Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
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Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
Download (PDF, 2 Mb)
Cylindrical roller bearings-single row with cage-non locating types
Bearings in the NNCF design are always sealed on both sides and filled with grease. The two-piece inner ring has three integral flangers and is held together by a retaing ring. The outer ring has an integral central flange. The bearings can be used to locate a shaft axially in both directions. Because of the large distance between the two rows of rollers, the bearings are also able to accommodate tilting moments.
Download (PDF, 2 Mb)