The Ever-Jack® All-In-One is a fully integrated crawl space support system engineered to stabilize sagging, bouncy, or uneven floors with speed and precision. Designed as a complete solution, it combines the base and adjustable support mechanism into a single unit—eliminating the need for multiple components and simplifying installation.
Built from advanced, corrosion-resistant composite materials, the Ever-Jack® All-In-One delivers long-term structural support without the labor, cost, or mess associated with traditional concrete piers. Its wide-load distribution design allows for installation directly on soil, removing the need for excavation while maintaining reliable performance in demanding crawl space environments.
Engineered for both contractors and homeowners, this system offers precise adjustability for accurate leveling during installation, with the ability to re-adjust over time as conditions shift. The result is a permanent, low-maintenance foundation support solution that installs faster, performs longer, and reduces overall job complexity.
Key Benefits
- All-In-One Design: Integrated base and support system reduces parts and install time
- No Excavation Required: Installs directly on soil—no concrete footings needed
- Fast Installation: Designed for efficient setup in tight crawl spaces
- Permanent Solution: Built for long-term structural support with minimal maintenance
Key Features
- Adjustable Support: Allows precise floor leveling and future re-adjustment if needed
- Corrosion-Resistant Construction: Composite materials perform in damp, harsh environments
- Wide Base Stability: Distributes load effectively to prevent sinking or shifting
- Lightweight & Contractor-Friendly: Easier handling compared to traditional systems
- Code-Compliant Design: Engineered to meet modern building standards
Application
- Crawl space structural repair
- Sagging or uneven floor correction
- Foundation stabilization and reinforcement
The Ever-Jack® All-In-One streamlines crawl space repair by combining strength, simplicity, and long-term reliability into a single, high-performance support system—making it a more efficient alternative to traditional support methods.
