Seismic isolation mechanism

The invention claimed is: 1. A seismic isolation mechanism comprising: a seismic isolation apparatus which is installed at one end thereof on a first structure and installed at another end thereof on a second structure to isolate the vibration of the first structure with respect to the second structure; one attenuation damper which is connected at one end thereof to the first structure and connected at another end thereof to a portion of the seismic isolation apparatus between the one end and the other end thereof to attenuate the vibration of the first structure with respect to the second structure due to extension and contraction of the one attenuation damper; and another attenuation damper which is connected at one end thereof to the second structure and connected at another end thereof to the portion of the seismic isolation apparatus between the one end and the other end thereof to attenuate the vibration of the first structure with respect to the second structure due to extension and contraction of the other attentuation damper, wherein said seismic isolation apparatus at least includes a first laminated rubber seismic isolation device in which a rubber elastic layer and a hard plate layer are alternately laminated, a second laminated rubber seismic isolation device in which another rubber elastic layer and another hard plate layer are alternately laminated, and a sliding seismic isolation device, wherein the first laminated rubber seismic isolation device is mounted on the first structure, and the second laminated rubber seismic isolation device is mounted on the second structure, a connecting member to which the respective other ends of said one attenuation damper and said other attenuation damper are connected being interposed between the first laminated rubber seismic isolation device and the second laminated rubber seismic isolation device, and wherein said sliding seismic isolation device is interposed between the first laminated rubber seismic isolation device and the second laminated rubber seismic isolation device. 2. The seismic isolation mechanism according to claim 1 , wherein each of said one attenuation damper and said other attenuation damper includes a cylinder body; a piston disposed in the cylinder body so as to partition an interior of the cylinder body into two chambers; an orifice passage allowing the two chambers to communicate with each other, one piston rod which is connected at one end thereof to the piston and is passed through one end portion of the cylinder body to project outside the cylinder body; another piston rod which is connected at one end thereof to the piston and is passed through another end portion of the cylinder body to project outside the cylinder body; and a fluid which is filled in the two chambers of the cylinder body. 3. The seismic isolation mechanism according to claim 2 , wherein the cylinder body of said one attenuation damper is connected to the first structure, the other piston rod which is passed through the other end portion of the cylinder body of said one attenuation damper to project outside the cylinder body is connected to the portion between the one end and the other end of the seismic isolation apparatus, the cylinder body of said other attenuation damper is connected to the second structure, and the other piston rod which is passed through the other end portion of the cylinder body of said other attenuation damper to project outside the cylinder body is connected to the portion between the one end and the other end of the seismic isolation apparatus. 4. The seismic isolation mechanism according to claim 1 , wherein said sliding seismic isolation device has two sliding seismic isolation bodies, one of the two sliding seismic isolation bodies being interposed between the first laminated rubber seismic isolation device and said connecting member, another one of the two sliding seismic isolation bodies being interposed between said connecting member and the second laminated rubber seismic isolation device. 5. A seismic isolation mechanism comprising: a seismic isolation apparatus which is installed at one end thereof on a first structure and installed at another end thereof on a second structure to isolate the vibration of the first structure with respect to the second structure; one attenuation damper which is connected at one end thereof to the first structure and connected at another end thereof to a portion of the seismic isolation apparatus between the one end and the other end thereof to attenuate the vibration of the first structure with respect to the second structure due to extension and contraction of the one attenuation damper; and another attenuation damper which is connected at one end thereof to the second structure and connected at another end thereof to the portion of the seismic isolation apparatus between the one end and the other end thereof to attenuate the vibration of the first structure with respect to the second structure due to extension and contraction of the other attenuation damper, wherein said seismic isolation apparatus includes a sliding seismic isolation device having a sliding seismic isolation body in which a sliding member and a receiving plate adapted to be brought into contact with the sliding member slidably and, wherein said sliding seismic isolation device has two sliding seismic isolation bodies, one of the two sliding seismic isolation bodies being mounted on the first structure, another one of the two sliding seismic isolation bodies being mounted on the second structure, a connecting member to which the respective other ends of said one attenuation damper and said other attenuation damper are connected being interposed between the two sliding seismic isolation bodies. 6. The seismic isolation mechanism according to claim 5 , wherein said seismic isolation apparatus includes a laminated rubber seismic isolation device in which a rubber elastic layer and a hard plate layer are alternately laminated, and said laminated rubber seismic isolation device is interposed between the two sliding seismic isolation bodies. 7. The seismic isolation mechanism according to claim 6 , wherein said laminated rubber seismic isolation device has two laminated rubber bodies, one of the two laminated rubber bodies being interposed between one of the sliding seismic isolation bodies and said connecting member, another one of the two laminated rubber bodies being interposed between said connecting member and another one of the sliding seismic isolation bodies. 8. The seismic isolation mechanism according to claim 6 , wherein the sliding member and the receiving plate of each of the two sliding seismic isolation bodies are so adapted that, in the relative displacement of the first structure with respect to the second structure, in the case of its displacement at a fixed level or below, shear deformation is caused in each of the two laminated rubber bodies, while sliding is not caused between the sliding member and the receiving plate, and in the case of its displacement at more than the fixed level, frictional resistance for causing sliding to occur between the sliding member and the receiving plate is produced between mutually contacting surfaces of the sliding member and the receiving plate. 9. The seismic isolation mechanism according to claim 5 , wherein each of said one attenuation damper and said other attenuation damper includes a cylinder body; a piston disposed in the cylinder body so as to partition an interior of the cylinder body into two chambers; an orifice passage allowing the two chambers to communicate with each other, one piston rod which is connected at one end thereof to the piston and is passed through one end portion of the cylinder body to project outsid