Solar concentrator, and heat collection apparatus and solar thermal power generation apparatus including same

The invention claimed is: 1. A solar concentrator comprising: a mirror structure that includes a plurality of mirrors; a driving mechanism that directs sunlight which is reflected by the plurality of mirrors of the mirror structure to a predetermined concentrating position; and a supporting base that supports the driving mechanism, wherein a center of gravity of the mirror structure is located between the plurality of mirrors separated from each other, wherein the driving mechanism includes a first rotational shaft that has a first rotational axis as a central axis and is supported by the supporting base to be rotatable, a first drive device that rotates the first rotational shaft, a second rotational shaft that has the mirror structure fixed thereto, has a second rotational axis which is orthogonal to the first rotational axis as a central axis, and is mounted on the first rotational shaft to be rotatable, and a second drive device that rotates the second rotational shaft, wherein the center of gravity of the mirror structure is located in the first rotational shaft or in an extension from the first rotational shaft and in the second rotational shaft or in an extension from the second rotational shaft, wherein reflective surfaces of the plurality of mirrors of the mirror structure form one rotationally symmetric surface, and a rotationally symmetric axis of the rotationally symmetric surface forms an optical axis of the mirror structure, and wherein a principal point on the rotationally symmetric surface, through which the optical axis passes, is located on a point of intersection between the first rotational axis and the second rotational axis. 2. The solar concentrator according to claim 1 , wherein the first drive device is arranged at a rear side of the first rotational shaft, in a first rotational axis direction apart from the point of intersection between the first rotational axis and the second rotational axis, and adds a rotational driving force to the first rotational shaft. 3. The solar concentrator according to claim 2 , wherein the driving mechanism has one or more bearings that are arranged in the first rotational axis direction to support the first rotational shaft and are supported by the supporting base, and support the first rotational shaft to be rotatable, and wherein the first drive device is arranged at a rear side than at least one of the one or more bearings, and adds the rotational driving force to the first rotational shaft. 4. The solar concentrator according to claim 3 , wherein the driving mechanism further includes a front bearing that supports on a front side which is close to the point of intersection of first and second rotational axes to be rotatable in the first rotational shaft, and a rear bearing that supports on the rear side to be rotatable, and wherein the first drive device is arranged at a rear side than an end of the rear bearing on the front side, and adds the rotational driving force to the first rotational shaft. 5. The solar concentrator according to claim 4 , further comprising a rear bearing support member that is mounted on the supporting base to support the rear bearing. 6. The solar concentrator according to claim 1 , wherein the first rotational shaft has a hollow pipe whose center line is the first rotational axis. 7. The solar concentrator according to claim 1 , wherein the second drive device is arranged in a radiation direction apart from the point of intersection between the first rotational axis and the second rotational axis. 8. The solar concentrator according to claim 1 , wherein the center of gravity of the mirror structure is located on a vertically extended line of the supporting base. 9. The solar concentrator according to claim 1 , wherein the supporting base has a frusto-conical shape. 10. The solar concentrator according to claim 1 , wherein the supporting base has a frusto-conical shape, and wherein the center of gravity of the mirror structure is located in a vertically extended line of a lower surface of the supporting base. 11. The solar concentrator according to claim 9 , wherein the supporting base further includes a rib that is arranged along a generatrix of base. 12. The solar concentrator according to claim 1 , wherein the first drive device has: an actuator as a drive source that has a rod cover and a rod which is linearly driven along to the rod cover; and a link mechanism that has a connection to the rod and the other connection to the first rotational shaft, and drives the first rotational shaft to be rotated by the linear driving of the rod. 13. The solar concentrator according to claim 12 , wherein the link mechanism is a 4-link mechanism that has a first link piece, a second link piece, a third link piece, and a fourth link piece which are connected with each other, wherein one end of the first link piece is connected to the first rotational shaft to rotate each other, wherein one end of the second link piece is connected to the other end of the first link piece to rotate each other, wherein one end of the third link piece is connected to the other end, hereafter second end, of the second link piece to rotate each other, wherein one end of the fourth link piece is connected to the other end of the third link piece to rotate each other, and the other end of the fourth link piece is connected to the first rotational shaft not to rotate each other, wherein the first link piece is fixed to a non-operating part, the rod cover of the actuator is mounted on the non-operating part to rotate each other, and one end of the rod of the actuator is connected to the second end of the second link piece to rotate each other, and wherein a distance from the one end to the other end of the fourth link piece is shorter than a distance from the one end to the other end of the second link piece. 14. The solar concentrator according to claim 13 , wherein the second link piece is bent such that a middle portion between the one end and the other end of the second link piece is arranged in the direction away from the first rotational shaft against a line connecting the one end to the other end. 15. The solar concentrator according to claim 1 , wherein the second drive device has an actuator as a drive source that has a rod cover and a rod which is linearly driven along to the rod cover, and wherein the rod cover is mounted on the first rotational shaft to rotate each other such that a linear driving direction of the rod is a direction perpendicular to the second rotational axis, and an end of the rod is mounted on a position in the radiation direction apart from the second rotational axis in the mirror structure to rotate each other. 16. The solar concentrator according to claim 1 , further comprising an elevation changing structure that changes an angle of the first rotational shaft with respect to a horizontal plane. 17. The solar concentrator according to claim 16 , wherein the second drive device has a predetermined rotation angle range of the second rotational shaft based on the first rotational shaft, and wherein the elevation changing structure changes the angle of the first rotational shaft with respect to the horizontal plane between a face-down state where one side of the first rotational shaft is not higher than the other side and a state where the one side is higher than the other side. 18. The solar concentrator according to claim 1 , wherein the mirror structure further includes, along with the plurality of mirrors, rear plates