Vibration-powered generator

The invention claimed is: 1. A vibration-powered generator comprising: a vibrating element having: a plurality of magnets arranged so as to oppose the pole-faces of the same polarity; end supporting portions which support the plurality of magnets from both ends in the direction of arrangement; and a cushioning held between the end supporting portion and the magnets, while being compressed under a stress exceeding the repelling force between the pole-faces, so as to keep the plurality of magnets in a row without leaving a gap in between, overcoming the repelling force, and a coil arranged around the vibrating element, the vibration-powered generator being configured to obtain electromotive force by moving the vibrating element relatively to the coil, and wherein the end supporting portions provided to both ends of the vibrating element are formed into flanges with different outer diameters, and the cushioning is disposed between the end supporting portion with a larger diameter and the magnets. 2. The vibration-powered generator according to claim 1 , wherein the cushioning is compressed by a stress larger than the maximum repelling force between the adjacent pole-faces, so as to ensure a direct contact between the pole-faces. 3. The vibration-powered generator according to claim 2 , wherein each of the magnets and the cushioning has a through-hole formed therein, the vibrating element further has a core component, configured to be inserted through the through-holes and to have the end supporting portions formed on both ends, and the through-hole of the cushioning in the compressed state has a diameter smaller than the outer diameter of the end supporting portions. 4. The vibration-powered generator according to claim 2 , wherein the magnets are housed in a metal pipe composed of a non-magnetic material, the end supporting portions are respectively formed at both ends of the metal pipe, and the end supporting portion having the cushioning disposed adjacent thereto has formed therein a window through which a part of the cushioning exposes. 5. The vibration-powered generator according to claim 1 , wherein the magnets are housed in a metal pipe composed of a non-magnetic material, the end supporting portions are respectively formed at both ends of the metal pipe, and the end supporting portion having the cushioning disposed adjacent thereto has formed therein a window through which a part of the cushioning exposes. 6. A vibration-powered generator comprising: a vibrating element having: a plurality of magnets arranged so as to oppose the pole-faces of the same polarity; end supporting portions which support the plurality of magnets from both ends in the direction of arrangement; and a cushioning held between the end supporting portion and the magnets, while being compressed under a stress exceeding the repelling force between the pole-faces, so as to keep the plurality of magnets in a row without leaving a gap in between, overcoming the repelling force, and a coil arranged around the vibrating element, the vibration-powered generator being configured to obtain electromotive force by moving the vibrating element relatively to the coil, wherein the cushioning is compressed by a stress larger than the maximum repelling force between the adjacent pole-faces, so as to ensure a direct contact between the pole-faces, wherein each of the magnets and the cushioning has a through-hole formed therein, wherein the vibrating element further has a core component, configured to be inserted through the through-holes and to have the end supporting portions formed on both ends, wherein the through-hole of the cushioning in the compressed state has a diameter smaller than the outer diameter of the end supporting portions, and wherein the end supporting portions provided to both ends of the vibrating element are formed into flanges with different outer diameters, and the cushioning is disposed between the end supporting portion with a larger diameter and the magnets. 7. A vibration-powered generator comprising: a vibrating element having: a plurality of magnets arranged so as to oppose the pole-faces of the same polarity; end supporting portions which support the plurality of magnets from both ends in the direction of arrangement; and a cushioning held between the end supporting portion and the magnets, while being compressed under a stress exceeding the repelling force between the pole-faces, so as to keep the plurality of magnets in a row without leaving a gap in between, overcoming the repelling force, wherein the end supporting portions provided to both ends of the vibrating element are formed into flanges with different outer diameters, and the cushioning is disposed between the end supporting portion with a larger diameter and the magnets.