Free-piston engine

The invention claimed is: 1. A free-piston engine, comprising: a combustion space for combusting an air-fuel mixture of outside air and a fuel; a piston provided in such a manner as to be capable of reciprocation between a most-compressed position, which minimizes a volume of the combustion space, and a most-expanded position, which maximizes the volume; a piston drive device which causes the piston to go into action; a suction port which introduces the outside air or a gas composed of the air-fuel mixture into the combustion space; an exhaust port which directs an exhaust gas generated in the combustion space to outside of the free-piston engine; a piston type valve which makes the suction port capable of opening and closing by moving along a center axis direction of the combustion space; and a valve drive device which causes the piston type valve to go into action, wherein the piston extracts power by moving from the most-compressed position to the most-expanded position by an explosive force due to the combustion of the air-fuel mixture in the combustion space and is provided in such a manner as to return from the most-expanded position to the most-compressed position by the actuation of the piston drive device, and at the same time the piston functions as a valve of the exhaust port and is disposed in such a manner as to open the exhaust port to the combustion space when the piston has reached the most-expanded position, whereas the piston closes the exhaust port to the combustion space when the piston is present in a different position, and wherein the piston type valve is disposed face to face with the piston, forms the combustion space in a space surrounded by the piston and the piston type valve, moves by the actuation of the valve drive device after combustion in the combustion space from an initial position where the suction port opens to the combustion space in a direction toward the piston to a position where the suction port is closed to the combustion space and promotes discharge of the exhaust gas to the exhaust port, and returns to the initial position after finish of the discharge of the exhaust gas. 2. The free-piston engine according to claim 1 , wherein the piston drive device and the valve drive device are provided in such a manner that the piston and the piston type valve can go into action asymmetrically and are provided so as to be capable of generating a negative pressure in the combustion space before introduction of the gas while increasing a distance between the piston and the piston type valve, with the combustion space closed by the piston and the piston type valve, after finish of the discharge of the exhaust gas. 3. The free-piston engine according to claim 1 , wherein the suction port is provided with a plurality of ejection openings each formed so as to be capable of ejecting the gas toward a given region positioned in a middle of the interior of the combustion space and wherein in the combustion space, in addition to compression of the air-fuel mixture by the movement of the piston, the gas in a jet condition each ejected from each of the ejection openings is caused to collide in a given region, whereby the air-fuel mixture is compressed while generating a colliding jet. 4. The free-piston engine according to claim 3 , wherein each of the ejection openings is disposed axisymmetrically with respect to the center axis of the combustion space and wherein the exhaust port is provided with exhaust openings which open to the combustion space, and the exhaust openings are provided at least in the same number as the ejection openings, is disposed to each of the ejection openings in a manner corresponding to the axis line direction of the combustion space, and is provided so that part of the exhaust gas discharged from the exhaust openings is capable of ejection from each of the corresponding ejection openings together with the gas. 5. The free-piston engine according to claim 3 , wherein the exhaust port is provided with an exhaust opening which opens to the combustion space and is provided in such a manner that part of the exhaust gas discharged from the exhaust opening is capable of ejection from each of the ejection openings together with the gas and wherein the exhaust gas port is provided with means for controlling the ejection amount of the exhaust gas from each of the ejection openings according to the combustion condition of the combustion space. 6. The free-piston engine according to claim 1 , wherein the piston and the piston type valve are configured in that immediately before combustion in the combustion space, the piston is moved in a direction from the most-compressed position to the most-expanded position and/or the piston type valve is moved from the initial position in a direction in which discharge of the exhaust gas to the exhaust port is accelerated. 7. The free-piston engine according to claim 3 , further comprising a controller which controls the actuation of the piston drive device and the valve drive device and the condition of the gas introduced into the combustion space, wherein the controller is provided with performing the control in such a manner as to permit switching between a first mode for performing combustion by only the compression of the piston without generating the colliding jet in the combustion space and a second mode for performing combustion by generating the colliding jet in the combustion space. 8. The free-piston engine according to claim 2 , further comprising a controller which controls the actuation of the piston drive device and the valve drive device, wherein the controller is provided with controlling the actuation of the piston drive device and the valve drive device so that the negative pressure increases gradually from a start of the engine by adjusting the distance between the piston and the piston type valve. 9. The free-piston engine according to claim 3 , wherein the combustion space is provided in such a manner that the exhaust gas is introduced from the exhaust port at the same time with the introduction of the gas and the exhaust gas can collide with the colliding jet. 10. The free-piston engine according to claim 3 , wherein the ejection opening is provided in such a manner that a formed edge thereof has a shape of a noncircular curved line. 11. The free-piston engine according to claim 3 , wherein the piston and the piston type valve are configured in such a manner that the piston performs a cycle of returning from the most-compressed position to a next most-compressed position a whole number of times while the piston drive device is performing a cycle of returning from the initial position to a next initial position once or the piston type valve performs the cycle thereof a whole number of times while the piston is performing the cycle thereof once. 12. The free-piston engine according to claim 3 , further comprising means for creating a stop cycle in which only outside air not containing the fuel is introduced into the combustion space and combustion is not performed. 13. The free-piston engine according to claim 3 , wherein each of the ejection openings is provided in such a manner as to be capable of supplying the jet to the combustion space in a direction in which the given region is formed near the exhaust port. 14. A free-piston engine, comprising: a combustion space for combusting an air-fuel mixture of outside air and a fuel; a piston provided so as to be capable of reciprocation between a most-compressed position, which minimizes a volume of the combustion space, and a most-expanded position, which maximizes the volume; a piston d