Battery state detection apparatus and method for manufacturing same

The invention claimed is: 1. A battery state detection device comprising: a shunt resistor comprising a conductor part, wherein the conductor part comprises a flat portion; and a battery post terminal comprising: a battery post connecting portion facilitating connection to a battery post, a bent portion providing a degree of structural rigidity facilitating resistance to a torsional force applied to the battery post connecting portion via a wiring harness connecting portion, a reinforcement wall adjacent to the bent portion, and a shunt resistor connecting portion that is to be connected, by welding, to the flat portion of the conductor part of the shunt resistor, wherein a first fold line and a second fold line of the bent portion are substantially parallel, wherein the bent portion comprises a first flat portion that extends in a first plane from the battery post connecting portion, wherein the first fold line results in deflecting a transition portion of the bent portion from the first flat portion in the first plane into a second plane that is a different plane than the first plane, wherein the second fold line results in deflecting a second flat portion of the bent portion from the transition portion in the second plane into a third plane of the bent portion that is a different plane than the second plane, wherein the second flat portion comprises the shunt resistor connecting portion, wherein the first plane and the third plane are substantially parallel and offset by an offset distance resulting in the bent portion having an S-shape, wherein a first axis of the first fold line and a second axis of the second fold line are substantially parallel to a longitudinal direction of the shunt resistor, wherein a first distance between a first edge and a second edge of the shunt resistor connecting portion of the battery post terminal is less than a second distance between a third edge and a fourth edge of the bent portion of the battery post terminal, and wherein the first distance and the second distance are measured in the longitudinal direction of the shunt resistor. 2. The battery state detection device according to claim 1 , wherein the shunt resistor includes a harness connecting part that is to be connected to a harness, and the battery post terminal is provided with a boss portion that extends along an imaginary line connecting the battery post connecting part to the harness connecting part. 3. The battery state detection device according to claim 1 , wherein the reinforcement wall provides more structural rigidity facilitating resistance to the torsional force applied to the battery post connecting portion via a wiring harness connecting portion. 4. The battery state detection device according to claim 1 , wherein the second flat portion in the third plane comprises the first edge and the third edge, and wherein the first edge and the third edge are substantially perpendicular to the second fold line. 5. The battery state detection device according to claim 1 , comprising: a circuit board that detects a current having flowed through the shunt resistor; and a casing that houses the circuit board, wherein the casing is molded while the shunt resistor and the battery post terminal, which are connected to each other by the welding, are at least partially inserted in a region to be encased by the casing, the second flat portion of the battery post terminal comprises an exposure boundary portion having a flat shape, wherein the exposure boundary portion is substantially parallel to the longitudinal direction of the shunt resistor, and wherein the exposure boundary portion is at a boundary between an inserted portion of the battery post terminal inserted in the casing and an exposed portion of the battery post terminal exposed to the outside of the casing. 6. The battery state detection device according to claim 5 , wherein the inserted portion of the battery post terminal and an inserted shunt resistor portion of the shunt resistor that are inserted in the region to be encased by the casing are provided with bevels. 7. The battery state detection device according to claim 1 , wherein the shunt resistor connecting portion comprises a substantially flat rectangular shape in the third plane and has a width, a height, and a thickness. 8. The battery state detection device according to claim 7 , wherein the thickness is less than the width or the height, and wherein the width is measured between the first edge and the second edge. 9. The battery state detection device according to claim 8 , wherein the height is measured between a fifth edge that is substantially parallel to the longitudinal direction of the shunt resistor and an intersection between the shunt resistor connecting portion and a sixth edge of the bent portion.