6801-LL JIC to O-Ring Extra Long Elbow 90° | Hydraulic Adapter Fittings
The 6801-LL JIC to O-Ring Extra-Long Elbow 90° is a precision hydraulic fitting designed to provide a 90° directional connection between a JIC 37° flare line and an O-Ring sealed port (ORFS/ORB) with extended reach for better clearance and easier routing.
Connection Description & Function
- End 1: JIC 37° flare connection
- End 2: O-Ring sealed connection (ORB/ORFS)
- Angle: 90° elbow
- Feature: Extra-long body for improved clearance
- Provides a secure, leak-resistant transition between hydraulic standards
- Allows cleaner fluid routing with reduced strain on tubing or hose
Applications
6801-LL Extra-Long Elbow fittings are suitable for:
- Machine tools and manufacturing hydraulics
- Agricultural and earth-moving machinery
- Instrumentation and control fluid circuits
- Chemical processing hydraulic systems
- Industrial fluid power applications
- Mobile hydraulic equipment
This elbow is particularly useful in tight assemblies, around structural components, or where standard elbows cannot provide sufficient reach or clearance.
Pressure Ratings
- Working pressure: Up to 5,000 PSI
Designed for high-pressure hydraulic systems, including those operating near or above 5000 PSI when correctly specified and installed
Key Features & Benefits
- Connects JIC 37° flare to O-Ring sealed ports
- Extra-long 90° elbow design for extended routing
- Reduces stress on hoses or tubes in complex layouts
- Reliable sealing for high-pressure applications
- Compatible with industrial and mobile hydraulic systems
- Improved clearance around obstacles and structural elements
Typical Use Cases
- Redirecting hydraulic lines around tight corners
- Extended reach connections where space is limited
- Routing ORFS/ORB port connections to JIC tubing
- Mobile equipment requiring extended hydraulic routing
- Industrial systems with complex manifold layouts
Engineered for performance in high-pressure hydraulic systems, this extra-long elbow is ideal where space constraints or component placement require a longer radius solution without sacrificing reliability or sealing integrity.