Patent ID: 9719444
Date: 2017-08-01
CPC Classifications: F01B,F02B,F02D,F02M

Claim:
1. An internal combustion engine comprising: a frame structure; a central crankshaft journaled in said frame structure for rotation about a central transverse axis; first and second end crankshafts disposed at opposite end portions of said frame structure journaled for rotation about axes parallel to and in a common plane with respect to said central transverse axis, each of said crankshafts including a pair of transversely spaced crank portions, each pair of said crank portions having one of the ends of a pair of connecting rods mounted thereon for pivotal movement about a common axis; a first pair of side by side cylinders mounted in said frame structure between said first end crankshaft and said central crankshaft, a second pair of side by side cylinders mounted in said frame structure between said second end crankshaft and said central crankshaft, the side by side cylinders of each pair being transversely spaced apart to define a longitudinally elongated central space therebetween, each of said crankshafts having a bearing portion extending transversely through said longitudinally elongated space and having a gear fixed thereto, the gears of said crankshafts forming components of a meshing gear train disposed within said longitudinally elongated space, causing said crankshafts to rotate together; each of said first and second pairs of cylinders having opposed first and second pistons respectively connected by oppositely extending connecting rods with longitudinally aligned crank portions of said central crankshafts and said first and second end crankshafts respectively, the connection of the connecting rods between the opposed pistons and crank portions being such that the opposed first pistons in said first pair of cylinders move together toward and away from one another between inner and outer limiting positions through successive cycles including simultaneous compression strokes followed by simultaneous power drive strokes and the opposed second pistons in said second pair of cylinders move together toward and away from one another between inner and outer limiting positions through successive cycles including simultaneous compression strokes followed by simultaneous power drive stoke 180° out of phase with respect to the corresponding strokes of said opposed first pistons; each pair of cylinders having inlet and outlet openings therein positioned in spaced relation so as to communicate with respect to one another within the associated cylinder when the associated pistons are in said outer limiting position thereof enabling a compression stoke movement of said pistons out of said outer limiting position to close said openings and trap air in the cylinder between the pistons and to compress air into a combustion chamber within the associated cylinder as the pistons reach the inner limiting position; a fuel injector for each cylinder positioned and controllable to inject fuel into the combustion chamber of an associated cylinder, the combustion chambers of each pair of cylinders being communicated with one another by a passage extending through a hub of a gear of said gear train in said space; and a controller for said injectors operable near the end of simultaneous compression strokes of the opposed first and second pistons in their respective cylinders to selectively control the injectors for each pair of cylinders to (1) undergo an injection of fuel into compressed air at an auto ignition pressure and temperature in the combustion chamber of each pair of cylinders so that the injection creates ignition of the fuel causing increased pressure conditions in the associated cylinders resulting in simultaneous internally fired power drive strokes of the associated opposed pistons in each pair of cylinders or (2) one of the injectors of each pair of cylinders are controlled to undergo injection into the associate cylinders resulting in the opposed pistons therein to simultaneous internally fired power drive strokes therein and another of the injectors of the each pair of cylinders is controlled to undergo a skipped injection wherein no fuel is injected so that the associated cylinder can share by means of said passage the increased pressure conditions of the first mentioned, internally fired power stroke result in the opposed pistons of the associated pair of cylinders to under a shared power drive stroke therewith.