Product Description
Crown Load Wheel Assembly CR 100462-XL-A for PE 3000 Series Electric Pallet Trucks. Features high-capacity cast polyurethane compound (97A XL, Hyload grade), with 2 x 6205 bearings and spacer. Cross-reference: CR 100462-302-88, 100462, 10046230288.
Compatibility: Fits pallet jacks made by Crown, model PE 4000. Alternate model: PE4000. SKU: CR 100462-XL-A
Specifications
Product Overview
| Part Number | CR 100462-XL-A |
| Cross-Reference Part Numbers | CR 100462-302-88, 100462, 10046230288 |
Physical Specifications
| Bearing Configuration | 2 x 6205 deep groove ball bearings with spacer |
| Material | High-capacity cast polyurethane compound, 97A XL Hyload grade |
Compatibility
| Compatible Models | Crown PE 3000 Series, Crown PE 4000 Series |
Frequently Asked Questions
Q: What are the dimensions of the CR 100462-XL-A load wheel?
A: These dimensions ensure proper fit and load centering on Crown PE Series electric pallet trucks.
Q: What bearing configuration does this wheel use?
A: The CR 100462-XL-A features two 6205 deep groove ball bearings with a spacer, providing radial support and maintaining proper wheel geometry under load. Bearings are pre-installed and ready for mounting.
Q: Is this wheel compatible with both PE 3000 and PE 4000 series trucks?
A: Yes, the CR 100462-XL-A is designed as a direct replacement for both Crown PE 3000 and PE 4000 Series electric pallet jacks. Verify your equipment's model plate before ordering to confirm compatibility.
Q: What does Hyload grade polyurethane mean?
A: Hyload is a high-capacity polyurethane designation with 97A durometer hardness, engineered for sustained heavy loads in warehouse applications without deforming or losing floor contact.
Q: Which part numbers does the CR 100462-XL-A replace?
A: This wheel assembly replaces CR 100462-302-88 and is equivalent to 100462 and 10046230288. You can substitute the CR 100462-XL-A directly without modification.
Q: Should load wheels be replaced individually or as a pair?
A: Replace both front load wheels simultaneously for optimal handling geometry and even load distribution. Mismatched wheel wear causes steering drag and accelerates bearing wear.
