Maximizing wall thickness of a Cu—Cr floating center shield component by moving contact gap away from center flange axial location

What is claimed is: 1. A vacuum interrupter, comprising: an insulating tube having an inner diameter; a vacuum envelope formed by the insulating tube; an arc-enduring floating center shield component comprised of Cu—Cr alloy-based material positioned within the vacuum envelope, the floating center shield component comprising: a first portion of the floating center shield component having a first outer diameter greater than a second outer diameter of a remainder second portion of the floating center shield component; and a shield wall, having a first portion that corresponds to said first portion of the floating center shield component, the first portion of the shield wall having a first thickness greater than a second thickness of a remainder second portion of the shield wall, that corresponds to the remainder second portion of the floating center shield component; a center flange, having an inner diameter, to secure the floating center shield component to the insulating tube, wherein the first outer diameter of said first portion of the floating center shield component and the first thickness of said first portion of the shield wall extend beyond the inner diameter of the center flange toward the inner diameter of the insulating tube; a first contact assembly; a second contact assembly; and a contact gap formed between the first and second contact assemblies when said assemblies are axially in an open position, wherein an entire contact gap is positioned above a corresponding axial position of the center flange, and the entire contact gap is correspondingly aligned within said first portion of the floating center shield component that is located above the center flange, or wherein an entire contact gap is positioned below a corresponding axial position of the center flange, and the entire contact gap is correspondingly aligned within said first portion of the floating center shield component that is located below the center flange. 2. The vacuum interrupter of claim 1 , wherein said first portion of the floating center shield component has an outer diameter that extends to or near the inner diameter of the insulating tube. 3. The vacuum interrupter of claim 1 , wherein the contact gap is aligned with said first portion of the shield wall, which is located a distance away from where the center flange is attached to the shield wall. 4. The vacuum interrupter of claim 1 , wherein the center flange has a ring-shaped opening formed therein. 5. The vacuum interrupter of claim 4 , wherein the outer diameter of said first portion floating center shield component is greater than an inner diameter of the opening of the center flange. 6. The vacuum interrupter of claim 1 , wherein the insulating tube is composed of ceramic. 7. The vacuum interrupter of claim 1 , wherein the floating center shield component has connected thereto opposing ends composed of metal.