Slide piece driving mechanism

The invention claimed is: 1. A slide piece driving mechanism comprising: a slide piece mounted to be movable up and down on a surface of a first object on a side opposed to a second object, the first object and the second object being two objects that repeat relative approach and separation; and an operation pin mounted to a surface of the second object on a side opposed to the first object, the operation pin being configured to be removed from and inserted into an inclined hole on the slide piece, wherein, when the first object approaches the second object, the operation pin relatively moves in a direction inserted into the inclined hole and the slide piece moves down from an upper position, wherein, when the first object is away from the second object, the operation pin relatively moves in a direction removed from the inclined hole and the slide piece moves up from a lower position upward, wherein the first object includes a side surface guiding portion, the side surface guiding portion guiding a side surface of the slide piece to be slidably movable, wherein, when the side surface guiding portion guides the slide piece to move the slide piece to an upper end position, a part of a stopper is pushed into a stopper hole by a biasing force from a biasing element and the stopper prevents the slide piece from falling from the upper end position due to a weight of the slide piece, the stopper being disposed at the side surface guiding portion to be slidably movable, the stopper hole being formed at the side surface of the slide piece, wherein the slide piece includes a stopper releasing element separate and discrete from the stopper so as to be slidable with the slide piece relative to the stopper and so as to be slidable relative to a body of the slide piece, wherein the slide piece and the stopper releasing element are configured to be slidable relative to the stopper in a direction perpendicular to a longitudinal axis of the stopper, and wherein, when the operation pin is inserted into the inclined hole, the operation pin pushes the stopper releasing element such that the stopper releasing element pushes out the stopper from the stopper hole against the biasing force from the biasing element to allow the slide piece to fall with the stopper releasing element from the upper end position due to the weight of the slide piece. 2. The slide piece driving mechanism according to claim 1 , wherein the biasing element is a spring, and the stopper is constantly biased with the spring toward the side surface of the slide piece, and when the slide piece reaches the upper end position, a distal end side of a shaft portion is pushed into the stopper hole of the slide piece by the biasing force from the spring to support the weight of the slide piece, the stopper releasing element includes a stopper releasing pin guide hole and a stopper releasing pin, the stopper releasing pin guide hole being formed in the slide piece to communicate between the stopper hole and the inclined hole, the stopper releasing pin being engaged such that a head portion of the stopper releasing pin is housed in the stopper hole to be slidably movable and a rod portion of the stopper releasing pin is slidably movable to the stopper releasing pin guide hole, and the stopper releasing pin is configured such that, in a state where the shaft portion of the stopper is engaged with the stopper hole, when the head portion of the stopper releasing pin is pushed by the shaft portion of the stopper, a distal end side of the rod portion of the stopper releasing pin projects into the inclined hole, and such that, when the operation pin is inserted into the inclined hole, the distal end of the rod portion of the stopper releasing pin abuts on a distal end of the operation pin, and the distal end side of the rod portion of the stopper releasing pin is pushed into the stopper releasing pin guide hole from the inclined hole by the operation pin against the biasing force from the spring, and the head portion of the stopper releasing pin pushes out the shaft portion of the stopper from the stopper hole to release engagement between the shaft portion of the stopper and the stopper hole. 3. The slide piece driving mechanism according to claim 1 , wherein the biasing element is a compressor, and the stopper is constantly biased with an air pressure from the compressor toward the side surface of the slide piece, and when the slide piece reaches the upper end position, a distal end side of a shaft portion is pushed into the stopper hole of the slide piece by the air pressure to support the weight of the slide piece, the stopper releasing element includes a stopper releasing pin guide hole and a stopper releasing pin, the stopper releasing pin guide hole being formed in the slide piece to communicate between the stopper hole and the inclined hole, the stopper releasing pin being engaged such that a head portion of the stopper releasing pin is housed in the stopper hole to be slidably movable and a rod portion of the stopper releasing pin is slidably movable to the stopper releasing pin guide hole, and the stopper releasing pin is configured such that, in a state where the shaft portion of the stopper is engaged with the stopper hole, when the head portion of the stopper releasing pin is pushed by the shaft portion of the stopper, a distal end side of the rod portion of the stopper releasing pin projects into the inclined hole, and such that, when the operation pin is inserted into the inclined hole, the distal end of the rod portion of the stopper releasing pin abuts on a distal end of the operation pin, and the distal end side of the rod portion of the stopper releasing pin is pushed into the stopper releasing pin guide hole from the inclined hole by the operation pin against the air pressure, and the head portion pushes out the shaft portion of the stopper from the stopper hole to release the engagement between the shaft portion of the stopper and the stopper hole. 4. The slide piece driving mechanism according to claim 2 , wherein the stopper hole and the stopper releasing pin guide hole are formed perpendicular to the inclined hole. 5. The slide piece driving mechanism according to claim 2 , wherein each of the distal end of the operation pin and the distal end of the rod portion of the stopper releasing pin has a hemispherical shape. 6. The slide piece driving mechanism according to claim 1 , wherein the first object is a movable side mold of an injection molding mold, and the second object is a fixed side mold of the injection molding mold. 7. The slide piece driving mechanism according to claim 4 , wherein each of the distal end of the operation pin and the distal end of the rod portion of the stopper releasing pin has a hemispherical shape. 8. The slide piece driving mechanism according to claim 4 , wherein the first object is a movable side mold of an injection molding mold, and the second object is a fixed side mold of the injection molding mold. 9. The slide piece driving mechanism according to claim 5 , wherein the first object is a movable side mold of an injection molding mold, and the second object is a fixed side mold of the injection molding mold.