1. A mechanism for elevationally driving a solar concentrator pivotally connected to a pedestal, said mechanism comprising:
- a lower bar pivotally connected to said pedestal, the center of the lower bar/pedestal pivot being a first distance from the center of the solar concentrator/pedestal pivot;
- an upper bar pivotally connected to said lower bar and to said solar concentrator, said center of said lower bar/pedestal pivot being a second distance from the center of the lower bar/upper bar pivot, said center of said lower bar/upper bar pivot being a third distance from the center of the upper bar/solar concentrator pivot, and said center of said upper bar/solar concentrator pivot being a fourth distance from said center of said solar concentrator/pedestal pivot;
- the sum of the maximum of said distances plus the minimum of said distances being smaller than the sum of the remaining said distances;
- a linear actuator having a first end pivotally attached to said linked lower bar and upper bar between said lower bar/pedestal pivot and said upper bar/solar concentrator pivot and a second end pivotally attached to said linked solar concentrator and pedestal between said lower bar/pedestal pivot and said upper bar/solar concentrator pivot.
2. A mechanism according to claim 1 wherein the sum of said second distance plus said third distance is greater than the sum of said first distance plus said fourth distance.
3. A mechanism according to claim 2 wherein said second distance is greater than said first distance.
4. A mechanism according to claim 3 wherein said first end of said linear actuator is pivotally attached to said linked lower bar and upper bar at said lower bar/upper bar pivot.
5. A mechanism according to claim 4 wherein said second end of said linear actuator is pivotally attached to said solar concentrator between said solar concentrator/pedestal pivot and said solar concentrator/upper bar pivot.
6. A mechanism according to claim 5 wherein said linear actuator comprises a motor driven lead screw and a slider having a follower nut section meshingly engaged with said lead screw.
7. A mechanism for elevationally driving a solar concentrator pivotally connected to a pedestal, said mechanism comprising:
- a lower bar pivotally connected to said pedestal, the center of the lower bar/pedestal pivot being a first distance from the center of the solar concentrator/pedestal pivot;
- an upper bar pivotally connected to said lower bar and to said solar concentrator, said center of said lower bar/pedestal pivot being a second distance from the center of the lower bar/upper bar pivot, said center of said lower bar/upper bar pivot being a third distance from the center of the upper bar/solar concentrator pivot, and said center of said upper bar/solar concentrator pivot being a fourth distance from said center of said solar concentrator/pedestal pivot;
- said second distance plus said third distance being greater than the sum of said first distance plus said fourth distance;
- said second distance being greater than said first distance;
- a linear actuator, comprising a motor driven lead screw and a slider having a follower nut section meshingly engaged with said lead screw, having a first end pivotally attached to said lower bar and said upper bar at said lower bar/upper bar pivot and a second end pivotally attached to said solar concentrator between said solar concentrator/pedestal pivot and said solar concentrator/upper bar pivot.
8. A mechanism according to claim 7 further including a collar which pivotally and rotatably connects said lower bar to said pedestal by being pivotally connected to said lower bar and rotatably connected to said pedestal.
9. A mechanism according to claim 8 wherein said solar concentrator is in a downward facing position when said first end and said second end of said linear actuator are a maximum travel distance away from each other and said solar concentrator is in a zenith facing position when said first end and said second end of said linear actuator are a minimum travel distance toward each other.
10. A solar concentrator assembly capable of being elevationally driven between a downward facing position, a horizon facing position, a zenith facing position and any intermediate position, said solar concentrator assembly comprising:
- a pedestal;
- a solar concentrator pivotally connected to said pedestal;
- a lower bar pivotally connected to said pedestal, the center of the lower bar/pedestal pivot being a first distance from the center of the solar concentrator/pedestal pivot;
- an upper bar pivotally connected to said lower bar and to said solar concentrator, said center of said lower bar/pedestal pivot being a second distance from the center of the lower bar/upper bar pivot, said center of said lower bar/upper bar pivot being a third distance from the center of the upper bar/solar concentrator pivot, and said center of said upper bar/solar concentrator pivot being a fourth distance from said center of said solar concentrator/pedestal pivot;
- the sum of the maximum of said distances plus the minimum of said distances being smaller than the sum of the remaining said distances;
- a linear actuator having a first end pivotally attached to said linked lower bar and upper bar between said lower bar/pedestal pivot and said upper bar/solar concentrator pivot and a second end pivotally attached to said linked solar concentrator and pedestal between said lower bar/pedestal pivot and said upper bar/solar concentrator pivot.
11. A solar concentrator assembly according to claim 10 wherein the sum of said second distance plus said third distance is greater than the sum of said first distance plus said fourth distance.
12. A solar concentrator assembly according to claim 11 wherein said second distance is greater than said first distance.
13. A solar concentrator assembly according to claim 12 wherein said first end of said linear actuator is attached to said linked lower bar and upper bar at said lower bar/upper bar pivot.
14. A solar concentrator assembly according to claim 13 wherein said second end of said linear actuator is attached to said linked solar concentrator between said solar concentrator/pedestal pivot and said solar concentrator/upper bar pivot.
15. A solar concentrator assembly according to claim 14 wherein said linear actuator comprises a motor driven lead screw and a slider having a follower nut section meshingly engaged with said lead screw.
16. A solar concentrator assembly capable of being elevationally driven between a downward facing position, a horizon facing position, a zenith facing position and any intermediate position, said solar concentrator assembly comprising:
- a pedestal;
- a solar concentrator pivotally connected to said pedestal;
- a single actuator connected to said pivotally connected pedestal and solar concentrator;
- transmission means connected to said single actuator and said pivotally connected pedestal and solar concentrator for transmitting the motion of said single actuator into rotational motion of said solar concentrator about said pedestal;
- said single actuator and said transmission means allowing said solar concentrator to be elevationally driven between a downward facing position, a horizon facing position, a zenith facing position and any intermediate position, in response to the motion of said single actuator.
17. A solar concentrator assembly according to claim 16 wherein said single actuator comprises a motor driven lead screw and a slider having a follower nut section meshingly engaged with said lead screw.
18. A solar concentrator assembly according to claim 17 wherein said transmission means comprises a lower bar pivotally connected to said pedestal and an upper bar pivotally connected to said lower bar and to said solar concentrator.
