
Rite In The Rain 1/2" Tactical Ring Binder Olive Drab
Compact Field Documentation System
The Rite in the Rain 1/2" Tactical Ring Binder keeps critical documentation organized and accessible in field conditions. Built with Polydura construction and Franklin Covey compact ring system, this binder handles the demands of tactical operations while maintaining a compact profile that fits standard gear configurations.
Key Features
- Franklin Covey Compact System: Six-ring binding fits 4 5/8" x 7" loose leaf pages for standardized documentation
- Polydura Construction: 55-gauge material resists tears and moisture in field conditions
- Integrated Reference Tools: Built-in imperial and metric rulers plus conversion tables for quick calculations
- Vinyl Storage Pocket: Secure compartment for loose documents and reference materials
- Tactical Profile: Compact dimensions fit in cargo pockets and tactical bags
Specifications
| Dimensions | 5 5/8" x 7 7/8" x 3/4" |
| Capacity | 1/2" |
| Weight | 0.3 lbs |
| Ring System | 6 rings, Franklin Covey Compact |
| Page Size | 4 5/8" x 7" |
| NSN | 7510-01-498-2077 |
Frequently Asked Questions
What size paper fits this binder?
This binder uses the Franklin Covey Compact punch pattern and fits 4 5/8" x 7" loose leaf pages. Standard Rite in the Rain tactical paper works with this system.
How much documentation can this binder hold?
The 1/2" capacity holds approximately 100-150 sheets depending on paper thickness. The ring system distributes weight evenly for reliable page turning.
Does this binder have measurement tools?
Yes, it includes both imperial and metric rulers built into the cover, plus conversion tables for field calculations and measurements.
Will this fit in standard cargo pockets?
At 5 5/8" x 7 7/8" x 3/4", this binder fits most cargo pockets and tactical bag compartments while maintaining a low profile.
What makes the Polydura material different?
Polydura is a 55-gauge synthetic material that resists moisture, tears, and field wear better than standard vinyl binders while remaining flexible in temperature extremes.