Crankshaft for variable displacement internal combustion engine

The invention claimed is: 1. A crankshaft comprising: a plurality of crankpins longitudinally spaced apart from each other along a rotational axis, each of the crankpins being configured to be operatively connected to a respective piston of an engine including a plurality of cylinders, the engine being configured to deactivate one of the cylinders; wherein one of the crankpins extends along a pin axis; wherein at least two of the crankpins are aligned with each other along the pin axis; wherein another one of the crankpins is rotationally offset from the pin axis in a rotational direction of the crankshaft such that the engine has an even firing order even when only one of the cylinders is deactivated; and wherein the plurality of crankpins includes a first crankpin, a second crankpin, a third crankpin, and a fourth crankpin, the second and third crankpins are aligned with each other along the pin axis, the second and third crankpins are not rotationally offset from each other, and the first crankpin is rotationally offset from the pin axis by 240 degrees in the rotational direction. 2. The crankshaft of claim 1 , wherein the fourth crankpin is rotationally offset from the pin axis by 120 degrees. 3. The crankshaft of claim 2 , wherein the pin axis is parallel to the rotational axis. 4. An engine assembly comprising: an engine block defining a first cylinder, a second cylinder, a third cylinder, and a fourth cylinder arranged along a cylinder bank in an inline cylinder arrangement; a plurality of pistons, each piston disposed in one of the first, second, third, and fourth cylinders; a crankshaft operatively coupled to the plurality of pistons such that the crankshaft is configured to rotate about a rotational axis in a rotational direction as the pistons reciprocate within the first, second, third, and fourth cylinders, the crankshaft including a first crankpin, a second crankpin, a third crankpin, and a fourth crankpin longitudinally spaced apart from one another along the rotational axis, wherein the first crankpin extends along a pin axis; an intake valve operatively coupled with the fourth cylinder, wherein the intake valve is movable between an open position to allow air/fuel mixture to enter the fourth cylinder and a closed position to preclude the air/fuel mixture from entering the fourth cylinder; a control module configured to maintain the intake valve in a closed position so as to deactivate the fourth cylinder until the engine assembly is operated at a predetermined torque threshold; wherein the first crankpin and the fourth crankpin are aligned with each other along the pin axis; wherein the second and third crankpins are both rotationally offset from the first crankpin in the rotational direction such that the engine assembly has an even firing order even when only the fourth cylinder is deactivated; and wherein the second crankpin is rotationally offset from the first crankpin by 240 degrees in the rotational direction. 5. The engine assembly of claim 4 , wherein the third crankpin is rotationally offset form the first crankpin by 120 degrees in the rotational direction. 6. A method of manufacturing a crankshaft, comprising: forging a metallic structure to form a crankshaft having first, second, third, and fourth interconnected crankpins axially spaced apart from one another along a rotational axis, the first crankpin extending along a pin axis, the first and fourth crankpins are aligned with each other along the pin axis, and the second and third crankpins are rotationally offset from each other and from the pin axis in a rotational direction, wherein forging the metallic structure includes forging the metallic structure to form the crankshaft having the second crankpin rotationally offset from the first crankpin and fourth crankpin by 240 degrees in the rotational direction.