Push-lock pin

The invention claimed is: 1. A push-lock pin for connecting a plate to a surface comprising: a cylindrical pin housing; a shaft within said cylindrical pin housing wherein said shaft comprises a ball-lock mechanism, and a push-down pop-up mechanism; a cap, connected to a first axial end of said shaft; a spring connected to a second axial end of said shaft, wherein said second axial end is opposite said first axial end; wherein said push-down pop-up mechanism comprises a separate pin component, the separate pin component including at least a portion normal to an axis defined by the shaft and a cam having a first equilibrium point and a second equilibrium point, wherein said spring is maintained in a compressed state when said cam is at the second equilibrium point, and said spring is maintained in a partially relaxed state when said cam is at the first equilibrium point; the separate pin component extends radially into said cam; and the cam defining a first movement track of the separate pin component from the first equilibrium point to the second equilibrium point, and a second movement track of the separate pin component from the second equilibrium point to the first equilibrium point, wherein the first movement track is distinct from the second movement track. 2. The push-lock pin of claim 1 , wherein said ball-lock mechanism comprises a ball-lock section of said shaft and a locking feature, wherein said ball-lock mechanism has a larger diameter than a remainder of said shaft, and said locking feature is adjacent said ball-lock section of said shaft when said shaft is in a locked position. 3. The push-lock pin of claim 2 , wherein said locking feature protrudes from at least one opening in said cylindrical pin housing when said push-lock pin is in a locked position. 4. The push-lock pin of claim 2 , wherein said spring is at least partially compressed when said push-lock pin is in the locked position. 5. The push-lock pin of claim 2 , wherein said locking feature is a plurality of approximately spherical bearings. 6. The push-lock pin of claim 1 , wherein said ball-lock mechanism is in a locked position when said separate pin component is in the second equilibrium point, and said ball-lock mechanism is in an unlocked position when said separate pin component is in the first equilibrium point. 7. The push-lock pin of claim 1 , wherein said push-down pop-up mechanism comprises a combination of at least one shaft feature and at least one cap feature, where said shaft feature includes a second equilibrium point and said shaft feature includes a first equilibrium point. 8. A turbine engine exhaust liner tile comprising: a ceramic tile surface; a push-lock pin hole in said ceramic tile surface; a connector connecting at least one push-lock pin to said ceramic tile surface and retaining said push-lock pin in said push-lock pin hole; the at least one push-lock pin for connecting said ceramic tile surface to a turbine engine exhaust path wall; wherein said at least one push-lock pin comprises a cylindrical pin housing; a shaft within said cylindrical pin housing wherein said shaft comprises a ball-lock mechanism, and a push-down pop-up mechanism, a cap connected to a first axial end of said shaft, and a spring connected to a second axial end of said shaft, wherein said second axial end is axially opposite said first axial end; and said push-down pop-up mechanism comprising a separate pin component, the separate pin component including at least a portion normal to an axis defined by the shaft and a cam with a first equilibrium point and a second equilibrium point, wherein said spring is maintained in a compressed state when said cam is at the second equilibrium point, and said spring is maintained in a partially relaxed state when said cam is at the first equilibrium point; and the separate pin component extends radially into said cam; and the cam defining a first movement track of the separate pin component from the first equilibrium point to the second equilibrium point, and a second movement track of the separate pin component from the second equilibrium point to the first equilibrium point, wherein the first movement track is distinct from the second movement track. 9. The turbine engine exhaust liner tile of claim 8 , wherein said cap is flush with a surface of said ceramic tile surface when said at least one push-lock pin is in a locked position. 10. The turbine engine exhaust liner tile of claim 8 , wherein said ceramic tile surface is a heat panel. 11. The turbine engine exhaust liner tile of claim 8 , wherein said cap comprises a ceramic cap surface, and wherein said ceramic cap surface is flush with said ceramic tile surface. 12. The turbine engine exhaust liner tile of claim 8 , wherein said ball-lock mechanism comprises a ball-lock section of said shaft and a locking feature, wherein said ball-lock section has a larger diameter than a remainder of said shaft, and said locking feature is adjacent said ball-lock section of said shaft when said shaft is in a locked position. 13. The turbine engine exhaust liner tile of claim 8 , wherein said cap protrudes from a ceramic tile surface face when said at least one push-lock pin is in an unlocked position, thereby operating as a handle. 14. The push-lock pin of claim 1 , wherein the cam is defined by a slot protruding radially into the shaft.