Multi-layer piezoelectric element and piezoelectric actuator, injection device and fuel injection system including the same

The invention claimed is: 1. A multi-layer piezoelectric element, comprising: a stacked body in which piezoelectric layers and internal electrode layers are laminated; and an external electrode adhered to a side surface of the stacked body with a conductive bonding material and electrically connected to the internal electrode layers, wherein the external electrode includes at least one of a plurality of slits alternately extending from opposite ends of the external electrode in a width direction thereof toward a central part of the external electrode and a plurality of holes extending in the width direction of the external electrode, and protrusions which protrude toward the stacked body are disposed in peripheral edges of the slits or the holes, and a conductive layer electrically connected to the internal electrode layers is provided on a side surface of the stacked body, and each of the protrusions penetrates into the conductive layer and electrically connects the conductive layer. 2. The multi-layer piezoelectric element according to claim 1 , wherein the protrusions extend in a width direction of the external electrode which is perpendicular to a stacking direction. 3. The multi-layer piezoelectric element according to claim 2 , wherein each of the protrusions extends continuously from end to end of each of the slits or each of the holes in the width direction. 4. The multi-layer piezoelectric element according to claim 3 , wherein a protruding length of each of the protrusions at ends thereof in the width direction is larger than a protruding length of each of the protrusions in a central part thereof in the width direction. 5. The multi-layer piezoelectric element according to claim 4 , wherein a conductive layer electrically connected to the internal electrode layers is provided on a side surface of the stacked body, and each of the protrusions penetrates into the conductive layer at ends in the width direction. 6. The multi-layer piezoelectric element according to claim 1 , wherein the conductive bonding material is configured so that metal particles are dispersed in a resin, and the metal particles contain a metal component the same as that present at least on a surface of each of the protrusions. 7. A piezoelectric actuator, comprising: the multi-layer piezoelectric element according to claim 1 ; and a case which houses the multi-layer piezoelectric element thereinside.