(35) Compensating for accumulated tolerances is what a BHO retaining ring is designed to do in a housing/bore. Once snapped into the groove. bowed rings exert a force or "preload" on the retained parts for the range specified on the BHO size range chart.
(37) Compensating for accumulated tolerances is what a BSH "bowed" retaining ring is designed to do on a shaft. Once snapped into the groove. bowed rings exert a force or "preload" on the retained parts for the range specified on the BSH size range chart.
(92) These rings look exactly like their HO counterpart. only they have a 15° angle on the outer edge. This combines with a complementary groove angle to eliminate end play by wedging itself between the groove and the retained part.
(67) These rings look exactly like their SH counterpart. only they have a 15° angle on the inner edge. This combines with a complementary groove angle to eliminate end play by wedging itself between the groove and the retained part.
(21) Compensating for accumulated tolerances is what a BE "Bowed" retaining ring is designed to do on a shaft. Once snapped into the groove. bowed rings exert a force or a "preload" on the retained parts for the range specified on the BE size range chart.
(6) Another variation of a bowed E ring is the EL. In addition to the bowed design for eliminating "play" in an assembly. it also features two prongs. which extend from the inner circumference to the open end locking the ring firmly into place.
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