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A solar water heating and cooling system including a solar energy collection assembly having a heat absorbing element, a heat exchanger and a shield. The system also includes a cooling assembly, the cooling assembly is integral with the shield. The system has a check valve in fluid communication wit

A solar water heating and cooling system including a solar energy collection assembly having a heat absorbing element, a heat exchanger and a shield. The system also includes a cooling assembly, the cooling assembly is integral with the shield. The system has a check valve in fluid communication with the solar collection assembly and the cooling assembly, and a fluid pump in fluid communication with the solar energy collection assembly. A working fluid is disposed within the solar energy collection assembly, the cooling assembly, the check valve and the fluid pump. A cooling loop is defined by the solar energy collection assembly, the cooling assembly and the check valve. When the fluid pump is off, the working fluid circulates through the cooling loop, but when the fluid pump is on, the working fluid circulates through a heating loop that is defined by the solar energy collection assembly and the fluid pump.

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1. A solar fluid heating and cooling system comprising: a solar energy collection assembly having a heat absorbing element, a heat exchanger and a shield;a cooling assembly integral with the shield and in fluid communication with the solar energy collection assembly;a closed cooling loop defined by

1. A solar fluid heating and cooling system comprising: a solar energy collection assembly having a heat absorbing element, a heat exchanger and a shield;a cooling assembly integral with the shield and in fluid communication with the solar energy collection assembly;a closed cooling loop defined by the solar energy collection assembly and the cooling assembly; anda pressure differential check valve in fluid communication with the cooling loop, the check valve being selectively operable to control fluid flow in the cooling loop, the check valve controlling fluid flow into the solar energy collection assembly from the cooling loop, the check valve enabling the fluid flow to flow around the cooling loop in a single direction. 2. The solar fluid heating and cooling system of claim 1, wherein the fluid is a liquid. 3. The solar fluid heating and cooling system of claim 1, wherein the cooling loop has a fluid pressure that remains at a positive pressure relative to atmospheric pressure at all times during both heating and cooling. 4. The solar fluid heating and cooling system of claim 1, further comprising the cooling assembly having of a plurality of thermal radiating elements. 5. The solar fluid heating and cooling system of claim 4, wherein the plurality of thermal radiating elements are a plurality of thermal radiating plates. 6. The solar fluid heating and cooling system of claim 4, wherein the plurality of thermal radiating elements are thermal radiating appendages. 7. The solar fluid heating and cooling system of claim 1, wherein the cooling assembly is pivotable about the solar energy collection assembly. 8. A solar fluid heating and cooling system comprising: a solar energy collection assembly having a heat absorbing element, a heat exchanger and a shield;a cooling assembly in fluid communication with the solar energy collection assembly;a fluid pump selectively operable to control fluid flow in the cooling assembly;a working fluid disposed within the solar energy collection assembly, the cooling assembly and the fluid pump;when the fluid pump is on, the working fluid does not circulate in the cooling assembly; andwhen the fluid pump is off, the working fluid circulates around the cooling assembly in a single direction defining a closed loop. 9. The solar fluid heating and cooling system of claim 8, wherein when the fluid pump is off, a thermo-siphoning fluid flow circulates through the solar energy collection assembly and the cooling assembly. 10. The solar fluid heating and cooling system of claim 8, further comprising a pressure differential check valve in fluid communication with the solar energy collection assembly and the cooling assembly. 11. The solar fluid heating and cooling system of claim 10, wherein when the fluid pump is on, the working fluid does not flow through the check valve. 12. The solar fluid heating and cooling system of claim 11, wherein when the fluid pump is off, the working fluid is flowable through the check valve. 13. A solar fluid heating and cooling system comprising: a solar energy collection assembly having a heat absorbing element, a heat exchanger and a shield;a cooling assembly, the cooling assembly is integral with the shield;a check valve in fluid communication with the solar collection assembly and the cooling assembly;a fluid pump in fluid communication with the solar energy collection assembly;a working fluid disposed within the solar energy collection assembly, the cooling assembly, the check valve and the fluid pump; anda closed cooling loop defined by the solar energy collection assembly, the cooling assembly and the check valve;when the fluid pump is off, the working fluid circulates around the cooling loop in a single direction;a heating loop defined by the solar energy collection assembly and the fluid pump; andwhen the fluid pump is on, the working fluid circulates through the heating loop. 14. The solar fluid heating and cooling system of claim 13, wherein the check valve is a pressure differential check valve. 15. The solar fluid heating and cooling system of claim 14, wherein when the fluid pump is off, a thermo-siphoning fluid flow circulates through the solar energy collection assembly, the cooling assembly and the check valve. 16. The solar fluid heating and cooling system of claim 15, wherein the cooling assembly is pivotable about the solar energy collection assembly. 17. The solar fluid heating and cooling system of claim 16, further comprising a fluid pressure of the cooling loop remaining at a positive pressure during cooling of the working fluid. 18. The solar fluid heating and cooling system of claim 17, wherein the cooling assembly includes at least two thermal radiating plates that form at least one fluid channel. 19. The solar fluid heating and cooling system of claim 18, wherein the at least two thermal radiating plates each have at least two indentations, the at least two indentations forming a plurality of fluid channels.