Small parts that make installs easier.
The Rainger Aluminium RTT Channel Sliding Plates are designed to slide neatly into rooftop tent mounting channels, making alignment and fit-up far easier during installs. Originally supplied with Revo X rooftop tents, these plates are also a handy universal solution for many RTTs, racks, trays and mounting systems that use aluminium channels.
Machined from aluminium and supplied in 4-piece packs, they’re ideal for new installs, custom setups, or as spares when you want flexibility without fighting fixed nut positions.
Why they’re worth having
• Designed to slide freely inside RTT mounting channels
• Makes alignment easier during install and adjustment
• Strong aluminium construction
• Ideal for Revo X installs and many universal RTT systems
• Great to keep as spares for touring or custom setups
• Supplied in practical 4-plate packs
Choose your option
Available in two hole configurations to suit common hardware:
🔹 M8 Metric – Regular Hole
• Suits M8 metric bolts
• Standard hole size
• Supplied as 4 plates
🔹 Imperial / Oversize – Enlarged Hole
• Suits 3/8” imperial bolts
Head Size on 3/8” Bolts are 14.7mm usually. Which slot right into these channel nuts perfectly
3/8” Shank is approx 9.7mm so fits through.
• 10mm enlarged hole for added clearance, stronger setup for Direct Canopy Mounting
• Supplied as 4 plates
Dimensions (per plate)
Measured directly from production samples shown:
• Plate length: approx. 45 mm
• Plate width: approx. 30 mm
• Plate thickness: approx. 6 mm
• Hole size:
– Regular: suits M8
– Enlarged: approx. 10 mm
(Minor manufacturing tolerance may apply.)
Key details
• Material: Aluminium
• Application: Roof top tent channel mounting
• Compatibility: Revo X + many universal RTT systems
• Pack size: 4 plates per pack
• Finish: Natural aluminium
What’s included
• 4 × Rainger Aluminium RTT Channel Sliding Plates
• Retail-labelled packaging
Install note
Designed to work with standard RTT channel systems. Always confirm bolt size and channel compatibility before installation.
