Clearance measurement device, clearance measurement sensor, and clearance measurement method

The invention claimed is: 1. A clearance measurement device for measuring a clearance generated between an inner peripheral surface of a casing having a cylindrical shape and an outer peripheral surface of a rotary body rotating within the casing, the clearance measurement device comprising: a first irradiator attached with the casing and emitting light with a first wavelength towards the outer peripheral surface of the rotary body; a second irradiator attached with the casing and emitting light with a second wavelength, which is different from the first wavelength, towards the outer peripheral surface of the rotary body; a first light receiver receiving the light reflected from the outer peripheral surface of the rotary body via a first filter unit having a transmission band corresponding to the first wavelength; a second light receiver receiving the light reflected from the outer peripheral surface of the rotary body via a second filter unit having a transmission band corresponding to the second wavelength; and a measurement unit measuring the clearance on the basis of a difference between an amount of time needed for the first light receiver to detect the rotary body and an amount of time needed for the second light receiver to detect the rotary body, wherein the first light receiver is located so as to be capable of receiving regular reflected light, which is the light emitted from the first irradiator, from the outer peripheral surface, and wherein the second light receiver is located so as to be capable of receiving regular reflected light, which is the light emitted from the second irradiator, from the outer peripheral surface. 2. The clearance measurement device according to claim 1 , wherein the first light receiver and the second light receiver are located so that their optical axes intersect with each other on an inner surface of an isolation wall which isolates an internal space of the casing from outside. 3. The clearance measurement device according to claim 1 , wherein the first irradiator includes a first fluorescent member which is located along an optical path of the first irradiator and has an excitation wavelength corresponding to the first wavelength, and wherein the second irradiator includes a second fluorescent member which is located along an optical path of the second irradiator and has an excitation wavelength corresponding to the second wavelength. 4. The clearance measurement device according to claim 3 , wherein light which is emitted from a common light source unit is dispersed by an optical coupler and supplied to the first irradiator and the second irradiator. 5. The clearance measurement device according to claim 1 , wherein light which is emitted from a first light source unit and has the first wavelength is supplied to the first irradiator, and wherein light which is emitted from a second light source unit and has the second wavelength is supplied to the second irradiator. 6. The clearance measurement device according to claim 1 , wherein the first irradiator, the second irradiator, the first light receiver, and the second light receiver are located in an internal space of the casing via an isolation wall. 7. The clearance measurement device according to claim 1 , wherein a diffuser plate is placed along optical paths of the first irradiator and the second irradiator. 8. The clearance measurement device according to claim 1 , wherein the first irradiator and the second irradiator are an optical fiber assembly including a plurality of optical fibers. 9. A clearance measurement sensor for detecting a clearance generated between an inner peripheral surface of a casing having a cylindrical shape and an outer peripheral surface of a rotary body rotating within the casing, the clearance measurement sensor comprising: a sensor body which can be attached with the casing; a first irradiator placed in an internal space of the sensor body and emitting light with a first wavelength towards the outer peripheral surface of the rotary body; a second irradiator placed in the internal space of the sensor body and emitting light with a second wavelength, which is different from the first wavelength, towards the outer peripheral surface of the rotary body; a first light receiver placed in the internal space of the sensor body and receiving the light reflected from the outer peripheral surface of the rotary body via a first filter unit having a transmission band corresponding to the first wavelength; and a second light receiver placed in the internal space of the sensor body and receiving the light reflected from the outer peripheral surface of the rotary body via a second filter unit having a transmission band corresponding to the second wavelength, wherein the first irradiator includes a first fluorescent member which is located along an optical path of the first irradiator and has an excitation wavelength corresponding to the first wavelength, wherein the second irradiator includes a second fluorescent member which is located along an optical path of the second irradiator and has an excitation wavelength corresponding to the second wavelength, wherein the first light receiver is located so as to be capable of receiving regular reflected light, which is the light emitted from the first irradiator, from the outer peripheral surface, and wherein the second light receiver is located so as to be capable of receiving regular reflected light, which is the light emitted from the second irradiator, from the outer peripheral surface. 10. A clearance measurement method for measuring a clearance generated between an inner peripheral surface of a casing having a cylindrical shape and an outer peripheral surface of a rotary body rotating within the casing, the clearance measurement method comprising: emitting light with a first wavelength and light with a second wavelength, which is different from the first wavelength, respectively towards the outer peripheral surface of the rotary body; receiving regular reflected light of the light reflected from the outer peripheral surface of the rotary body via a first filter unit having a transmission band corresponding to the first wavelength and via a second filter unit having a transmission band corresponding to the second wavelength; and measuring the clearance on the basis of a difference between an amount of time needed for detecting reflected light of the light with the first wavelength to detect the rotary body and an amount of time needed for detecting reflected light of the light with the second wavelength to detect the rotary body. 11. The clearance measurement device according to claim 3 , wherein the first fluorescent member and the second fluorescent member are located apart from each other with a distance between them so that the light reflected from the outer peripheral surface can pass through without interfering with the first fluorescent member or the second fluorescent member.