A vertical axis wind turbine including: a vertical axis wind mill having a vertical shaft and a generator having a generator rotor shaft, wherein the vertical shaft of the wind mill share the same shaft with the generator rotor shaft. This arrangement simplifies the structure and increases the stabi
A vertical axis wind turbine including: a vertical axis wind mill having a vertical shaft and a generator having a generator rotor shaft, wherein the vertical shaft of the wind mill share the same shaft with the generator rotor shaft. This arrangement simplifies the structure and increases the stability, reliability, and service lifetime of vertical axis wind turbines by making on-site assembly easy and cutting the on-site workload and cost, without undermining the wind resistance capability and safety prompting wider application of vertical axis wind turbines.
대표청구항▼
1. A vertical axis wind turbine comprising: a vertical axis wind mill having a vertical shaft and blades;a generator disposed on the vertical shaft and having the vertical shaft as its generator rotor shaft;a generator upper bearing;a generator lower bearing; andpairs of supporting arms, each pair f
1. A vertical axis wind turbine comprising: a vertical axis wind mill having a vertical shaft and blades;a generator disposed on the vertical shaft and having the vertical shaft as its generator rotor shaft;a generator upper bearing;a generator lower bearing; andpairs of supporting arms, each pair for connecting one blade to the vertical shaft and having an upper supporting arm and a lower supporting arm, the corresponding pair of the upper supporting arm and the lower supporting arm are substantially parallel to each other;whereinsaid upper bearing is of an angular contact ball bearing, a roller bearing, or a cylindrical roller bearing;said lower bearing is an angular contact ball bearing;said vertical shaft is hollow inside;said upper supporting arms and lower supporting arms hold said blades at ¼ H at both ends, H being length of each blade of the wind mill; anda ratio between a length of said vertical shaft L in length, and a distance between said upper supporting arms and corresponding lower supporting arms h, L/H, is 1/1 to 3/2. 2. The vertical axis wind turbine of claim 1, wherein said lower bearing has an inclination. 3. The vertical axis wind turbine of claim 1, wherein bottom portion of said vertical shaft has a chamfer with an inclination. 4. The vertical axis wind turbine of claim 1, further comprising a flange for connecting the supporting arms to the vertical shaft,wherein the flange comprises a central hole for holding the vertical shaft and a plurality of joints for connecting the supporting arms, and the joints are insertion-type or threaded-type sleeves. 5. The vertical axis wind turbine of claim 4, wherein the supporting arms are fixed to the flange by pins or bolts. 6. The vertical axis wind turbine of claim 4, wherein said supporting arms are hollow inside. 7. A vertical axis wind turbine comprising: a vertical axis wind mill having a vertical shaft and blades;a generator having a generator rotor shaft;a generator upper bearing;a generator lower bearing;pairs of supporting arms, each pair for connecting one blade to the vertical shaft and having an upper supporting arm and a lower supporting arm, the corresponding pair of the upper supporting arm and the lower supporting arm are substantially parallel to each other;whereinsaid vertical shaft is sleeved inside said generator rotor shaft;said vertical shaft and said generator rotor shaft are rigid connected or clearance fit at said upper bearing and said lower bearing;said upper bearing is of an angular contact ball bearing, a roller bearing, or a cylindrical roller bearing;said lower bearing is of an angular contact ball bearing;said vertical shaft or said generator shaft are hollow inside;said upper supporting arms and lower supporting arms hold said blades at ¼ H at both ends, H being length of each blade of said wind mill; anda ratio of a length of said vertical shaft L, to a distance between said upper supporting arms and corresponding lower supporting arms h, the L/H, ratio is 1/1 to 3/2. 8. The vertical axis wind turbine of claim 7, wherein said lower bearing has an inclination. 9. The vertical axis wind turbine of claim 7, wherein bottom portion of said vertical shaft has a chamfer with an inclination. 10. The vertical axis wind turbine of claim 7, further comprising a flange for connecting the supporting arms to the vertical shaft,wherein the flange comprises a central hole for holding the vertical shaft and a plurality of joints for connecting the supporting arms, and the joints are insertion-type or threaded-type sleeves. 11. The vertical axis wind turbine of claim 10, wherein the supporting arms are fixed to the flange by pins or bolts. 12. The vertical axis wind turbine of claim 10, wherein said supporting arms are hollow inside. 13. The vertical axis wind turbine of claim 7, wherein said vertical shaft and said generator rotor shaft are rigid connected at said upper bearing and said lower bearing by tight fit. 14. The vertical axis wind turbine of claim 7, wherein said vertical shaft and said generator rotor shaft are rigid connected at said upper bearing and said lower bearing by structural adhesive. 15. The vertical axis wind turbine of claim 7, wherein said vertical shaft and said generator rotor shaft are clearance fit at said upper bearing and said lower bearing by a tolerance of less than +0.2 mm.
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Scuka Viktor (Trollbcksvgen SEX) Akerlund John (Vasavgen SEX), Overvoltage protector for a device having two parts movable relatively to each other.
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