Closure system for the electrolyte fill port of an electrochemical cell

What is claimed is: 1. An electrochemical cell, which comprises: a) a casing comprising a casing sidewall having a casing opening; b) a header hermetically sealed to the casing sidewall in the casing opening, the header having a thickness extending from a header upper surface to a header lower surface, wherein the header comprises: i) an electrolyte fill port comprising an upper opening sidewall extending from the header upper surface to an intermediate ledge located part-way through the header thickness, the ledge extending from a lower edge of the upper opening sidewall to an upper edge of a lower opening sidewall, the lower opening sidewall extending from the ledge to the header lower surface, and ii) wherein, with respect to an axis of the electrolyte fill port, the upper opening sidewall has a first radius r 1 at the header upper surface and the lower opening sidewall has a second radius r 2 extending from the ledge to the header lower surface, the first radius r 1 being greater than the second radius r 2 ; and iii) rifling extending along the lower opening sidewall from the ledge to the header lower surface; c) an electrode assembly housed inside the casing, the electrode assembly comprising an anode prevented from direct physical contact with a cathode by an intermediate separator; d) an electrolyte provided in the casing to activate the electrode assembly; and e) a closure system for the electrolyte fill port, the closure system comprising: i) a metal member devoid of rifling and serving as a lower closure member secured to the lower opening sidewall comprising the rifling by a lower weld; and ii) an upper closure member secured to the upper opening sidewall by an upper weld. 2. The electrochemical cell of claim 1 , wherein the upper closure member is a metal plate and the lower closure member is a round or spherical metal member. 3. The electrochemical cell of claim 1 , wherein the rifling spirals in either a right-hand direction or a left-hand direction with respect to a view looking along the axis of the electrolyte fill port from the header upper surface to the header lower surface. 4. The electrochemical cell of claim 1 , further comprising a feedthrough opening supporting a feedthrough, the feedthrough comprising a terminal pin supported by an insulating material sealing between the feedthrough opening and the terminal pin, wherein the terminal pin extends from a terminal pin distal end located outside the casing to a terminal pin proximal end conductively connected to one of the anode and the cathode, and wherein the other of the anode and the cathode is conductively connected to the casing. 5. The electrochemical cell of claim 4 , wherein the feedthrough opening is provided in the header. 6. The electrochemical cell of claim 1 , of either a primary or a secondary chemistry. 7. An electrochemical cell, which comprises: a) a casing comprising a casing sidewall having a casing opening; b) a header hermetically sealed to the casing sidewall in the casing opening, the header having a thickness extending from a header upper surface to a header lower surface, wherein the header comprises: i) an electrolyte fill port comprising an upper opening sidewall extending from the header upper surface to an intermediate ledge located part-way through the header thickness, the ledge extending from a lower edge of the upper opening sidewall to an upper edge of a lower opening sidewall, the lower opening sidewall extending from the ledge to the header lower surface, and ii) wherein, with respect to an axis of the electrolyte fill port, the upper opening sidewall has a first radius r 1 at the header upper surface and the lower opening sidewall has a second radius r 2 at the ledge, the first radius r 1 being greater than the second radius r 2 , and wherein the lower opening sidewall extends downwardly and inwardly along the axis from the second radius r 2 at the ledge to a third radius r 3 at the header lower surface, the second radius r 2 being greater than the third radius r 3 ; and iii) rifling extending along the lower opening sidewall from the ledge to the header lower surface; c) an electrode assembly housed inside the casing, the electrode assembly comprising an anode prevented from direct physical contact with a cathode by an intermediate separator; d) an electrolyte provided in the casing to activate the electrode assembly; and e) a closure system for the electrolyte fill port, the closure system comprising: i) a metal member devoid of rifling and serving as a lower closure member secured to the lower opening sidewall comprising the rifling by a lower weld; and ii) an upper closure member secured to the upper opening sidewall by an upper weld. 8. The electrochemical cell of claim 7 , wherein the lower opening sidewall has a frusto-conical shape extending downwardly and inwardly along the axis of the electrolyte fill port from the second radius r 2 at the ledge to the third radius r 3 at the header lower surface. 9. The electrochemical cell of claim 7 , of either a primary or a secondary chemistry. 10. The electrochemical cell of claim 7 , wherein the upper and lower opening sidewalls define respective upper and lower coaxial openings. 11. The electrochemical cell of claim 7 , wherein the upper closure member is a metal plate and the lower closure member is a round or spherical metal member. 12. The electrochemical cell of claim 7 , wherein the upper and lower closure members are composed of a metallic material selected from the group consisting of titanium, nickel, copper, MP35N, and combinations thereof. 13. The electrochemical cell of claim 7 , further comprising a feedthrough opening supporting a feedthrough, the feedthrough comprising a terminal pin supported by an insulating material sealing between the feedthrough opening and the terminal pin, wherein the terminal pin extends from a terminal pin distal end located outside the casing to a terminal pin proximal end conductively connected to one of the anode and the cathode, and wherein the other of the anode and the cathode is conductively connected to the casing. 14. The electrochemical cell of claim 13 , wherein the feedthrough opening is provided in the header. 15. The electrochemical cell of claim 7 , wherein the rifling spirals in either a right-hand direction or a left-hand direction with respect to a view looking along the axis of the electrolyte fill port from the header upper surface to the header lower surface. 16. An electrochemical cell, which comprises: a) a casing, comprising: i) a first metal casing member comprising a first surrounding sidewall extending from a first major face wall to a first surrounding edge of the first sidewall; and ii) a second metal casing member comprising a second surrounding sidewall extending from a second major face wall to a second surrounding edge of the second sidewall; b) a header supported by at least one of the first and second casing members, the header having a thickness extending from a header upper surface to a header lower surface, wherein the header comprises: i) an electrolyte fill port comprising an upper opening sidewall extending from the header upper surface to an intermediate ledge located part-way through the header thickness, the ledge extending from a lower edge of the upper opening sidewall to an upper edge of a lower opening sidewall, the lower opening sidewall extending from the ledge to the header lower surface, ii) wherein, with respect to an axis of the electrolyte fill port, the upper opening sidewall has a first radius r 1 and the