The Early Release Standard system is a revolutionary advancement in structural metal construction, specifically engineered for floor heights of 2.9-3.0m. By utilizing an integrated vertical rod and specialized buckle design, this system enables "one bar to the top" construction, effectively eliminating free-end jacking and ensuring a stable, secure support structure for both early and non-early demolition projects.
Designed for maximum operational efficiency, our early release solution replaces cumbersome traditional coil scaffolding. By optimizing the vertical pole adjustment to human height, it eliminates the need for climbing during installation. This system not only enhances on-site safety by preventing swaying and "virtual branch" phenomena but also drastically reduces labor intensity and material costs, providing a streamlined workflow for modern metal structure manufacturing.
Detailed Parameters
| Specification Diameter | φ48mm | Length Range | L=2690mm ~ 2860mm |
|---|---|---|---|
| Application Height | 2.9m - 3.0m Floor | Buckle Weight | 1.2 kg |
| Structure Type | Integrated Vertical Rod | Support Style | No Free End (Jacking) |
| Installation Mode | Manual Buckle Adjustment | Removal Type | Quick-Release Screw |
| Material Category | Structural Metal / Steel | Compatibility | Early/Non-early Demolition |
Key Advantages
Enhanced Stability
Integrated structure eliminates swaying and prevents the "virtual branch" phenomenon common in traditional nuts.
90% Time Saving
Rapid installation and removal process drastically reduces secondary handling and loading times.
Labor Efficiency
Reducing device weight from 7kg+ to 1.2kg reduces total labor intensity by up to 20 times.
Ergonomic Design
Adjustment positions are tailored to human height, removing the requirement for hazardous climbing.
Cost Optimization
Reduces comprehensive costs by 80% through lower purchase input and minimal maintenance.
Concrete Protection
Prevents concrete roof cracking by avoiding the torsion caused by wrong nut adjustments.
Product Gallery
Management Platforms
Inventory Control
Streamlined tracking of early release buckles and vertical rods for rapid deployment.
Installation Monitoring
Standardized procedures to ensure "one bar to the top" precision across all levels.
Safety Compliance
Continuous verification of integrated structures to eliminate swaying and risk.
Logistics Optimization
Reduction in vehicle loading requirements due to 20x lighter hardware components.
Maintenance Planning
Simplified upkeep of buckle screws compared to traditional threaded nut systems.
Project Scheduling
Acceleration of demolition cycles by saving over 90% of traditional handling time.
Investment Return Comparison
| Performance Metric | Traditional Coil Scaffold | Early Release Standard |
|---|---|---|
| Component Weight | 7kg+ per device | 1.2kg per buckle |
| Labor Intensity | High (Manual Nut Adjustment) | Ultra-Low (20x Reduction) |
| Installation Time | Complex / Time-Consuming | Rapid (90% Time Saved) |
| Operational Safety | Swaying / Virtual Branches | Integrated / Stable Support |
| Comprehensive Cost | High (Purchase & Storage) | 80% Cost Reduction |
Frequently Asked Questions
The primary benefits are a drastic reduction in labor intensity (20 times less), a 90% reduction in installation time, and significantly higher safety due to the integrated structure that eliminates swaying.
Traditional systems rely on nuts that workers may accidentally knock, causing torsion. Our system uses a simple pull-out bumper and loosen-buckle screw mechanism that ensures the vertical rod does not scratch or twist the concrete.
It is specifically engineered for floor heights between 2.9m and 3.0m to achieve the "one bar to the top" construction efficiency.
Yes, the middle position of the vertical pole is adjusted to be suitable for human height, meaning workers can install and remove components without needing to climb.
It refers to a stable support system where the vertical rod is fully integrated, preventing the unstable gaps or "free ends" that typically cause swaying in traditional structural metal supports.
By reducing purchase input, secondary handling labor, loading/unloading costs, and storage requirements, the comprehensive cost is reduced by approximately 80%.
