A - ANELBRAS® Ring to DIN 471 for shaft (Retaining Ring)
Reference code: A3 -A1000Anelbras-Rings for shafts are the most common retaining rings. These rings provide the most favorable solution with respect to thickness and radial width. They transfer large axial forces from the located mating component onto the groove wall.
More info »DNS - AneLox® 2-turns ring for shaft (Compatible with DIN 471 groove)
Reference code: DNS-13 - DNS-400AneLox® Rings of DNS line do not have lugs to interfere in many applications. They are designed for applications on grooves according to DIN 471 dimensions.
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FS - AneLox® constant section ring for shaft (compatible with DIN 471 groove)
Reference code: FS-013 / FS-300AneLox® Rings of the FS line do not have lugs lugs to interfere in many applications, serving as alternatives to DIN 471 rings ("A") or rings of two or more turns ("DNS" line). They are designed for applications on shafts with grooves according to DIN 471 dimensions.
More info »AS - ANELBRAS® Ring to DIN 471 for shaft (Heavy Duty)
Reference code: AS12-AS100Anelbras heavy duty rings for shafts are thicker and have a larger radial width than the standard versions, therefore substantially higher axial forces can be absorbed.
More info »AV - ANELBRAS® V-Ring for shaft (Inverted)
Reference code: AV12 - AV100ANELBRAS® V-rings have an inverted lug design for shafts requiring a smaller radial mounting height than the Anelbras retaining rings to DIN 471.
More info »AK - ANELBRAS® K-Ring for shaft
Reference code: AK16-AK140Anelbras K-rings for shafts have several tabs uniformly distributed over their circumference.
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AL - ANELBRAS® Ring Compensation of Axial Play Overview for shaft
Reference code: AL16 - AL100ANELBRAS® AL rings for shafts correspond in shape to the Anelbras K-rings, however, they are stamped with slightly protruding tab springs and are thus capable of compensating for slight axial play by spring action.
More info »SP - ANELBRAS® Snap Ring (circlip) DIN 5417 for bearing
Reference code: SP30 - SP400SP Snap Rings (circlips) according to DIN 5417 for shafts serve to secure bearings with groove on its outer ring.
More info »SW - ANELBRAS® Snap Ring for shaft (circlips)
Reference code: SW4 - SW460ANELBRAS® style SW snap rings (circlips) for shafts are, with the exception of the circular wire rings, the retaining systems with the smallest radial width.
More info »RW - ANELBRAS® Circlip DIN 9925 for shaft (replaces DIN 7993-A)
Reference code: RW4 - RW125Anelbras style RW snap rings (circlips) for shafts are manufactured from cold-worked wire with a round cross section.
More info »ZA - ANELBRAS® Circular Self-Locking Ring for shaft
Reference code: ZA1,5 - ZA45Anelbras Self-locking rings for shafts requiring a concentric fit and a low radial mounting height.
More info »KS - ANELBRAS® Reinforced Circular Self-Locking Ring for shaft
Reference code: KS3 - KS10ANELBRAS® KS rings resemble a reinforced heavy-duty version of the Anelbras circular self-locking ring for shafts, ZA-rings.
More info »G - ANELBRAS® Grip Ring for shaft without groove
Reference code: G1,5- G30Anelbras grip rings are designed for the assembly on shafts without a groove.
More info »HSM - AroLox ring for external thin wall tube
Reference code: HSM-10 - HSM-76AnelBras® AroLox® Retaining Rings offer an innovative way to retain mechanical components when space is a problem.
More info »J - ANELBRAS® Ring to DIN 472 for bore (Retaining Rings)
Reference code: J8 - J1000Anelbras-Rings for bores are the most common retaining rings. These rings provide the most favorable solution with respect to thickness and radial width. They transfer large axial forces from the located mating component onto the groove wall.
More info »DNH - AneLox® 2-turns ring for bore (Compatible with DIN 472 groove)
Reference code: DNH-13 - DNH-400AneLox® Rings of DNH line do not have lugs to interfere in many applications. They are designed for applications on grooves according to DIN 472 dimensions.
More info »FH - AneLox® constant section ring for bore (compatible with DIN 472 groove)
Reference code: FH-013 / FH-300AneLox® Rings of the FH line do not have lugs lugs to interfere in many applications, serving as alternatives to DIN 472 rings ("J") or rings of two or more turns ("DNH" line). They are designed for applications on bores with grooves according to DIN 472 dimensions.
More info »JS - ANELBRAS® Ring to DIN 472 for bore (Heavy Duty)
Reference code: JS20 - JS100Anelbras heavy duty rings for bores are thicker and have a larger radial width than the standard versions, therefore substantially higher axial forces can be absorbed.
More info »JV - ANELBRAS® V-Ring fro bore (Inverted)
Reference code: JV12 - JV100ANELBRAS® V-rings have an inverted lug design, for bores requiring a smaller radial mounting height than the Anelbras retaining rings to DIN 472.
More info »JK - ANELBRAS® K-Ring for bore
Reference code: JK16 - JK170Anelbras K-rings for bores have several tabs uniformly distributed over their circunference.
More info »JL - ANELBRAS® Ring Compensation of Axial Play for bore
Reference code: JL16 - JL100ANELBRAS® JL rings for bores correspond in shape to the Anelbras K-rings, however, they are stamped with slightly protruding tab springs and are thus capable of compensating for slight axial play by spring action.
More info »SB - ANELBRAS® Snap Ring for bore (circlip)
Reference code: SB7 - SB440ANELBRAS® style SB snap rings (circlips) for bores are, with the exception of the circular wire rings, the retaining systems with the smallest radial width.
More info »RB - ANELBRAS® Circlip DIN 9926 for bore (replaces DIN 7993-B)
Reference code: RB7 - RB125Anelbras style RB snap rings (circlips) for bores are manufactured from cold-worked wire with a round cross section.
More info »ZJ - ANELBRAS® Circular Self-Locking Ring for bore
Reference code: ZJ8 - ZJ50Anelbras Self-locking rings for bores requiring a concentric fit and a low radial mounting height.
More info »HHMU - AneLox® ring type AroLox® for thin walled cylinder
Reference code: HHMU-10 - HHMU-76AnelBras® AroLox® Retaining Rings offer an innovative way to retain mechanical components when space is a problem.
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