Pneumatic to Electric Conversion Kit 12VDC for Bulk Blaster (3 Outlet) w/ (3) 110' Control Cords (No Fittings) (Replaces Schmidt Axxiom 0004-430)
Model: 888-0004-430PB
Category: Surface Preparation → Sandblasting Equipment → Abrasive Blaster Control Systems & Conversion Kits
Type: Pneumatic to Electric Conversion Kit (12VDC, Bulk Blaster, 3 Outlet)
The Pneumatic to Electric Conversion Kit 12VDC (Part #888-0004-430PB) is a high-capacity upgrade designed to convert bulk blaster pressure hold systems from pneumatic to electric abrasive cutoff control. This three-outlet configuration allows up to three operators to independently control abrasive flow, significantly increasing productivity on large-scale jobs.
Key Features & Benefits
- Converts pneumatic systems to electric control (12VDC)
- Designed for bulk blaster pressure hold systems
- Triple outlet configuration (3 outlets) for multi-operator use
- Includes (3) 110' control cords for extended reach
- No fittings included – ideal for custom configurations
- Improves responsiveness and operator control
- Compatible with 24VAC systems
Technical Specifications
- Product Name: Pneumatic to Electric Conversion Kit
- Part Number: 888-0004-430PB
- Voltage: 12VDC (also compatible with 24VAC)
- System Type: Pressure Hold
- Outlet Configuration: 3 Outlet
- Control Cord Length: (3) × 110 ft
- Weight: 41.40 lbs
- Application: Abrasive Blasting Systems
- Condition: New
Compatibility Notes
- Replaces: Schmidt / Axxiom Part #0004-430
- Designed for bulk pressure hold abrasive blaster systems
- Not for use with steel abrasives
- Fittings not included – must be sourced separately or reused
- Verify compatibility with your system before installation
Typical Applications
- Converting pneumatic systems to electric control
- Multi-operator bulk abrasive blasting setups
- Large-scale industrial surface preparation
- Custom system builds and upgrades
Performance Benefits
- Supports up to three operators simultaneously
- Provides faster, more precise abrasive cutoff control
- Improves efficiency and job completion speed
- Reduces complexity compared to pneumatic systems
- Enhances overall system performance and reliability