The present invention provides an electrochemical cell of either a primary or a secondary chemistry housed in a casing having opposed major side walls of a contoured shape.
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1. An electrochemical cell, which comprise:a) a negative electrode;b) a positive electrode;c) a casing housing the negative and positive electrodes, wherein the casing comprises spaced apart first and second major side walls extending to and meeting with opposed third and fourth end walls, the first
1. An electrochemical cell, which comprise:a) a negative electrode;b) a positive electrode;c) a casing housing the negative and positive electrodes, wherein the casing comprises spaced apart first and second major side walls extending to and meeting with opposed third and fourth end walls, the first and second major side walls and the third and fourth end walls extending from a bottom wall to an open end closed by a lid, and wherein the first and second major side walls are continuously curved about their entire extent and in a similar direction from where they connect to the third end wall to where they connect to the fourth end wall and from the bottom wall to the open end, wherein at least one of the first and second major side walls has a first curvature portion transitioning into a second, different curvature portion and wherein both the first and second curvature portions deflect in a similar direction; andd) an electrolyte provided in the casing to activate the negative and positive electrodes.2. The electrochemical cell of claim 1 wherein at least one of the first and second curvature portions of the first major side wall is of a greater curvature than at least a portion of the second major side wall.3. The electrochemical cell of claims 1 wherein the third and fourth end walls are curved.4. The electrochemical cell of claim 1 wherein the third and fourth end walls are generally planar.5. The electrochemical cell of claim 1 wherein the lid supports an electrolyte fill opening.6. The electrochemical cell of claim 1 wherein the lid supports a terminal lead for one of the negative and the positive electrodes.7. The electrochemical cell of claim 6 wherein the terminal lead is connected to the positive electrode and the cell is built in a case-negative configuration.8. The electrochemical cell of claim 6 wherein the terminal lead is connected to the negative electrode and the cell is built in a case-positive configuration.9. The electrochemical cell of claim 1 of either a primary or a secondary chemistry.10. The electrochemical cell of claim 1 of a primary chemistry with the positive electrode of a cathode active material selected from the group consisting of silver vanadium oxide, copper silver vanadium oxide, manganese dioxide, cobalt oxide, nickel oxide, copper oxide, copper sulfide, iron sulfide, iron disulfide, titanium disulfide, copper vanadium oxide, and mixtures thereof.11. The electrochemical cell of claim 1 of a secondary chemistry with the positive electrode of a cathode active material selected from the group consisting of LiNiO2, LiMn2O4, LiCoO2, LiCo0.92Sn0.08O2, LiCo1?xNixO2, and mixtures thereof.12. The electrochemical cell of claim 1 of a secondary chemistry with the negative electrode of an anode material selected from the group consisting of coke, graphite, acetylene black, carbon black, glassy carbon, hairy carbon, and mixtures thereof.13. The electrochemical cell of claim 1 wherein the negative and positive electrodes are provided in a wound cell stack.14. The electrochemical cell of claim 1 wherein one of the negative and positive electrodes is folded in a serpentine-like structure with plates of the other of the negative and positive electrodes received in the folds.15. The electrochemical cell of claim 1 wherein the casing is of a material selected from the group consisting of nickel, aluminum, stainless steel, mild steel, tantalum, and titanium.16. The electrochemical cell of claim 1 wherein the bottom wall is either planar or curved.17. The electrochemical cell of claim 1 of a lithium-oxyhalide chemistry having a carbonaceous cathode current collector.18. An electrochemical cell, which comprise:a) a negative electrode;b) a positive electrode;c) a casing housing the negative and positive electrodes, wherein the casing comprises spaced apart first and second major side walls extending to and meeting with an intermediate wall, the first and second major side walls and the intermediate wall extending to an open end closed by a lid, and wherein the first and second major side walls are continuously curved about their entire extent and in a similar direction from where each of them meets the intermediate wall to the open end, wherein at least one of the first and second major side walls has a first curvature portion transitioning into a second, different curvature portion and wherein both the first and second curvature portions deflect in a similar direction; andd) an electrolyte provided in the casing to activate the negative and positive electrodes.19. The electrochemical cell of claim 18 wherein at least one of the first and second curvature portions of the first major side wall is of a greater curvature than at least a portion of the second major side wall.20. The electrochemical cell of claim 18 wherein the lid supports an electrolyte fill opening.21. The electrochemical cell of claim 18 wherein the lid supports a terminal lead for one of the negative and the positive electrodes.22. The electrochemical cell of claim 18 of either a primary or a secondary