System and method for supporting a boiler load

What is claimed is: 1. A support system for a boiler, comprising: a plurality of support assemblies beneath the boiler arranged between a surface and the boiler, each of the plurality of support assemblies including: a first support leg having a lower end operatively connected to the surface and an upper end operatively connected to the boiler; a second support leg having a lower end operatively connected to the surface a distance from the surface connection of the lower end of the first support leg, and an upper end operatively connected to the boiler a distance from the boiler connection of the upper end of the first support leg; a mounting block in each support leg, each mounting block defining sides surrounding an open central portion; and at least one spring operatively connected to the first support leg mounting block and to the second support leg mounting block, for the at least one spring extend horizontally between the first support leg and the second support leg; wherein each the first support leg and the second support leg includes a lower strut having the lower end and an upper strut having the upper end, and wherein each the upper strut and the lower strut of each the first support leg and the second support leg are pivotally connected to one another through the open central portion and via the mounting block in each support leg. 2. The support system of claim 1 , wherein the mounting block of the first support leg pivotally connects the lower strut of the first support leg to the upper strut of the first support leg, and the mounting block of the second support leg pivotally connects the lower strut of the second support leg to the upper strut of the second support leg, and wherein the at least one spring is secured to a face of the mounting block of the first support leg and to a face of the mounting block of the second support leg. 3. The support system of claim 2 , wherein the at least one spring is a pair of springs. 4. The support system of claim 2 , wherein the at least one spring is laterally offset from a plane extending through the first support leg and the second support leg. 5. The support system of claim 1 , wherein the at least one spring is a variable spring. 6. The support system of claim 1 , wherein at least one of the plurality of support assemblies is nested with at least another of the plurality of support assemblies. 7. The support system of claim 1 , wherein each the upper end of the first support leg and the upper end of the second support leg is connected to a buckstay of the boiler. 8. The support system of claim 1 , wherein the boiler is suspended from a structural member located above heated parts of the boiler. 9. The support system of claim 1 , further comprising at least one tie operatively connected to the at least one spring and to a support, the at least one tie providing horizontal, out-of-plane stability for a support assembly of the plurality of support assemblies. 10. A support assembly for a boiler, comprising: a first support member arranged beneath the boiler extending between a ground surface and the boiler; a second support member arranged beneath the boiler extending between the ground surface and the boiler and spaced from the first support member; a mounting block in each support member, each mounting block defining sides surrounding an open central portion; and at least one spring extending between the mounting block of the first support member and the mounting block of the second support member; wherein each the first support member and the second support member includes a lower strut having the ground surface end connected to the ground surface and an upper strut having the boiler end connected to the boiler, and wherein the upper strut and the lower strut of each the first support member and the second support member are pivotally connected to one another through the open central portion and via the mounting block in each support member. 11. The support assembly of claim 10 , wherein the boiler is suspended from a structural member located above heated parts of the boiler. 12. The support assembly of claim 11 , wherein the mounting block connecting the lower strut of the first support member to the upper strut of the first support member comprises a first face, the mounting block connecting the lower strut of the second support member to the upper strut of the second support member comprises a second face, and the at least one spring is secured to each the first face and to the second face to extends therebetween. 13. The support assembly of claim 12 , wherein the at least one spring is a pair of springs, and wherein the pair of springs are variable springs. 14. The support assembly of claim 13 , wherein each boiler end of each upper strut is connected to a buckstay of the boiler. 15. A method for supporting a load of a boiler, comprising the steps of: arranging a first support leg beneath the boiler to extend between a surface and the boiler; arranging a distance from the first support leg, a second support leg beneath the boiler to extend between the surface and the boiler; arranging a mounting block in each support leg, the mounting block defining sides surrounding an open central portion; and interconnecting the first support leg and the second support leg via the mounting block in each support leg, with a spring; wherein the first support leg and the second support leg each includes a lower strut having the ground surface end connected to the surface and an upper strut having the boiler end connected to the boiler, and wherein the upper strut and the lower strut of each the first support leg and the second support leg are pivotally connected to one another through the open central portion and via the mounting block in each support leg. 16. The method according to claim 15 , further comprising the step of placing the spring in compression. 17. The method according to claim 15 , wherein the spring is a pair of variable springs, the boiler is suspended from a structural member located above heated parts of the boiler, and the load of the boiler results from at least one of bottom ash accumulation within the boiler and downward thermal expansion of the boiler.