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2200 Series

2200 Series

1. The self aligning ball bearings consist of two rows of balls and a common concave sphered raceway in the outer ring and theinner ring. 2. This type bearings have the self-aligning capacity which make the bearings insensitive to angular misalignments of the shaft relative to the housing. 3. The series of the bearings: 1200, 1300, 2200, 2300 and so on. 4. The bearings are also available with a cylindrical bore or, in certain size ranges, with a tapered bore.
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240xxCA Series

240xxCA Series

The bearing is double row of Spherical Roller Bearing with C3-loose clearance,shaft mount, cage material is brass . Bearing is in open enclosure and it is relubricatable. Suffixe CA-Spherical roller bearing of C design but with two integral inner ring flanges and machined cage.
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213xx Series

213xx Series

This bearing type has a solid inner ring, which runs on two rows of symmetrical rollers in a solid outer ring. The outer ring has a concave, spherical raceway. This design compensates for any alignment errors and shaft deflections. Spherical roller bearings can withstand particularly high radial loads. Additionally, they can accommodate axial forces in both directions. These bearings are used in elevators, textile machines, food processing machines, cranes etc.
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222xx Series

222xx Series

Spherical roller bearings can accommodate heavy loads in both directions. They are self-aligning and accommodate misalignment and shaft deflections, with virtually no increase in friction or temperature. The design includes features to facilitate relubrication. The bearings can be used in a modular system, including housings, sleeves and nuts.
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Single Row

Single Row

Single-row tapered roller bearings can withstand radial and axial loads mainly based on radial loads, while large taper angle bearings can withstand radial and axial loads mainly based on axial loads, and additional radial loads are generated under the action of radial loads. axial force. Therefore, it is generally configured in pairs and can withstand radial loads. If used alone, the external axial force must be greater than the additional axial force.
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