Fire activated cooling fluid valve

The invention claimed is: 1. A system for supplying a cooling fluid comprising: a component to be cooled, a cooling fluid valve for selectively providing cooling fluid to said component, said cooling fluid valve having an actuator portion; and said actuator portion including a plug force fit into an orifice in a valve housing, and said plug blocking flow of cooling fluid from a cooling fluid inlet to a cooling fluid outlet, said cooling fluid outlet being connected to communicate cooling fluid to the component, there being a flow window in said valve housing for communicating cooling fluid, and said plug blocking said flow window in a force fit position and said plug being formed of a material having a first coefficient of thermal expansion, and a portion of said valve housing including said orifice receiving said plug being formed of a material having a second coefficient of thermal expansion with said second coefficient of thermal expansion being higher than said first coefficient of thermal expansion such that when said actuator portion is exposed to sufficient heat, said force fit is eliminated as said valve housing expands at a greater rate than said plug, such that said plug moves away from a position blocking said flow window; and said valve housing being formed as a distinct part from a component housing, said component housing having an outer surface, wherein said valve housing is mounted in said outer surface of said component housing, and said valve housing extending outwardly away from said outer surface such that said plug and said flow window are on an outer side of said outer surface and said cooling fluid inlet and said cooling fluid outlet are on an opposed side of said outer surface. 2. The system for supplying a cooling fluid as set forth in claim 1 , wherein a plunger is spring-biased to move said plug away from the said position blocking said flow window to selectively allow supply of the cooling fluid to the component as said force fit is eliminated due to thermal expansion. 3. The system for supplying a cooling fluid as set forth in claim 2 , wherein said plug is formed of a nickel-iron alloy. 4. The system for supplying a cooling fluid as set forth in claim 3 , wherein said valve housing is formed of titanium. 5. The system for supplying a cooling fluid as set forth in claim 4 , wherein said plug is moved to a position such that it is entirely beyond said fluid window. 6. The system for supplying a cooling fluid as set forth in claim 2 , wherein said plug is moved to a position such that it is entirely beyond said flow window. 7. The system for supplying a cooling fluid as set forth in claim 1 , wherein said plug is formed of a nickel-iron alloy. 8. The system for supplying a cooling fluid as set forth in claim 6 , wherein said valve housing is formed of titanium. 9. A fuel supply system comprising: a fuel pump configured to supply fuel to a combustor in a gas turbine engine, said fuel pump also delivering fuel to at least one actuator as a hydraulic fluid, and said fuel pump also supplying fuel as a cooling fluid to said actuator, a valve selectively blocking or allowing the cooling fuel to pass to said actuator; said actuator having an actuator housing, having an outer surface, a cooling fluid valve for selectively providing cooling fluid to said actuator, said cooling fluid valve having an actuator portion extending outwardly beyond said outer surface of said housing; and said cooling fluid valve actuator portion including a plug force fit into an orifice in a valve housing, and said plug blocking flow of cooling fluid from a cooling fluid inlet to a cooling fluid outlet, said cooling fluid outlet being connected to communicate cooling fluid to the actuator, there being a flow window in said valve housing for communicating cooling fluid, and said plug blocking said flow window in a force fit position and said plug being formed of a material having a first coefficient of thermal expansion, and a portion of said valve housing including said orifice receiving said plug being formed of a material having a second coefficient of thermal expansion with said second coefficient of thermal expansion being higher than said first coefficient of thermal expansion such that when said actuator portion of said valve is exposed to sufficient heat, said force fit may be eliminated as said valve housing expands at greater rate than said plug, such that said plug moves away from a position blocking said flow window; and said valve housing being formed as a distinct part from said actuator housing, said actuator housing having an outer surface, wherein said valve housing is mounted in said outer surface of said actuator housing, and said valve housing extending outwardly away from said outer surface such that said plug and said flow window are on an outer side of said outer surface and said cooling fluid inlet and said cooling fluid outlet are on an opposed side of said outer surface. 10. The fuel supply system as set forth in claim 9 , wherein a plunger is spring-biased to move said plug away from the said position blocking said flow window to selectively allow supply of the cooling fluid to the component as said force fit is eliminated due to thermal expansion. 11. The fuel supply system as set forth in claim 10 , wherein said plug is formed of an invar material. 12. The system for supplying a cooling fluid as set forth in claim 1 , wherein said valve housing is received in said component housing with screw threads. 13. The fuel supply system as set forth in claim 9 , wherein said valve housing is received in said actuator housing with screw threads.