Crosshead engine

What is claimed is: 1. A crosshead engine comprising: a cylinder; a piston configured to slide in the cylinder; a piston rod having one end fixed to the piston; a crosshead connected to the other end side of the piston rod and configured to reciprocate together with the piston; a connecting rod having one end supported by the crosshead; a crankshaft connected to the connecting rod and configured to rotate in coordination with the reciprocation of the piston and the reciprocation of the crosshead; and a variable mechanism configured to vary positions of top and bottom dead centers of the piston by changing a relative position of the piston rod and the crosshead in a stroke direction of the piston, wherein the variable mechanism comprises a hydraulic pressure chamber which is provided in the crosshead and into which an end of the piston rod is inserted; and a hydraulic pressure adjustment mechanism which supplies hydraulic oil to the hydraulic pressure chamber or discharges the hydraulic oil from the hydraulic pressure chamber and which adjusts an entering position at which the end of the piston rod is inserted into the hydraulic pressure chamber in the stroke direction. 2. The crosshead engine according to claim 1 , wherein: the hydraulic pressure adjustment mechanism further includes a plunger pump that has a pump cylinder into which the hydraulic oil is guided, and a plunger that moves in the pump cylinder in the stroke direction and has one end protruding from the pump cylinder, and that supplies the hydraulic oil in the pump cylinder to the hydraulic pressure chamber when the plunger is pushed into the pump cylinder; and the plunger pump moves in the stroke direction along with the crosshead, and the plunger is pushed into the pump cylinder by receiving a reaction force opposite to a reciprocating force of the crosshead. 3. The crosshead engine according to claim 2 , wherein: the hydraulic pressure adjustment mechanism further includes a first cam plate that comes into contact with the plunger according to the movement of the plunger pump in the stroke direction, and a first actuator that displaces the first cam plate to change a posture of the first cam plate or a relative position of the first cam plate with respect to the plunger; and the plunger is subjected to a change in a contact position with the first cam plate in the stroke direction depending on the posture or the relative position of the first cam plate, and a maximum pushing amount thereof for the pump cylinder is set by the contact position. 4. The crosshead engine according to claim 3 , wherein the first cam plate has an inclined surface that comes into contact with the one end of the plunger, and the first actuator displaces the first cam plate in a direction intersecting the stroke direction. 5. The crosshead engine according to claim 1 , wherein: the hydraulic pressure adjustment mechanism further includes a spill valve that has a main body in which an internal flow passage in which the hydraulic oil discharged from the hydraulic pressure chamber circulates is formed, a valve body that is displaced to a closed position at which the valve body moves in the internal flow passage in the stroke direction to block the internal flow passage and to an opened position at which the circulation of the hydraulic oil is allowed in the internal flow passage, and a rod that has one end facing the valve body in the stroke direction and the other end protruding from the main body, and that is displaced to the opened position when the rod is pushed into the main body and the valve body is pressed against the rod; the spill valve moves in the stroke direction along with the crosshead, and the rod is pushed into the main body by receiving the reaction force opposite to the reciprocating force of the crosshead. 6. The crosshead engine according to claim 2 , wherein: the hydraulic pressure adjustment mechanism further includes a spill valve that has a main body in which an internal flow passage in which the hydraulic oil discharged from the hydraulic pressure chamber circulates is formed, a valve body that is displaced to a closed position at which the valve body moves in the internal flow passage in the stroke direction to block the internal flow passage and to an opened position at which the circulation of the hydraulic oil is allowed in the internal flow passage, and a rod that has one end facing the valve body in the stroke direction and the other end protruding from the main body, and that is displaced to the opened position when the rod is pushed into the main body and the valve body is pressed against the rod; the spill valve moves in the stroke direction along with the crosshead, and the rod is pushed into the main body by receiving the reaction force opposite to the reciprocating force of the crosshead. 7. The crosshead engine according to claim 3 , wherein: the hydraulic pressure adjustment mechanism further includes a spill valve that has a main body in which an internal flow passage in which the hydraulic oil discharged from the hydraulic pressure chamber circulates is formed, a valve body that is displaced to a closed position at which the valve body moves in the internal flow passage in the stroke direction to block the internal flow passage and to an opened position at which the circulation of the hydraulic oil is allowed in the internal flow passage, and a rod that has one end facing the valve body in the stroke direction and the other end protruding from the main body, and that is displaced to the opened position when the rod is pushed into the main body and the valve body is pressed against the rod; the spill valve moves in the stroke direction along with the crosshead, and the rod is pushed into the main body by receiving the reaction force opposite to the reciprocating force of the crosshead. 8. The crosshead engine according to claim 4 , wherein: the hydraulic pressure adjustment mechanism further includes a spill valve that has a main body in which an internal flow passage in which the hydraulic oil discharged from the hydraulic pressure chamber circulates is formed, a valve body that is displaced to a closed position at which the valve body moves in the internal flow passage in the stroke direction to block the internal flow passage and to an opened position at which the circulation of the hydraulic oil is allowed in the internal flow passage, and a rod that has one end facing the valve body in the stroke direction and the other end protruding from the main body, and that is displaced to the opened position when the rod is pushed into the main body and the valve body is pressed against the rod; the spill valve moves in the stroke direction along with the crosshead, and the rod is pushed into the main body by receiving the reaction force opposite to the reciprocating force of the crosshead. 9. The crosshead engine according to claim 5 , wherein: the hydraulic pressure adjustment mechanism further includes a second cam plate that comes into contact with the rod according to the movement of the spill valve in the stroke direction, and a second actuator that displaces the second cam plate to change a posture of the second cam plate or a relative position of the second cam plate with respect to the rod; and the rod is subjected to a change in a contact position with the second cam plate in the stroke direction depending on the posture or the relative position of the second cam plate, and a maximum pushing amount thereof for the spill valve is set by the contact position. 10. The crosshead engine according to claim 6 , wherein: the hydraulic pressure adjustment mechanism further includes a second cam plate that comes into contact