Cutting machine and thermoelectric power generation method

The invention claimed is: 1. A cutting machine for cutting a high-temperature moving object to be cut while moving in synchronization with movement of the object to be cut, comprising: a cutter configured to cut the object to be cut; a movement device configured to move the cutting machine in synchronization with the object to be cut; a water-cooling plate configured to cool the cutting machine; and a thermoelectric power generation device including a thermoelectric element for converting heat of the object to be cut into electric energy, wherein the movement device comprises a carriage and a clamping device provided on a lower surface of the carriage, the cutter is placed on the carriage, the water-cooling plate is installed on the lower surface of the carriage so as to be in contact with the lower surface of the carriage, the thermoelectric power generation device is installed on a lower surface of the water-cooling plate so as to be in contact with the lower surface of the water-cooling plate, the water-cooling plate has a flow path through which cooling water flows inside, and has largest surfaces on both sides formed to be flat, and the water-cooling plate also serves to cool a low-temperature side of the thermoelectric element. 2. The cutting machine according to claim 1 , further comprising: a storage battery configured to accumulate electric power generated by the thermoelectric power generation device; and a motor configured to be driven by electric power supplied from at least one of the thermoelectric power generation device or the storage battery to move the cutting machine. 3. The cutting machine according to claim 1 , wherein the thermoelectric power generation device comprises a plurality of thermoelectric power generation units; the object to be cut has a low-temperature portion and a high-temperature portion; and a distance between the thermoelectric power generation units and the object to be cut at the low-temperature portion is smaller than a distance between the thermoelectric power generation units and the object to be cut at the high-temperature portion. 4. The cutting machine according to claim 2 , wherein the thermoelectric power generation device comprises a plurality of thermoelectric power generation units; the object to be cut has a low-temperature portion and a high-temperature portion; and a distance between the thermoelectric power generation units and the object to be cut at the low-temperature portion is smaller than a distance between the thermoelectric power generation units and the object to be cut at the high-temperature portion. 5. The cutting machine according to claim 1 , wherein the object to be cut has a low-temperature portion and a high-temperature portion; the thermoelectric element is installed so as to face the low-temperature portion and the high-temperature portion; and the thermoelectric element is arranged more densely at the high-temperature portion than at the low-temperature portion. 6. The cutting machine according to claim 1 , wherein a width of the water-cooling plate is 80% or more of a width of the carriage. 7. The cutting machine according to claim 2 , further comprising a power control unit for controlling at least one of the thermoelectric power generation device, the storage battery, and the motor, wherein the power control unit comprises a power supply switching device which can switch whether power is supplied to the motor from the thermoelectric power generation device, the storage battery, or both the thermoelectric generator and the storage battery.