Anti-vibration device

The invention claimed is: 1. An anti-vibration device comprising: an inner tube member having a spherical bulge section that bulges outward in the radial direction at the center in the axial direction; an outer tube member having a recessed inner peripheral surface that is formed into a spherical surface of a recessed shape which is concentric with a spherical surface of a projected shape in the bulge section of the inner tube member, surrounds the bulge section of the inner tube member and is disposed on the outer periphery side of the inner tube member; a rubber base body that connects the outer peripheral surface of the bulge section of the inner tube member and the recessed inner peripheral surface of the outer tube member to each other and is formed of a rubber-like elastic body; and a tubular member formed into a tubular shape, disposed on the outer periphery side of the outer tube member, the tubular member holding and fixing the outer tube member, the tubular member is formed of a metal material having a constant plate thickness, the outer tube member is split into a first outer tube section and a second outer tube section in the axial direction, the rubber base body is split, in the axial direction into a first rubber section that connects the outer peripheral surface of the bulge section of the inner tube member and the recessed inner peripheral surface in the first outer tube section to each other and a second rubber section that connects the outer peripheral surface of the bulge section of the inner tube member and the recessed inner peripheral surface in the second outer tube section to each other, the first outer tube section and the second outer tube section are held and fixed by the tubular member in a state where the split surface of the first rubber section and the split surface of the second rubber section are apart from each other in the axial direction and a space is formed between the split surfaces of the first rubber section and the second rubber section, wherein provided on an outer peripheral surface of each of the first outer tube section and the second outer tube section is a first rubber membrane section and a second rubber membrane, each of the first rubber membrane sections and each of the second rubber membrane sections are a belt-like membrane continuing in the peripheral direction, the first rubber membrane of the first outer tube section covers one side of the split surface of the first outer tube section and the second rubber membrane of the first outer tube section covers an opposite side of the split surface of the first outer tube section adjacent the space formed between the split surfaces of the first rubber section and the second rubber section so that the second rubber membrane extends to an end of the split surface of the first outer tube section adjacent said space, the first rubber membranes covers a larger portion of the split surface than the second rubber membrane, the first rubber membrane of the second outer tube section covers one side of the split surface of the second outer tube section and the second rubber membrane of the second outer tube section covers an opposite side of the split surface of the second outer tube section adjacent the space formed between the split surfaces of the first rubber section and the second rubber section so that the second rubber membrane extends to an end of the split surface of the second outer tube section adjacent said space, the first rubber membranes covers a larger portion of the split surface than the second rubber membrane, a portion of the outer peripheral surface of the first outer tube section and a portion of the outer peripheral surface of the second outer tube section is exposed in a region located at least between the first rubber membrane section and the second section rubber membrane section thereof in a circumferential direction, and the first outer tube section and the second outer tube section have an arc shape having a constant thickness, a diameter of the tubular member is reduced in the axial direction so that one end side of an inner circumferential surface of the tubular member in the axis direction and the opposite end side of an inner circumferential surface of the tubular member in the axis direction are attached along an outer peripheral surface of the first outer tube section and the second outer tube section, the tubular member is diameter-reduced to form a shape wherein one end side in the axis direction and the opposite end side in the axis direction curve inward in a radial direction in a cross-sectional view, and a central portion of the tubular member in the axial direction is formed in a linear shape along the axial direction, an inner circumferential surface of the tubular member on one end side in the axial direction is in contact with the first rubber membrane of the first outer tube section, and an inner circumferential surface of the tubular member on another end side in the axial direction is in contact with the first rubber membrane of the second outer tube section, and the inner circumferential surface of the tubular member at the linear central portion is in contact with the second rubber membrane of the first outer tube section and the second rubber membrane of the second outer tube section, the first outer tube section and the second outer tube section are held in a state pressed inward in the radial direction by the inner peripheral surface of the tubular member, and a through hole is formed in each of the first outer tube section and the second outer tube section, the first rubber membrane of the first outer tube section continues to the first rubber section through the through hole of the first outer tube section, and the second rubber membrane of the first outer tube section continues to the first rubber section through the split surface of the first outer tube section, and the first rubber membrane of the second outer tube section continues to the second rubber section through the through hole of the second outer tube section, and the second rubber membrane of the second outer tube section continues to the second rubber section through the split surface of the second outer tube section. 2. The anti-vibration device according to claim 1 , wherein the maximum outside diameter dimension in the bulge section of the inner tube member is larger than the minimum inside diameter dimension in an opening in the end in the axial direction of the first outer tube section and the second outer tube section. 3. The anti-vibration device according to claim 1 , wherein the first outer tube section, and the second outer tube section are formed of a metal material. 4. The anti-vibration device according to claim 1 , comprising: a stopper projection section projected outward in the radial direction from the center part of the bulge section in the axial direction; and a stopper rubber section coveringly arranged at the stopper projection section, formed of a rubber-like elastic body, and continuing to at least either of the first rubber section or the second rubber section; wherein the split surface of the first outer tube section and the split surface of the second outer tube section are made apart from each other in the axial direction; the outer peripheral surface of the stopper rubber section and the inner peripheral surface of the tubular member are made apart from each other in the radial direction; and the outer peripheral surface of the stopper rubber section is made capable of abutting upon the inner peripheral surface of the tubular member through a gap between the split surfaces of the first outer tube section and the second outer tube section. 5. The anti-vibration device according to claim 1 , wherein the inner tube section is split into a first inner tube section and