Liquid discharge head, liquid discharge module, and liquid discharge apparatus

The invention claimed is: 1 . A liquid discharge head comprising: a nozzle plate having multiple nozzles from each of which a liquid is to be discharged, the multiple nozzles arrayed in a longitudinal direction of the nozzle plate; a channel substrate laminated on the nozzle plate in a lamination direction orthogonal to the longitudinal direction, the channel substrate including: multiple channels arrayed in the longitudinal direction in a channel region of the channel substrate, the multiple channels respectively communicating with the multiple nozzles; a first recess outside the channel region in the longitudinal direction; and a flat portion between the channel region and the first recess in the longitudinal direction, wherein the first recess includes multiple recesses spaced apart by a first interval, with the channel substrate positioned between each of the multiple recesses, around a periphery of the channel region of the channel substrate. 2 . The liquid discharge head according to claim 1 , wherein each of the multiple recesses of the first recess is a hole penetrating through the channel substrate in the lamination direction. 3 . The liquid discharge head according to claim 1 , wherein the first interval between the multiple recesses has a minimum length in a first direction in which the multiple recesses are arranged, the multiple recesses have a maximum width in a second direction orthogonal to the first direction, and the minimum length of the first interval is shorter than the maximum width of the multiple recesses. 4 . The liquid discharge head according to claim 3 , wherein a maximum depth of each of the multiple recesses in the lamination direction is greater than the minimum length of the first interval. 5 . The liquid discharge head according to claim 1 , wherein the channel substrate further includes: a second recess between the channel region and the first recess in the longitudinal direction; and a second flat portion between the channel region and the second recess in the longitudinal direction. 6 . The liquid discharge head according to claim 5 , wherein the second recess includes multiple recesses spaced apart by a second interval, with the channel substrate positioned between each of the multiple recesses, around the periphery of the channel region the channel substrate. 7 . The liquid discharge head according to claim 6 , the second recess faces the channel substrate, between the multiple recesses of the first recess having the first interval, in the longitudinal direction, and the first recess faces the channel substrate, between the multiple recesses of the second recess having the second interval, in the longitudinal direction. 8 . The liquid discharge head according to claim 6 , wherein the second interval between the multiple recesses has a minimum length in a first direction in which the multiple recesses are arranged, the multiple recesses have a maximum width in a second direction orthogonal to the first direction, and the minimum length of the second interval is shorter than the maximum width of the multiple recesses. 9 . The liquid discharge head according to claim 6 , wherein a maximum depth of each of the multiple recesses of the second recess in the lamination direction is greater than the minimum length of the second interval. 10 . The liquid discharge head according to claim 1 , wherein the channel substrate contains silicon. 11 . The liquid discharge head according to claim 1 , wherein the nozzle plate contains silicon. 12 . A liquid discharge module comprising: multiple liquid discharge heads including the liquid discharge head according to claim 1 . 13 . A liquid discharge apparatus comprising the liquid discharge head according to claim 1 . 14 . The liquid discharge head according to claim 1 , wherein the first recess is formed at an edge of the channel substrate such that the first recess is located outside the nozzle plate as viewed in the lamination direction. 15 . A liquid discharge head comprising: a nozzle plate having multiple nozzles from each of which a liquid is to be discharged, the multiple nozzles arrayed in a longitudinal direction of the nozzle plate; a channel substrate laminated on the nozzle plate in a lamination direction orthogonal to the longitudinal direction, the channel substrate including: multiple channels arrayed in the longitudinal direction in a channel region of the channel substrate, the multiple channels respectively communicating with the multiple nozzles; a first recess continuously surrounding the channel region, the first recess penetrating through the channel substrate in the lamination direction; a flat portion disposed between the channel region and the first recess in the longitudinal direction; a second recess continuously surrounding the channel region, the second recess penetrating through the channel substrate in the lamination direction; and a second flat portion disposed between the channel region and the second recess in the longitudinal direction.