Tail Rotor for Single Main Rotor Helicopter
$5.00 Tail Rotor for Single Main Rotor Helicopter
Published 2018-09-25T11:42:10+00:00
There are many different type of Tail Rotor in actual helicopter.
This model is a Rod (push/pull) type Tail Rotor including Tail Gearbox (TGB) and Control Pedal to understand the basic Helicopter Tail Rotor function.
Drag Hinge, Flap Hinge and Cyclic Feathering Function are not necessarily required for Tail Rotor, because of Blades are short and vertical installation etc.
The features are:
1. Rod (Push/Pull) Type Pitch change mechanism. (Not Swashplate Type)
2. Tail Gearbox (TGB), Bevel Gear Type.
3. Pedal Type Pilot Control mechanism. (Linkage)
4. Input shaft height is matched to TTO shaft height of my MGB model for future use.
https://www.myminifactory.com/object/3d-print-main-gear-box-for-helicopter-full-metal-bearing-type-75354
Assembly Manual (PDF format, total 16 pages)
- The detail assembly manual including "Parts-List", "After printing treatment" and "Assembly procedure" are prepared based on "Standard Skill (Filing, Drilling, Tapping and painting)".
Download files includes;
- files: STL Files (28 items)
STL file name: "ws" of last 2 digits means "With Support" which special designed.
Purchase Parts Information;
- Bearing
Metal Bearings are used for Gearshaft and Rotor Head. See Assembly Manual.
-AL Tube
See Assembly Manual.
-Screws and etc.
Micro screws M1.4x3.5L - Direct screw-in to 1 mm diameter hole (No nut),
Other size of Screws - See Assembly Manual.
Total Net Print Time: Approx. 16HR
- (Estimated as case of PLA, 0.4mm Nozzle, 0.2mm Layer Height, 40% infill and No raft and support)
Note: When at actual print, each parameter may be adjusted by your experience.
3D printing settings
Raft, Support, Layer Height, Infill: Depending on your experience.
But the parts having gear, small shaft and thin portion: 100% infill is recommended.
My models were printed by "idbox" using with 0.4 nozzle, 1.75 PLA.
[Update]
2020.07.24 Assy-Manual-01 (dated 2019.07.02) was uploaded.
I do hope your success!!
Date published | 25/09/2018 |
Precio | $5.00 |
Very nice design. Printed in PETG for more resistance. The blades are printed in PLA on Prusa I3 MK3S with MMU2S.