Sleeve bearing with lubricant reservoirs

I claim: 1. A sleeve bearing for a pin joint, the sleeve bearing comprising: a tubular body having an inner portion, an outer portion, a first side portion, and a second side portion; a substantially cylindrical inner surface defined on the inner portion, the inner surface disposed annularly about a longitudinal axis; a substantially cylindrical outer surface defined on the outer portion, the outer surface disposed radially outward from and concentric with the inner surface; a first side surface defined on the first side portion and extending between the inner surface and the outer surface; a second side surface defined on the second side portion and extending between the inner surface and the outer surface; a first inner edge defined along a first inner interface between the first side surface and the inner surface; a second inner edge defined along a second inner interface between the second side surface and the inner surface such that the inner surface extends between the first inner edge and the second inner edge along the longitudinal axis; and a plurality of elongate lubricant reservoirs formed into the inner surface, the lubricant reservoirs being elongated along the same elongation axis, the plurality of elongate lubricant reservoirs forming a first set of a plurality of elongate lubricant reservoirs arranged along and spaced away from each other along the elongation axis, wherein the axis is at least partially arced about the longitudinal axis on the inner cylindrical surface in a non-helical manner; wherein a reservoir orientation angle defined between the elongation axis and the first inner edge is in a range between 0 degrees and 90 degrees; and wherein the plurality of lubricant reservoirs are disposed in an interrupted pattern annularly around the inner surface such that a portion of the inner surface along the longitudinal axis between the first inner edge and the second inner edge is uninterrupted by any of the plurality of lubricant reservoirs. 2. The sleeve bearing of claim 1 , wherein the reservoir orientation angle is in a range between about 15 degrees and about 75 degrees. 3. The sleeve bearing of claim 1 , wherein the reservoir orientation angle is in a range between about 30 degrees and about 60 degrees. 4. The sleeve bearing of claim 1 , wherein the reservoir orientation angle is about 45 degrees. 5. The sleeve bearing of claim 1 , wherein a portion of the inner surface is uninterrupted by any of the plurality of lubricant reservoirs along an inner circumference of the inner surface, the inner circumference being substantially aligned with the first and second inner edges. 6. The sleeve bearing of claim 1 , further comprising at least one lubricant orifice formed through the body between the outer surface and the inner surface. 7. The sleeve bearing of claim 6 , further comprising: an inner lubricant channel formed into the inner surface, the inner lubricant channel aligned substantially along an inner circumference of the inner surface, the inner circumference being substantially aligned with the first and second inner edges; wherein the at least one lubricant orifice is formed through the body between the outer surface and the inner lubricant channel so as to provide fluid communication between the outer surface and the inner lubricant channel. 8. The sleeve bearing of claim 7 , further comprising at least one lubricant passage formed in the inner surface between the inner lubricant channel and at least one of the plurality of lubricant reservoirs so as to provide fluid communication between the inner lubricant channel and at least one of the lubricant reservoirs. 9. The sleeve bearing of claim 7 , further comprising: an outer lubricant channel formed into the outer surface and concentric with the inner lubricant channel, the outer lubricant channel aligned substantially along an outer circumference of the outer surface, the outer circumference being substantially aligned with a first outer edge defined along a first outer interface between the first side surface and the outer surface; wherein the at least one lubricant orifice is formed through the body between the outer lubricant channel and the inner lubricant channel so as to provide fluid communication between the outer lubricant channel and the inner lubricant channel. 10. A sleeve bearing for a pin joint, the sleeve bearing comprising: a tubular body having an inner portion, an outer portion, a first side portion, and a second side portion; a substantially cylindrical inner surface defined on the inner portion, the inner surface disposed annularly about a longitudinal axis; a substantially cylindrical outer surface defined on the outer portion, the outer surface disposed radially outward from and concentric with the inner surface; a first side surface defined on the first side portion and extending between the inner surface and the outer surface; a second side surface defined on the second side portion and extending between the inner surface and the outer surface; a first inner edge defined along a first inner interface between the first side surface and the inner surface; a first outer edge defined along a first outer interface between the first side and the outer surface; a second inner edge defined along a second inner interface between the second side surface and the inner surface such that the inner surface extends between the first inner edge and the second inner edge along the longitudinal axis; at least one lubricant orifice formed through the body between the outer surface and the inner surface; an inner lubricant channel formed into the inner surface, the inner circumference being substantially aligned with the first and second inner edges; an outer lubricant channel formed into the outer surface and concentric with the inner lubricant channel, the outer circumference being substantially aligned with the first outer edge; at least one lubricant orifice formed between the outer lubricant channel and the inner lubricant channel so as to provide fluid communication between the outer lubricant channel and the inner lubricant channel; and a plurality of elongate lubricant reservoirs formed into the inner surface, the lubricant reservoirs being elongated along the same elongation axis, the plurality of elongate lubricant reservoirs forming a first set of a plurality of elongate lubricant reservoirs arranged along and spaced away from each other along the elongation axis, wherein the axis is at least partially arced about the longitudinal axis on the inner cylindrical surface in a non-helical manner; wherein a reservoir orientation angle defined between the elongation axis and the first inner edge is in a range between 0 degrees and 90 degrees; and wherein the plurality of lubricant reservoirs are disposed in an interrupted pattern annularly around the inner surface such that a portion of the inner surface along the longitudinal axis between the first inner edge and the second inner edge and a portion of the inner surface along an inner circumference of the inner surface is uninterrupted by any of the plurality of lubricant reservoirs. 11. The sleeve bearing of claim 10 , wherein the reservoir orientation angle is in a range between about 15 degrees and about 75 degrees. 12. The sleeve bearing of claim 10 , wherein the reservoir orientation angle is in a range between about 30 degrees and about 60 degrees. 13. The sleeve bearing of claim 10 , wherein the reservoir orientation angle is about 45 degrees. 14. The sleeve bearing of claim 10 , further comprising at least one lubricant passage formed in the inner surface betwe