Multi-layer piezoelectric element, and injection device and fuel injection system provided with the same

The invention claimed is: 1. A multi-layer piezoelectric element, comprising: a stacked body comprising an active section composed of a stack of piezoelectric layers and internal electrode layers, and inactive sections disposed at opposite ends in a stacking direction of the active section; an electrically-conductive bonding material disposed on a side surface of the stacked body, the electrically-conductive bonding material extending from the active section to the inactive sections; and an external electrode plate attached, through the electrically-conductive bonding material, to the side surface of the stacked body, the external electrode plate being configured so that a spacing between a side surface of the stacked body of at least one of the inactive sections disposed at the opposite ends of the active section and the external electrode plate is wider than a spacing between a side surface of the stacked body of the active section and the external electrode plate, the external electrode plate being curved so that the spacing between the side surface of the stacked body and the external electrode plate in the active section becomes narrowest at a center in the stacking direction of the stacked body, and the electrically-conductive bonding material being configured so that the electrically-conductive bonding material situated between the side surface of the stacked body of at least one of the inactive sections disposed at the opposite ends and the external electrode plate is larger in thickness than the electrically-conductive bonding material situated between the side surface of the stacked body of the active section and the external electrode plate. 2. The multi-layer piezoelectric element according to claim 1 , wherein the external electrode plate is configured so that a spacing between a side surface of each of the inactive sections disposed at the opposite ends and the external electrode plate is wider than the spacing between the side surface of the active section and the external electrode plate. 3. An injection device, comprising: a container provided with an injection hole; and the multi-layer piezoelectric element according to claim 1 , a fluid stored in the container being injected through the injection hole by driving the multi-layer piezoelectric element. 4. A fuel injection system, comprising: a common rail configured to store a high-pressure fuel; the injection device according to claim 3 , the injection device being configured to inject the high-pressure fuel stored in the common rail; a pressure pump configured to supply the high-pressure fuel to the common rail; and an injection control unit configured to send driving signals to the injection device. 5. The multi-layer piezoelectric element according to claim 1 , wherein the external electrode plate is flat in at least one of the inactive sections disposed at the opposite ends. 6. The multi-layer piezoelectric element according to claim 1 , wherein the electrically-conductive bonding material becomes thinnest at the center in the stacking direction of the stacked body. 7. The multi-layer piezoelectric element according to claim 2 , wherein the external electrode plate is flat in each of the inactive sections disposed at the opposite ends.