Power generation element and power generation apparatus

The invention claimed is: 1. A power generation element comprising: a first magnetostrictive plate and a second magnetostrictive plate each including a magnetostrictive material; a magnet unit including a magnet fixed to at least one of the first magnetostrictive plate or the second magnetostrictive plate; a coil containing at least part of the first magnetostrictive plate and the second magnetostrictive plate therein, and a coupling plate configured to vibrate by receiving an external force, the coupling plate being disposed between the first magnetostrictive plate and the second magnetostrictive plate, wherein the first magnetostrictive plate and the second magnetostrictive plate are laid out in such a manner that stresses applied to the first magnetostrictive plate and the second magnetostrictive plate are in opposite directions to each other, and the magnet unit is disposed in such a manner that magnetic fields applied to the first magnetostrictive plate and the second magnetostrictive plate are in opposite directions to each other, wherein the stresses are applied from the coupling plate to the first magnetostrictive plate and the second magnetostrictive plate, wherein the coupling plate extends from an end of either one of the first magnetostrictive plate and the second magnetostrictive plate to an end of the other one of the first magnetostrictive plate and the second magnetostrictive plate and has a hole in which a portion of the magnet unit is inserted. 2. The power generation element according to claim 1 , wherein the magnet unit is fixed between the first magnetostrictive plate and the second magnetostrictive plate. 3. The power generation element according to claim 2 , wherein the magnet unit includes a first magnet and a second magnet, and the first magnet and the second magnet are disposed in such a manner that magnetic pole surfaces of the first magnet and the second magnet different from each other are fixed to the first magnetostrictive plate and the second magnetostrictive plate. 4. The power generation element according to claim 3 , wherein the coil is disposed between the first magnet and the second magnet. 5. The power generation element according to claim 2 , wherein the magnet unit includes at least two or more magnets, the at least two or more magnets being fixed to any one of the first magnetostrictive plate or the second magnetostrictive plate, at least one or more of the magnets being fixed to each of the first magnetostrictive plate and the second magnetostrictive plate. 6. The power generation element according to claim 2 , wherein the magnet unit is one magnet, and the coil is disposed between the one magnet and a coupling plate. 7. The power generation element according to claim 1 , wherein a coupling plate includes at least any one of a non-magnetic material, a magnetic material, or an elastic material. 8. The power generation element according to claim 1 , wherein the first magnetostrictive plate and the second magnetostrictive plate include at least any one of an iron-gallium alloy, an iron-cobalt alloy, an iron-aluminum alloy, an iron-gallium-aluminum alloy, or an iron-silicon-boron alloy. 9. The power generation element according to claim 1 , wherein the stresses applied to the first magnetostrictive plate and the second magnetostrictive plate are in the opposite directions to each other means that a compressive stress is applied to one of the first magnetostrictive plate or the second magnetostrictive plate and a tensile stress is applied to the other of the first magnetostrictive plate or the second magnetostrictive plate. 10. A power generation apparatus comprising: the power generation element according to claim 1 ; and a mechanism configured to apply a force to the power generation element. 11. A power generation apparatus comprising: the power generation element according to claim 1 ; and a mechanism configured to cause the power generation element to vibrate due to a ground vibration.