Minimizing oil leakage from rocking journal bearings

The invention claimed is: 1. A rocking journal bearing, comprising: a bearing sleeve including a generally cylindrical bearing surface with a plurality of axially-spaced, eccentrically-disposed surface segments separated by circumferential oil grooves in the bearing surface for transporting oil in a circumferential direction of the bearing surface; a plurality of circumferentially-spaced, axial oil grooves in the bearing surface that run across the surface segments and intersect the circumferential oil grooves; said circumferential and axial oil grooves forming a network of oil grooves for transporting oil to the bearing surface; a wristpin including a plurality of axially-spaced, eccentrically-disposed journal segments engaged for rocking oscillation with corresponding surface segments; and, an oil-receiving space in the wristpin with oil outlet passages acting through the journal segments for delivering oil to the bearing surface; in which, there are no oil outlet passages in the wristpin that are aligned with the circumferential oil grooves in the bearing surface; and, at a load transfer point of the rocking journal during said rocking oscillation, no oil is provided from the oil receiving space to said network of oil grooves; at a first maximum loading point of the rocking journal during said rocking oscillation, at least one oil outlet passage in a first journal segment of the plurality of journal segments is aligned with a first axial oil groove so as to provide oil from the oil receiving space to said network of oil grooves; and at a second maximum loading point of the rocking journal during said rocking oscillation, at least one oil outlet passage in a second journal segment of said plurality of journal segments is aligned with a second axial oil groove so as to provide oil from the oil receiving space to said network of oil grooves. 2. A rocking journal bearing according to claim 1 , wherein: the first journal segment is formed in an intermediate portion of the wristpin, between two second journal segments and the two second journal segments are formed on opposite ends of the wristpin, on respective sides of the first journal segment; positioning of a first oil outlet passage locates the first oil outlet passage in the first journal segment at a first arcuate distance from one side of a cut plane containing the longitudinal axis of the wristpin and a radius forming the axis of an oil inlet passage in the wristpin for transporting oil to the oil-receiving space; and, positioning of two second oil outlet passages locates each second oil passage in a respective one of the second journal segments at a second arcuate distance from the opposite side of the cut plane; in which the first and second arcuate distances are in opposite directions. 3. A rocking journal bearing according to claim 1 , wherein the first journal segment has a first centerline and two second journal segments share a second centerline that is offset from the first centerline, and the first journal segment is disposed between two second journal segments, in which: positioning of a first oil outlet passage locates the first oil outlet passage in the first journal segment at a first arcuate distance from one side of a cut plane containing the longitudinal axis of the wristpin and a radius forming the axis of an oil inlet passage in the wristpin for transporting oil to the oil-receiving space; positioning of two second oil outlet passages locates each second oil passage in a respective one of the second journal segments at a second arcuate distance from the opposite side of the cut plane; and, the first and second arcuate distances are in opposite directions. 4. An engine having a rotatable crankshaft and a piston interconnected by a connecting rod with the crankshaft, a rocking journal bearing situated between the piston and its connecting rod and including a plurality of sets of bearing surfaces, in which the rocking journal bearing comprises: a bearing sleeve including a generally cylindrical bearing surface with a plurality of axially-spaced, eccentrically-disposed surface segments separated by circumferential oil grooves in the bearing surface for transporting oil in a circumferential direction of the bearing surface; a plurality of circumferentially-spaced, axial oil grooves in the bearing surface that run across the surface segments and intersect the circumferential oil grooves; said circumferential and axial oil grooves forming a network of oil grooves for transporting oil to the bearing surface; a wristpin including a plurality of axially-spaced, eccentrically-disposed journal segments engaged for rocking oscillation with corresponding surface segments; and, an oil-receiving space in the wristpin with oil outlet passages acting through the journal segments for delivering oil to the bearing surface; in which, there are no oil outlet passages in the wristpin that are aligned with the circumferential oil grooves in the bearing surface; and, at a load transfer point of the rocking journal during said rocking oscillation, no oil is provided from the oil receiving space to said network of oil grooves; at a first maximum loading point of the rocking journal during said rocking oscillation, at least one oil outlet passage in a first journal segment is aligned with a first axial oil groove so as to provide oil from the oil receiving space to said network of oil grooves; and at a second maximum loading point of the rocking journal during said rocking oscillation, at least one oil outlet passage in a second journal segment is aligned with a second axial oil groove so as to provide oil from the oil receiving space to said network of oil grooves. 5. An engine according to claim 4 , wherein: the first journal segment is formed in an intermediate portion of the wristpin, between two second journal segments and the two second journal segments are formed on opposite ends of the wristpin, on respective sides of the first journal segment; positioning of a first oil outlet passage locates the first oil outlet passage in the first journal segment at a first arcuate distance from one side of a cut plane containing the longitudinal axis of the wristpin and a radius forming the axis of an oil inlet passage in the wristpin for transporting oil to the oil-receiving space; and, positioning of two second oil outlet passages locates each second oil passage in a respective one of the second journal segments at a second arcuate distance from the opposite side of the cut plane; in which the first and second arcuate distances are in opposite directions. 6. An engine according to claim 4 , wherein the first journal segment has a first centerline and two second journal segments share a second centerline that is offset from the first centerline, and the first journal segment is disposed between two second journal segments, in which: positioning of a first oil outlet passage locates the first oil outlet passage in the first journal segment at a first arcuate distance from one side of a cut plane containing the longitudinal axis of the wristpin and a radius forming the axis of an oil inlet passage in the wristpin for transporting oil to the oil-receiving space; positioning of two second oil outlet passages locates each second oil passage in a respective one of the second journal segments at a second arcuate distance from the opposite side of the cut plane; and, the first and second arcuate distances are in opposite directions.