Holding jig, optical element coating method, and optical lens manufacturing method

The invention claimed is: 1 . A holding jig for holding an optical element, comprising: a base; at least three holding parts which hold a periphery of the optical element; a first arm to which a first holding part among the at least three holding parts is attached and which is provided to the base swingably about a pivot; a biasing member biasing the first arm in a first swinging direction such that the first holding part is urged toward the optical element; and a locking mechanism configured to lock the swinging of the first arm and substantially eliminate a biasing force of the biasing member, wherein each of a first holding part and a second holding part among the at least three holding parts holds the optical element at a position where a distance from a center of gravity of the optical element in a height direction is equal to or less than 0.3 times a diameter of the optical element or a length of a major axis when the optical element has an elliptical shape, and a third holding part holds the optical element at a position where a distance from a center of gravity of the optical element in a horizontal direction is equal to or less than 0.15 times the diameter or the length of the major axis of the optical element in the horizontal direction. 2 . The holding jig according to claim 1 , wherein the biasing member is composed of a torsion spring installed between the base and the first arm to exert a biasing force, wherein a fixed position of the torsion spring to the base is changeable in a direction of a circumference about the pivot. 3 . The holding jig according to claim 1 , wherein the locking mechanism comprises a threaded member, and a nut threadingly engaged with the threaded member, wherein the locking mechanism is configured to lock the swinging of the first arm by tightening the threaded member and the nut to clamp the first arm therebetween. 4 . The holding jig according to claim 3 , wherein a turning direction of the threaded member for the tightening is a same as the first swinging direction. 5 . The holding jig according to claim 1 , wherein the number of the at least three holding parts is three, wherein a second holding part and a third holding part among the three holding parts are attached, respectively, to a second arm and a third arm each fixed to the base. 6 . A holding jig for holding an optical element, comprising: at least three holding parts each of which holds a periphery of a circular or elliptical optical element; a biasing member biasing a first holding part among the at least three holding parts toward an edge of the optical element being held; and a locking mechanism configured to lock the first holding part at a position where the first holding part is in contact with the edge of the optical element being held, and substantially eliminate a biasing force of the biasing member, wherein each of a first holding part and a second holding part among the at least three holding parts holds the optical element at a position where a distance from a center of gravity of the optical element in a height direction is equal to or less than 0.3 times a diameter of the optical element or a length of a major axis when the optical element has an elliptical shape, and a third holding part holds the optical element at a position where a distance from a center of gravity of the optical element in a horizontal direction is equal to or less than 0.15 times the diameter or the length of the major axis of the optical element in the horizontal direction. 7 . A method of forming a film on a surface of an optical element, using the holding jig according to claim 1 , the method comprising the steps of: in a state in which the first arm of the holding jig is urged and opened, placing the optical element such that it is surrounded by the at least three holding parts, that each of a first holding part and a second holding part among the at least three holding parts holds the optical element at a position where a distance from a center of gravity of the optical element in a height direction is equal to or less than 0.3 times a diameter of the optical element or a length of a major axis when the optical element has an elliptical shape, and that a third holding part holds the optical element at a position where a distance from a center of gravity of the optical element in a horizontal direction is equal to or less than 0.15 times the diameter or the length of the major axis of the optical element in the horizontal direction; releasing the urging to the first arm to allow the first holding part to be brought into contact with the periphery of the optical element by the biasing member; locking the first arm by the locking mechanism and substantially eliminating a biasing force of the biasing member; immersing, in a coating liquid, the optical element held by the holding jig; pulling up the optical element from the coating liquid; and thermally curing the coating liquid coated on the optical element. 8 . A method of forming a film on a surface of a circular or elliptical optical element, using a holding jig, wherein the holding jig comprises: at least three holding parts each of which holds a periphery of the optical element; and a biasing member biasing a first holding part among the at least three holding parts toward an edge of the optical element being held, the method comprising the steps of: holding the optical element by bringing each of the at least three holding parts into contact with a periphery of the optical element, such that each of a first holding part and a second holding part among the at least three holding parts holds the optical element at a position where a distance from a center of gravity of the optical element in a height direction is equal to or less than 0.3 times a diameter of the optical element or a length of a major axis when the optical element has an elliptical shape, and that a third holding part holds the optical element at a position where a distance from a center of gravity of the optical element in a horizontal direction is equal to or less than 0.15 times the diameter or the length of the major axis of the optical element in the horizontal direction; in a state in which the first holding part is in contact with the edge of the optical element, locking the first holding part to substantially eliminate a biasing force of the biasing member; immersing, in a coating liquid, the optical element held by the holding jig; pulling up the optical element from the coating liquid; and thermally curing the coating liquid coated on the optical element. 9 . The method according to claim 8 , wherein the step of holding includes bringing the at least three holding parts into contact with the periphery of the optical element, against the biasing force. 10 . A method of manufacturing an optical lens, comprising the step of forming a film on a lens substrate by the method according to claim 9 . 11 . A method of manufacturing an optical lens, comprising the step of forming a film on a lens substrate by the method according to claim 7 .