Patent ID: 8449193
Filing Date: 2013-05-28
Classification: F16C

Abstract:
1. A crankshaft bearing for an internal combustion engine, the crankshaft bearing being used as a cylindrical body with a pair of semi-cylindrical sliding bearings combined with each other, wherein one semicircular thrust bearing or two semicircular thrust bearings is or are attached to at least one of the pair of semi-cylindrical sliding bearings, the one semicircular thrust bearing or the two semicircular thrust bearings being provided along one or both of two axial side edges of at least one of the pair of the semi-cylindrical sliding bearings, wherein the semicircular thrust bearing has both circumferential end surfaces, and further has an outer periphery and an inner periphery each having an arc shape, an arc diameter of the inner periphery being larger than an outside diameter of the semi-cylindrical sliding bearing, two tabs extending toward an inside in a radial direction being projected at the inner periphery of the semicircular thrust bearing to be separated from each other in the circumferential direction, the two tabs being located at line-symmetrical positions with respect to a straight center line radially dividing a length of the inner periphery into two equal parts, a corner edge portion of a tab base portion continuing to a main body of the semicircular thrust bearing being located at a side spaced from each of the circumferential end surfaces, each of the tabs being projected at the inner periphery so that the corner edge portion is present in a range of a circumferential angle of 15° to 55° measured from each of the circumferential end surfaces, wherein at least one of the pair of semi-cylindrical sliding bearings has a reduced-thickness region where a bearing wall thickness is partially thinned at a bearing inner circumferential surface side over an entire circumferential length along the axial side edge provided with the semicircular thrust bearing, two notches being formed in the reduced-thickness region to be separated from each other in the circumferential direction, the two notches being in a relation in which the two notches are engaged with the two tabs of the semicircular thrust bearing, the engagement relation being made such that at a time of a free state before the crankshaft bearing is assembled to the crankshaft, and the pair of semi-cylindrical sliding bearings is restrained by a bearing housing of the crankshaft, an outside diameter of the semi-cylindrical sliding bearing is larger at both circumferential end portions than at a circumferential central portion, whereby one side edge in a width direction of the tab is in a state in which the one side edge in the width direction of the tab interferes with and is engaged with one side edge in a width direction of the notch, and such that in a state in which the pair of semi-cylindrical sliding bearings is assembled into the bearing housing of the crankshaft and restrained, the outside diameter of the semi-cylindrical sliding bearing becomes uniform, the interference and engagement relation is dissolved, and the tab is brought into a free state in the notch, whereby the semicircular thrust bearing can move in an axial direction of the crankshaft, wherein a dimensional relation of the notch and the tab satisfies a relational expression 1: notch circumferential length (width) >tab circumferential length (width), and a relational expression 2: notch axial width (depth) >tab axial width (thickness), and wherein at the inner periphery of the semicircular thrust bearing, two impact load receiving projections are projected besides the two tabs, each of at least the two impact load receiving projections being between each of the two tabs and each of the circumferential end surfaces of the semicircular thrust bearing, the two impact load receiving projections being at line-symmetrical positions with each other with respect to the center line of the semicircular thrust bearing, and a height of the impact load receiving projection being set at a dimension such that a top portion of the impact load receiving projection is not in contact with an outer circumferential surface of the semi-cylindrical sliding bearing in a static state in which the pair of semi-cylindrical sliding bearings is assembled into the bearing housing of the crankshaft and restrained.