Engine

The invention claimed is: 1. An engine configured to inject fuel directly to a combustion chamber in a cylinder in a predetermined operation range in a period from a second half of a compression stroke until a first half of an expansion stroke and perform ignition after a compression top dead center, the engine comprising: a piston including a cavity that is concave downward at a middle portion of an upper surface of the piston; a cylinder head configured so as to form the combustion chamber having a pent roof shape; a fuel injection valve arranged at the cylinder head so as to be located at a position corresponding to the middle portion of the piston, the fuel injection valve being configured to inject the fuel into the cavity of the piston in the period from the second half of the compression stroke until the first half of the expansion stroke; and a spark plug arranged at the cylinder head so as to be provided at a position located at a radially outer side of the middle portion of the piston and corresponding to an upper side of the cavity of the piston, the middle portion corresponding to a position where the fuel injection valve is provided, wherein: the fuel injection valve includes a plurality of injection openings, including at least a first injection opening and a second injection opening, arranged in a circumferential direction surrounding a longitudinal axis of the fuel injection valve; the combustion chamber at the compression top dead center divided into a plurality of fuel injection regions, including at least a first fuel injection region having a relatively larger volume and a second fuel injection region having a relatively smaller volume than the first fuel injection region, located in respective injection directions of the injection openings, by vertical surfaces each extending in a radial direction of the cylinder from the longitudinal axis of the fuel injection valve through a midpoint between the adjacent injection openings, the first fuel injection region located in an injection direction of the first injection opening, and the second fuel injection region located in an injection direction of the second injection opening; and an opening diameter of the first injection opening is larger than an opening diameter of the second injection opening. 2. The engine according to claim 1 , wherein the injection openings are formed such that a ratio of the opening areas of the injection openings and a ratio of the volumes of the fuel injection regions located in the respective injection directions of the injection openings coincide with each other.