Nonaqueous electrolyte secondary battery and pack battery

The invention claimed is: 1. A nonaqueous electrolyte secondary battery comprising: a wound electrode body wound along one plane including a winding axis; a battery case housing the wound electrode body such that the winding axis and a sidewall of the battery case intersect, a spatial volume excluding the wound electrode body in the battery case including a first spatial volume on a negative electrode side of the battery case and a second spatial volume on a positive electrode side of the battery case, the first spatial volume being larger than the second spatial volume in a direction of the winding axis of the wound electrode body, a first value being obtained by dividing the first spatial volume by the second spatial volume, and the first value being equal to or larger than 2.1 and equal to or smaller than 5.7; and a positioning member to position the wound electrode body within the battery case. 2. The nonaqueous electrolyte secondary battery according to claim 1 , wherein the first spatial volume is a spatial volume between an end on an uncoated section side of a negative electrode sheet and a sidewall of the battery case, and the second spatial volume is a spatial volume between an end on an uncoated section side of a positive electrode sheet and the sidewall of the battery case. 3. The nonaqueous electrolyte secondary battery according to claim 1 , wherein the battery case is rectangular parallelepiped, the wound electrode body includes a belt positive electrode sheet and a belt negative electrode sheet, the belt positive electrode sheet and the belt negative electrode sheet are superposed with a belt separator interposed between the belt positive electrode sheet and the belt negative electrode sheet, and the wound electrode body being wound, the positive electrode sheet includes a belt positive electrode current collector, a first uncoated section disposed on the positive electrode current collector along an edge in a direction of a winding axis of the positive electrode current collector, and a positive electrode active material layer containing a positive electrode active material and held on both sides of the positive electrode current collector excluding the first uncoated section, the negative electrode sheet includes a belt negative electrode current collector having thermal conductivity higher than that of the positive electrode current collector, a second uncoated section disposed on the negative electrode current collector along an edge in a direction of a winding axis of the negative electrode current collector, and a negative electrode active material layer containing a negative electrode active material and held on both sides of the negative electrode current collector excluding the second uncoated section, a length of the negative electrode active material layer is longer than a length of the positive electrode active material layer in a direction of the winding axis, and the positive electrode sheet and the negative electrode sheet are superposed such that the positive electrode active material layer is covered with the negative electrode active material layer and the first uncoated section and the second uncoated section are positioned on opposite sides each other in a width direction of the winding axis. 4. The nonaqueous electrolyte secondary battery according to claim 3 , wherein the positive electrode current collector is made of aluminum, and the negative electrode current collector is made of copper. 5. A pack battery comprising: a plurality of the nonaqueous electrolyte secondary batteries, the plurality of the nonaqueous electrolyte secondary batteries according to claim 1 being assembled, the nonaqueous electrolyte secondary batteries being faced with surfaces having a larger width of the battery case and superposed the surfaces and adjacent wound electrode bodies are offset with each other in the direction of the winding axis. 6. The pack battery according to claim 5 , wherein the nonaqueous electrolyte secondary batteries are adjacently assembled, the nonaqueous electrolyte secondary batteries have an offset rate equal to or larger than 1.3 and equal to or smaller than 6.0, the offset rate is defined with a width in the direction of the winding axis of the wound electrode body and an amount of offset in the direction of the winding axis of the adjacent wound electrode bodies, and the offset rate being obtained by multiplying a second value, which is obtained by dividing the amount of offset by the width, by 100.