Substrate transfer apparatus and method of teaching substrate transfer robot

1 . A substrate transfer apparatus comprising: a plurality of substrate supports arranged on a same circumference; and a substrate transfer robot including an arm, a substrate transfer hand provided on a distal end portion of the arm, and a controller configured to control operation of the arm and the substrate transfer hand, wherein each of the substrate supports includes: a substrate placing portion that includes an upper surface on which an edge of a substrate is placed; and a pillar portion that supports the substrate placing portion at a position outward of the substrate placing portion in a radial direction of the circumference, the substrate transfer hand includes: a blade whose distal end side is branched into two portions that are a first end portion and a second end portion and between which each substrate support is insertable from the distal end side; a first optical sensor configured to detect an object that blocks a first optical path, the first optical path connecting the first end portion and the second end portion and being orthogonal to an axial direction of the substrate transfer hand; and at least one second optical sensor configured to detect an object that blocks a second optical path, the second optical path connecting the first end portion and the second end portion and being inclined relative to the first optical path, and the controller: selects one optical sensor to use from among the first optical sensor and the at least one second optical sensor; moves the substrate transfer hand to a detection start position at which the optical path of the selected optical sensor is positioned above the substrate placing portion and does not interfere with the pillar portion; lowers the substrate transfer hand from the detection start position to a detection position at which an object is detected by the optical sensor; and stores, as a height position of the substrate placing portion, a height of the optical path of the optical sensor from a predetermined positional reference when the substrate transfer hand is at the detection position. 2 . The substrate transfer apparatus according to claim 1 , wherein the substrate transfer hand includes a plurality of the second optical sensors whose optical paths cross each other. 3 . The substrate transfer apparatus according to claim 1 , wherein the controller selects the optical sensor to use from among the first optical sensor and the at least one second optical sensor based on a position of the substrate placing portion relative to a straight line that connects a base axis of the arm and a center of the circumference. 4 . A method of teaching a substrate transfer robot, which is a method of teaching height positions of a plurality of substrate placing portions arranged on a same circumference to a substrate transfer robot that includes an arm and a substrate transfer hand provided on a distal end portion of the arm, wherein each of the substrate placing portions includes an upper surface on which an edge of a substrate is placed, and is supported by a pillar portion at a position outward of the substrate placing portion in a radial direction of the circumference, and the substrate transfer hand includes: a blade whose distal end side is branded into two portions that are a first end portion and a second end portion and between which each substrate placing portion is insertable from the distal end side; a first optical sensor configured to detect an object that blocks a first optical path, the first optical path connecting the first end portion and the second end portion and being orthogonal to an axial direction of the substrate transfer hand; and at least one second optical sensor configured to detect an object that blocks a second optical path, the second optical path connecting the first end portion and the second end portion and being inclined relative to the first optical path, the method comprising: selecting an optical sensor to use from among the first optical sensor and the at least one second optical sensor; moving the substrate transfer hand to a detection start position at which the optical path of the selected optical sensor is positioned above the substrate placing portion and does not interfere with the pillar portion; lowering the substrate transfer hand from the detection start position to a detection position at which an object is detected by the optical sensor; and storing, as a height position of the substrate placing portion, a height of the optical path of the optical sensor from a predetermined positional reference when the substrate transfer hand is at the detection position. 5 . The method of teaching a substrate transfer robot according to claim 4 , comprising selecting the optical sensor to use from among the first optical sensor and the at least one second optical sensor based on a position of the substrate placing portion relative to a straight line that connects a base axis of the arm and a center of the circumference. 6 . A substrate transfer apparatus comprising: a plurality of substrate supports, each of which includes a substrate placing portion and a pillar portion, the substrate placing portion including an upper surface on which an edge of a substrate is placed, the pillar portion being higher than the substrate placing portion; and a substrate transfer robot including an arm, a substrate transfer hand rotatably coupled to the arm, and a controller configured to control operation of the arm and the substrate transfer hand, wherein the substrate transfer hand includes: a blade whose distal end side is branched into two portions that are a first end portion and a second end portion; and an optical sensor configured to detect an object that blocks an optical path connecting the first end portion and the second end portion, the optical path is inclined relative to a direction that is orthogonal to an axial direction of the substrate transfer hand when seen in a direction perpendicular to a main surface of the blade, and the controller: moves the substrate transfer hand to a detection start position at which the optical path of the optical sensor is positioned above the substrate placing portion and does not interfere with the pillar portion; lowers the substrate transfer hand from the detection start position to a detection position at which an object is detected by the optical sensor; and stores, as a height position of the substrate placing portion, a height of the optical path of the optical sensor from a predetermined positional reference when the substrate transfer hand is at the detection position.