Battery

The invention claimed is: 1. A battery comprising: a case and a cover plate that covers the case; an electricity-generating element that is formed by winding an electrode plate and a separator and has a space at a winding axial portion, the electricity-generating element being in the case; and a spacer having an inclined portion having a width that is gradually reduced toward the center of the electricity-generating element; wherein at least a part of the spacer is disposed in the space at the winding axial portion of the electricity-generating element, the inclined portion of the spacer abutting against an end of an inner wall of the electricity-generating element; the electricity-generating element has a flat surface on the inner wall of the winding axial portion; the inclined portion of the spacer has a flat surface; the flat surface of the inclined portion abuts against the flat surface on the inner wall of the winding axial portion; an end of the spacer has a width that is smaller than a width of other end of the spacer; and the end of the spacer is disposed in the space at the winding axial portion of the electricity-generating element and the other end of the spacer is in direct contact with the cover plate or an insulating plate that is in direct contact with the cover plate. 2. The battery according to claim 1 , wherein the inclined portion of the spacer is configured in such a manner as to press the end of the inner wall of the electricity-generating element. 3. The battery according to claim 1 , wherein the electrode plate includes a mixture formed portion at which a mixture for a positive electrode or a negative electrode is formed, and a mixture non-formed portion not having the mixture formed thereat, the electricity-generating element having the mixture non-formed portion at the end in the winding axial direction, and the inclined portion of the spacer abuts against the mixture formed portion in the electricity-generating element. 4. A fabricating method for a battery, the battery including: a case and a cover plate that covers the case, an electricity-generating element that is formed by winding an electrode plate and a separator and has a space at a winding axial portion, the electricity-generating element being in the case, and a spacer having an inclined portion having a width that is gradually reduced toward an end, the fabricating method comprising the steps of: inserting the spacer into the space at the winding axial portion in the electricity-generating element from the tip of the spacer; and arranging the inclined portion and an end on an inner wall of the electricity-generating element in such a manner as to allow them to abut against each other, wherein the electricity-generating element has a flat surface on the inner wall of the winding axial portion; the inclined portion of the spacer has a flat surface; the flat surface of the inclined portion abuts against the flat surface on the inner wall of the winding axial portion; an end of the spacer has a width that is smaller than a width of other end of the spacer; and the end of the spacer is disposed in the space at the winding axial portion of the electricity-generating element and the other end of the spacer is in direct contact with a cover plate or an insulating plate that is in direct contact with the cover plate. 5. A battery comprising: a case and a cover plate comprising an insulating plate; an electricity-generating element in the case, the electricity-generating element comprising a wound electrode plate and a wound separator and having an inner wall surrounding a space at a winding axial portion, the inner wall of the electricity-generating element having a flat portion; and two spacers, one end of each of the two spacers being disposed in the space at the winding axial portion, other end of each of the two spacers being in direct contact with the cover plate or the insulating plate that is in direct contact with the cover plate, the one end of each of the two spacers having a width that is smaller than a width of the other end of each of the two the spacers, each of the two spacers having an inclined flat portion having a width that is gradually reduced toward a center of the electricity-generating element, a portion of the inclined flat portion of the spacer being in parallel with a portion of the flat portion of the inner wall.