FuegoObi
Report

Electronic Hardware Compatible Project Rover Car

Instruction
RoverMk53DDesign.zip
RoverMk53DDesign
.zip
Application scenario
Laser processing、Other (30min)
Machine & module
xTool Laserbox
40W
xTool P2
55W
xTool M1 Ultra
10W, 20W
xTool M1
5W, 10W
Material used
3mm MDF Board
42
2083
Information
      For school robotics teams developing projects and people interested in these subjects; I produced a two-layered Rover that provides convenience in electronic hardware, is easy to manufacture, durable, and has a nice appearance.  Now I tell some futures about this car. I made a special system that holds the engine parts for fixing the engines in the vehicle I designed. This system adapts to most 12v 1000-6000Rpm engines. It can also reach speeds of 30km/h and even above, depending on the engine installed from the compatible engines. I think it is more appropriate to use a 12V 25mm 1360 RPM motor. With this motor, you will be able to reach a speed of around 15km/h. As a wheel, I made a design suitable for the Mechanum wheel. Thanks to this, it will be able to turn in any direction as it wants without a steering mechanism and move in any plane as it wants. There is a very large space inside. In this space, you can fit 3 different cards such as Rpi, pixhawk and ardunio uno, as well as a driver card, one or more batteries and many more things. At the front of the design there is a compatible area for rpicam and you can easily adjust the design to be compatible with most lenses you want to use. The 2nd floor of the vehicle is easily attachable and detachable. There is a specific area between the first and second floor that facilitates the connection. The roof of the vehicle is wide enough to accommodate all kinds of gps, even Here3 gps. The underside of the vehicle is designed to facilitate Rgb strip led connection.  It is also suitable for drawing and writing on all surfaces of the vehicle. I worked hard for this vehicle, I hope you like it.
    
Instruction
1
Step1: Rover Construction Stages
Preview
  1. If there is something to be drawn or written on the parts, it is drawn or written. 
  2. Edge and spoiler supporter parts of the Rover are glued together in 2 layers. Glue the floor part and edge parts of the Rover together. 
  3. The front part for fixing the Rover skeleton is placed in place and glued. The engine holder, engine holder stabilizer and support bar parts (camera support parts according to the intended use) are placed in their places. 
  4. The engine is placed in place. 
  5. After the engine connection is made, the remaining electronics are placed. 
  6. The remaining parts can be plugged and unplugged upon request.
Comments
Remixes
xTool Supplies Used in This Template
xTool Laserbox
xTool Laserbox
xTool P2
xTool P2
xTool M1 Ultra
xTool M1 Ultra
xTool M1
xTool M1
3mm MDF Board
3mm MDF Board