Liquid discharging substrate, printhead, and printing apparatus

What is claimed is: 1 . A liquid discharging substrate comprising: a plurality of discharging elements arrayed on the substrate; a driving portion configured to drive the plurality of discharging elements; a detecting portion including a metal pattern arranged via an insulating member on a corner region of the substrate, and configured to detect damage to the corner region when the metal pattern breaks; and a controlling portion configured to stop the driving portion when the detecting portion detects that the corner region has been damaged. 2 . The substrate according to claim 1 , wherein the metal pattern is formed in an L shape along an edge of the substrate in the corner region. 3 . The substrate according to claim 1 , wherein the detecting portion further includes a voltage supplying portion configured to supply a voltage to the metal pattern, and a determination portion configured to monitor the voltage of the metal pattern, and determine, based on a result of monitoring, whether the corner region has been damaged. 4 . The substrate according to claim 3 , wherein the printhead substrate receives a first voltage as a ground voltage and a second voltage higher than the first voltage, the voltage supplying portion supplies the second voltage to the metal pattern, the metal pattern is connected, via a resistance element, to a node for transmitting the first voltage, and based on a potential difference between the second voltage and the voltage of the metal pattern as the result of monitoring, the determination portion determines whether the corner region has been damaged. 5 . The substrate according to claim 3 , wherein the printhead substrate receives a first voltage as a ground voltage and a second voltage higher than the first voltage, the voltage supplying portion supplies the first voltage to the metal pattern, the metal pattern is connected, via a resistance element, to a node for transmitting the second voltage, and based on a potential difference between the first voltage and the voltage of the metal pattern as the result of monitoring, the determination portion determines whether the corner region has been damaged. 6 . The substrate according to claim 3 , wherein the metal pattern comprises a plurality of metal patterns sequentially arranged from an edge side of the substrate, the voltage supplying portion supplies a voltage to each of the plurality of metal patterns, and the determination portion monitors the voltage of each of the plurality of metal patterns, and determines a level of damage to the corner region based on results of monitoring. 7 . The substrate according to claim 1 , wherein the printhead substrate comprises an inkjet printhead substrate, and the printhead substrate further comprises a nozzle plate which is arranged on the metal pattern and in which a nozzle for discharging ink is formed. 8 . The substrate according to claim 7 , wherein the printhead substrate includes a plurality of metal layers arranged between the substrate and the nozzle plate, and the metal pattern is arranged on the metal layer closest to the nozzle plate out of the plurality of metal layers. 9 . The substrate according to claim 8 , wherein a second metal pattern for performing one of an operation of transmitting signals from the plurality of discharging elements and an operation of supplying one of a signal and a voltage to each of the plurality of discharging elements is arranged on the metal layer closest to the nozzle plate, the second metal pattern is covered with the nozzle plate via a protection film, and the metal pattern is covered with the nozzle plate without being via a protection film. 10 . The substrate according to claim 7 , wherein the metal pattern dissolves or corrodes due to ink. 11 . The substrate according to claim 1 , wherein the corner region is a region surrounded by a first virtual line that passes through one end of each of the plurality of discharging elements arrayed on the substrate and is parallel to an array direction of the plurality of discharging elements, a second virtual line that passes through the one end and is parallel to a direction intersecting the array direction, and two sides that are connected to each other in the substrate and are closest to the one end. 12 . The substrate according to claim 1 , wherein the substrate has a rectangular shape in a planar view with respect to an upper surface of the substrate, and the metal pattern is arranged in each of four corner regions. 13 . The substrate according to claim 1 , wherein the substrate has a shape of a parallelogram in a planar view with respect to an upper surface of the substrate, and the metal pattern is arranged in each of at least two corner regions each having an acute interior angle out of four corner regions of the parallelogram. 14 . A printhead comprising a printhead substrate, wherein the printhead substrate includes a plurality of discharging elements arrayed on the substrate, a driving portion configured to drive the plurality of discharging elements, a detecting portion including a metal pattern arranged via an insulating member in a corner region on the substrate, and configured to detect damage to the corner region when the metal pattern breaks, and a controlling portion configured to stop the driving portion when the detecting portion detects that the corner region has been damaged. 15 . The printhead according to claim 14 , wherein the printhead includes the plurality of printhead substrates, at least one of the plurality of printhead substrates includes a terminal configured to receive information indicating that the corner region of another printhead substrate has been damaged, and in the at least one printhead substrate, the controlling portion stops the driving portion based on the information received by the terminal. 16 . A printing apparatus comprising: a printhead including a printhead substrate; a scanning portion configured to cause the printhead to scan on a printing medium; and a conveying portion configured to convey the printing medium, wherein the printhead substrate includes a plurality of discharging elements arrayed on the substrate, a driving portion configured to drive the plurality of discharging elements, a detecting portion including a metal pattern arranged via an insulating member on a corner region of the substrate, and configured to detect damage to the corner region when the metal pattern breaks, and a controlling portion configured to stop the driving portion when the detecting portion detects that the corner region has been damaged. 17 . A liquid discharging substrate comprising: a plurality of discharging elements arrayed on the substrate; a first region, which is surrounded by a first line that passes through one end of the plurality of discharging elements and is parallel to an array direction of the plurality of discharging elements, a second line that passes through the one end and intersects the array direction, and two sides of the substrate that are connected to each other and are closest to the one end; a driving portion configured to drive the plurality of discharging elements; a detecting portion including a metal pattern arranged via an insulating member on the first region of the substrate, and configured to detect damage to the first region when the metal pattern breaks, and a controlling portion configured to stop the driving portion when the detecting portion detects that the first region has been damaged.