Negative electrode terminal for battery and method for producing negative electrode terminal for battery

The invention claimed is: 1. A negative electrode terminal ( 8 ) for a battery configured to be connectable to a battery terminal connecting plate ( 101 , 102 ) for connecting battery terminals ( 7 , 8 ) of a plurality of batteries ( 1 ) with each other and battery negative electrodes ( 5 ) of the batteries and to be arrangeable on upper surfaces of lids ( 2 ) of battery cases of the batteries, composed of a clad material formed by bonding: a first metal layer ( 80 ), made of Al or an Al alloy, including a first region connected with the battery terminal connecting plate and an adjacent second region on the same surface side as the first region; and a second metal layer ( 81 ), made of Ni or an Ni alloy, connected with the battery negative electrodes, wherein the second metal layer is arranged to be stacked on the first metal layer in the second region of the first metal layer in a stacking direction in which the battery negative electrodes extend, the first metal layer made of Al or Al alloy is configured to be connectable to the battery terminal connecting plate made of Al or an Al alloy in the first region, and the second metal layer made of Ni or Ni alloy is configured to be connectable to the battery negative electrodes made of Cu or a Cu alloy in the second region, and a hole portion passing through the first metal layer and the second metal layer is formed in the second region, and the negative electrode terminal for a battery is so configured that the battery negative electrodes inserted into the hole portion are connectable to at least the inner peripheral surface of the second metal layer. 2. The negative electrode terminal for a battery according to claim 1 , wherein the first metal layer and the second metal layer are arranged on the same surface side, opposite to the batteries, of the negative electrode terminal for a battery. 3. The negative electrode terminal for a battery according to claim 2 , wherein the second metal layer stacked on the first metal layer is connected with the battery negative electrodes in the second region of the first metal layer, a recess portion ( 82 ) is formed in the second region of the first metal layer, and the second metal layer is bonded to the first metal layer in a state embedded in the recess portion of the first metal layer. 4. The negative electrode terminal for a battery according to claim 3 , wherein the recess portion of the first metal layer is formed to extend from one end portion up to another end portion in a second direction orthogonal to a first direction, in which the first region and the second region are adjacent to each other, in the second region, and the second metal layer is embedded in the recess portion of the first metal layer to extend from one end portion up to another end portion in the second direction. 5. The negative electrode terminal for a battery according to claim 3 , wherein the recess portion is the groove portion ( 82 ), and the second metal layer is embedded in the groove portion of the first metal layer to extend from one end portion up to another end portion in the second direction in a state where both end surfaces in the first direction are not exposed. 6. The negative electrode terminal for a battery according to claim 5 , wherein the width of the groove portion of the first metal layer in the first direction is not more than half of the length of the first metal layer in the first direction. 7. The negative electrode terminal for a battery according to claim 3 , wherein the recess portion is a notch portion ( 382 ), and the second metal layer is bonded to the notch portion of the first metal layer to extend from one end portion up to another end portion in the second direction in a state where one end surface in the first direction is exposed. 8. The negative electrode terminal for a battery according to claim 2 , wherein the first metal layer in the first region and the second metal layer stacked on the first metal layer in the second region are adjacently provided in the form of planar surfaces. 9. The negative electrode terminal for a battery according to claim 1 , wherein the thickness of the second metal layer is not more than the thickness of the first metal layer in the second region. 10. The negative electrode terminal for a battery according to claim 9 , wherein the thickness of the second metal layer is at least 10% and not more than 50% of the total thickness of the first metal layer and the second metal layer in the second region. 11. The negative electrode terminal for a battery according to claim 1 , wherein the clad material constituting the negative electrode terminal for a battery is configured to be arrangeable on the upper surfaces of the lids of the battery cases in a state insulated from the lids of the battery cases. 12. The negative electrode terminal for a battery according to claim 1 , wherein at least part of the first metal layer in the first region is provided in the form of a planar surface to be weldable to the battery terminal connecting plate in the form of a flat plate. 13. The negative electrode terminal for a battery according to claim 1 , wherein the first metal layer includes a protrusive portion ( 408 a ) formed on the first region and engageable with the battery terminal connecting plate. 14. The negative electrode terminal for a battery according to claim 1 , wherein the first metal layer is connectable with battery positive electrodes ( 4 ) of the batteries ( 1 ), and made of the same metallic material as a positive electrode terminal ( 7 ) for a battery, made of Al or an Al alloy, connected with the battery terminal connecting plate. 15. A method for producing a negative electrode terminal ( 8 ) for a battery configured to be connectable to a battery terminal connecting plate ( 101 , 102 ) for connecting battery terminals ( 7 , 8 ) of a plurality of batteries ( 1 ) with each other and battery negative electrodes ( 5 ) of the batteries and to be arrangeable on upper surfaces of lids ( 2 ) of battery cases of the batteries, comprising steps of: preparing a first metal material ( 280 ), extending in a prescribed direction, capable of plurally forming a first metal layer ( 80 ), made of Al or an Al alloy, including a first region connected with the battery terminal connecting plate and an adjacent second region on the same surface side as the first region; preparing a second metal material ( 281 ), extending in the prescribed direction, capable of plurally forming a second metal layer ( 81 ), made of Ni or an Ni alloy, connected with the battery negative electrodes; forming a clad material ( 200 ) in which the second metal material is arranged to be stacked on the first metal material in the second region of the first metal layer in a stacking direction in which the battery negative electrodes extend to extend in the prescribed direction by bonding the second metal material to the first metal material to be stacked along the prescribed direction; forming a plurality of the negative electrode terminals for batteries each including the first metal layer configured to be connectable to the battery terminal connecting plate made of Al or an Al alloy in the first region and the second metal layer configured to be connectable to the batter negative electrodes made of Cu or a Cu alloy in the second region from the clad material; and forming a hole portion passing through the first metal layer and the second metal layer in the second region, for connecting the battery negative electrodes inserted into the hole portion to at least the inner peripheral su