Pressure activated anti-extrusion ring for annular seal, seal configuration, and method

What is claimed is: 1. An anti-extrusion ring comprising: a ring body having a cross sectional shape and a central axis defined by the ring body; a radial contact surface making up a part of the cross sectional shape of the ring body the radial contact surface having a structure that necessarily preferentially loads a radial edge portion of the radial contact surface when the anti-extrusion ring is loaded, the radial contact surface being at an angle that is nonorthogonal to the central axis such that the radial contact surface forms an inwardly extending frustocone; an axial contact surface making up a part of the cross sectional shape, the axial contact surface having a structure that necessarily preferentially loads an axial edge portion of the axial contact surface when the anti-extrusion ring is loaded, the axial contact surface forming an angle with the central axis such that the axial contact surface is farther from the central axis at a point nearer the radial contact surface and closer to the central axis at the axial edge portion; an element load surface positioned between the radial edge portion and the axial edge portion; and wherein the entire radial contact surface and the entire axial contact surface are less than 270 degrees external angle from one another. 2. The anti-extrusion ring as claimed in claim 1 wherein the ring body is annularly unbroken. 3. The anti-extrusion ring as claimed in claim 1 wherein the radial contact surface and the axial contact surface are angled relative to each other to define an included angle that is greater than an angle between a back-up and a mandrel with which the anti-extrusion ring is intended to operate. 4. The anti-extrusion ring as claimed in claim 1 wherein one or more of the radial contact surface and axial contact surface comprise a recess. 5. The anti-extrusion ring as claimed in claim 1 wherein the cross sectional shape is triangular. 6. The anti-extrusion ring as claimed in claim 5 wherein the triangular shape includes an angle between the radial contact surface and the axial contact surface of greater than 90 degrees. 7. The anti-extrusion ring as claimed in claim 1 wherein the load surface is concave. 8. The anti-extrusion ring as claimed in claim 1 wherein the load surface is convex. 9. The anti-extrusion ring as claimed in claim 1 wherein the load surface is flat. 10. The anti-extrusion ring as claimed in claim 1 wherein one or more of the radial contact surface and axial contact surface includes a recess. 11. A seal configuration comprising: a mandrel; an element disposed about the mandrel; a backup in operable communication with the element; and a ring body having a cross sectional shape and a central axis defined by the ring body; a radial contact surface making up a part of the cross sectional shape of the ring body the radial contact surface having a structure that necessarily preferentially loads a radial edge portion of the radial contact surface when the anti-extrusion ring is loaded, the radial contact surface being at an angle that is nonorthogonal to the central axis such that the radial contact surface forms an inwardly extending frustocone; an axial contact surface making up a part of the cross sectional shape, the axial contact surface having a structure that necessarily preferentially loads an axial edge portion of the axial contact surface when the anti-extrusion ring is loaded, the axial contact surface forming an angle with the central axis such that the axial contact surface is farther from the central axis at a point nearer the radial contact surface and closer to the central axis at the axial edge portion; an element load surface positioned between the radial edge portion and the axial edge portion; and wherein the entire radial contact surface and the entire axial contact surface are less than 270 degrees external angle from one another. 12. The configuration as claimed in claim 11 wherein the axial contact surface includes a an axial edge portion and the radial contact surface includes a radial edge portion, an element load surface being positioned between the radial edge portion and the axial edge portion. 13. The configuration as claimed in claim 12 wherein the radial contact surface and the axial contact surface are angled relative to each other to define an included angle that is greater than an angle between the back-up and the mandrel. 14. The configuration as claimed in claim 11 wherein the back-up is two back-ups, one on each axial end of the element and the ring is two rings, one positioned at each back-up. 15. A method for creating a seal comprising: actuating an annular element; expanding the element against a back-up; loading an anti-extrusion ring with the element, the ring having: a ring body having a cross sectional shape and a central axis defined by the ring body; a radial contact surface making up a part of the cross sectional shape of the ring body the radial contact surface having a structure that necessarily preferentially loads a radial edge portion of the radial contact surface when the anti-extrusion ring is loaded, the radial contact surface being at an angle that is nonorthogonal to the central axis such that the radial contact surface forms an inwardly extending frustocone; an axial contact surface making up a part of the cross sectional shape, the axial contact surface having a structure that necessarily preferentially loads an axial edge portion of the axial contact surface when the anti-extrusion ring is loaded, the axial contact surface forming an angle with the central axis such that the axial contact surface is farther from the central axis at a point nearer the radial contact surface and closer to the central axis at the axial edge portion; an element load surface positioned between the radial edge portion and the axial edge portion; and wherein the entire radial contact surface and the entire axial contact surface are less than 270 degrees external angle from one another. 16. The method as claims in claim 15 wherein the actuating is compressing. 17. The method as claimed in claim 15 further comprising preventing extrusion of the element past the anti-extrusion ring.