Product Description
Mobile Clevis MO 520 is a precision-machined steel frame clevis, engineered for use on Mobile MLX55 manual pallet jacks. The component serves as a critical pivot connection for the jack's frame linkage and is compatible with part numbers MO120X520, ML520, and OEM code 151-0041. High-strength construction and industrial-grade powder coating ensure reliable service in material handling applications.
Compatibility: Fits pallet jacks made by Mobile, model ML55. SKU: MO 520
Specifications
Material & Construction
| Material Specification | High-strength steel construction |
Part Numbers
| OEM Part Number | MO 520 |
| Manufacturer Part Number | MO 520 |
| Cross-Reference Part Numbers | Equivalent to Mobile ML520; Alternate: MO120X520, ML120X520 |
| Compatible Models | Compatible with Mobile MLX55 manual pallet jack |
| Supersedes Part Number | MO120X520 |
| Replaces Part Number | ML520 |
| Alternate Manufacturer Part Number | 151-0041 |
Frequently Asked Questions
Q: What is the MO 520 and what does it do?
A: The MO 520 is a precision-machined steel frame clevis engineered for Mobile MLX55 manual pallet jacks. It serves as a critical pivot connection for the jack frame linkage assembly.
Q: What equipment is the MO 520 compatible with?
A: The MO 520 is compatible with Mobile MLX55 and ML55 manual pallet jack models.
Q: Are there cross-reference or equivalent part numbers for the MO 520?
A: The MO 520 is equivalent to Mobile ML520. Alternate part numbers include MO120X520 and ML120X520. The OEM code is 151-0041.
Q: What material is the MO 520 made from and how is it finished?
A: The MO 520 features high-strength steel construction with industrial-grade powder coating. This provides durability and corrosion resistance in material handling applications.
Q: Why is the MO 520 critical to pallet jack operation?
A: The MO 520 clevis is a critical pivot connection in the frame linkage. Without proper fit and condition, the jack cannot operate safely or reliably. High-strength construction ensures it handles repetitive load cycles in warehouse and distribution environments.