Fluid-filled tubular vibration-damping device

What is claimed is: 1. A fluid-filled tubular vibration-damping device comprising: an inner shaft member; an outer tube member; a main rubber elastic body that connects the inner shaft member and the outer tube member so as to provide a sealed zone filled with a non-compressible fluid between the inner shaft member and the outer tube member; a partition wall partitioning the sealed zone into axially opposite parts so as to provide two fluid chambers; and an orifice passage interconnecting the two fluid chambers, wherein an outer peripheral side of the partition wall is fixed to the outer tube member, an inner peripheral side of the partition wall is constituted by an annular partition wall rubber that is externally disposed around the inner shaft member in a movable manner in an axial direction, sealing tube parts are integrally formed with an inner peripheral portion of the partition wall rubber and project toward axially opposite sides, and fitting parts thicker than the sealing tube parts are integrally formed with projecting distal ends of the respective sealing tube parts and are externally fitted around the inner shaft member in a slidable manner. 2. The fluid-filled tubular vibration-damping device according to claim 1 , wherein a gap is provided between an inner peripheral surface of the sealing tube parts and the inner shaft member. 3. The fluid-filled tubular vibration-damping device according to claim 1 , wherein the partition wall before being externally disposed around the inner shaft member has such a shape in isolation that the sealing tube parts have a straight tube shape which extends in the axial direction with a generally unchanging transverse cross section, while projecting distal end edges of the sealing tube parts are made thicker toward the inner peripheral side so as to provide the fitting parts. 4. The fluid-filled tubular vibration-damping device according to claim 1 , wherein the inner peripheral portion of the partition wall rubber includes groove-shaped recess parts respectively extending on axially opposite surfaces in a circumferential direction on an outer peripheral side of projecting portions of the sealing tube parts which project toward the axially opposite sides. 5. The fluid-filled tubular vibration-damping device according to claim 1 , wherein an annular orifice member is bonded to an outer peripheral side of the partition wall rubber while the annular orifice member is secured fitting into an inner peripheral surface of the outer tube member, and the orifice passage interconnecting the two fluid chambers is provided by utilizing the orifice member. 6. The fluid-filled tubular vibration-damping device according to claim 5 , wherein the orifice member includes an inward convex portion projecting peripherally inward from an axially medial portion thereof, and the partition wall rubber is bonded to the inward convex portion. 7. The fluid-filled tubular vibration-damping device according to claim 1 , wherein the sealing tube parts formed on the axially opposite sides of the partition wall rubber have shapes identical with each other. 8. The fluid-filled tubular vibration-damping device according to claim 1 , wherein the two fluid chambers provided on the axially opposite sides of the partition wall comprise pressure-receiving chambers in which mutually opposite positive and negative pressure fluctuations are configured to arise by the partition wall being moved in the axial direction during relative movement of the inner shaft member and the outer tube member in the axial direction. 9. The fluid-filled tubular vibration-damping device according to claim 1 , wherein the fluid chamber provided on one axial side of the partition wall comprises a pressure-receiving chamber in which pressure fluctuations are configured to arise by the partition wall being moved in the axial direction during relative movement of the inner shaft member and the outer tube member in the axial direction, and the fluid chamber provided on another axial side of the partition wall comprises an equilibrium chamber whose wall portion is partially constituted by a flexible film such that pressure fluctuations are configured to be avoided during relative movement of the inner shaft member and the outer tube member in the axial direction.