System Components
Upper and Lower Hanging Point Trusses
Wall Hanging Parts
Electric Hoist and Sprocket Set
Adjusting Basket Bolts and Springs
Lower Hanger
Lower Hanger
The Lower Hanger is a critical part of the forward-hanging circulation hoisting system, supporting synchronized lifting of the scaffold structure. It ensures safe, efficient, and stable lifting operations through its optimized design.
Key Features
Working Principle
The electric hoist body is suspended on the upper truss, with the lower hook attached to the lower truss. The end of the chain is fixed to the wall hanging point. By circulating the chain, the electric hoist can move freely, achieving synchronized lifting of the entire frame.
Key Advantages
Rational structure ensures even load distribution and stable lifting.
Easy to install and maintain, improving construction efficiency.
Enhances high-altitude work safety, supporting green, energy-saving construction practices.
All-Steel Fabricated Self-Climbing Scaffold System
Product Features
The system utilizes a full-steel modular structure, replacing traditional tube-and-coupler scaffolding. Steel frames substitute pipes, expanded metal replaces dense mesh nets, and formed steel walkway boards replace traditional wood and bamboo boards, greatly improving the safety, stability, and aesthetic appeal of the scaffold system.
Installation Sequence (Brief)
Assemble base platform, erect vertical posts, install auxiliary braces;
Build platforms for multiple floors, mount guide rails, and set up support frames;
Install safety screens, formworks, and pour concrete;
Install lower hanger, electric hoist, and load sensors;
Activate the synchronous control system to lift the entire structure.
Main Advantages
Labor Savings: 40%-60% labor cost reduction;
Efficiency Improvement: Single assembly at the base with continuous climbing, no tower crane needed;
Comprehensive Protection: Anti-falling, anti-tilting, and guiding functions integrated;
Smart Control: Remote operation with real-time monitoring and overload alarm;
Eco-Friendly: Supports low-carbon, sustainable construction practices;
Extra Revenue: Metal screens serve as advertising platforms.
Technical Specifications
Iterm One
Iterm two
Iterm There
Iterm Four
Case Study
We believe the projects that we have executed speak for themselves. CITIC HIC has engineered and provided 6 AG mills of Ø12.2m×11m (28000kW gearless drive) and 6 overflow discharge ball mills of Ø7.9×13.6m (2×9000kW gear drive) for Sino Iron Project in Australia. For Zijin Mining’s Duobaoshan Copper Mine project in Heilongjiang, we have manufactured and provided SAG mills of Ø11×6.4m (2×9000kW) and overflow discharge ball mills of Ø7.9×13.6m (2×9000kW) which have been well operating currently.
Brazilian Miner Vale SA
23 large-scale ball mills, Ø5.5×8.8m
Wengfu Phosphate Mine Project Phase II in Saudi Arabia (Ma'aden)
6 wet grinding rod mills, Ø4.6×6.7m
Vedanta Project in South Africa
1 SAG mill, Ø8.5×5.5m
Laos Phonesack Group's KSO Gold Mine Project (83,000t/d)
6 SAG mills, Ø8.8×4.8m
Mongolian Erdenet Mining Corporation's Copper Mine Project (20,000t/d)
SAG mill, Ø9.75×4.88m
Full-process Solution for Mineral Grinding
We believe the projects that we have executed speak for themselves. CITIC HIC has engineered and provided 6 AG mills of Ø12.2m×11m (28000kW gearless drive) and 6 overflow discharge ball mills of Ø7.9×13.6m (2×9000kW gear drive) for Sino Iron Project in Australia. For Zijin Mining’s Duobaoshan Copper Mine project in Heilongjiang, we have manufactured and provided SAG mills of Ø11×6.4m (2×9000kW) and overflow discharge ball mills of Ø7.9×13.6m (2×9000kW) which have been well operating currently.
Why Choose CITIC HIC's Grinding Mills
- High cost-effectiveness
CITIC HIC grinding mills are recognized as China’s Manufacturing Industry Single Champion Product. CITIC HIC is responsible for setting the national standards of semi-autogenous mills (SAG mills) and ball mils, supported by powerful database, optimized process technology, cutting-edge design concept, and 60 years of experience in developing and nurturing innovative technology. - High operating rate
The long life cycle of our products is based on the adoption of international standards, high-quality materials, state-of-the-art processing techniques. - Low-carbon & environmental-friendly processes
Intelligent control technology coupled with long-life wear-resistant materials results in low-carbon and eco-friendly operations. - High-efficiency service
Our service network is distributed all over the world, and our service team of seasoned professionals is reliable and willing to assist along the way. We are able to deliver quick response to customer needs and provide full life cycle support via online monitoring and diagnosing, product upgrading and continuous process improvement.