chemistry.23. The electrochemical cell of claim 18 wherein the intermediate wall is either planar or curved.24. The electrochemical cell of claim 18 of a lithium-oxyhalide chemistry having a carbonaceous cathode current collector.25. A casing for an electrochemical energy storage device, the casing comprising:a) spaced apart first and second major side walls extending to and meeting with opposed third and fourth end walls, the first and second major side walls and the third and fourth end walls extending from a bottom wall to an open end, wherein the first and second major side walls are continuously curved about their entire extent and in a similar direction from where they connect to the third end wall to where they connect to the fourth end wall and from the bottom wall to the open end, wherein at least one of the first and second major side walls has a first curvature portion transitioning into a second, different curvature portion and wherein both the first and second curvature portions deflect in a similar direction; andb) a lid closing the open end.26. The casing of claim 25 wherein the first sidewall is of a greater curvature than the second sidewall.27. The casing of claim 25 wherein the third and fourth end walls are curved.28. The casing of claim 25 wherein the third and fourth end walls are curved opposite to each other.29. The casing of claim 25 wherein the casing is of a material selected from the group consisting of nickel, aluminum, stainless steel, mild steel, tantalum, and titanium.30. The casing of claim 25 wherein the bottom wall is either planar or curved.31. A casing for an electrochemical energy storage device, the casing comprising:a) spaced apart first and second major side walls extending to and meeting with an intermediate wall, the first and second major side walls and the intermediate wall extending to an open end, wherein the first and second major side walls are continuously curved about their entire extent in a similar direction from where they meet the intermediate wall to the open end, wherein at least one of the first and second major side walls has a first curvature portion transitioning into a second, different curvature portion and wherein both the first and second curvature portions deflect in a similar direction; andb) a lid closing the open end.32. The casing of claim 31 wherein at least one of the first and second curvature portions of the first major side wall is of a greater curvature than at least a portion of the second major side wall.33. The casing of claim 31 wherein the intermediate wall is either planar or curved.34. A method for providing an electrochemical cell, comprising the steps of:a) providing a casing comprising spaced apart first and second major side walls extending to and meeting with opposed third and fourth end walls, the first and second major side walls and the third and fourth end walls extending from a bottom wall to an open end, wherein the first and second major side walls are continuously curved about their entire extent and in a similar direction from where they connect to the third end wall to where they connect to the fourth end wall and from the bottom wall to the open end, wherein at least one of the first and second major side walls has a first curvature portion transitioning into a second, different curvature portion and wherein both the first and second curvature portions deflect in a similar direction;b) housing a negative electrode and a positive electrode inside the casing through the open end;c) connecting the negative and positive electrodes to respective terminals;d) closing the open end with a lid;e) activating the negative and positive electrodes with an electrolyte provided in the casing through a fill opening in the lid or the casing; andf) sealing the fill opening.35. The method of claim 34 including providing at least one of the first and second curvature portions of the first major side wall being of a greater curvature than at least a portion of the second major side wall.36. The method of claim 34 including providing the bottom wall being either planar or curved.37. A method for providing an electrochemical cell, comprising the steps of:a) providing a casing comprising spaced apart first and second major side walls extending to and meeting with an intermediate wall, the first and second major side walls and the intermediate wall extending to an open end, wherein the first and second major side walls are continuously curved about their entire extent and in a similar direction from where they meet the intermediate wall to the open end, wherein at least one of the first and second major side walls has a first curvature portion transitioning into a second, different curvature portion and wherein both the first and second curvature portions deflect in a similar direction;b) housing a negative electrode and a positive electrode inside the casing through the open end;c) connecting the negative and positive electrodes to respective terminals;d) closing the open end with a lid;e) activating the negative and positive electrodes with an electrolyte provided in the casing through a fill opening in the lid or the casing; andf) sealing the fill opening.38. The method of claim 37 including providing at least one of the first and second curvature portions of the first major side wall being of a greater curvature than at least a portion of the second major side wall.39. The method of claim 37 including providing the intermediate wall being either planar or curved.
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