Eddy current damper

The invention claimed is: 1. An eddy current damper, comprising: a screw shaft movable in an axial direction; a plurality of first permanent magnets arrayed along a circumferential direction around the screw shaft; a plurality of second permanent magnets each arranged between the first permanent magnets leaving gaps with the first permanent magnets, wherein arrangement of magnetic poles is inverted between the second permanent magnets and the first permanent magnets; a cylindrical magnet holding member for holding the first permanent magnets and the second permanent magnets; a cylindrical conductive member which has conductivity and is opposed to the first permanent magnets and the second permanent magnets with a gap between the conductive member, and the first permanent magnets and the second permanent magnets; and a ball nut which is arranged inside the magnet holding member and the conductive member and meshes with the screw shaft, wherein the magnet holding member is arranged inside the conductive member, the first permanent magnets and the second permanent magnets are attached to an outer peripheral surface of the magnet holding member, the ball nut is fixed to the magnet holding member, and the eddy current damper includes: a distal end side bearing attached to an inner peripheral surface of the conductive member at a position closer to the distal end side of the screw shaft than the first permanent magnets and the second permanent magnets, the distal end side bearing supporting the outer peripheral surface of the magnet holding member; and a root side bearing attached to the inner peripheral surface of the conductive member at a position closer to the root side of the screw shaft than the first permanent magnets and the second permanent magnets, the root side bearing supporting the outer peripheral surface of the magnet holding member. 2. The eddy current damper according to claim 1 , wherein the first permanent magnets are arranged in a plurality of rows along an axial direction of the magnet holding member, and the second permanent magnets are arranged in a plurality of rows along the axial direction of the magnet holding member. 3. An eddy current damper, comprising: a screw shaft movable in an axial direction; a plurality of first permanent magnets arrayed along a circumferential direction around the screw shaft; a plurality of second permanent magnets each arranged between the first permanent magnets leaving gaps with the first permanent magnets, wherein arrangement of magnetic poles is inverted between the second permanent magnets and the first permanent magnets; a cylindrical magnet holding member for holding the first permanent magnets and the second permanent magnets; a cylindrical conductive member which has conductivity and is opposed to the first permanent magnets and the second permanent magnets with a gap between the conductive member, and the first permanent magnets and the second permanent magnets; and a ball nut which is arranged inside the magnet holding member and the conductive member and meshes with the screw shaft, wherein the conductive member is arranged inside the magnet holding member, the first permanent magnets and the second permanent magnets are attached to an inner peripheral surface of the magnet holding member, the ball nut is fixed to the conductive member, and the eddy current damper includes: a distal end side bearing attached to the inner peripheral surface of the magnet holding member at a position closer to the distal end side of the screw shaft than the first permanent magnets and the second permanent magnets, the distal end side bearing supporting an outer peripheral surface of the conductive member; and a root side bearing attached to the inner peripheral surface of the magnet holding member at a position closer to the root side of the screw shaft than the first permanent magnets and the second permanent magnets, the root side bearing supporting the outer peripheral surface of the conductive member. 4. The eddy current damper according to claim 3 , wherein the first permanent magnets are arranged in a plurality of rows along an axial direction of the magnet holding member, and the second permanent magnets are arranged in a plurality of rows along the axial direction of the magnet holding member.