Dual-line system
Maintains redundancy at all times through independent rope lines.
Part of CPR Group30+ Years' Experience in Façade Remediation
Powered Elevation System
Efficient lifting and controlled access in complex vertical environments. Improve speed, reduce manual handling and maintain control on site.
How the System Works
A powered system designed to support controlled lifting and access within rope-access operations.
The system integrates a powered ascender with a dual-rope setup, enabling controlled movement of loads and positioning during vertical work. It operates within established rope-access methods and site safety procedures.
Set up rope system
Dual-line rope system installed with independent anchor points.
Attach powered unit
Ascender connected to rope and load or tool system.
Controlled movement
Operator manages lifting and positioning during operation.
Work within site procedures
System operates within SWMS and rope-access protocols.
Where It Works & What It Improves
Where It Works
Façade remediation
High-rise and large vertical surfaces
Glazing & installation
Precise positioning at height
Industrial maintenance
Complex and high-risk environments
Confined access environments
Limited or restricted access zones
What It Delivers
Faster execution of vertical work
Reduced manual handling and operator fatigue
Lower reliance on scaffolding and heavy access systems
Greater control and consistency during operation
Choose Your System
Specification
PRO
PRO MAX
SpecificationBest suited for
PRO Standard façade and access projects
PRO MAX Harsh, exposed or high-demand environments
SpecificationTypical use cases
PRO General remediation, glazing, maintenance
PRO MAX Industrial, marine, high-exposure works
SpecificationEnvironmental protection
PRO Standard IP54
PRO MAX Sealed system for increased protection IP65
SpecificationDurability
PRO High
PRO MAX Enhanced for demanding conditions
SpecificationWeather resistance
PRO Suitable for controlled environments
PRO MAX Designed for exposed and variable conditions
SpecificationSystem reliability
PRO Proven for everyday use
PRO MAX Built for extended and intensive operation
SpecificationRecommended for
PRO Most contractor applications
PRO MAX High-risk or complex environments
Technical Specifications
Key performance and system parameters for planning and specification.
Load capacity
200kg
Speed
Up to 22 m/min
Battery
Lithium-Ion 36 V 1000 W system
Rope compatibility
10–11 mm
Weight
15kg
Safety, Compliance & Site Integration
Designed to operate within established rope-access frameworks and site safety procedures, supporting compliant and controlled deployment across a range of environments.
Site integration (SWMS)
Supports inclusion within Safe Work Method Statements and site-specific risk controls.
Rope-access compliant
Designed to integrate with established rope-access methods and standards.
Certified operator use
Operated by trained and certified rope-access technicians (Level 2–3).
System Components & Support
The system can be configured to suit project requirements, supported by training and local servicing to ensure reliable operation on site.
System Components
- Battery systems for extended runtime
- Control units for operator-managed movement
- Rigging and rope setup components
- Transport and storage solutions
Training
- Hands-on, site-based training
- Focus on safe, controlled operation
- Supports existing rope-access certifications
- Supervisor training modules
Support & Servicing
- Australia-based servicing network
- Spare parts availability
- Structured maintenance programs
- Responsive technical support
Proven on site
Mantra Hotel Chatswood
High-rise façade remediation, Chatswood NSW
Used on real projects where access, safety and efficiency are critical.
A large-scale façade project requiring safe and efficient access across multiple elevations in a live environment.
The system supported controlled vertical movement and material handling, reducing reliance on scaffolding and improving overall execution speed.
Up to 50% faster
compared to scaffold-based access
Reduced manual handling
across vertical operations
Improved site control
and consistency on site
Lower disruption
in occupied live environments