US 6,981,801 B2
Roller bearing cage
Yasunori Yokota, Kanagawa-ken (Japan)
Assigned to Nippon Thompson Co., Ltd., Tokyo (Japan)
Filed on Oct. 20, 2003, as Appl. No. 10/687,800.
Application 10/687800 is a division of application No. 10/028829, filed on Dec. 28, 2001, granted, now 6,666,584.
Claims priority of application No. 2000-400337 (JP), filed on Dec. 28, 2000.
Prior Publication US 2004/0081382 A1, Apr. 29, 2004
Int. Cl. F16C 33/46 (2006.01)
U.S. Cl. 384—577 3 Claims
OG exemplary drawing
 
1. A roller bearing cage wherein a cylindrical cage is composed of a pair of annular rims arranged in a way spaced axially apart from each other and extended circumferentially in parallel with each other, and cage bars positioned between the annular rims at regular intervals around curved surfaces of the rims and made integrally with the rims to form a pocket between any two adjacent cage bars to accommodate a roller for rotation; the cage bars are arranged with their outside surfaces being in flush with the outside peripheries of the rims across an overall length of the cage; the cage bar has an inside surface that is sunk at an axial middle area thereof to form a recess extending in depth radially outwardly beyond a diameter across pitch circle on the rollers and in axial length shorter than the pocket, so that the cage bar is made slender at the middle area thereof on account of the recess, with leaving axially opposing ends thereof thick, the axially opposing thick ends are provided on circumferentially opposing cheeks thereof with guide surfaces on which the roller rolls, and further wherein on the thick ends of the cage bar there are provided outside retainer lugs that jut into the pocket to keep the roller against outward escape out of the associated pocket and inside retainer lugs that also jut into the pocket to keep the roller against inward escape out of the associated pocket,
wherein an annular corner where the inside peripheral surface and any one end of the axially opposing end surfaces of the annular rims merge with each other is chamfered off into a depth reaching two thirds a thickness on the end surface of the associated annular rim from the inside peripheral surface of the annular rim, which slopes to a plane normal to an axial direction of the rim, with an angle less than 45 deg,
wherein a corner where the axial end surface of the annular rim merges with the outside periphery of the annular rim is slightly rounded,
wherein the slender area of the cage bar is defined in a manner having an inside surface of an axial length extending over a range of from 50% to 80% of an axial length of the pocket, and
wherein a slant surface connecting the slender area and any one of the thick ends is set to slope to a plane normal to the slender area, with an angle less than 45 deg.