Air chuck provided with locking mechanism

The invention claimed is: 1. An air chuck provided with a locking mechanism, the air chuck comprising: a chuck mechanism that operates a piston in a cylinder tube by using action of compressed air and that advances and retracts a rod coupled to the piston so as to open and close a pair of fingers, thereby gripping work; and a locking mechanism that locks the pair of fingers at work grip positions; wherein the locking mechanism includes at least one first locking member that is displaced when the pair of fingers are opened or closed, at least one second locking member that retains the at least one first locking member so as to lock the pair of fingers at the work grip positions, and a drive device that relatively displaces the at least one first locking member and the at least one second locking member to locking positions where the at least one first locking member and the at least one second locking member are retained at each other and to non-locking positions where the at least one first locking member and the at least one second locking member are separated from each other, and wherein the at least one first locking member and the at least one second locking member are displaced to the locking positions and the non-locking positions by relative rotation of the rod about an axial line. 2. The air chuck according to claim 1 , wherein the cylinder tube is accommodated in a cylinder hole of a chuck body such that the cylinder tube is rotatable about the axial line in a reciprocating manner in a certain angular range, and the cylinder tube is coupled to the drive device, and wherein the at least one first locking member or the at least one second locking member is driven to the locking position and the non-locking position by the drive device through the cylinder tube. 3. The air chuck according to claim 2 , wherein a first annular channel communicating with a first port provided in the chuck body and a second annular channel communicating with a second port provided in the chuck body are formed between an outer circumference of the cylinder tube and an inner circumference of the cylinder hole so as to surround the outer circumference of the cylinder tube, and wherein a first passage hole connecting the first annular channel and a first pressure chamber on a one side of the piston to each other and a second passage hole connecting the second annular channel and a second pressure chamber on another side of the piston to each other are formed in a side surface of the cylinder tube. 4. The air chuck according to claim 2 , wherein the drive device is included by a swinging actuator, wherein the swinging actuator includes an output shaft rotated in a reciprocating manner in a certain angular range by the action of the compressed air, and wherein the output shaft is coupled to the cylinder tube. 5. The air chuck according to claim 2 , wherein the at least one first locking member includes a plurality of the first locking members, and the at least one second locking member includes a plurality of the second locking members, wherein the pair of fingers are supported by a support rail such that the pair of fingers are able to be opened and closed, wherein the plurality of first locking members are respectively attached to the pair of fingers, wherein two of the plurality of second locking members are attached to a support member disposed around the support rail, wherein one of the support rail and the support member is coupled to the cylinder tube, and wherein, when the support rail or the support member is rotated in a reciprocating manner by the cylinder tube, the plurality of first locking members and the plurality of second locking members are relatively displaced to positions where the plurality of first locking members and the plurality of second locking members are retained at one another and positions where the plurality of first locking members and the plurality of second locking members are separated from one another. 6. The air chuck according to claim 5 , wherein the plurality of first locking members and the plurality of second locking members have wedge surfaces retained at one another, and wherein the wedge surfaces are inclined, toward a circumferential direction that is a displacement direction of the plurality of first locking members or the plurality of second locking members, in a direction intersecting the circumferential direction. 7. The air chuck according to claim 5 , wherein the support member has a ring shape and is disposed so as to surround an outer circumference of the support rail, and wherein the plurality of second locking members are attached to positions opposite to each other in a diameter direction of the support member. 8. The air chuck according to claim 2 , wherein the at least one first locking member includes a shaft-shaped member provided in the rod in a direction perpendicular to the axial line, and wherein the at least one second locking member includes a hook-shaped member able to be retained at the at least one first locking member. 9. The air chuck according to claim 8 , wherein, even when the cylinder tube is rotated, neither the rod nor the at least one first locking member is rotated together with the cylinder tube, and wherein the at least one second locking member is couple to the cylinder tube so as to be rotated together with the cylinder tube.