Torque transmission joint and electric power steering apparatus

What is claimed is: 1. A torque transmission joint comprising: a drive-side transmission member that is supported by an end section of a drive shaft concentrically with the drive shaft; a driven-side transmission member that is supported by an end section of a driven shaft, that is arranged in series in an axial direction with the drive shaft, concentrically with the driven shaft; and a shock-absorbing member that is made of an elastic material and is provided between the drive-side transmission member and the driven-side transmission member; the torque transmission joint transmitting torque between the end section of the drive shaft and the end section of the driven shaft when the drive shaft and the driven shaft rotate in one rotational direction or in another rotational direction; the drive-side transmission member comprising: a drive-side base section that is supported by the end section of the drive shaft, and has a surface that faces the driven-side transmission member; and a plurality of drive-side arm sections that are provided on the surface of the drive-side base section intermittently in a circumferential direction so as to protrude out in the axial direction, each of which has paired side surfaces in the circumferential direction; the driven-side transmission member comprising: a driven-side base section that is supported by the end section of the driven shaft, and has a surface that faces the drive-side transmission member; and a plurality of driven-side arm sections that are provided on the surface of the driven-side base section intermittently in the circumferential direction so as to protrude out in the axial direction, each of which has paired side surfaces in the circumferential direction; and the shock-absorbing member comprising a plurality of held sections; wherein the paired side surfaces of each of the drive-side arm sections comprises one side surface that is positioned on a front side in the one rotational direction and another side surface that is positioned on a rear side in the one rotational direction, and the one side surface is inclined to the front side in the one rotational direction with respect to a radial direction of the drive-side transmission member as it goes toward an outer diameter side of the drive-side transmission member; the paired side surfaces of each of the driven-side arm sections comprises one side surface that is positioned on a front side in the one rotational direction and another side surface that is positioned on a rear side in the one rotational direction, and another side surface is inclined to the front side in the one rotational direction with respect to a radial direction of the driven-side transmission member as it goes toward an outer diameter side of the driven-side transmission member; the drive-side arm sections and the driven-side arm sections are arranged in an alternating sequence in the circumferential direction, and the held sections of the shock absorbing member are arranged between the side surfaces in the circumferential direction of the drive-side arm sections and the driven-side arm sections that are adjacent to each other in the circumferential direction; and the other side surface of each of the driven-side arm sections faces the one side surface of either of the drive-side arm sections, and when the drive shaft is rotated and driven in the one rotational direction, forces due to torque transmitted from the drive shaft to the driven shaft act inward in a radial direction of the shock-absorbing member on the held sections that are held between the one side surfaces of the drive-side arm sections and the other side surfaces of the driven-side arm sections, wherein the shock-absorbing member comprises outer-diameter side cover sections connecting outer-diameter side end sections of the held sections that are adjacent to each other in the circumferential direction; inner-diameter side connecting sections connecting inner-diameter side end sections of the held sections that are adjacent of each other in the circumferential direction directly or via inner side cover section, the outer-diameter side cover sections and the inner-diameter side connecting sections arranged in an alternating sequence in the circumferential direction such that the shock absorbing member is constructed so as to have a cylindrical shape with a non-circular cross-section; and outer circumferential surfaces of either one of the drive-side arm sections and the driven-side arm sections are covered by the outer-diameter side cover sections, and wherein the combined held sections are provided at four locations of the shock-absorbing member that are uniformly spaced in the circumferential direction, and the cylindrical shape with the non-circular cross-section of the shock-absorbing member is a cross cylindrical shape. 2. The torque transmission joint according to claim 1 , wherein the other side surfaces of the paired side surfaces of the drive-side arm sections are positioned on a front side in the other rotational direction, and the other side surfaces of the drive-side arm sections are inclined to the front side in the other rotational direction with respect to the radial direction of the drive-side transmission member as it goes toward the outer diameter side of the drive-side transmission member, the one side surfaces of the paired side surfaces of the driven-side arm sections are positioned on a rear side in the other rotational direction, and the one side surfaces of the driven-side arm sections are inclined to the front side in the other rotational direction with respect to the radial direction of the driven-side transmission member as it goes toward the outer diameter side of the driven-side transmission member, and the one side surface of each of the driven-side arm sections faces the other side surface of either of the drive-side arm sections, and when the drive shaft is rotated and driven in the other rotational direction, forces due to torque transmitted from the drive shaft to the driven shaft act inward in the radial direction of the shock-absorbing member on the held sections that are held between the other side surfaces of the drive-side arm sections, and the one side surfaces of the driven-side arm sections. 3. The torque transmission joint according to claim 1 , wherein the held sections of the shock-absorbing member each have a flat plate shape, and each pair of the held sections that are adjacent to each other and are connected by either of one of the outer-diameter side cover sections and the inner-diameter side connecting sections has a mirror symmetry about an imaginary plane that passes through a center axis of the shock-absorbing member a center point between the held sections that are adjacent to each other in the circumferential direction, and each pair of the held sections is inclined in a direction toward the imaginary plane with respect to a radial direction of the shock-absorbing member as it goes toward an outer diameter side of the shock-absorbing member at the same inclination angle; and combined held sections that are formed by the paired held sections are arranged at a plurality of locations of the torque transmission joint in the circumferential direction and are respectively connected by either of another of the outer-diameter side cover sections and the inner-diameter side connecting sections. 4. The torque transmission joint according to claim 3 , wherein either of the drive-side arm sections or the driven-side arm sections are placed between the paired held sections, and the other of the drive-side arm sections or the driven-side arm sections are placed between the combined held sections. 5. A torque transmission joint comprising: a drive-side transmission member that is supported by an end section of a drive shaft concentrically