22326-E1-K-T41D bearings ( 130 mm x 280 mm x 93 mm) have the advantages of Vibration resistant, impact resistant, high temperature resistant, self-aligning, and are therefore widely used in the Heavy-duty vibrating screens for mining, metallurgy, construction, and coal industries..

| Part Number | 22326-E1-K-T41D |
| Design Type | E1 = without central rip |
| Bore Type | K = Tapered bore (K = taper 1:12) |
| Suffixes | T41D = for vibrating screens, bore thin layer chromium coated |
| RIC | CN |
| X-Life | XL long life design |
| Row | 2 |
| Bearing Type | Spherical roller bearings special design for oscillating load |
| Manufacturer Part Code | 22326-E1-K-T41D |
| Original Code | 22326-E1-K-T41D |
| Cage | JPA = Stamping steel cage |
| Measurement | Metric |
| d φ Inside [inch] | 5.118 |
| D Φ Outside [inch] | 11.024 |
| B Width [inch] | 3.661 |
| nB Reference speed (grease) [min–1] | 1814 |
| nG Limiting speed (oil) [min–1] | 2395 |
| Weight [kg] | 28 |
| r(min.) Chamfer [inch] | 0.157 |
| D1 [inch] | 9.429 |
| d2 [inch] | 6.386 |
| ds [inch] | 0.374 |
| ns [inch] | 0.697 |
| Cr Radial Dynamic [lbf] | 280983 |
| C0r Radial static [lbf] | 307961 |
| Cur Radial Fatigue [lbf] | 26280 |
| Temperature - T(min)[°C] | -30 |
| Temperature - T(max)[°C] | up +200 |
| Mounting dimensions | |
| da(min.) [inch] | 5.787 |
| Da(max.) [inch] | 10.354 |
| ra(max.) [mm] | 28 |
| Calculation coefficient | |
| e | 0.33 |
| Y0 | 2.01 |
| Y1 | 2.06 |
| Y2 | 3.06 |
The 22326-E1-K-T41D Spherical roller bearings mainly consist of an inner ring, an outer ring, two rows of drum-shaped rollers, and a cage. The outer ring raceway has a spherical structure, while the inner ring has a double-row raceway. The cage is typically a machined brass or stamped steel solid structure guided by the outer ring to adapt to high-frequency vibration conditions.
Spherical roller bearings possess self-aligning properties, compensating for shaft deflection and installation misalignment. They can simultaneously withstand radial and bidirectional axial loads, exhibiting high load-bearing capacity and strong impact resistance. Furthermore, their internal clearance and cage guidance method are optimized for vibration conditions, effectively reducing frictional temperature rise.















