Multiple optical axis photoelectric sensor for muting processing

The invention claimed is: 1. A multiple optical axis photoelectric sensor (SNS) for detecting an object to be detected, which is conveyed by a conveyance device, the multiple optical axis photoelectric sensor (SNS) comprising: a light projecting device having a plurality of light projecting elements which are arrayed in a line, a light receiving device having a plurality of light receiving elements which are disposed to face the light projecting elements, light blocking determination circuitry configured to perform a light blocking determination of whether or not any optical axes formed between opposed light projecting elements and light receiving elements are in a light blocking state, a controller configured to output a detection signal on the basis of a result of the light blocking determination, and muting processing circuitry configured to perform muting so as not to output the detection signal even though a subset or all of the optical axes are in a light blocking state, wherein the muting processing circuitry comprises: muting initiating circuitry configured to initiate the muting of the optical axes in a first range in response to a signal input from an external muting device indicating that the object to be detected is conveyed toward the multiple optical axis photoelectric sensor (SNS), and muting altering circuitry configured to select, as the optical axis to be muted thereafter, the optical axes in a second range that includes all blocked optical axes of the first range, the muting altering circuitry being configured to select the optical axis in the second range depending on the light blocking state of the optical axes in the first range while the optical axes in the first range are muted, and the muting altering circuitry is configured to acquire the range of the blocked optical axes during an acquisition period for acquiring a blocked light range. 2. The multiple optical axis photoelectric sensor (SNS) according to claim 1 , wherein the acquisition period for acquiring the blocked light range is initiated when any of the optical axes is blocked. 3. The multiple optical axis photoelectric sensor (SNS) according to claim 1 , wherein the acquisition period for acquiring the blocked light range is initiated by a trigger signal input from outside. 4. The multiple optical axis photoelectric sensor (SNS) according to claim 1 , wherein the acquisition period for acquiring the blocked light range is controlled by a control signal input from outside. 5. The multiple optical axis photoelectric sensor (SNS) according to claim 1 , wherein the second range includes a maximum blocked light range which is acquired during the acquisition period for acquiring the blocked light range. 6. The multiple optical axis photoelectric sensor (SNS) according to claim 1 , wherein the first range is a range corresponding to all of the optical axes. 7. The multiple optical axis photoelectric sensor (SNS) according to claim 1 , wherein the first range is a range corresponding to a predetermined number of the optical axes. 8. The multiple optical axis photoelectric sensor (SNS) according to claim 1 , wherein a first multiple optical axis photoelectric sensor serving as the multiple optical axis photoelectric sensor is further provided with communication circuitry for communication with a second multiple optical axis photoelectric sensor, wherein the light projecting devices are disposed in series together with light projecting devices of the second multiple optical axis photoelectric sensor, and the light receiving devices are disposed in series with light receiving devices of the second multiple optical axis photoelectric sensor, wherein, when the communication circuitry has been set to be capable of communicating with the second multiple optical axis photoelectric sensor: the controller is configured to be capable of outputting a detection signal by combining the result of the light blocking determination with a result of light blocking determination for the second multiple optical axis photoelectric sensor which is acquired by way of the communication circuitry, wherein the muting initiating circuitry is configured to be capable of selecting the optical axes in a third range, which is the entire or a subset of an optical axis group including all of the optical axes and all of the optical axes of the second multiple optical axis photoelectric sensor, as optical axes to be muted, and wherein the muting altering circuitry is configured to be capable of selecting the optical axes in a fourth range, which includes a range of the blocked optical axes in the entire or a subset of the third range, as the optical axes to be muted thereafter, depending on the light blocking state of the optical axes in the third range while muting the optical axes in the third range. 9. The multiple optical axis photoelectric sensor (SNS) according to claim 2 , wherein the length of the acquisition period for acquiring the blocked light range is a time that is a fixed time, a set time, or a time that is determined in accordance with information indicating a speed, a length or a passage time of the object to be detected. 10. The multiple optical axis photoelectric sensor (SNS) according to claim 3 , wherein the length of the acquisition period for acquiring the blocked light range is a time that is a fixed time, a set time, or a time that is determined in accordance with information indicating a speed, a length or a passage time of the object to be detected. 11. The multiple optical axis photoelectric sensor (SNS) according to claim 5 , wherein the second range includes an additional range corresponding to one optical axis added to either side of the maximum blocked light range.