Engine with combustion chamber

What is claimed is: 1. An engine comprising: a combustion chamber defined by a crown surface of a piston, an inner wall surface of a cylinder in which the piston is slidably accommodated, and a pentroof ceiling surface formed in a cylinder head, wherein an opening of an intake port configured to supply intake air to the combustion chamber and an opening of an exhaust port configured to discharge exhaust gas from the combustion chamber are formed in the ceiling surface, a side on which the intake port is disposed is an intake side, and a side on which the exhaust port is disposed is an exhaust side, the crown surface includes: an exhaust-side bottom part disposed near an exhaust-side edge of the crown surface, and an intake-side bottom part disposed near an intake-side edge of the crown surface; an exhaust-side sloped surface rising toward a center part of the crown surface from the exhaust-side bottom part; an intake-side sloped surface rising toward the center part of the crown surface from the intake-side bottom part; and a flat surface provided continuously between an upper end of the exhaust-side sloped surface and an upper end of the intake-side sloped surface, and extending in a direction perpendicular to an axial direction of the cylinder in the center part of the crown surface, a surface area of the flat surface is larger than a surface area of the exhaust-side sloped surface, the flat surface includes an inter-recess flat surface disposed between a pair of recess parts of the exhaust-side sloped surface, and that continues to a main portion of the flat surface, and no cavity is formed in the flat surface. 2. The engine of claim 1 , wherein the surface area of the flat surface is larger than a surface area of the intake-side sloped surface. 3. The engine of claim 2 , wherein a geometric compression ratio of the cylinder is set within a range of 13.5:1 or higher and 15.5:1 or lower. 4. The engine of claim 2 , wherein an injector configured to inject fuel into the combustion chamber is disposed on the intake side of the combustion chamber. 5. The engine of claim 2 , wherein a spark plug configured to achieve flame propagation combustion inside the combustion chamber is disposed in the ceiling surface opposing to the flat surface. 6. The engine of claim 2 , wherein the surface area of the flat surface is larger than a total of the surface area of the exhaust-side sloped surface and the surface area of the intake-side sloped surface. 7. The engine of claim 6 , wherein a geometric compression ratio of the cylinder is set within a range of 13.5:1 or higher and 15.5:1 or lower. 8. The engine of claim 6 , wherein an injector configured to inject fuel into the combustion chamber is disposed on the intake side of the combustion chamber. 9. The engine of claim 6 , wherein a spark plug configured to achieve flame propagation combustion inside the combustion chamber is disposed in the ceiling surface opposing to the flat surface. 10. The engine of claim 9 , wherein a geometric compression ratio of the cylinder is set within a range of 13.5:1 or higher and 15.5:1 or lower. 11. The engine of claim 9 , wherein an injector configured to inject fuel into the combustion chamber is disposed on the intake side of the combustion chamber. 12. The engine of claim 11 , wherein a geometric compression ratio of the cylinder is set within a range of 13.5:1 or higher and 15.5:1 or lower. 13. The engine of claim 1 , wherein a spark plug configured to achieve flame propagation combustion inside the combustion chamber is disposed in the ceiling surface opposing to the flat surface. 14. The engine of claim 1 , wherein an injector configured to inject fuel into the combustion chamber is disposed on the intake side of the combustion chamber. 15. The engine of claim 1 , wherein a geometric compression ratio of the cylinder is set within a range of 13.5:1 or higher and 15.5:1 or lower. 16. The engine of claim 1 , wherein the flat surface is substantially rectangular. 17. An engine comprising: a combustion chamber defined by a crown surface of a piston, an inner wall surface of a cylinder in which the piston is slidably accommodated, and a pentroof ceiling surface formed in a cylinder head, wherein an opening of an intake port configured to supply intake air to the combustion chamber and an opening of an exhaust port configured to discharge exhaust gas from the combustion chamber are formed in the ceiling surface, a side on which the intake port is disposed is an intake side, and a side on which the exhaust port is disposed is an exhaust side, the crown surface includes: an exhaust-side bottom part disposed near an exhaust-side edge of the crown surface, and an intake-side bottom part disposed near an intake-side edge of the crown surface; an exhaust-side sloped surface rising toward a center part of the crown surface from the exhaust-side bottom part; an intake-side sloped surface rising toward the center part of the crown surface from the intake-side bottom part; and a flat surface provided continuously between an upper end of the exhaust-side sloped surface and an upper end of the intake-side sloped surface, and extending in a direction perpendicular to an axial direction of the cylinder in the center part of the crown surface, a surface area of the flat surface is larger than a surface area of the exhaust-side sloped surface, the flat surface is substantially rectangular, and no cavity is formed in the flat surface. 18. An engine comprising: a combustion chamber defined by a crown surface of a piston, an inner wall surface of a cylinder in which the piston is slidably accommodated, and a pentroof ceiling surface formed in a cylinder head, wherein an opening of an intake port configured to supply intake air to the combustion chamber and an opening of an exhaust port configured to discharge exhaust gas from the combustion chamber are formed in the ceiling surface, a side on which the intake port is disposed is an intake side, and a side on which the exhaust port is disposed is an exhaust side, the crown surface includes: an exhaust-side bottom part disposed near an exhaust-side edge of the crown surface, and an intake-side bottom part disposed near an intake-side edge of the crown surface; an exhaust-side sloped surface rising toward a center part of the crown surface from the exhaust-side bottom part; an intake-side sloped surface rising toward the center part of the crown surface from the intake-side bottom part; and a flat surface provided continuously between an upper end of the exhaust-side sloped surface and an upper end of the intake-side sloped surface, and extending in a direction perpendicular to an axial direction of the cylinder in the center part of the crown surface, a surface area of the flat surface is larger than a surface area of the exhaust-side sloped surface, the surface area of the flat surface is larger than a surface area of the intake-side sloped surface, and no cavity is formed in the flat surface.