Compact lubricator for Graco MVB progressive systems, delivering controlled oil flow to multiple lubrication points for consistent industrial machine performance and reduced wear.
| Machine / System Type | Application Area | Lubrication Compatibility |
|---|---|---|
| Industrial Manufacturing Equipment | Production lines, assembly machinery | Oil-based lubrication systems |
| Heavy Machinery Systems | Mining, construction, and processing equipment | Centralized automatic lubrication systems |
| Rotating & Mechanical Drive Systems | Bearings, conveyors, motors | Series progressive lubrication systems |
| OEM Graco Lubrication Installations | Factory-installed Graco MVB setups | Graco MVB lubrication network |
The Graco MVBNFC Lubricator MVB is an OEM automatic lubrication component designed for industrial machinery that requires precise and continuous oil distribution. It is part of Graco’s MVB series progressive lubrication system, which operates by dividing lubricant flow into controlled, proportional amounts and delivering them to multiple lubrication points through a centralized system.
This lubricator is engineered to improve equipment reliability by ensuring that every critical component receives consistent lubrication. The system works using positive displacement valves, enabling accurate distribution regardless of pressure variations.
According to Graco’s MVB system design, it provides a single pump supply, centralized monitoring, and automatic lubrication distribution, helping reduce downtime and mechanical wear in industrial environments.
The Graco MVB system operates as a series progressive lubrication network. A single pump feeds lubricant into the system, where it is divided into measured portions and delivered sequentially to lubrication points. This ensures each machine component receives the correct amount of oil without manual intervention.
The system also provides quick fault detection, allowing maintenance teams to identify blocked or under-lubricated lines quickly, improving operational safety and reducing unexpected breakdowns.
