Abstract: Disclosed is a driving device for an automatic tracking operation of a solar panel for a solar power generator. The device includes a housing, a worm gear, and upper and lower ring bearings. The worm gear is coupled to a worm mounted to a worm shaft, and a rotary gear is connected to an end of the worm shaft to engage with a drive gear. A thrust bearing is mounted on an upper portion of the upper ring bearing, and an anchor plate and an upper casing are installed above the thrust bearing. A support plate and a lower casing are coupled to a lower portion of the lower ring bearing. First and second stoppers are securely provided on a bearing body of the lower ring bearing to touch first and second limit switches. The solar panel is supported on the housing via a panel support bracket.
Abstract: The present invention provides a power transmission apparatus for wind power generation and a wind power generator using the same. The power transmission apparatus includes a first magnetic member which is provided around a rotating shaft of an impeller, and a second magnetic member which is provided around a rotor shaft of a generating unit. The second magnetic member is disposed at a position facing the first magnetic member such that similar poles of the first and second magnetic members face each other. Thus, when the impeller is rotated by wind, the rotor shaft of the generating unit is rotated by magnetic repulsive force between the first magnetic member and the second magnetic member. Thereby, the rotating force of the impeller is transmitted to the generating unit.
Abstract: The present invention provides a power transmission apparatus for wind power generation and a wind power generator using the same. The power transmission apparatus includes a first magnetic member which is provided around a rotating shaft of an impeller, and a second magnetic member which is provided around a rotor shaft of a generating unit. The second magnetic member is disposed at a position facing the first magnetic member such that similar poles of the first and second magnetic members face each other. Thus, when the impeller is rotated by wind, the rotor shaft of the generating unit is rotated by magnetic repulsive force between the first magnetic member and the second magnetic member. Thereby, the rotating force of the impeller is transmitted to the generating unit.