nPR+ nano Progressive Replaceable
Metering divider elements for the volumetric distribution
Dropsa’s nano-Progressive Replaceable (nPR+) dividers are the ideal solution for oil and grease lubrication applications that require small and accurately dispensed quantity of lubricant in a compact and solid footprint. Thanks to a patented RigidLock novel interlocking mechanism between the elements it has the rigidity of a mono-block divider but the flexibility of a modular segmented unit.
The nPR+, uses the progressive movement of pistons to allow precise quantities of lubricant to be accurately dispensed to multiple points.
The lubrication cycle can be controlled by a single sensor including the Dropsa solid state Ultrasensor product.
nPR+ uses an innovative rail & lock concept to allow the element to be replaced or re-organized without the need to completely dismantle the assembly. This is an industry first for segmented progressive dividers allowing quick easy modification or replacement of an assembly element without the cost of a separate base porting module.
The compactness makes them particularly suitable for use in confined spaces.
These metering elements may be used in a variety of system configurations and have different working configurations that make them flexible for use in multiple applications.
The nPR+, uses the progressive movement of pistons to allow precise quantities of lubricant to be accurately dispensed to multiple points.
The lubrication cycle can be controlled by a single sensor including the Dropsa solid state Ultrasensor product.
nPR+ uses an innovative rail & lock concept to allow the element to be replaced or re-organized without the need to completely dismantle the assembly. This is an industry first for segmented progressive dividers allowing quick easy modification or replacement of an assembly element without the cost of a separate base porting module.
The compactness makes them particularly suitable for use in confined spaces.
These metering elements may be used in a variety of system configurations and have different working configurations that make them flexible for use in multiple applications.
| nPR+ Brochure |
