... print your plane | www.3DLabPrint.com User Guide rev. 2020/02 Fully 3d printable Focke-Wulf Ta 152 H scale 1:12, wingspan 1236 mm / 48.
... print your plane | www.3DLabPrint.com Focke-Wulf Ta 152 H – fully printable R/C plane for your desktop 3Dprinter Future of flying - Print your own plane. Fully 3D printable RC model of the “Höhenjäger” german attack plane, specially designed to meet ACES aircombat requirements, but also as a cheap and easy to build RC model for everyday flying. Many scale details such as armament, airframe plating or exhausts encourages to create realistic paint jobs.
... print your plane | www.3DLabPrint.com General specifications (HP setup): Wingspan: 1236 mm / 48.2 inch Lenght: 870 mm / 33.9 inch Height: 178 mm / 6.95 inch Wing area: 21,4 dm2 / 2.28 square foot Wing loading: 46 g/dm2 / 15.3 oz/square foot Center of gravity: 60 mm / 2.34 inch from leading edge Airfoil: LHK508 modified by 3DLabPrint Print weight: 624 g / 22.01 oz Print weight of hybrid version: 490 g / 17.
... print your plane | www.3DLabPrint.com Focke-Wulf Ta 152 H (Höhenjäger), History The Focke-Wulf Ta 152 was a World War II German high-altitude fighter-interceptor designed by Kurt Tank and produced by Focke-Wulf. The Ta 152 was a development of the Focke-Wulf Fw 190 aircraft.
... print your plane | www.3DLabPrint.com Included: 1. STL 3d files Universal STL files designed to be used with desktop FMD 3d printers and slicer software as Simplify3D (recommended), CURA or MatterControl (these STLs are not compatible with Slic3r). 2. Factory files for Simplify3D slicer - preffered contains all the necessary settings to slice the models along with suggested bed layout.
... print your plane | www.3DLabPrint.com 4. Gcodes Basic Gcodes prepared for direct use, as universal as possible. Should work on i3 style printers, Give it a try, but we can‘t guarantee it will work on your printer. You can also easily adjust the retractions if necessary using our guide. 100% compatible with PRUSA i3 ORIGINAL 3d printers. 5.
... print your plane | www.3DLabPrint.com Ta 152 H Centre of Gravity Wing area: 21,4 dm2 / 2.28 square foot Lenght: 870 mm / 33.
... print your plane | www.3DLabPrint.com Wing span: 1236 mm / 48.
... print your plane | www.3DLabPrint.com Step By Step PDF/VIDEO userguide 1. Choose airplane at www.3Dlabprint.com, visit our Facebook for latest info. Basic requirments for Ta 152 H are 195/195/175mm volume, nozzle 0.4mm recommended (0.35 or 0.5mm alternativelly). Heated bed recommended. PLA filament (or PETG, APLA, htPLA, PC-max....) not ABS. Contact: support@3dlabprint.com 2.
... print your plane | www.3DLabPrint.com option B Factory files Simplify3D (recommended): We prepared all you need in these files (FFF process settings, parts layout on bed, etc...) You can use these settings as a start point. Adjust according to your need (adapt for your printer), print single parts and so on... Most 3d printers should work just with these settings, but please go through the settings and amend if necessary, we are not liable for any damage resulting from using our settings.
... print your plane | www.3DLabPrint.com option D CURA or MatterControl MatterControl and CURA are free and provide satisfactory results. The airframe is still strong enough, but don‘t expect the best quality. Both slicers lacks some very useful features, and finer settings, like multiple processes according to Z height, retraction options, layer start, etc. Please try to find the best extrusion multiplier and temperature for good weight and best possible layer bonding.
... print your plane | www.3DLabPrint.com 4. Print it Save the Gcodes to the SD card and insert into your printer. Prepare your printer and start printing, we prefer to use SD card rather than direct USB connection. Note: ABS filament is not suitable for thin wall printing.
... print your plane | www.3DLabPrint.com Print it lighter! 3DLabPrint Ta 152 H weights of printed parts You could make your plane lighter than usuall. There is a new foaming filament LW-PLA by ColorFabb. We were testing it a half year and We can recommend it for all nonstress parts. The LW-PLA filament using an active foaming technology to achieve lightweight, low density PLA parts. At around 230°C this material will start foaming, increasing its volume by nearly 3 times.
... print your plane | www.3DLabPrint.com How to print LW-PLA? The basic print setup is almost the same as we use for standard PLA. The only difference is in extrusion multiplier set to 0.5 and turning off the retractions completely. This results in parts with half the weight and still suitable mechanical properties, but expect some heavy stringing inside and outside.
... print your plane | www.3DLabPrint.com 5. Assembly of printed parts 5.1 Wing assembly Ta 152 H Glue wing parts L1-L6 perfectly together. The new 3DLabPrint lock system will help you. Repeat for the right side. Glue both halves of the wing together. Use the CA glue, (position locks and pins will help you to align the parts), and use activator to speed up the glue curing. On a flat surface glue the ailerons L1-L3 and repeat for the right side.
... print your plane | www.3DLabPrint.com 5.2.1 Fuselage assembly Ta 152 H Glue fuselage parts with CA glue together (position locks and pins will help you) use activator. You can use snap knife for clearing the shape of printed parts, but mostly it is not necessary. Glue F1-F7 fuselage parts. Do not glue rudder part before tail and elevator assembly. Use any hot tool to remove the unnecessary material from F7 tail part.
... print your plane | www.3DLabPrint.com 5.2.2 Fuselage tail - elevator pushrods and servos Glue L1 and L2 parts of the stabilizer and elevator. The profile is symmetric, so the left and right sides are identical. Glue the stabilizers perfectly perpendicular to the fuselage. Assemble both sides of the elevator with the control lever on a flat surface. Make a Z bend on the elevator 0,8mm pushrod wire.
... print your plane | www.3DLabPrint.com 6. Servo installation Extend the servo leads and install the prepared servos to wing servo bays. Use a 1mm steel wire with Z bends as a linkage between the servos and aileron control horns. Glue servo covers to the wing. Elevator servo will be fixed by servo holder in the fuselage. See video guide #6 you will need: 3x Hitec HS-82MG or Corona CS-238MG or any similar sized servos 30x12x30mm (1.17 x 0.47 x 1.
... print your plane | www.3DLabPrint.com Use power by your skill ! Our inovative motor holder can be used with various motors. Every motor should fit at universal printed holder with alluminium cross or 16 x 19 printed holder. Insert the complete assembly inside the slot in position you need and glue it .
... print your plane | www.3DLabPrint.com 8. Final assembly and setting Refer to your R/C system userguide for setup information. See video guide #8 you will need: Your own Rx/Tx system Install your reciever, connect battery, setup servos and etc. with your trasmitter, check servo position, then install propeller.
... print your plane | www.3DLabPrint.com 10. Pilots Please Attention! For the first flights we recommend setting the center of gravity to around 5 mm forward of the CG tag - nose heavy, this increases the stability (you can use heavier battery). Increasing expo settings on your transmitter for elevator and ailerons to 80 % calms response from your stick inputs. Also you can decrease elevator and ailerons deflection to calm down the plane. Make sure the battery is well fixed in proper possition.
... print your plane | www.3DLabPrint.