The CNC Blade 300 X Performance package is specifically designed for improvements in stability, durability, response and overall performance on the Blade 300 X helicopter and ready to bring your Blade 300 X helicopter to the next level of performance and appearance.
Note: You SAVE MORE THAN 10% OFF, FREE CANOPY AND TAIL BLADES ordering this package and only exclusively at Microheli.
Includes
1 x Precision CNC Aluminum Main Rotor Hub w/ Button MH-300X001
1 x Precision CNC Aluminum DFC Head set MH-300X002DF
1 x Precision CNC Hardened Steel Feathering Shaft MH-300X004
1 x Stainless Steel Main Shaft Short (for MH DFC Head short series) MH-300X066SS
1 x CNC Delrin Main Gear w/ Auto-Rotation Hub set MH-300X071X
1 x Plastic Tail Blade 47mm (ORANGE) MH-300X030OR(Free)
1 x Canopy (Free)
Hardwares
Materials
Aluminum 6061-T6
Aluminum 7075
Steel
Stainless Steel
Hardened Steel
Carbon Fiber
Delrin
Brass
Features
100% CNC machined from Aluminum 6061-T6, Aluminum 7075, Steel, Stainless Steel, Hardened Steel, Carbon Fiber, Delrin and Brass
Specifically designed for improvements in stability, durability, response and overall performance on the Blade 300 Xhelicopter and ready to bring your Blade 300 X helicopter to the next level of performance and appearance
With the Precision CNC Aluminum Swashplate: with Stainless Steel anti-rotation pin, Stainless Steel Ball linkages to prevent wear and tear for long time use; the high quality selected radial bearing is utilized to minimize any unwanted slops and plays between upper cup and lower cup; With a perfect combination of Aluminum 6061-T6 and Delrin material, Microheli center ball withstands high friction, keeps increase accuracy, durability and anti abrasion; completely different from the stock plastic swashplate utilizing brass/molded plastic center ball; tilts linearly and precisely which produces the most accurate and fast cyclic response and cyclic power; thin profile, more tilt angle increase than the stock swashplate (only 21˚)
With the Aluminum/Carbon Fiber Main Frame: is an incredibly strong and virtually indestructible frame from the perfect combination of Sluminum 6061-T6, Carbon fiber, Sluminum 7075 and Stainless Steel material to form the best rigidity block, to bring long-term durability and maximum stability; utilizing Aluminum 7075 and Thrust Bearings for the main shaft bearing block; giving you the easy and best servo assembly installation and set-up ever; giving you the easy swashplate linkages set-up ever with equal length; battery tray is able to slide up and down easily for using kinds of larger battery as well; motor is able to move in or out thanks to the trenches on the frame; location where the gyro is placed to facilitate the assembly installation and set-up; boom is kept in the best certain position because the design was calculated for clamp force and anti-rotation design
With the Precision CNC Aluminum Tail Rotor: optimized for the tail control system utilizing Thrust Bearings and Steel Balls to overcome the stock tail vibration and wag
With the Precision CNC Aluminum Tail Set Pro: to improve tail stability, durability, response and overall tail performance on the Blade 300 X helicopter
With the Precision CNC Aluminum Main Rotor Hub w/ Button: gives you the easy screws and lock nut assembly installation and removal ever, without the fuss and bother; no need for utilizing spacer between washout and center hub
With the Precision CNC Aluminum DFC Head set: gives you maximum rigidity and durability utilizing Stainless Steel linkages with rigid arm design to ensure a long life and the best possible performance flight after flight for the Blade 300 X; with the addition of the thrust bearings F3-6G to support all axial loads protecting the integrity of the radial bearings for a long-lasting transmission; utilizing the DFC arm makes head system operation fast and very good for 3D flights; utilizing radial bearings in the inner side of the DFC arm significantly increases high-efficiency performance; the Stainless Steel linkages are easy to adjust and very suitable for pilot’s requirements