Description
Modular Floating Dock Platform
The Docking Cube H30 V Shape is a specialized modular floating dock unit designed for building drive-on boat docking systems and watercraft storage platforms. Featuring a distinctive V-shaped channel on the top surface, this cube serves as the guiding element for boat sliders, kayak docks, and small watercraft lift systems, allowing vessels to glide smoothly into position.
Manufactured from UV-stabilized, marine-grade high-density polyethylene (HDPE), the H30 V Shape cube is resistant to corrosion, saltwater, chemicals, and extreme weather conditions. The low-profile 30cm height provides optimal positioning for watercraft entry while maintaining excellent buoyancy and stability. The integrated connection lugs allow for secure and seamless assembly with standard dock cubes and other V Shape units.
The V-shaped channel design centers watercraft during docking maneuvers, protecting hulls from damage while ensuring precise alignment. The H30 V Shape system enables quick installation without heavy equipment, making it ideal for both permanent and seasonal watercraft storage solutions.
Key Features
- V-Shaped Hull Guide – Channels watercraft into position for safe, centered docking
- Heavy-Duty Construction – Rotationally molded HDPE for superior strength and durability
- Low-Profile Design – 30cm height optimized for easy watercraft entry and exit
- UV & Corrosion Resistant – Designed for long-term marine and freshwater use
- Modular Compatibility – Connects seamlessly with standard cubes and roller variants
- Low Maintenance – No painting, rusting, or rotting
Applications
- Boat slider and drive-on dock systems
- Kayak and canoe launch platforms
- Small watercraft and dinghy storage docks
- Jet ski approach channels
- Residential waterfront boat lifts
- Commercial marina dry-docking installations
The Docking Cube H30 V Shape provides a reliable and hull-friendly solution for watercraft docking, offering precise guidance, protection, and long-term performance in demanding marine environments.
