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RC Car - Prime Hopper Chassis

RC Car - Prime Hopper Chassis

RC y radiocontrol11 descargas en origen

Se imprime para ti · envío en 5-8 días

Descripción

Video:https://www.youtube.com/shorts/o7VNpEoC3V4 Prime Hopper RC Car designed by Prime Dynamics. - Refer to the Useful Photos folder for additional assembly guidance. -The main purpose of this project is to design and build an RC car chassis that provides additional space for implementing a wide range of custom modifications. - I would love to receive any modifications you make to the design! You can send them to me via email, and if they are compatible, I may incorporate them into the original project file, feature them on my social media, and give proper credit and mentions (if you want to). - This project was fully printed using a 0.6 mm nozzle. - This project was made in combination with RC Transmitter V3, RC Receiver V1, 1/10 RC Wheels V2 and 80mm RC Shock Absorbers V1. all Projects can be found in my Cults3D page and youtube Channel. - The ChassisPlate may be manufactured by 3D printing, CNC cutting from acrylic, polycarbonate or aluminum plate, or fabrication from PVC sheet. - Certain screws may be threaded directly into plastic without using a nut; however, this is not always recommended unless super glue or threadlocker (Loctite) is applied to the threads. - For improved surface finish when printing over supports, it is strongly recommended to enable the support roof feature in your slicer, set the roof density between 90% and 100%, and configure the top Z distance to 0. Insert a pause immediately before printing resumes above the support interface. During the pause, apply permanent marker to the top surface of the support, then resume the print. The marker acts as a release agent and consistently produces clean bottom surfaces. This method is recommended for any print requiring high-quality supported interfaces. Residue can be easily removed with alcohol after printing. Make sure the pause between layers is kept as short as possible to avoid compromising layer adhesion. - The metal shafts used for the dogbones and suspension arms may vary in diameter depending on availability. Please ensure that you adjust the STL file accordingly if the holes are too loose or too tight to achieve a proper fit. - If any data is missing, there is a design error, or you encounter any issues, please notify me through my social media so I can correct it. List Of Materials: x16 31 mm x 3.2 mm Ø metal shafts x4 22 mm x 3 mm Ø metal shafts x12 6700 Bearings (10x15x4) x50 M3 Nuts x8 M3 Nuts only if using RC Receiver V1 and battery holder x4 M3 Nuts only if using 80mm RC Shock Absorbers V1 x5 M3x8 Screws for mounting the motor x4 M3x12 Screws with conical head only if using the battery mount x2 M3x12 Screws for the voltage regulator, only if using RC Receiver V1 x22 M3x12 Screws for side panels x8 M3x12 Screws for front and rear sections x4 M3x16 Screws for the servo x2 M3x18 Screws for rear section x4 M3x18 Screws for the rack and steering knuckles x2 M3x20 Screws only if using RC Receiver V1 x2 M3x20 for drive gear axle x4 M3x22 Screws for beraing clamps x2 M3x28 Screws for front wheel hubs x2 M3x28 Screws for rear wheel hubs (you might need to file the length 1-2mm in case the dogbones get stuck) x8 M3x35 screws for the suspension mounts x1 Servo arm screw (to fasten the pinion gear to the servo, has to be the same thread as the servo head) x4 M3 screws with 32mm of flat neck only if using 80mm RC Shock Absorbers V1 - Superglue (some parts are split in half to improve strength and need to be glued) - Lubricant or grease for moving parts - Double-sided tape for the ESC and receiver (some components may already include double-sided tape, and you can screw them down instead) - Velcro strips for securing the battery, visit the Useful Photos folder.

Diseño: PrimeDynamics