Tubular 8inch LongRange frame - superlight and superstiff

thingiverse

This is the updated version of the 8-inch frame created by eyefly using carbon fibre tubes and 3d printed parts. I've also uploaded other 3d printed parts that I use with this frame type. Frame changes to the original version:Clamp motor parts (front and back) were adjusted to be used using M3 bolts. I use the Emax ECO II Series and they came with M3 bolts.Clam motor holes for carbon fiber tubes were slightly extended to 10.2mm and 8.2mm. I had problems pushing the tubes inside without expanding the holes. clamp_motors_back_left_v2clamp_motors_back_right_v2clamp_motors_front_left_v2clamp_motors_front_right_v2clamp_stiffeners_mid_v2 You would need 14xM3 20mm bolts if you plan to use them with the clam motor legs (clamp_motors_leg.stl) or 14xM3 16mm without.VTX mountI designed a mount for my TBS Unify Pro32. It's placed at the back of my drone and the signal is good so far. You can also adjust the angle of the antenna.Print vtx_tbs_unify_pro_32_mount.stl, and vtx_tbs_unify_pro_32_mount_holder.stl, then glue them together. No screws means less weight. Probably wondering not to lose the VTX, I can say it's safe, and CA glue is strong enough (there are also the cables that hold the VTX anyway).RC receiver mountCurrently, I use the Flysky fs-i10 receiver, so I designed a mount for it (rc_receiver_flysky_fs_i10_mount.stl). I've attached it under the FC mount. It's an old receiver and I have a plan to upgrade it to something better for long-range flights. I've added the STL in case someone still uses it.Flight controller mountI use the Speedybee f405 v3 flight controller, so I had to extend the original fc_mount.stl to be used using M3 bolds.Also, I designed a protective case (fc_protection_and_gps_mount.stl) that can also hold my Matek M8Q-5883 GPS unit. Even though it might seem too close to other electric components, the GPS signal is good and I never had any problems related to the signal (14+ satellites usually).Camera and servo mount.I wanted to adjust the camera angle at any time during the flight. Here's my 3d model designed for the RunCam Phoenix 2 camera. There are 7 components: camera_frame_mount.stl camera_servo_mount.stl (that holds the 9g servo) camera_runcam_phoenix_2_mount.stl for the RunCam Phoenix 2camera_hold_left_mount.stlcamera_hold_right_mount.stlcamera_servo_hand.stlcamera_servo_link.stl (to link your servo together)You need to use 2xM3 10mm bolts and 2xM3 nuts to tighten your parts together. I used the bolts that came with the motors. You can glue camera_frame_mount.stl and camera_servo_mount.stl together. If you want to know more about the design or assembling guidelines, feel free to contact me on Instagram moro.dynamics