A windmill-type electric generation system including four rotary blade units (10, 12, 14, 16) mounted on opposite ends of corresponding rotary shafts in pairs, a first power transmission mechanism for transmitting the rotating movement of the blade units (12, 14) to an armature (110) of an electric
A windmill-type electric generation system including four rotary blade units (10, 12, 14, 16) mounted on opposite ends of corresponding rotary shafts in pairs, a first power transmission mechanism for transmitting the rotating movement of the blade units (12, 14) to an armature (110) of an electric generator (100), a second power transmission mechanism for transmitting the rotating movement of the blade units (10, 16) to a magnetic pole (120) of the electric generator (100), and the electric generator (100) for generating electricity through the rotation of the armature (110) and the magnetic pole (120) in the opposite directions, which is accomplished by the rotating movement of the blade units (10, 12, 14, 16) transmitted to the armature (110) and the magnetic pole (120) by the power transmission mechanisms.
대표청구항▼
What is claimed is: 1. A windmill-type electric generation system that generates electricity by using the rotating movement of rotary blade units mounted on opposite ends of corresponding rotary shafts, which are mounted through a housing disposed at the upper end of a supporting post, such that th
What is claimed is: 1. A windmill-type electric generation system that generates electricity by using the rotating movement of rotary blade units mounted on opposite ends of corresponding rotary shafts, which are mounted through a housing disposed at the upper end of a supporting post, such that the rotary blade units can be rotated in the blowing direction of wind, wherein the windmill-type electric generation system comprises: a first rotary blade unit mounted to the front end of the corresponding rotary shaft at one side of the housing, the first rotary blade unit having the smallest length; a second rotary blade unit mounted on the corresponding rotary shaft such that the second rotary blade unit can be rotated in the direction opposite to the rotating direction of the first rotary blade unit, the second rotary blade unit being disposed at the rear of the first rotary blade unit while being spaced a predetermined distance from the first rotary blade unit, the second rotary blade unit having a length greater than that of the first rotary blade unit; a third rotary blade unit mounted on the corresponding rotary shaft at the other side of the housing such that the third rotary blade unit can be rotated in the same rotating direction as that of the second rotary blade unit, the third rotary blade unit having a length greater than that of the second rotary blade unit; a fourth rotary blade unit mounted on the corresponding rotary shaft such that the fourth rotary blade unit can be rotated in the direction opposite to the rotating direction of the third rotary blade unit, the fourth rotary blade unit being disposed at the rear of the third rotary blade unit while being spaced a predetermined distance from the third rotary blade unit, the fourth rotary blade unit having a length greater than that of the third rotary blade unit; a first power transmission mechanism for transmitting the rotating movement of the second and third rotary blade units to an armature of an electric generator; a second power transmission mechanism for transmitting the rotating movement of the first and fourth rotary blade units to a magnetic pole of the electric generator; and the electric generator for generating electricity through the rotation of the armature and the magnetic pole in the opposite directions, which is accomplished by the rotating movement of the first to fourth rotary blade units transmitted to the armature and the magnetic pole by the first and second power transmission mechanisms. 2. The electric generation system as set forth in claim 1, wherein the first power transmission mechanism includes: a first idle gear mounted to the inner wall of the supporting post such that the first idle gear can be rotated by a bearing; a gear mounted to a rotary shaft of the second rotary blade unit such that the gear can be rotated along with the rotary shaft of the second rotary blade unit, the gear being engaged with the first idle gear; a gear mounted to a rotary shaft of the third rotary blade unit such that the gear can be rotated along with the rotary shaft of the third rotary blade unit, the gear being engaged with the first idle gear at the side opposite to the gear; a driven gear engaged with the first idle gear under the first idle gear such that the driven gear can be rotated along with the first idle gear; and a rotary shaft mounted to the center of the driven gear for transmitting the rotating movement of the driven gear to the armature of the electric generator, and the second power transmission mechanism includes: a second idle gear mounted to a supporting shaft such that the second idle gear can be rotated by a bearing, the second idle gear being disposed coaxially with the first idle gear; a gear mounted to a rotary shaft of the first and fourth rotary blade units such that the gear can be rotated along with the rotary shaft of the first and fourth rotary blade units, the gear being engaged with the second idle gear; a driven gear engaged with the second idle gear under the second idle gear such that the driven gear can be rotated along with the second idle gear; and a rotary shaft mounted to the center of the driven gear for transmitting the rotating movement of the driven gear to the magnetic pole of the electric generator, whereby the armature and the magnetic pole of the electric generator are rotated in opposite directions by the first and second power transmission mechanisms. 3. The electric generation system as set forth in claim 1, wherein the ratio of lengths of the first to fourth rotary blade units is 1:1.2:3.8:4. 4. The electric generation system as set forth in claim 3, wherein the first power transmission mechanism includes: a first idle gear mounted to the inner wall of the supporting post such that the first idle gear can be rotated by a bearing; a gear mounted to a rotary shaft of the second rotary blade unit such that the gear can be rotated along with the rotary shaft of the second rotary blade unit, the gear being engaged with the first idle gear; a gear mounted to a rotary shaft of the third rotary blade unit such that the gear can be rotated along with the rotary shaft of the third rotary blade unit, the gear being engaged with the first idle gear at the side opposite to the gear; a driven gear engaged with the first idle gear under the first idle gear such that the driven gear can be rotated along with the first idle gear; and a rotary shaft mounted to the center of the driven gear for transmitting the rotating movement of the driven gear to the armature of the electric generator, and the second power transmission mechanism includes: a second idle gear mounted to a supporting shaft such that the second idle gear can be rotated by a bearing, the second idle gear being disposed coaxially with the first idle gear; a gear mounted to a rotary shaft of the first and fourth rotary blade units such that the gear can be rotated along with the rotary shaft of the first and fourth rotary blade units, the gear being engaged with the second idle gear; a driven gear engaged with the second idle gear under the second idle gear such that the driven gear can be rotated along with the second idle gear; and a rotary shaft mounted to the center of the driven gear for transmitting the rotating movement of the driven gear to the magnetic pole of the electric generator, whereby the armature and the magnetic pole of the electric generator are rotated in opposite directions by the first and second power transmission mechanisms.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.