Sheet manufacturing apparatus and sheet manufacturing method

The invention claimed is: 1. A sheet manufacturing apparatus comprising: a nozzle for extruding a heated resin sheet, a main roll comprising a surface portion with a microstructure formed therein, a follower roll disposed at a distance from the main roll, the heated resin sheet being pressed between the main roll and the follower roll to transfer the microstructure to the sheet, a conductive portion in the surface portion, and a power supply mechanism that supplies power to the conductive portion from opposite ends of the main roll in order to make the conductive portion generate heat, wherein the power supply mechanism includes a pair of terminal portions that are in contact with the conductive portion at the opposite ends of the main roll, respectively, and a power source that supplies power to the conductive portion via the pair of terminal portions, wherein the follower roll has a length in a rotation axis direction that is smaller than that of the main roll so as not to become an obstacle to the pair of terminal portions, and wherein the pair of terminal portions of the power supply mechanism continually contact the conductive portion along a curved surface of the main roll on a side of the main roll facing the follower roll, and a heat generation area of the main roll is positioned between the pair of terminal portions to generate heat on the side of the main roll facing the follower roll, and the pair of terminal portions are positioned so as to sandwich the follower roll between the pair of terminal portions. 2. The sheet manufacturing apparatus according to claim 1 , wherein the terminal portions each include a looped conductive belt that is in contact with the conductive portion, a roll-side pulley that presses the conductive belt against the conductive portion, and a tension pulley that maintains tension of the conductive belt. 3. The sheet manufacturing apparatus according to claim 2 , wherein the conductive belt is a stainless steel belt. 4. The sheet manufacturing apparatus according to claim 1 , wherein the terminal portions include a pair of conductive brushes or conductive pulleys that are in contact with the conductive portion at the opposite ends of the main roll, respectively, and a power source that supplies power to the conductive portion via the pair of conductive brushes or conductive pulleys. 5. The sheet manufacturing apparatus according to claim 1 , wherein the conductive portion is a conductive sleeve. 6. The sheet manufacturing apparatus according to claim 1 , wherein the conductive portion is a plating layer. 7. The sheet manufacturing apparatus according to claim 1 , wherein a part of the conductive portion, parallel to a rotation axis direction of the main roll, generates heat using the power supply mechanism. 8. The sheet manufacturing apparatus according to claim 1 , wherein the conductive portion of the main roll generates heat on a side on which the sheet is guided between the main roll and the follower roll. 9. A sheet manufacturing method for shaping a resin sheet with a main roll comprising a surface portion with a microstructure fanned therein, and a follower roll disposed at a distance from the main roll, the method comprising: extruding the heated sheet from a nozzle; supplying power to a conductive portion of the surface portion from opposite ends of the main roll via a power supply mechanism; making the conductive portion generate heat using the power supplied by the power supply mechanism; and pressing the resin sheet between the main roll and the follower roll in a state in which the conductive portion generates heat, thereby transferring the microstructure to the heated resin sheet, wherein the power supply mechanism includes a pair of terminal portions that are in contact with the conductive portion at the opposite ends of the main roll, respectively, and a power source that supplies power to the conductive portion via the pair of terminal portions, wherein the follower roll has a length in a rotation axis direction that is smaller than that of the main roll so as not to become an obstacle to the pair of terminal portions, and wherein the pair of terminal portions of the power supply mechanism continually contact the conductive portion along a curved surface of the main roll on a side of the main roll facing the follower roll, and a heat generation area of the main roll is positioned between the pair of terminal portions to generate heat on the side of the main roll facing the follower roll, and the pair of terminal portions are positioned so as to sandwich the follower roll between the pair of terminal portions. 10. The sheet manufacturing method according to claim 9 , wherein the terminal portions each include a looped conductive belt that is in contact with the conductive portion, a roll-side pulley that presses the conductive belt against the conductive portion, and a tension pulley that maintains tension of the conductive belt. 11. The sheet manufacturing method according to claim 10 , wherein the conductive belt is a stainless steel belt. 12. The sheet manufacturing method according to claim 9 , wherein the terminal portions include a pair of conductive brushes or conductive pulleys that are in contact with the conductive portion at the opposite ends of the main roll, respectively, and a power source that supplies power to the conductive portion via the pair of conductive brushes or conductive pulleys. 13. The sheet manufacturing method according to claim 9 , wherein the conductive portion is a conductive sleeve. 14. The sheet manufacturing method according to claim 9 , wherein the conductive portion is a plating layer. 15. The sheet manufacturing method according to claim 9 , wherein making the conductive portion generate heat includes making a part of the conductive portion, the part being parallel to a rotational axis direction of the main roll, generate heat. 16. The sheet manufacturing method according to claim 9 , wherein making the conductive portion generate heat includes making the conductive portion of the main roll generate heat on a side on which the sheet is guided between the main roll and the follower roll.