Air chuck

The invention claimed is: 1. An air chuck comprising: a finger support part including a pair of fingers that is openable and closable; a chuck main body part including an operation mechanism operable to open and close the pair of fingers; and linking mechanisms that detachably link the finger support part to the chuck main body part, wherein the finger support part includes a pair of lock shafts that shifts between a lock position and a non-lock position, the pair of lock shafts shifts to the non-lock position so as to render the pair of fingers capable of being opened and closed when the finger support part is linked to the chuck main body part, and the pair of lock shafts shifts to the lock position and locks the pair of fingers so as to render the pair of fingers incapable of being opened and closed when the finger support part is detached from the chuck main body part, and each lock shaft of the pair of lock shafts is provided with a corresponding one of the linking mechanisms, and when the finger support part is linked to the chuck main body part, each of the linking mechanisms causes the corresponding lock shaft to shift from the lock position to the non-lock position and links the finger support part to the chuck main body part via the lock shaft. 2. The air chuck according to claim 1 , wherein the pair of lock shafts is capable of shifting between the lock position where the pair of lock shafts is caught in the pair of fingers and the non-lock position where the pair of lock shafts is not caught in the pair of fingers, and each lock shaft is subjected to energizing force exerted by a lock spring toward the lock position, and the linking mechanisms each include: a shaft insertion hole formed in a body of the chuck main body part for insertion of the lock shaft; and a shaft catch mechanism that causes the lock shaft to shift to the non-lock position and catches the lock shaft in the body when the lock shaft is inserted into the shaft insertion hole. 3. The air chuck according to claim 2 , wherein the shaft catch mechanism includes: a catch surface formed on the lock shaft: at least one catch body received in a catch-body reception hole formed in a hole wall of the shaft insertion hole in a manner so as to be capable of shifting between a catch position where the catch body is caught on the catch surface of the lock shaft and a non-catch position where the catch body is off the catch surface; a press member capable of shifting between a press position where the press member presses the catch body toward the catch position and a non-press position where the press member does not press the catch body; and a press spring that exerts energizing force on the press member toward the press position, and the catch surface of the lock shaft is a sloping surface that slopes at an angle from an axis of the lock shaft, and the catch surface causes the lock shaft to shift to the non-lock position when the catch body becomes caught on the catch surface. 4. The air chuck according to claim 3 , wherein the catch body is a sphere, and the press member is cylindrical and is disposed around the shaft insertion hole and the catch body in a manner so as to be capable of advancing and retreating in a direction of an axis of the shaft insertion hole, a taper surface is formed as an inner surface of the press member, the taper surface presses the catch body toward the catch position when the press member advances to the press position, and the taper surface releases the catch body from pressing force when the press member retreats to the non-press position. 5. The air chuck according to claim 3 , wherein the linking mechanisms each include a delinking mechanism that delinks the finger support part from the chuck main body part, the delinking mechanism includes a release piston driven by air, and the release piston causes the press member to shift to the non-press position when the finger support part is delinked from the chuck main body part. 6. The air chuck according to claim 3 , wherein the linking mechanisms each include a delinking mechanism that delinks the finger support part from the chuck main body part, the delinking mechanism includes a manual operation member, and the manual operation member causes the press member to shift to the non-press position when the finger support part is delinked from the chuck main body part. 7. The air chuck according to claim 3 , wherein the linking mechanisms each include a catch-body hold mechanism that holds, in the non-catch position, the catch body caused to shift to the non-catch position when the finger support part is detached from the chuck main body part. 8. The air chuck according to claim 7 , wherein the catch-body hold mechanism includes a hold rod that slots into the shaft insertion hole in a manner so as to be capable of shifting therein, and when the finger support part is detached from the chuck main body part, the hold rod under action of compressed air or under action of force exerted by a hold spring shifts within the shaft insertion hole along with the lock shaft pulled out of the shaft insertion hole and comes into contact with the catch body in the non-catch position so as to hold the catch body in the non-catch position. 9. The air chuck according to claim 1 , wherein the linking mechanisms each include a delinking mechanism that delinks the finger support part from the chuck main body part.