A rail mounted wind turbine includes a pivotable housing placed between rails of a rail track. The pivotable housing can move into at least one upward position and at least one downward position and includes a wind turbine. The wind turbine has a blade that moves when a force, such as a wind force,
A rail mounted wind turbine includes a pivotable housing placed between rails of a rail track. The pivotable housing can move into at least one upward position and at least one downward position and includes a wind turbine. The wind turbine has a blade that moves when a force, such as a wind force, is applied to provide mechanical energy to generate electrical power. An electrical generator communicates with the wind turbine to generate electrical power from the mechanical energy. A controller controls the movement of the pivotable housing into the at least one upward position and the at least one downward position. At least one sensor associated with the rail mounted wind turbine communicates with the controller to provide at least one signal to the controller to indicate a position of a vehicle operating on the rail track in relation to the pivotable housing.
대표청구항▼
1. A rail mounted wind turbine, comprising: a pivotable housing, the pivotable housing adapted for positioning in conjunction with a rail track, the pivotable housing being selectively positioned into at least one upward position relative to the rail track and into at least one downward position rel
1. A rail mounted wind turbine, comprising: a pivotable housing, the pivotable housing adapted for positioning in conjunction with a rail track, the pivotable housing being selectively positioned into at least one upward position relative to the rail track and into at least one downward position relative to the rail track;a wind turbine, the wind turbine positioned within the pivotable housing, the wind turbine having at least one blade movable in a path when a wind force is applied to the at least one blade to provide mechanical energy to generate electrical power;an electrical generator communicating with the wind turbine, the electrical generator to generate electrical power from the mechanical energy generated by the movement of the at least one blade of the wind turbine, the generated mechanical energy driving the electrical generator to generate the electrical power;a controller, the controller adapted to control selective movement of the pivotable housing into the at least one upward position relative to the rail track and into the at least one downward position relative to the rail track; andat least one sensor, the at least one sensor associated with the rail mounted wind turbine, the at least one sensor adapted to communicate with the controller to provide at least one signal to the controller indicating at least one relative position of a vehicle operating on the rail track in relation to the pivotable housing. 2. The rail mounted wind turbine according to claim 1, wherein the at least one sensor is selected from the group consisting of an acoustic sensor, a vibrational sensor, an infrared (1R) sensor, a pressure sensor, and a heat sensor. 3. The rail mounted wind turbine according to claim 1, further comprising: a pivoting mechanism to selectively move the pivotable housing into the at least one upward position relative to the rail track and into the least one downward position relative to the rail track. 4. The rail mounted wind turbine according to claim 3, wherein the pivoting mechanism is associated with a motor to drive the selective movement of the pivotable housing. 5. The rail mounted wind turbine according to claim 4, wherein the controller, based upon the received at least one signal from the sensor, selectively drives the motor to selectively move the pivoting mechanism to selectively move the pivotable housing into the at least one upward position relative to the rail track and into the least one downward position relative to the rail track. 6. The rail mounted wind turbine according to claim 5, wherein the pivoting mechanism includes an axle to rotatably move the pivotable housing. 7. The rail mounted wind turbine according to claim 1, further comprising: a motor, the motor being in communication with the pivotable housing, the motor being controlled by the controller to selectively drive movement of the pivotable housing to selectively move the pivotable housing into the at least one upward position relative to the rail track and into the least one downward position relative to the rail track, based upon the received at least one signal from the sensor. 8. The rail mounted wind turbine according to claim 1, wherein the controller includes a memory, an interface, and a processor, the processor controlling the selective driving of the motor based upon the received at least one signal from the sensor. 9. The rail mounted wind turbine according to claim 1, wherein the electrical generator is adapted to generate electrical power when the pivotable housing is positioned into one or more of the at least one upward position relative to the rail track and the at least one downward position relative to the rail track, in conjunction with the movement of the at least one blade of the wind turbine, when the wind force is applied to the at least one blade of the wind turbine. 10. The rail mounted wind turbine according to claim 1, wherein the at least one blade of the wind turbine is adapted to be selectively movable when the wind force is applied to the at least one blade when the pivotable housing is positioned into one or more of the at least one upward position relative to the rail track and the at least one downward position relative to the rail track to generate the mechanical energy to drive the electrical generator. 11. The rail mounted wind turbine according to claim 10, wherein the vehicle operating on the rail track generates the wind force that is applied to the at least one blade of the wind turbine. 12. The rail mounted wind turbine according to claim 11, wherein the vehicle is selected from the group consisting of a passenger train, a freight train, a subway car, a street car, and a cable car. 13. The rail mounted wind turbine according to claim 1, wherein the vehicle is selected from the group consisting of a passenger train, a freight train, a subway car, a street car, and a cable car. 14. The rail mounted wind turbine according to claim 1, wherein the controller comprises at least one controller associated with a corresponding plurality of rail mounted wind turbines positioned in conjunction with the rail track, the at least one controller adapted to control selective movement of at least one corresponding pivotable housing of a respective corresponding at least one of the plurality of rail mounted wind turbines into the at least one upward position relative to the rail track and into the at least one downward position relative to the rail track, the control of the selective movement being based upon the at least one signal received from the at least one sensor, indicating at least one relative position of a vehicle operating on the rail track in relation to a position of one or more of the plurality of rail mounted wind turbines. 15. The rail mounted wind turbine according to claim 1, wherein the electrical generator is in communication with an energy storage device to receive the generated electrical power. 16. The rail mounted wind turbine according to claim 15, wherein the energy storage device is selected from the group consisting of a power grid, one or more capacitive storage devices, and one or more batteries. 17. A rail mounted wind turbine, comprising: a pivotable housing, the pivotable housing adapted for positioning between a plurality of ties in a railroad track in conjunction with the railroad track; the pivotable housing adapted for placement into at least one upward position relative to the railroad track and into at least one downward position relative to the railroad track by a pivoting mechanism associated with the pivotable housing; anda wind turbine, the wind turbine positioned within the pivotable housing, the wind turbine having at least one blade rotatable in a path relative to a center point of the wind turbine when a wind force is applied to the at least one blade to provide mechanical energy to generate electrical power, the wind turbine being in communication with an electrical generator to generate the electrical power. 18. The rail mounted wind turbine according to claim 17, wherein the pivoting mechanism comprises an axle in conjunction with a motor. 19. The rail mounted wind turbine according to 17, further comprising: a motor, the motor positioned in conjunction with the pivoting mechanism to selectively drive a pivotable movement of the pivoting mechanism; anda controller, the controller adapted to control selective movement of the motor to drive the pivoting mechanism to selectively move the pivotable housing into the at least one upward position relative to the railroad track and into the at least one downward position relative to the railroad track. 20. The rail mounted wind turbine according to 19, further comprising: at least one sensor, the at least one sensor associated with the rail mounted wind turbine, the at least one sensor adapted to communicate with the controller to provide at least one signal to the controller indicating at least one relative position of a vehicle operating on the railroad track in relation to the pivotable housing.
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이 특허에 인용된 특허 (21)
Wither Thomas A. (1204 Grove Ave. Royal Oak MI 48067), Apparatus for generating power.
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