Airtightness maintaining structure for butterfly valve

The invention claimed is: 1. An airtightness maintaining structure for a butterfly valve comprising: a partition including an opening configured for fluid passage; a valve element including a rotating shaft and a valve body, the valve element being rotatably attached to the partition via the rotating shaft, the valve body being configured to switch the opening between an open valve state and a closed valve state by rotating with the rotating shaft; a rotation supporting portion having a pivotably supporting member that fits on the rotating shaft and pivotably supports the rotating shaft; a rotating shaft seal that is arranged so as to be able to contact in a fitting state with both (i) an end surface of a member on an outer side in a radial direction of the rotating shaft and (ii) a surface of a member on an inner side of either the rotation shaft or the pivotably supporting member; the rotating shaft seal being movable between the partition and the rotating shaft, and possessing an annular portion; and wherein, in the closed valve state of the valve element, the rotating shaft seal moves in the radial direction of the rotation shaft due to a difference of pressures between a high fluid pressure that acts on one side of the valve element and a low fluid pressure that acts on the other side thereof and contacts with both the valve element and the rotation supporting portion on the high fluid pressure side. 2. The airtightness maintaining structure for a butterfly valve according to claim 1 , wherein the rotation supporting portion has a pair of partition plates in a direction parallel to the valve element in the closed valve state and on both ends in a radial direction of the pivotably supporting member, the rotating shaft seal has a pair of first locking portions that project from the annular portion and a pair of second locking portions that are arranged in parallel with the first locking portions with a predetermined interval on both ends in a radial direction of the annular portion, the rotating shaft seal is arranged such that the partition plates are interposed between the first locking portions and the second locking portions, and the portions on the high fluid pressure side either the first locking portions or the second locking portions contact with the partition plates when the rotating shaft seal contacts with the valve element and the rotation supporting portion on the high fluid pressure side. 3. The airtightness maintaining structure for a butterfly valve according to claim 1 , wherein the pivotably supporting member is located inwardly of the rotating shaft in a radial direction of the pivotably supporting member in the fitting state, the pivotably supporting member has a tapered portion facing to the rotating shaft on its outer circumferential surface, and the rotating shaft seal contacts with the tapered portion and the end surface of the rotating shaft. 4. The airtightness maintaining structure for a butterfly valve according to claim 1 , wherein the rotating shaft is located outwardly of the pivotably supporting member in a radial direction of the pivotably supporting member in the fitting state, the rotating shaft seal has a first surface that contacts with the end surface of the rotating shaft by surface contact, and the first surface is perpendicular to the axis of the rotating shaft. 5. The airtightness maintaining structure for a butterfly valve according to claim 1 , wherein the rotating shaft seal has a second surface that generates component forces in the axis direction of the rotating shaft and in a direction of movement in the radial direction of the rotating shaft, and the second surface is a tapered surface that is formed on an outer circumferential surface of the annular portion. 6. The airtightness maintaining structure for a butterfly valve according to claim 1 , wherein the rotating shaft seal does not contact with at least the rotation supporting portion on the low fluid pressure side when the rotating shaft seal contacts with the valve element and the rotation supporting portion on the high fluid pressure side. 7. The airtightness maintaining structure for a butterfly valve according to claim 6 , wherein the rotating shaft seal has a pair of first locking portions that project from the annular portion and a pair of second locking portions that are arranged in parallel with the first locking portion with a predetermined interval on both ends in a radial direction of the annular portion, the rotating shaft seal has inner circumferential side flat surfaces between the first locking portions and the second locking portions on an inner circumferential surface of the annular portion, and the inner circumferential surface has a cross-section with an oval shape. 8. The airtightness maintaining structure for a butterfly valve according to claim 3 , wherein the end surface of the rotating shaft is a tapered surface facing to the pivotably supporting member, and the rotating shaft seal is provided between the tapered portion of the pivotably supporting member and the tapered surface of the rotating shaft. 9. An airtightness maintaining structure for a butterfly valve comprising: a partition that includes an opening through which fluid passes; a valve element including a valve body and a shaft which is rotatable, the valve element being attached to the shaft so that rotation of the shaft results in rotation of the valve element, the valve element being rotatable by virtue of rotation of the shaft between a closed valve state in which the valve element is positioned to close the opening in the partition and prevent fluid flow through the opening and an open valve state in which the valve element is positioned to open the opening in the partition and permit fluid flow through the opening; a rotation supporting portion that includes a supporting member axially overlapping a portion of the shaft so that the supporting member pivotably supports the shaft; a shaft seal movable in axial and radial directions between the partition and the shaft, the shaft seal including an annular portion and contacting, in a fitted state, both: (i) an end surface of a member radially outwardly of the rotating shaft; and (ii) a surface of a member located on an inner side of either the rotation shaft or the pivotably supporting member; and in the closed valve state of the valve element, the shaft seal moves in the radial direction of the rotation shaft due to a difference of pressures between a high fluid pressure acting on one side of the valve element and a low fluid pressure acting on an opposite side of the valve element so that the shaft seal contacts both the valve element and the rotation supporting portion on the high fluid pressure side. 10. The airtightness maintaining structure for a butterfly valve according to claim 9 , the rotation supporting portion including two partition plates extending parallel to the valve element in the closed valve state, the two partition plates being spaced apart from each other in a radial direction of the pivotably supporting member; the shaft seal including two first locking portions that project from the annular portion and two second locking portions that project from the annular portion, the second locking portions being parallel to the first locking portions and spaced apart from the first locking portions; and the rotating shaft seal being arranged such that each of the partition plates is positioned between one of the first locking portions and one of the second locking portions. 11. The airtightness maintaining structure for a butterfly valve according to claim 9 , wherein the pivotably supporting member is