. 4. A fluid-filled tubular vibration-damping device comprising: an inner shaft member; an intermediate tube member spaced radially outward from the inner shaft member; a main rubber elastic body connecting the inner shaft member and the intermediate tube member; an outer tube member fastened externally onto the intermediate tube member; a pair of fluid chambers formed between the inner shaft member and the outer tube member, the fluid chambers being formed on opposite sides of the inner shaft member; and an orifice passage through which the fluid chambers are held in communication, wherein: in at least one of the fluid chambers, at least one side wall of side walls positioned on axially opposite sides includes: a thick central connector positioned in a circumferentially central portion of the at least one side wall and extending in an axis-perpendicular direction, and thin flexible walls that are thinner than the central connector while being positioned and spreading on circumferentially opposite sides of the at least one side wall, the intermediate tube member includes a pair of windows opening at portions that are opposed to each other in the axis-perpendicular direction in an axially middle portion of the intermediate tube member, the main rubber elastic body includes a pair of pockets opening to an outer circumferential surface of the intermediate tube member through the respective windows thereof, and the windows of the intermediate tube member are covered by the outer tube member so that the fluid chambers are provided by the pockets.