Actuator device and liquid ejection apparatus

What is claimed is: 1. An actuator device, comprising: an actuator comprising a plurality of piezoelectric elements arranged in a first direction and a plurality of first contacts respectively drawn from the plurality of piezoelectric elements and arranged in the first direction; a protector configured to cover the plurality of piezoelectric elements; a plurality of first connection terminals disposed on a surface of the protector, which surface is located on an opposite side of the protector from the actuator; and a plurality of first through electrodes respectively provided in a plurality of first through holes formed in the protector, the plurality of first through electrodes being configured to respectively bring the plurality of first contacts and the plurality of first connection terminals into conduction with each other, wherein a distance between two of the plurality of first through electrodes which respectively correspond to particular two of the plurality of piezoelectric elements, which are nearest to each other in the first direction among the plurality of piezoelectric elements, is greater than a distance in the first direction between the particular two of the plurality of piezoelectric elements, wherein each of the plurality of piezoelectric elements comprises a piezoelectric layer, a first electrode, and a second electrode, and the piezoelectric layer is interposed between the first electrode and the second electrode in a thickness direction of the piezoelectric layer, wherein a plurality of the first electrodes of the plurality of piezoelectric elements are separated from each other, and a plurality of the second electrodes of the plurality of piezoelectric elements conduct with each other so as to form a common electrode, wherein each of the plurality of first contacts is connected to a corresponding one of the plurality of the first electrodes of the plurality of piezoelectric elements, wherein the actuator comprises at least one second contact connected to the common electrode, wherein the actuator device further comprises: at least one second connection terminal disposed on the surface of the protector, which surface is located on the opposite side of the protector from the actuator; and at least one second through electrode provided in at least one second through hole formed in the protector, the at least one second through electrode being configured to bring the at least one second contact and the at least one second connection terminal into conduction with each other, wherein a diameter of each of the plurality of first through holes formed in the protector is equal to a diameter of each of the at least one second through hole formed in the protector, and wherein, in a case where a thickness of the protector is defined as t, a diameter of each of the plurality of first through holes is equal to or greater than t/10. 2. An actuator device, comprising: an actuator comprising a plurality of piezoelectric elements arranged in a first direction and a plurality of first contacts respectively drawn from the plurality of piezoelectric elements and arranged in the first direction; a protector configured to cover the plurality of piezoelectric elements; a plurality of first connection terminals disposed on a surface of the protector, which surface is located on an opposite side of the protector from the actuator; and a plurality of first through electrodes respectively provided in a plurality of first through holes formed in the protector, the plurality of first through electrodes being configured to respectively bring the plurality of first contacts and the plurality of first connection terminals into conduction with each other, wherein a distance between two of the plurality of first through electrodes which respectively correspond to particular two of the plurality of piezoelectric elements, which are nearest to each other in the first direction among the plurality of piezoelectric elements, is greater than a distance in the first direction between the particular two of the plurality of piezoelectric elements, wherein each of the plurality of piezoelectric elements comprises a piezoelectric layer, a first electrode, and a second electrode, and the piezoelectric layer is interposed between the first electrode and the second electrode in a thickness direction of the piezoelectric layer, wherein a plurality of the first electrodes of the plurality of piezoelectric elements are separated from each other, and a plurality of the second electrodes of the plurality of piezoelectric elements conduct with each other so as to form a common electrode, wherein each of the plurality of first contacts is connected to a corresponding one of the plurality of the first electrodes of the plurality of piezoelectric elements, wherein the actuator comprises at least one second contact connected to the common electrode, wherein the actuator device further comprises: at least one second connection terminal disposed on the surface of the protector, which surface is located on the opposite side of the protector from the actuator; and at least one second through electrode provided in at least one second through hole formed in the protector, the at least one second through electrode being configured to bring the at least one second contact and the at least one second connection terminal into conduction with each other, wherein a diameter of each of the plurality of first through holes formed in the protector is equal to a diameter of each of the at least one second through hole formed in the protector, and wherein a diameter of each of the plurality of first through holes is equal to or greater than 40 μm. 3. The actuator device according to claim 1 , wherein the actuator comprises a plurality of second contacts as the at least one second contact, wherein a plurality of second connection terminals as the at least one second connection terminal are provided on the protector, and wherein a plurality of second through electrodes as the at least one second through electrode are provided on the protector, and the plurality of second through electrodes are respectively configured to bring the plurality of second contacts and the plurality of second connection terminals into conduction with each other. 4. The actuator device according to claim 1 , wherein the plurality of piezoelectric elements form two piezoelectric element rows arranged side by side in a second direction that is parallel with a plane on which the plurality of piezoelectric elements are arranged and that is orthogonal to the first direction, wherein a plurality of piezoelectric elements in each of the two piezoelectric element rows are arranged in the first direction, wherein the plurality of first contacts are drawn outward in the second direction from the plurality of piezoelectric elements arranged in the two piezoelectric element rows, and wherein the plurality of first through electrodes conductive with the plurality of first contacts are provided outside a portion of the protector which is located between the two piezoelectric elements rows in the second direction. 5. The actuator device according to claim 1 , wherein the protector and the actuator are joined to each other with conductive adhesive containing a conductive particle. 6. An actuator device, comprising: an actuator comprising a plurality of piezoelectric elements arranged in a first direction and a plurality of first contacts respectively drawn from the plurality of piezoelectric elements and arranged in the first direction; a protector configured to cover the plurality of piezoelectric elements; a plurality of first connection terminals disposed on a surface of the protector, which surface is located on an opposite side of the prot