Distance measurement apparatus

What is claimed is: 1 . A distance measurement apparatus for applying laser light to an object to be measured, and measuring a distance to the object to be measured, based on light reflected by the object to be measured, the distance measurement apparatus comprising: a laser light source configured to emit the laser light; laser light source control means, comprising a processor for executing a program, and a, storage device in which the program is stored, the processor executing the program to perform the operation of controlling the laser light source; scanning means for two-dimensionally scanning the object to be measured, with the laser light; a casing configured to store the scanning means; an opening formed in the casing, the opening being opened toward the object to be measured, the opening allowing the object to be measured to be exposed to the scanning means; reflecting means, fixed to the casing, for covering a part of a scan region by the laser light or a periphery of the scan region, and reflecting the laser light; and light receiving means for receiving light reflected by the object to be measured and light reflected by the reflecting means, and outputting a received light signal, wherein the laser light source control means sets, to a threshold value, an amount of the laser light obtained when output of the light receiving means is saturated, and controls an amount of the laser light emitted by the laser light source such that the amount of the laser light emitted by the laser light source is less than the threshold value. 2 . The distance measurement apparatus according to claim 1 , wherein the laser light source control means reduces power source voltage of the laser light source at timing when the light receiving means receives light reflected by the reflecting means. 3 . The distance measurement apparatus according to claim 1 , wherein the laser light source control means shortens a pulse width of the laser light at timing when the light receiving means receives light reflected by the reflecting means. 4 . The distance measurement apparatus according to claim 1 , wherein the scanning means performs, while turning, at an end of the scan region, a scanning line extending in a first direction, scanning with the laser light in a second direction orthogonal to the first direction, and the reflecting means covers a turning position of the scanning line, and forms a region that allows the laser light to pass therethrough, between the turning position and another turning position adjacent to the turning position. 5 . The distance measurement apparatus according to claim 2 , wherein the scanning means performs, while turning, at an end of the scan region, a scanning line extending in a first direction, scanning with the laser light in a second direction orthogonal to the first direction, and the reflecting means covers a turning position of the scanning line, and forms a region that allows the laser light to pass therethrough, between the turning position and another turning position adjacent to the turning position. 6 . The distance measurement apparatus according to claim 3 , wherein the scanning means performs, while turning, at an end of the scan region, a scanning line extending in a first direction, scanning with the laser light in a second direction orthogonal to the first direction, and the reflecting means covers a turning position of the scanning line, and forms a region that allows the laser light to pass therethrough, between the turning position and another turning position adjacent to the turning position. 7 . The distance measurement apparatus according to claim 1 , wherein change of an intensity of the received light signal from a predetermined reference value is calculated as a signal change amount, and, when the signal change amount is greater than an allowable value, output of the laser light source is adjusted based on the signal change amount. 8 . The distance measurement apparatus according to claim 2 , wherein change of an intensity of the received light signal from a predetermined reference value is calculated as a signal change amount, and, when the signal change amount is greater than an allowable value, output of the laser light source is adjusted based on the signal change amount. 9 . The distance measurement apparatus according to claim 3 , wherein change of an intensity of the received light signal from a predetermined reference value is calculated as a signal change amount, and, when the signal change amount is greater than an allowable value, output of the laser light source is adjusted based on the signal change amount. 10 . The distance measurement apparatus according to claim 4 , wherein change of an intensity of the received light signal from a predetermined reference value is calculated as a signal change amount, and, when the signal change amount is greater than an allowable value, output of the laser light source is adjusted based on the signal change amount. 11 . The distance measurement apparatus according to claim 5 , wherein change of an intensity of the received light signal from a predetermined reference value is calculated as a signal change amount, and, when the signal change amount is greater than an allowable value, output of the laser light source is adjusted based on the signal change amount. 12 . The distance measurement apparatus according to claim 6 , wherein change of an intensity of the received light signal from a predetermined reference value is calculated as a signal change amount, and, when the signal change amount is greater than an allowable value, output of the laser light source is adjusted based on the signal change amount.