Product Description
The RJXHOBBY 90° Landing Gear Vertical Mount Base is a versatile and high-quality accessory designed for RC UAV drones. Made from durable aluminum alloy, this mount base provides a stable and secure connection for landing gear and nozzle connecting rods, ensuring reliable performance even in demanding environments. Available in multiple sizes—ID 16mm, 20mm, 25mm, and 30mm—this mount is compatible with a wide range of UAV configurations, making it ideal for both hobbyist and professional applications.
Key Features
- Material: High-strength Aluminum Alloy for enhanced durability and corrosion resistance.
- Color: Sleek Black finish for a professional look and long-lasting performance.
- Size Options: Available in ID 16mm, 20mm, 25mm, and 30mm for compatibility with various UAV setups.
- Angle: 90° design for precise vertical mounting, providing balanced support for landing gear and nozzle connecting rods.
Detailed Specifications
-
16mm Mount:
- Matching Screws: M3x10 (1 pcs), M3x8 (4 pcs)
- Weight: 13.9g
-
20mm Mount:
- Matching Screws: M3x10 (1 pcs), M3x8 (4 pcs)
- Weight: 18.7g
-
25mm Mount:
- Matching Screws: M3x12 (2 pcs), M3x8 (4 pcs)
- Weight: 24.6g
-
30mm Mount:
- Matching Screws: M3x10 (2 pcs), M3x8 (4 pcs)
- Weight: 28.2g
Versatile Applications
This vertical mount base is engineered for securely attaching landing gear and nozzle connecting rods to UAV drones, ensuring stable and smooth operations. Whether you’re upgrading existing equipment or setting up a new drone, this component provides the stability and precision needed for efficient and reliable performance.
Package Includes
- 1 x 90° Vertical Mount Base (in your selected size)
- Matching screws as specified above for each size option
The RJXHOBBY 90° Landing Gear Vertical Mount Base is a must-have accessory for drone enthusiasts and professionals looking for stable, durable, and high-performance mounting solutions. With its strong aluminum alloy construction and precise design, this mount ensures that your UAV remains secure and performs optimally in various tasks and environments.