Cushioned load bearing surface and method for making same

The invention claimed is: 1. A cushioned load bearing surface, comprising: a suspension layer; a membrane; and a load distribution layer, the membrane positioned between the suspension layer and the load distribution layer, wherein the membrane includes a base and a plurality of molded, oriented, piston-like projections each of the projections extending from the base, the membrane defining intermediate portions between each projection and the base that extend from the base in a direction opposite of the projections, the projections being compressible from a first state to a compressed state under load and returning to the first state upon removal of the load, wherein each of the intermediate portions circumscribes one of the projections such that the intermediate portion is an annular, thinned wall, the intermediate portion having a partial vertical cross-section that defines a U-shape with a concave side and a convex side, the concave side opening toward the projection, and the convex side facing away from the projection, and wherein the intermediate portions are configured to roll to accommodate at least a portion of the projections as the projections are compressed. 2. The surface of claim 1 , wherein the membrane is formed from a polymeric material and wherein at least a portion of the membrane at the intermediate portions is oriented. 3. The surface of claim 2 , wherein a portion of the projections adjacent the intermediate portions is oriented. 4. The surface of claim 3 , wherein the portions of the projections adjacent the intermediate portions and the intermediate portions are formed having a wall thickness less than a wall thickness of the other portions of the projections. 5. The surface of claim 1 , wherein the projections are formed independent of each other. 6. The surface of claim 1 , wherein the projections have a circular cross-section. 7. The surface of claim 1 , wherein a space between the membrane and the load distribution layer defines an air manifold. 8. The surface of claim 7 , wherein the air manifold is configured to draw vacuum in the space between the membrane and the load distribution layer and/or to accommodate a heated or cooled air flow. 9. A molded, piston pixelated membrane for a cushioned load bearing seat, comprising a base and a plurality of molded, oriented, piston-like projections, each of the projections extending from the base in a first direction, the membrane defining intermediate portions between each projection and the base, each intermediate portion including an annular, thinned wall circumscribing one of the plurality of projections, the annular, thinned wall extending from the base in a second direction opposite the first direction to a rolling radius and extending from the rolling radius in the first direction to the projection such that the annular, thinned wall is contiguous with the projection, the projections being compressible from a first state to a compressed state under load and returning to the first state upon removal of the load, wherein the intermediate portions are configured to roll to accommodate at least a portion of the projections as the projections are compressed, and wherein at least a portion of the membrane at the intermediate portions is oriented. 10. The membrane of claim 9 , wherein the projections are formed independent of each other. 11. The membrane of claim 9 , wherein the portions of the projections adjacent the intermediate portions and the intermediate portions are formed having a wall thickness less than a wall thickness of the other portions of the projections. 12. The membrane of claim 9 , wherein the rolling radius is configured to accommodate compression of the projections. 13. The membrane of claim 9 , wherein the projections have a circular cross-section. 14. The membrane of claim 9 , wherein the portions of the projections adjacent the intermediate portions and the intermediate portions are selectively oriented to a degree different than the remaining portions of the projection. 15. The membrane of claim 14 , wherein the portions of the projections adjacent the intermediate portions and the intermediate portions are oriented to a degree greater than the remaining portions of the projection. 16. A method for making a molded, piston pixelated membrane, comprising: providing a membrane formed from a polymeric material, the membrane having a base, a plurality of piston-like projections, each of the projections extending from the base in a first direction, the membrane defining intermediate portions between each projection and the base, each of the intermediate portions being a thinned wall that circumscribes one of the plurality of projections and extends from the base in a second direction, the second direction being opposite of the first direction, the intermediate portions each having a concave side that opens toward the first direction; securing the membrane in a mold; and orienting a portion of the projections adjacent the intermediate portions and orienting the intermediate portions, wherein the intermediate portions are configured to roll to accommodate at least a portion of the projections as the projections are compressed. 17. The method of claim 16 , wherein the step of orienting the portion of the projections adjacent the intermediate portions and orienting the intermediate portions includes applying tension to the portion of the projections adjacent the intermediate portions and applying tension to the intermediate portions. 18. The method of claim 17 including the step of heating the portion of the projections adjacent the intermediate portions and heating the intermediate portions during orienting. 19. The method of claim 16 including the step of orienting the membrane prior to the step of orienting the portion of the projections adjacent the intermediate portions and orienting the intermediate portions.