Monorail switch using a gravity-assisted actuating mechanism

What is claimed is: 1. A monorail switch for a monorail guideway, the monorail switch comprising: a moveable guide beam, said moveable guide beam having a first end and a second end, said second end being adapted to be connected to the guideway, said moveable guide beam having lateral running surfaces on its left and right sides; and an actuating mechanism, said actuating mechanism having a body and a counterweight, said actuating mechanism body operatively connecting said moveable guide beam to said counterweight so as to move said moveable guide beam from a tangent position to a turnout position, wherein potential energy stored in said counterweight is released and at least partially stored in the form of elastic potential energy in said lateral running surfaces when said moveable guide beam is moved from said tangent position to said turnout position; and wherein said elastic potential energy stored in said lateral running surfaces is released and at least partially stored in the form of potential energy by said counterweight when said moveable guide beam is moved from said turnout position to said tangent position. 2. The monorail switch of claim 1 wherein said counterweight is in a high potential energy position when said moveable guide beam is in said tangent position and wherein said counterweight is in a low potential energy position when said moveable guide beam is in said turnout position. 3. The monorail switch of claim 2 wherein said actuating mechanism further comprises a lever, said lever having a fulcrum and a swinging extremity, said counterweight being connected to said swinging extremity. 4. The monorail switch of claim 3 wherein said counterweight is substantially vertically aligned above said fulcrum when said moveable guide beam is in said tangent position and wherein said counterweight is vertically offset from said fulcrum when said moveable guide beam is in said turnout position. 5. The monorail switch of claim 4 wherein said counterweight is horizontally aligned with said fulcrum when said moveable guide beam is in said turnout position. 6. The monorail switch of claim 3 wherein said counterweight has a mass M and wherein said lever has a length L, said mass M and said length L being selected so that a sum of torque at said fulcrum is null when said moveable guide beam is proximate said turnout position. 7. The monorail switch of claim 6 wherein said mass M and said length L are selected so that the sum of torque at said fulcrum is null when said moveable guide beam is proximate said tangent position. 8. The monorail switch of claim 1 wherein said actuating mechanism is connected to said moveable guide beam proximate said first end. 9. The monorail switch of claim 1 wherein said lateral running surfaces extend from a position proximate said first end to a position proximate said second end. 10. The monorail switch of claim 1 wherein said lateral running surfaces comprise an upper set and a lower set of running surfaces, said running surfaces of said upper set being connected together and said running surfaces of said lower set being connected together. 11. The monorail switch of claim 1 wherein said moveable guide beam comprises an alignment of segments pivotally connected end-to-end to each other by pivots, said lateral running surfaces extending on each sides of said segments. 12. The monorail switch of claim 11 wherein said moveable guide beam further comprises rotation stops between each one of said segments, said rotation stops preventing two adjacent segments from pivoting beyond a predetermined angle with respect to each other. 13. The monorail switch of claim 12 further comprising another rotation stop proximate said second end so as to prevent said segment at said second end from pivoting beyond a predetermined angle with respect to said guideway. 14. The monorail switch of claim 11 comprising at most one of said actuating mechanism, said actuating mechanism being connected to a single one of said segments having said first end of said moveable guide beam. 15. The monorail switch of claim 1 wherein said actuating mechanism is connected to said moveable guide beam through a linkage. 16. The monorail switch of claim 1 wherein said actuating mechanism further comprises a cam and a cable, said cable interconnecting said cam to said moveable guide beam, said cable being operative to conform at least partially to a profile of said cam as said moveable guide beam moves from said tangent position to said turnout position.