Light irradiation substrate and light irradiation device

The invention claimed is: 1. A light irradiation substrate comprising: a flexible substrate including a plurality of unit substrates, the flexible substrate having cuts between two adjacent unit substrates of the plurality of unit substrates configured to permit detachment of the two adjacent unit substrates from each other; a set of light-emitting elements including a plurality of light-emitting elements provided in a matrix on a first surface of the flexible substrate and on each of the plurality of unit substrates, including resin covered light emitting diodes configured to emit phototherapeutic light; and a set of wires including a plurality of wires provided on the first surface of the flexible substrate and on each of the plurality of unit substrates, the plurality of wires electrically connected to the plurality of light-emitting elements, wherein a center-to-center distance between two adjacent light-emitting elements facing each other across a boundary between two of the plurality of unit substrates adjacent to each other in a first direction is twice or less as long as a center-to-center distance between two light-emitting elements adjacent to each other in the first direction within each of the plurality of unit substrates, and each of the plurality of unit substrates includes an external power connection section provided on a second surface of the flexible substrate opposite to the first surface and electrically connected to the plurality of wires, the external connection section configured to connect to an external power and control section so that each of the plurality of unit substrates is powered and controlled in parallel to any other unit substrate. 2. The light irradiation substrate according to claim 1 , wherein a center-to-center distance between two adjacent light-emitting elements facing each other across a boundary between two of the plurality of unit substrates adjacent to each other in a second direction orthogonal to the first direction is twice or less as long as a center-to-center distance between two light-emitting elements adjacent to each other in the second direction within each of the plurality of unit substrates. 3. The light irradiation substrate according to claim 1 , wherein a distance from a center of a light-emitting element provided outermost on one of the plurality of unit substrates to an outer edge of the one of the plurality of unit substrates is half of a center-to-center distance between two light-emitting elements adjacent to each other in a direction perpendicular to the outer edge of the one of the plurality of unit substrates within the one of the plurality of unit substrates. 4. A light irradiation device comprising: the light irradiation substrate according to claim 1 ; wherein the external power and control section comprises: a power source section including a plurality of unit power sources electrically connected to the plurality of unit substrates via a plurality of second wires, respectively; and a control section that adjusts an emission intensity of each of the plurality of unit substrates by controlling the power source section.