RBC® HexLube® H56LW H-LW Needle Roller Cylindrical Cam Follower, 1-3/4 in Dia x 1 in W Roller, 1 in Dia x 1-3/4 in L Stud, Chrome Steel Roller
Needle Roller Cam Followers have a heavy outer ring cross section and a full complement of needle rollers. They offer high dynamic and static load carrying capability, and anti-friction performance, in a compact design. They are used as track rollers, cam followers, and in a wide range of linear motion systems.
-
BrandRBC®
-
UPC637400006105
-
Manufacturer Part NumberH56LW
-
CountryUSA
-
Load Capacity6400 lb Dynamic/15850 lb Static
-
Temperature Rating250 deg F
-
FinishBlack Oxide
-
Thread Length7/8 in
-
Thread Size1-14 UNF-2A
-
Maximum Speed2600 rpm
-
Closure TypeSealed
-
TypeNeedle Roller
-
Roller Diameter1-3/4 in
-
Roller MaterialChrome Steel
-
Roller Width1 in
-
Head TypeHex
-
SeriesH-LW
-
Stud Diameter1 in
-
Stud Length1-3/4 in
-
Stud MaterialChrome Steel
-
Stud TypeHeavy Duty
- Inventory reduction of about 50%
- Allows relubrication in tight spots or when stud access is limited
- HexLube® universal cam follower can eliminate the need to stock screwdriver slots or unsealed cam followers
- Heavy stud cam followers are designed to provide additional stud strength for applications with high loading or shock loads
- Double sealed to keep grease in and contaminants out
-
UNSPSC31171530
-
Package Description1/PK
-
Standards/ApprovalsANSI/ABMA Standard 11|ASPR|CAS|DFAR|FAR Standards
-
Warranty90 Days
-
Catalog
Recently Viewed
RBC® HexLube® H56LW H-LW Needle Roller Cylindrical Cam Follower, 1-3/4 in Dia x 1 in W Roller, 1 in Dia x 1-3/4 in L Stud, Chrome Steel Roller
Needle Roller Cam Followers have a heavy outer ring cross section and a full complement of needle rollers. They offer high dynamic and static load carrying capability, and anti-friction performance, in a compact design. They are used as track rollers, cam followers, and in a wide range of linear motion systems.
McGill® CAMROL® 2100512000 CFH Cylindrical OD Cam Follower With LUBRI-DISC® Seal, 1 in Dia x 5/8 in W Roller, 5/8 in Dia x 1 in L Stud, Chrome Steel Roller
The McGill® CAMROL® full complement needle bearings feature black oxide treated bearing steel. They are available in two basic mounting styles for use in mechanical automation or linear motion applications. Our basic features each contribute to superior performance. The LUBRIDISC® seal option helps prevent metal to metal contact within the bearing. It also provides a barrier for containment entry and blowout protection when relubricating. These bearings are available with several dimensional choices. The seal options and combinations provide a specific solution for each application. Within the following section you can learn more about these features and how they can be applied to your application.
McGill® CAMROL® 2120112000 CF Series Cylindrical OD Cam Follower With LUBRI-DISC® Seal, 1-1/4 in Dia x 3/4 in W Roller, 1/2 in Dia x 1-1/4 in L Stud, Chrome Steel Roller
The McGill® CAMROL® full complement needle bearings feature black oxide treated bearing steel. They are available in two basic mounting styles for use in mechanical automation or linear motion applications. Our basic features each contribute to superior performance. The LUBRIDISC® seal option helps prevent metal to metal contact within the bearing. It also provides a barrier for containment entry and blowout protection when relubricating. These bearings are available with several dimensional choices. The seal options and combinations provide a specific solution for each application. Within the following section you can learn more about these features and how they can be applied to your application.
McGill® CAMROL® 2110512000 CFH Cylindrical OD Cam Follower With LUBRI-DISC® Seal, 1-1/8 in Dia x 5/8 in W Roller, 5/8 in Dia x 1 in L Stud, Chrome Steel Roller
The McGill® CAMROL® full complement needle bearings feature black oxide treated bearing steel. They are available in two basic mounting styles for use in mechanical automation or linear motion applications. Our basic features each contribute to superior performance. The LUBRIDISC® seal option helps prevent metal to metal contact within the bearing. It also provides a barrier for containment entry and blowout protection when relubricating. These bearings are available with several dimensional choices. The seal options and combinations provide a specific solution for each application. Within the following section you can learn more about these features and how they can be applied to your application.
McGill® CAMROL® 2150110000 CF Series Cylindrical OD Cam Follower With LUBRI-DISC® Seal, 1-5/8 in Dia x 7/8 in W Roller, 5/8 in Dia x 1-1/2 in L Stud, Chrome Steel Roller
The McGill® CAMROL® full complement needle bearings feature black oxide treated bearing steel. They are available in two basic mounting styles for use in mechanical automation or linear motion applications. Our basic features each contribute to superior performance. The LUBRIDISC® seal option helps prevent metal to metal contact within the bearing. It also provides a barrier for containment entry and blowout protection when relubricating. These bearings are available with several dimensional choices. The seal options and combinations provide a specific solution for each application. Within the following section you can learn more about these features and how they can be applied to your application.
McGill® CAMROL® 2130100000 CF Series Cylindrical OD Cam Follower, 1-3/8 in Dia x 3/4 in W Roller, 1/2 in Dia x 1-1/4 in L Stud, Chrome Steel Roller
The McGill® CAMROL® full complement needle bearings feature black oxide treated bearing steel. They are available in two basic mounting styles for use in mechanical automation or linear motion applications. Our basic features each contribute to superior performance. The LUBRIDISC® seal option helps prevent metal to metal contact within the bearing. It also provides a barrier for containment entry and blowout protection when relubricating. These bearings are available with several dimensional choices. The seal options and combinations provide a specific solution for each application. Within the following section you can learn more about these features and how they can be applied to your application.
