Liquid discharge head

What is claimed is: 1. A liquid discharge head, comprising: a piezoelectric body including a plurality of piezoelectric layers stacked stacked in a stacking direction, the piezoelectric body having a first end and a second end which are away from each other in a first direction orthogonal to the stacking direction of the piezoelectric layers, a plurality of individual electrodes located on a first surface that is orthogonal to the stacking direction, and a first common electrode located on a second surface that is orthogonal to the stacking direction, the first common electrode being different in a position in the stacking direction from the first surface, wherein each of the individual electrodes includes a first portion and a second portion arranged in the first direction at an interval, and a third portion connecting the first portion and the second portion, the first portion being positioned between the first end and the third portion in the first direction, the third portion being positioned between the first portion and the second portion in the first direction, the second portion being positioned between the third portion and the second end in the first direction, the first portions, the second portions, and the third portions of the individual electrodes are arranged between the first end and the second end to form rows along a second direction orthogonal to the stacking direction and intersecting with the first direction, thus forming a first portion row, a second portion row, and a third portion row, the first common electrode includes: a first extending portion extending in the second direction to pass through a position between the first portion row and the second portion row in the first direction; a plurality of first protrusions protruding from the first extending portion toward the first end; and a plurality of second protrusions protruding from the first extending portion toward the second end, each of the first protrusions partially overlaps in the stacking direction with one of the first portions of the individual electrodes forming the first portion row, each of the second protrusions partially overlaps in the stacking direction with one of the second portions of the individual electrodes forming the second portion row, and portions of the first extending portion overlapping in the stacking direction with the third portions are formed having through holes passing through the first common electrode in the stacking direction. 2. The liquid discharge head according to claim 1 , further comprising a second common electrode formed on a third surface that is orthogonal to the stacking direction and is different in a position in the stacking direction from the first surface and the second surface, the second common electrode includes a second extending portion extending in the second direction and a plurality of protrusions protruding from the second extending portion toward the first end and the second end, and the protrusions partially overlap in the stacking direction with the first portions and the second portions. 3. The liquid discharge head according to claim 2 , wherein the second extending portion does not have the through hole. 4. The liquid discharge head according to claim 1 , comprising a channel unit that includes: a plurality of pressure chambers including a plurality of first pressure chambers corresponding to the first portions and a plurality of second pressure chambers corresponding to the second portions; a plurality of nozzles corresponding to the pressure chambers; and a plurality of channels allowing the pressure chambers to communicate with the nozzles. 5. The liquid discharge head according to claim 4 , wherein the nozzles include a plurality of first nozzles corresponding to the first pressure chambers and a plurality of second nozzles corresponding to the second pressure chambers, and the channels include a plurality of first channels allowing the first pressure chambers to communicate with the first nozzles corresponding thereto and a plurality of second channels allowing the second pressure chambers to communicate with the second nozzles corresponding thereto. 6. The liquid discharge head according to claim 4 , wherein each of the channels allows one of the first pressure chambers corresponding to the first portions of the individual electrodes to communicate with one of the second pressure chambers corresponding to the second portions of the individual electrodes, and each of the channels communicates with one of the nozzles. 7. The liquid discharge head according to claim 4 , wherein each of the first protrusions and each of the second protrusions includes a wide portion and a narrow portion, and a length in the second direction of the wide portion is longer than a length in the second direction of the narrow portion, and each of the through holes is formed to extend over part of the wide portion of each of the first protrusions and part of the wide portion of each of the second protrusions. 8. The liquid discharge head according to claim 7 , wherein the length in the second direction of the wide portion is longer than a length in the second direction of each of the pressure chambers, and the length in the second direction of the narrow portion is shorter than the length in the second direction of each of the pressure chambers. 9. The liquid discharge head according to claim 8 , wherein part of the wide portion overlaps in the stacking direction with each of the pressure chambers, and the wide portion does not overlap in the stacking direction with the first portion and the second portion. 10. The liquid discharge head according to claim 7 , wherein a sum total of lengths in the second direction of portions included in each of the wide portions and formed having the through hole is larger than a length in the second direction of each of the second portions. 11. The liquid discharge head according to claim 7 , wherein a portion of each of the wide portions formed having the through hole is shifted to one side in the second direction. 12. The liquid discharge head according to claim 7 , wherein a thickness in the stacking direction of a portion included in each of the wide portions and having a position in the second direction that is the same as a position in the second direction of the through hole is thicker than a thickness of each of the narrow portions. 13. The liquid discharge head according to claim 4 , wherein each of the first portions includes a first overlapping portion overlapping in the stacking direction with one of the first pressure chambers and a first non-overlapping portion not overlapping in the stacking direction with the first pressure chambers, and the first non-overlapping portion is positioned between the first end and the first overlapping portion in the first direction, each of the second portions includes a second overlapping portion overlapping in the stacking direction with one of the second pressure chambers and a second non-overlapping portion not overlapping in the stacking direction with the second pressure chambers, and the second non-overlapping portion is positioned between the second end and the second overlapping portion in the first direction, the liquid discharge head further comprises: a trace member disposed to overlap in the stacking direction with the piezoelectric body and including a plurality of first terminals that are electrically connected to the first non-overlapping portions of the first portions of the individual electrodes, and a plurality of conductive material layers disposed between the first non-overlapping portions and the first end in the stacki