Product Description
This load wheel assembly features 95A durometer polyurethane tread in a tandem configuration, designed for Raymond electric pallet trucks. The tandem setup distributes weight across multiple contact points, reducing per-wheel load stress and ensuring stable, balanced operation during high-volume material handling. Engineered for durability and consistent performance in demanding warehouse and dock environments. Direct replacement part for compatible Raymond electric pallet jack equipment.
Frequently Asked Questions
Q: What is the RA 632-157-003 and what is its configuration?
A: The RA 632-157-003 is a load wheel assembly with 95A durometer polyurethane tread in a tandem configuration. It is designed for Raymond electric pallet trucks to provide stable weight distribution and reliable performance.
Q: What material and hardness does this load wheel assembly use?
A: This assembly features polyurethane tread with 95A Shore durometer hardness. This industrial-grade compound provides excellent traction and load-bearing capability for material handling operations.
Q: What equipment is this load wheel assembly compatible with?
A: The RA 632-157-003 is manufactured for Raymond electric pallet trucks. Confirm your specific equipment model before ordering to ensure proper fitment and compatibility.
Q: What are the benefits of a tandem load wheel assembly?
A: Tandem configuration distributes weight across multiple contact points, reducing stress on individual wheels. This design ensures stable, balanced support during high-volume pallet jack operations and extends wheel lifespan.
Q: How should this wheel assembly be stored when not in use?
A: Store in a dry location away from direct sunlight and extreme temperatures. Protect from oil, grease, and chemical exposure to maintain polyurethane integrity and performance.
Q: Can this wheel assembly be reused after removal?
A: Yes, if the polyurethane tread remains intact and undamaged, the assembly can be reinstalled. Inspect for wear, cracks, or flatspotting before reuse.
