Method and apparatus for manufacturing a battery safety valve, a battery safety valve, and method for manufacturing a battery case lid

The invention claimed is: 1. A method for manufacturing a battery safety valve wherein; a thin annular portion constituting an edge portion of a safety valve is formed in a stainless steel metal sheet constituting a battery case of a battery with the thin annular portion being thinner than the remainder of the metal sheet, by disposing the metal sheet between a plurality of sets of a punch and a die with the punch and the die of each set provided with matching annular projecting portions that are arranged to oppose each other, simultaneously pressing the annular projecting portions of a first one of the sets against respective surfaces of the metal sheet, wherein the annular projecting portions of the first set have a first predetermined tip shape that is the same and a first predetermined tip end width that is the same, and simultaneously pressing the annular projecting portions of a second one of the sets against the respective surfaces of the metal sheet, wherein the annular projecting portions of the second set have a second predetermined tip shape that is the same and a second predetermined tip end width that is the same, with the predetermined second tip end width being narrower than the predetermined first tip end width. 2. A method for manufacturing a battery safety valve according to claim 1 wherein, when the annular projecting portions are pressed against the respective surfaces of the metal sheet, the metal sheet is restrained by restraining means on an outer peripheral side of the annular projecting portions. 3. A method for manufacturing a battery safety valve according to claim 1 wherein, a crushing rate of the metal sheet during the respective pressing steps is set at no more than 70%. 4. An apparatus for manufacturing a battery safety valve including a thin annular portion constituting an edge portion of the safety valve that is formed on a stainless steel metal sheet constituting a battery case of a battery with the thin annular portion being thinner than the remainder of the metal sheet comprising: a plurality of sets of a punch and a die with the punch and the die of each set provided with matching annular projecting portions that are arranged to oppose each other, a first one of the sets wherein the annular projecting portions of the punch and the die of the first set each have a predetermined first tip end shape that is the same and have a first predetermined tip end width that is the same; a second one of the sets wherein the annular projecting portions of the second set have a predetermined second tip end shape that is the same and have a second tip end width that is the same, with the predetermined second tip end width being narrower than the predetermined first tip end width; and restraining means disposed on an outer peripheral side of the annular projecting portions of the punch and the die, the annular projecting portions being for forming the safety valve thin annular portion by simultaneously pressing the annular projecting portions of the first set against respective surfaces of the metal sheet followed by simultaneously pressing the annular projection portions of the second set against the respective surfaces of the metal sheet so that the first and second sets are sequentially utilized in descending order of the tip end width of the annular projecting portions with the first set utilized before the second set while restraining the metal sheet on the outer peripheral side of the annular projecting portions using the restraining means. 5. A method for manufacturing a battery case lid for manufacturing a battery case lid that includes a safety valve having an edge portion that is constituted by a thin annular portion, and a side wall portion that stands upright in an annular shape from an outer edge of an outer peripheral side sheet surface positioned on an outer peripheral side of the thin annular portion, the method comprising: a coining step of forming the thin annular portion on a stainless steel metal sheet serving as a material of the lid by pressing annular projecting portions against the metal sheet with the thin annular portion being thinner than the remainder of the metal sheet; and a side wall forming step of forming the side wall portion on the metal sheet by implementing a drawing on the metal sheet after the coining step, wherein the thin annular portion is formed in the coining step by simultaneously pressing the annular projecting portions disposed to oppose each other, against front and rear surfaces of the metal sheet, wherein a thickness of the thin annular portion is kept thicker than a final target thickness in the coining step, and the thickness of the thin annular portion is reduced to the final target thickness after the side wall forming step by pressing an adjustment annular projecting portion against the thin annular portion. 6. A method for manufacturing a battery case lid according to claim 5 wherein, the drawing is performed during the side wall forming step in a condition where a sheet surface on a periphery of the thin annular portion is restrained by restraining means. 7. A method for manufacturing a battery case lid according to claim 5 wherein, multistage coining is performed in the coining step using a plurality of annular projecting portions having different tip end widths such that the annular projecting portions are pressed against the metal sheet in descending order of the tip end width. 8. A method for manufacturing a battery case lid according to claim 5 , characterized in that at each stage of the coining step, a crushing rate of the metal sheet is set at no more than 70%. 9. The method of claim 1 further comprising simultaneously pressing the annular projecting portions of a third one of the sets against the respective surfaces of the metal sheet, wherein the annular projecting portions of the third set have a third predetermined tip shape that is the same and a third predetermined tip end width that is the same, with the third predetermined tip end width being narrower than the second predetermined tip end width. 10. The method of claim 9 further comprising simultaneously pressing the annular projection portions of a fourth one of the sets against the respective surfaces of the metal sheet, wherein the annular projecting portions of the fourth set have a fourth predetermined tip shape that is the same and a fourth predetermined tip end width that is the same, with the fourth predetermined tip end width being narrower than the third predetermined tip end width, the first through fourth sets being sequentially utilized in descending order of tip end width of the annular projecting portions so that the first set is utilized before the second set, the second set is utilized before the third set, and the third set is utilized before the fourth set.