Wear detectable cable, wear detection device, and wear detection method

1 . A wear detectable cable, comprising: a conductor section comprising a linear conductor; and a sheath covering the conductor section, wherein wear of the sheath can be detected by reflection of light irradiated toward the sheath, wherein the sheath comprises a first region having a first reflective property for the light and a second region having a second reflective property different from the first reflective property for the light, and wherein the second region is formed continuously with the first region inside the first region. 2 . The wear detectable cable, according to claim 1 , wherein a thickness of the second region is thinner than a thickness of the first region. 3 . The wear detectable cable, according to claim 1 , wherein the first region and the second region comprise a same type of resin material. 4 . The wear detectable cable, according to claim 1 , wherein the conductor section comprises an insulated wire including the conductor covered by an insulator, wherein the insulator of the insulated wire comprises a third reflective property, for the light, different from the first reflective property. 5 . The wear detectable cable, according to claim 4 , wherein the third reflective property is different from the second reflective property. 6 . The wear detectable cable, according to claim 4 , wherein a thickness of the insulator is thicker than the thickness of the second region. 7 . The wear detectable cable, according to claim 1 , wherein a hardness of the second region is higher than that of the first region. 8 . The wear detectable cable, according to claim 1 , wherein the second region is dispersed with light-reflective particles. 9 . A wear detection device for detecting wear of the sheath of the wear detectable cable, according to claim 1 , comprising: an irradiation unit for irradiating the light toward the sheath; a light receiving unit for receiving reflected light of the light; and a detection processing unit that detects that the first region is worn away and the second region is exposed, based on a measurement result of an intensity of the reflected light received by the light receiving unit. 10 . A wear detection method for detecting wear of a sheath in a cable comprising a conductor section including a linear conductor, and the sheath covering the conductor section, the method comprising: measuring reflected light of light irradiated toward the sheath, the sheath comprising a first region having a first reflective property for the light and a second region having a second reflective property different from the first reflective property for the light, the second region being formed continuously with the first region inside the first region; and detecting that the first region is worn away and the second region is exposed, based on a measurement result of the reflected light. 11 . A wear detection method for detecting wear of a sheath in a cable comprising a conductor section including an insulated wire comprising a linear conductor covered with an insulator, and the sheath covering the conductor section, the method comprising: measuring reflected light of light irradiated toward the sheath, the sheath comprising a first region having a first reflective property for the light and a second region having a second reflective property different from the first reflective property for the light, the second region being formed continuously with the first region inside the first region, the insulator of the insulated wire having a third reflective property, for the light, different from the first reflective property and the second reflective property; and detecting that the first region and the second region are worn away and the insulator of the insulated wire is exposed, based on a measurement result of the reflected light.