Rotary encoder

What is claimed is: 1. A rotary encoder comprising: a rotary disk with an angle code; a light source for irradiating the angle code; a detector for reading the angle code; and a processor for acquiring a reading value f(θ) based on the angle code read by the detector, wherein the light source includes a plurality of light-emitting elements for the same angle code, the light-emitting elements being disposed to face the same angle code of the rotary disc, wherein a first light-emitting element is disposed at a position corresponding to an angle θ of the rotation, wherein a second light-emitting element is disposed at a predetermined distance x L away from the first light-emitting element in a direction orthogonal to the diameter of the rotary disc, and wherein every time the rotary disk is rotated by a predetermined angle, where a rotation angle of the rotary disk is provided as θ and an arbitrary angle from the rotation angle θ within a reading range on the detector is provided as φ, the processor is configured to acquire reading values f I (θ+φ) and f I (θ) within a reading range on the detector in the case of using the first light-emitting element and a reading value f II (θ+φ) on the detector in the case of using the second light-emitting element, to calculate a reading value error Δφ I due to deflection at an angle θ+φ based on a difference h (θ+φ) between the reading value f II (θ+φ) and the reading value f I (θ+φ), to obtain a difference g I (θ,φ) between the reading values f I (θ+φ) and f I (θ) such that the reading value error Δφ I is reflected, and to self-calibrate the reading value f I (θ) based on a change in the difference g I (θ,Φ), and wherein the reading value error Δφ I due to deflection is an error caused by deflecting of the rotary disc toward and away from the light source during rotation. 2. The rotary encoder according to claim 1 , wherein the light source includes a third light-emitting element disposed at a position symmetrical to the second light-emitting element with respect to, the first light-emitting element, and wherein the processor is configured to acquire a reading value f I (θ−φ) within a reading range on the detector in the case of using the first light-emitting element and a reading value f III (θ−φ) on the detector in the case of using the third light-emitting element, to calculate a reading value error Δ (−φ I ) due to deflection at an angle (θ−φ) based on a difference h (θ−φ) between the reading value f III (θ−φ) and the reading value f I (θ−φ), to obtain a difference g I (θ, −φ) between the reading values f I (θ−φ) and f I (θ) such that the reading value error Δ (−φ I ) is reflected, to average changes in the difference g I (θ, −φ) and the difference g, (6, −cp), and to self-calibrate the reading value f I (θ).