Loading mechanism for x-ray tube and scanning system for three-dimensional imaging

What is claimed is: 1. A loading mechanism for x-ray tube, comprising: an x-ray tube, composed of a focal spot location and an x-ray opening in a manner that the focal spot location is related to a position where an x-ray beam is generated while the x-ray opening is located for allowing the x-ray beam to travel therethrough; a swing element, coupled to the x-ray tube and being composed of a first rotating axis in a manner that the first rotating axis is arranged passing through the focal spot location for allowing the swing element to rotate around first rotating axis while centering to the focal spot location and thus enabling the x-ray tube to swing within a limit swing range; and a rotating element, connected to the swing element and being composed of a second rotating axis that is disposed perpendicular to the first rotating axis for enabling the rotating element to rotate about the second rotating axis so as to drive the x-ray tube and the swing element to move accordingly. 2. The loading mechanism for x-ray tube of claim 1 , wherein the first rotating axis is disposed perpendicular to the extension of the optical axis of the x-ray beam, while the optical axis is defined to be a line connecting the focal spot location and the center of the x-ray opening. 3. The loading mechanism for x-ray tube of claim 1 , wherein the second rotating axis is disposed passing through the focal spot location. 4. The loading mechanism for x-ray tube of claim 1 , wherein the swing element further includes a component with an arc-shaped fringe; and the arc-shape fringe has a first end and an opposing second end that are provided for defining the limit swing range to be limited between the two ends. 5. The loading mechanism for x-ray tube of claim 4 , wherein the component with an arc-shaped fringe is formed into a shape selected from the group consisting of: a circular shape, a semicircular shape, an oval shape, a sector-shape shape, and a shape with curved contour. 6. The loading mechanism for x-ray tube of claim 1 , wherein the swing element further includes a component with a fringe formed with arc-shaped rack. 7. The loading mechanism for x-ray tube of claim 1 , wherein the swing element further includes an assembly selected from the group consisting of: an assembly of a timing pulley and a lead screw, and an assembly of a worm and a worm wheel. 8. The loading mechanism for x-ray tube of claim 1 , wherein each of the swing element and the rotating element includes a magnetic component and an electromagnetic component. 9. A scanning system for 3D imaging, comprising: an imaging table, provided for supporting an object to be imaged while the object is defined with a focal point; and at least one loading mechanism for x-ray tube, each including an x-ray tube, a swing element and a rotating element. wherein, the x-ray tube includes a focal spot location and an x-ray opening, and the focal spot location is related to a position where an x-ray beam is generated while the x-ray opening is located for allowing the x-ray beam to travel therethrough; the swing element is coupled to the x-ray tube and is composed of a first rotating axis in a manner that the first rotating axis is arranged passing through the focal spot location for allowing the swing element to rotate around first rotating axis while centering to the focal spot location and thus enabling the x-ray tube to swing within a limit swing range; the rotating element is connected to the swing element and is composed of a second rotating axis that is disposed perpendicular to the first rotating axis for enabling the rotating element to rotate about the second rotating axis so as to drive the x-ray tube and the swing element to move accordingly; and the rotating element is enabled to rotate for driving the x-ray tube to be oriented to an angle conforming to a line connecting the focal spot location to the focal point that is perpendicular to the first rotating axis, while the swing element drives the x-ray tube to swing for enabling the x-ray beam to be projected toward the focal point of the object to be imaged. 10. The scanning system for 3D imaging of claim 9 , wherein the first rotating axis is disposed perpendicular to the extension of the optical axis of the x-ray beam, while the optical axis is defined to be a line connecting the focal spot location and the center of the x-ray opening. 11. The scanning system for 3D imaging of claim 9 , wherein the second rotating axis is disposed passing through the focal spot location. 12. The scanning system for 3D imaging of claim 9 , wherein the swing element further includes a component with an arc-shaped fringe; and the arc-shape fringe has a first end and an opposing second end that are provided for defining the limit swing range to be limited between the two ends. 13. The scanning system for 3D imaging of claim 12 , wherein the component with an arc-shaped fringe is formed into a shape selected from the group consisting of: a circular shape, a semicircular shape, an oval shape, a sector-shape shape, and a shape with curved contour. 14. The scanning system for 3D imaging of claim 9 , wherein swing element further includes a component with a fringe formed with arc-shaped rack. 15. The scanning system for 3D imaging of claim 9 , wherein the swing element further includes an assembly selected from the group consisting of: an assembly of a timing pulley and a lead screw, and an assembly of a worm and a worm wheel. 16. The scanning system for 3D imaging of claim 9 , wherein each of the swing element and the rotating element includes a magnetic component and an electromagnetic component.