Spark-ignition engine

We claim: 1. A spark-ignition engine comprising: a cylinder head having a combustion chamber roof and a cylinder head-side squish surface provided on an outer periphery of the combustion chamber roof; a piston head having an outer periphery and a piston head-side squish surface provided on the outer periphery of a piston head opposed to the cylinder head-side squish surface; a combustion chamber section recessed at a center of the combustion chamber roof; an intake valve port provided on one opposed section of two opposed sections of the combustion chamber recessed section; an exhaust valve port provided on another of the two opposed section; and a spark-plug attachment hole facing the combustion chamber recessed section, wherein the cylinder head-side squish surface and the piston head-side squish surface are upwardly inclined toward the combustion chamber recessed section, and in a vicinity of a compression top dead center a squish flow is ejected from a squish area formed between the cylinder head-side squish surface and the piston head-side squish surface toward a center of the combustion chamber recessed section, when viewed from a direction parallel to a cylinder center axis, given a central virtual line passing a squish area maximum-width section and the center of the combustion chamber recessed section, and one area a and another area b divided by the central virtual line, and one of the intake valve port and the exhaust valve port is provided in one area of any opposed section of the two opposed sections of the combustion chamber recessed section, and the spark-plug attachment hole is provided in the other area of the opposed section, such that a spark discharge section at a tip of a spark plug is provided in a position not to overlap the central virtual line when viewed from the direction parallel to the cylinder center axis. 2. The spark-ignition engine according to claim 1 , wherein the intake valve port is provided in the one area of the one opposed section of the combustion chamber recessed section, and the exhaust valve port is provided in the other area of the other opposed section, and one area of the other opposed section serves as an intake guide surface, and the intake guide surface has a center axis in common with the intake valve port, and is a partial circumferential surface of a conical frustum extending toward a cylinder. 3. The spark-ignition engine according to claim 1 , wherein when viewed from the direction parallel to cylinder center axis, the exhaust valve port is provided in a position to overlap the central virtual line, and a largest squish flow ejected from the squish area maximum-width section in the vicinity of an exhaust top dead center is directed to an exhaust port opposing surface at a valve head of an opened exhaust valve. 4. The spark-ignition engine according to claim 1 , wherein when viewed from the direction parallel to cylinder center axis, in the other area b located on one side of the central virtual line, the spark-plug attachment hole is provided in one opposed section of the combustion chamber recessed section, the exhaust valve port is opened to the other opposed section, and an end part of the combustion chamber recessed section located between the spark-plug attachment hole and the exhaust valve port has a center axis in common with the exhaust valve port, and serves as an exhaust guide surface that is a partial circumferential surface of a conical frustum extending toward the piston head. 5. The spark-ignition engine according to claim 1 , wherein at least part of the spark discharge section is disposed in the spark-plug attachment hole. 6. The spark-ignition engine according to claim 1 , wherein a spark-plug recessed section is provided in the opposed section having the spark-plug attachment hole, out of the opposed sections of the combustion chamber recessed section, and the spark-plug attachment hole is provided at the bottom end of the spark-plug recessed section. 7. The spark-ignition engine according to claim 6 , wherein when viewed from the direction parallel to the cylinder center axis, the spark-plug recessed section is provided in a position not to overlap the central virtual line. 8. The spark-ignition engine according to claim 6 , wherein an inner circumferential surface of the spark-plug recessed section has a central axis in common with the spark-plug attachment hole, and is a partial circumferential surface of a conical frustum extending toward the combustion chamber recessed section. 9. The spark-ignition engine according to claim 6 , wherein at least part of the spark discharge section at the tip of the spark plug is disposed in the spark-plug recessed section. 10. The spark-ignition engine according to claim 1 , wherein the cylinder head 1 includes: adjacent cylinders having respective combustion chamber roofs; a branched intake port for introducing intake air into the adjacent cylinders; and respective intake valve ports provided at branched ends of the intake port, wherein when viewed from the direction parallel to respective cylinder center axes, assuming a width direction of the cylinder head as a horizontal direction, a port inlet of the intake port is disposed just beside a partition wall for partitioning the respective combustion chamber roofs of the adjacent cylinders, port central axes of the intake port are located closer to the partition wall than the central virtual line of each cylinder, the central virtual line passing the cylinder center axis and extending horizontally, and the intake air is sucked from the intake valve ports along a wall between the cylinders, when viewed from the direction parallel to the cylinder center axes, the intake port is configured with a pair of curved ports protrudingly curving in a direction away from the partition wall near the port inlet and a pair of straight ports extending straight toward the center of the combustion chamber roof near the intake valve ports, when viewed from the direction parallel to the cylinder center axes, tangential virtual lines extending from endpoints of respective curved port central axes along tangent lines of the endpoints pass the intake valve ports, and straight port central axes extending from the endpoints of the respective curved port central axes are further away from the partition wall than the respective tangential virtual lines, and the intake air bent through the curved ports passes the straight ports, and is sucked from the intake valve ports along the wall between the cylinders. 11. The spark-ignition engine according to claim 1 , further comprising: a throttle body attached to the cylinder head; a fuel injector attached to the throttle body; and an intake valve provided in each intake valve port, wherein the intake valve is a poppet valve, and fuel injected from the fuel injector hits against a valve head of the intake valve. 12. The spark-ignition engine according to claim 1 , further comprising: a throttle body attached to the cylinder head; a fuel injector attached to the throttle body; and an intake port provided to the cylinder head, wherein the fuel is injected from the fuel injector into the intake port within a crank angle range from preceding 40 degrees to subsequent 30 degrees of a bottom dead center of the piston head partitioning an explosion stroke and an exhaust stroke. 13. The spark-ignition engine according to claim 1 , further comprising an exhaust port, an exhaust muffler, and an exhaust treatment member, which are provided in the cylinder head, wherein the exhaust muffler includes muffling chambers, and the exhaust treat