1" x 1" x 1-1/4" Galvanized Reducing Tee Pipe Fitting – Industrial T-Fitting – Replaces Schmidt Axxiom 3011-106-07
Model: 888-3011-10607PB
Category: Surface Preparation → Sandblasting Equipment → Fittings, Valves & Pipe Components
Type: 1" x 1" x 1-1/4" Galvanized Reducing Tee Pipe Fitting (Industrial T-Fitting)
The 1" x 1" x 1-1/4" Galvanized Reducing Tee Pipe Fitting (Part #888-3011-10607PB) is a durable, industrial-grade fitting designed to connect and distribute flow while transitioning between pipe sizes in sandblasting and compressed air systems.
Key Features & Benefits
- 1" x 1" x 1-1/4" reducing tee for flow distribution and size transition
- Galvanized steel construction for corrosion resistance and durability
- Enables branching to a larger diameter connection
- Designed for compressed air and abrasive blasting systems
- Provides secure, leak-resistant connections
- Ideal for industrial piping modifications and system expansion
- Direct replacement for Schmidt / Axxiom 3011-106-07
Technical Specifications
- Product Name: Reducing Tee Pipe Fitting
- Part Number: 888-3011-10607PB
- Size: 1" x 1" x 1-1/4"
- Angle: 90° Tee Configuration
- Material: Galvanized Steel
- Fitting Type: Reducing Tee (Female x Female x Female)
- Weight: 1.00 lbs
- Application: Sandblasting & Compressed Air Systems
- Condition: New
Compatibility Notes
- Replaces: Schmidt / Axxiom Part #3011-106-07
- Compatible with Schmidt Manufacturing, U.S. Filter, and Axxiom systems
- Designed for standard threaded piping systems (1" main / 1-1/4" branch)
- Verify system sizing and thread compatibility prior to installation
Typical Applications
- Sandblasting system piping distribution
- Compressed air line branching and expansion
- Industrial piping system upgrades and retrofits
- Replacement of worn or mismatched tee fittings
Performance Benefits
- Enables efficient flow distribution with minimal pressure loss
- Galvanized coating improves corrosion resistance and service life
- Maintains consistent airflow and system efficiency
- Built for long-term reliability in heavy-duty industrial environments