Image inspection apparatus that determines a line width of a test image, and image forming apparatus

What is claimed is: 1. An image inspection apparatus comprising: a light source configured to emit white light onto a test image formed on a paper sheet; an optical lens system configured to receive light reflected by the paper sheet, the reflected light being of the white light emitted from the light source; a separator configured to separate light having passed through the optical lens system in accordance with wavelength bands; a sensor configured to receive the separated light at the different wavelengths, and optically read the test image of the light at each of the different wavelengths; and a hardware processor configured to calculate edge blurs at a rising edge and a falling edge of each set of image data of the light at the different wavelengths obtained by the sensor reading the test image, calculate widths of the test image, determine the width calculated from the set of image data having the smallest edge blur to be the width of the test image, and set a laser diode light quantity, for forming an image, using the test image having the smallest edge blur. 2. The image inspection apparatus according to claim 1 , wherein the test image is a black image. 3. The image inspection apparatus according to claim 1 , wherein the separator is a color filter capable of separating a plurality of colors from one another, the color filter being provided in front of the sensor. 4. An image inspection apparatus comprising: a light source configured to emit white light onto a black test image and a color test image formed on a paper sheet; an optical lens system configured to receive light reflected by the paper sheet, the reflected light being of the white light emitted from the light source; a separator configured to separate light having passed through the optical lens system in accordance with wavelength bands; a sensor configured to receive the separated light at the different wavelengths, and optically read the test images of the light at each of the different wavelengths; and a hardware processor configured to calculate edge blurs at a rising edge and a falling edge of each set of image data of the light at the different wavelengths obtained by the sensor reading the black test image, calculate edge blurs at a rising edge and a falling edge of each set of image data of the light at the different wavelengths obtained by the sensor reading the color test image, and calculate widths of the test images, wherein the hardware processor determines a focal length difference between a focal length of the optical lens system with respect to light at a wavelength corresponding to the image data having the smallest edge blur in the black test image and a focal length of the optical lens system with respect to light at a wavelength corresponding to a color complementary to the color test image, correct the calculated widths of the test images by using the edge blurs and the focal length difference, and set a laser diode light quantity, for forming an image, using the test image having the focal length difference. 5. The image inspection apparatus according to claim 4 , wherein the hardware processor obtains target widths by applying the calculated widths of the test images, the edge blurs, and the focal length difference to the following equation: target width=calculated width+α×|focal length difference| α: a coefficient determined by the focal length difference. 6. The image inspection apparatus according to claim 4 , wherein the separator is a color filter capable of separating a plurality of colors from one another, the color filter being provided in front of the sensor. 7. An image forming apparatus comprising: an image forming unit configured to form an image on a paper sheet; a light source configured to emit white light onto a test image formed on the paper sheet; an optical lens system configured to receive light reflected by the paper sheet, the reflected light being of the white light emitted from the light source; a separator configured to separate light having passed through the optical lens system in accordance with wavelength bands; a sensor configured to receive the separated light at the different wavelengths, and optically read the test image of the light at each of the different wavelengths; and a hardware processor configured to calculate edge blurs at a rising edge and a falling edge of each set of image data of the light at the different wavelengths obtained by the sensor reading the test image, calculate widths of the test image, determine the width calculated from the set of image data having the smallest edge blur to be the width of the test image, and set a laser diode light quantity, for forming the image on a paper sheet, using the test image having the smallest edge blur. 8. An image forming apparatus comprising: an image forming unit configured to form an image on a paper sheet; a light source configured to emit white light onto a black test image and a color test image formed on the paper sheet; an optical lens system configured to receive light reflected by the paper sheet, the reflected light being of the white light emitted from the light source; a separator configured to separate light having passed through the optical lens system in accordance with wavelength bands; a sensor configured to receive the separated light at the different wavelengths, and optically read the test images of the light at each of the different wavelengths; and a hardware processor configured to calculate edge blurs at a rising edge and a falling edge of each set of image data of the light at the different wavelengths obtained by the sensor reading the black test image, calculate edge blurs at a rising edge and a falling edge of each set of image data of the light at the different wavelengths obtained by the sensor reading the color test image, and calculate widths of the test images, wherein the hardware processor determines a focal length difference between a focal length of the optical lens system with respect to light at a wavelength corresponding to the image data having the smallest edge blur in the black test image and a focal length of the optical lens system with respect to light at a wavelength corresponding to a color complementary to the color test image, correct the calculated widths of the test images by using the edge blurs and the focal length difference, and set a laser diode light quantity, for forming the image on a paper sheet, using the test image having the focal length difference.