Multiple parabolic trough solar collector having a focus-tracking pipe array

Having described our invention, we claim: 1. A method for collecting energy from the sun, comprising: a. providing a plurality of parallel parabolic trough reflectors, each of said trough reflectors including a plane of symmetry and a focal axis lying on said plane of symmetry; b. wherein each of said trough reflectors creates a focal zone parallel to said focal axis of said trough reflector, with a displacement of said focal zone from said focal axis being dependent upon an angle of incidence of sunlight striking said trough reflector; c. providing a receiver pipe for each of said parabolic trough reflectors, each of said receiver pipes running parallel to said focal axis of said trough reflector and being displaced from said focal axis in a direction that is perpendicular to said plane of symmetry of said trough reflector by a receiver pipe displacement distance; d. moving said receiver pipes in a strictly linear motion that is perpendicular to said planes of symmetry of said troughs in order to change said receiver pipe displacement distance so that each of said receiver pipes lies within one of said focal zones as said sun transits the sky and said focal zones move; e. moving a working fluid through each of said receiver pipes in order to transfer heat to said working fluid and thereby collect said energy from said sun; and f. attaching all of said receiver pipes to a movable frame so that moving said movable frame simultaneously changes said receiver pipe displacement distance for every receiver pipe. 2. A method for collecting energy from the sun as recited in claim 1 , wherein said receiver pipes are connected in series. 3. A method for collecting energy from the sun as recited in claim 1 , further comprising adjusting said plurality of trough reflectors and said plurality of receiver pipes in elevation. 4. A method for collecting energy from the sun as recited in claim 1 , further comprising adjusting said plurality of trough reflectors and said plurality of receiver pipes in elevation to track a changing elevation of said sun as said sun transits said sky. 5. A method for collecting energy from the sun as recited in claim 1 , further comprising said plurality of receiver pipes in an enclosure. 6. A method for collecting energy from the sun as recited in claim 1 , further comprising placing both said plurality of trough reflectors and said plurality of receiver pipes in an enclosure. 7. A method for collecting energy from the sun as recited in claim 1 , further comprising placing both said plurality of trough reflectors and said plurality of receiver pipes in an enclosure. 8. A method for collecting energy from the sun as recited in claim 2 , further comprising placing both said plurality of trough reflectors and said plurality of receiver pipes in an enclosure. 9. A method for collecting energy from the sun, comprising: a. providing a plurality of parallel parabolic trough reflectors, each of said trough reflectors including a plane of symmetry and a focal axis lying on said plane of symmetry; b. wherein each of said trough reflectors creates a focal zone parallel to said focal axis of said trough reflector, with a displacement of said focal zone from said focal axis being dependent upon an angle of incidence of sunlight striking said trough reflector; c. providing a plurality of receiver pipes, including, i. wherein each receiver pipe lies proximate to a focal axis of a particular trough reflector and runs parallel thereto, ii. wherein each receiver pipe is displaced from said focal axis in a direction that is perpendicular to said plane of symmetry of said trough reflector by a receiver pipe displacement distance, iii. wherein all of said receiver pipes in said plurality of receiver pipes are linked together so that they move in unison; d. moving said receiver pipes in a strictly linear motion that is perpendicular to said planes of symmetry of said troughs in order to change said receiver pipe displacement distance so that each of said receiver pipes lies within one of said focal zones as said sun transits the sky; e. moving a working fluid through each of said receiver pipes in order to transfer heat to said working fluid and thereby collect said energy from said sun; and f. attaching all of said receiver pipes to a movable frame so that moving said movable frame simultaneously changes said receiver pipe displacement distance for every receiver pipe. 10. A method for collecting energy from the sun as recited in claim 9 , wherein said receiver pipes are connected in series. 11. A method for collecting energy from the sun as recited in claim 9 , further comprising adjusting said plurality of trough reflectors and said plurality of receiver pipes in elevation. 12. A method for collecting energy from the sun as recited in claim 9 , further comprising adjusting said plurality of trough reflectors and said plurality of receiver pipes in elevation to track a changing elevation of said sun as said sun transits said sky. 13. A method for collecting energy from the sun as recited in claim 9 , further comprising said plurality of receiver pipes in an enclosure. 14. A method for collecting energy from the sun as recited in claim 9 , further comprising placing both said plurality of trough reflectors and said plurality of receiver pipes in an enclosure. 15. A method for collecting energy from the sun as recited in claim 9 , further comprising placing both said plurality of trough reflectors and said plurality of receiver pipes in an enclosure. 16. A method for collecting energy from the sun as recited in claim 10 , further comprising placing both said plurality of trough reflectors and said plurality of receiver pipes in an enclosure.