Airless tire

What is claimed is: 1 . An airless tire, comprising: a tread ring having a cylindrical form and having a contact patch; a hub positioned on a tire radially inner side of the tread ring and configured to be fixed to an axle; and a spoke structure comprising a polymer material and connecting the tread ring and the hub, wherein the spoke structure integrally comprises a tread-side annular component bonded to an inner circumferential surface of the tread ring, a hub-side annular component bonded to an outer circumferential surface of the hub, and a plurality of spoke plates radially extending from the hub-side annular component to the tread-side annular component, each of the spoke plates has a thickness having a first tapered-thickness region, a second tapered-thickness region and a minimum-thickness region such that the first tapered-thickness region is radially extending outward and has the thickness gradually reducing from a first connecting position at which the hub-side annular component is bonded, the second tapered-thickness region is radially extending inward and has the thickness gradually reducing from a second connecting position at which the tread-side annular component is bonded, and the minimum-thickness region has the minimum thickness formed between the first and second tapered-thickness regions, and the first tapered-thickness region and the second tapered-thickness region are formed such that each of a tire radial length L 1 of the first tapered-thickness region and a tire radial length L 2 of the second tapered-thickness region is set to be at least 0.05 times a tire radial length L 0 of a respective one of the spoke plates. 2 . The airless tire according to claim 1 , wherein when the thickness of each of the spoke plates is set to be an output of a function T(x) with respect to a variable (x), which is a tire radial distance measured from the first connecting position set as a point of origin, a first derivative T′(x) of the function T(x) satisfies T′(0)=∞, T′(x1)=0, T′(x2)=0, T′(x3)=∞, where x1=L 1 , x2=L 0 -L 2 , and x3=L 0 . 3 . The airless tire according to claim 1 , wherein when the thickness of each of the spoke plates is set to be an output of a function T(x) with respect to a variable (x), which is a tire radial distance measured from the first connecting position set as a point of origin, a second derivative T″(x) of the function T(x) satisfies T″(x)<0 and 0≦x≦x1, and T″(x)>0 and x2≦x≦x3, where x1=L 1 , x2=L 0 -L 2 , and x3=L 0 . 4 . The airless tire according to claim 1 , wherein of the first tapered-thickness region has a thickness Ta 0.5 at a tire radially center position such that the thickness Ta 0.5 is set to be in a range of 1.05 to 1.5 times a minimum value Tmin, and the second tapered-thickness region has a thickness Tb 0.5 at a tire radially center position such that the thickness Tb 0.5 is set to be in a range of 1.05 to 1.5 times the minimum value Tmin. 5 . The airless tire according to claim 1 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wa at the first connecting position. 6 . The airless tire according to claim 1 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wb at the second connecting position. 7 . The airless tire according to claim 1 , wherein the spoke structure has complex elastic modulus E* set to be in a range of 1 MPa to 300 MPa. 8 . The airless tire according to claim 2 , wherein a second derivative T″(x) of the function T(x) satisfies T″(x)<0 and 0≦x≦x1, and T″(x)>0 and x2≦x≦x3, where x1=L 1 , x2=L 0 -L 2 , and x3=L 0 . 9 . The airless tire according to claim 2 , wherein of the first tapered-thickness region has a thickness Ta 0.5 at a tire radially center position such that the thickness Ta 0.5 is set to be in a range of 1.05 to 1.5 times a minimum value Tmin, and the second tapered-thickness region has a thickness Tb 0.5 at a tire radially center position such that the thickness Tb 0.5 is set to be in a range of 1.05 to 1.5 times the minimum value Tmin. 10 . The airless tire according to claim 2 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wa at the first connecting position. 11 . The airless tire according to claim 2 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wb at the second connecting position. 12 . The airless tire according to claim 2 , wherein the spoke structure has complex elastic modulus E* set to be in a range of 1 MPa to 300 MPa. 13 . The airless tire according to claim 3 , wherein of the first tapered-thickness region has a thickness Ta 0.5 at a tire radially center position such that the thickness Ta 0.5 is set to be in a range of 1.05 to 1.5 times a minimum value Tmin, and the second tapered-thickness region has a thickness Tb 0.5 at a tire radially center position such that the thickness Tb 0.5 is set to be in a range of 1.05 to 1.5 times the minimum value Tmin. 14 . The airless tire according to claim 3 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wa at the first connecting position. 15 . The airless tire according to claim 3 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wb at the second connecting position. 16 . The airless tire according to claim 3 , wherein the spoke structure has complex elastic modulus E* set to be in a range of 1 MPa to 300 MPa. 17 . The airless tire according to claim 4 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wa at the first connecting position. 18 . The airless tire according to claim 4 , wherein each of the spoke plates has a minimum-width region in which a tire axial width W has a minimum value Wmin between the first connecting position and the second connecting position, and the minimum value Wmin is set to be in a range of at least 0.5 times to less than 1.0 times a width Wb at the second connecting position. 19 . The airless tire according to claim 4 , wherein the spoke structure has c