Lunar PICO rover

Description

A rover specifically designed to be deployed to the moon. It is starting off as a low cost technology test bed for higher education. The main body is two pieces of 3D printed parts and the wheels are specifically designed for larger rocks and the lunar regolith.

Will have a 5-megapixel camera, Raspberry Pi Pico, batteries, solar charging circuit, communication system, and various sensors like a radiation and light sensor in a compact chassis that measures 180mm x 104mm.

Components

1 × Pi PICO Raspberry PI PICO

4 × 3D printed lunar wheels

1 × Main 3D printed chassis

5 × Micro gear motors 10 RPM

1 × Pico Robotics Board kitroniks

Project Logs

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New Wheels
Apollo Timbers • 4 天前 • 0 comments

A newer wheel was designed that fuses 3D printing and 3mm aluminum sheet spokes. After getting the lunar regolith, I see that I need as much traction as possible as it is a very fine powder that is very abrasive. I also made the motor arms a bit easier to print on a FDM style printer, as to bring the cost and complexity to build down a bit. It weighs a bit more, but it is able to got both forward and back unlike the previous version.
Lunar rover testing bed
Apollo Timbers • 6 天前 • 0 comments

I went ahead and bit the bullet and purchase some (LHS-1E) Engineering Grade Lunar Highlands Simulant from Space Resource Technologies. Link below. I ordered about 53kg and about 6 rocks. I'm part of a local robot club and thought it would be nice to set up some mini competitions on robots that transverse and or dig/transport the regolith.
For now here are some images of the box made with 6" popular sides and a 1/4 plywood base. The sides were joined with dowel rods and the base as well with a grove for a cleaner look. It is about 24"x6' in size to test differnt sizes of rovers and allow you to sculpt the regolith in valleys, hills and small creators
https://spaceresourcetech.com/collections/lunar-simulants/products/lhs-1e-simplified-lunar-highlands-simulant
Build progress
Apollo Timbers • 05/03/2024 at 19:37 • 0 comments

I was able to get a chassis all built and added a nicer PI PICO Marble that has a onboard SD card for data collection. The chassis was redesigned to v2 this is v1 still as it is a little tight on top of the board for servo connects. Moving to the PICO marble allows me to plug and play a spark fun light sensor, so that is handy. One of the servos is acting up and is jittery so I will need to order a few more. The 3D printed wheels are coming today. Gearing up for a robotics club meeting in my area on the 11th.
Power is 2 3.6v li-pos in parallel connected to a DC-DC convertor that steps them up to 9v. The convertor allows me to use a cheap USB C 5v charger for the cells. I also added a main power switch as i found out the board I chose only has a soft power switch and leaks voltage to the servos.
Design phase
Apollo Timbers • 02/07/2024 at 02:31 • 0 comments
Currently finishing out the design phase of the robot, along with acquiring/building all of the parts.
Done-
1. Tested PICO board controlling a motor and a servo
2. Printed main chassis and it failed
3. Redesigned main chassis
4. Added LoRa COM module and found batteries that would fit
5. Sent a wheel off to get printed in MJF Nylon PA12 (MJF)
6. Have most parts, waiting on servos and a few others
Need to do:
1. Print main chassis and cover
2. Print wheel arms
3. Test wheel when back make changes if needed
4. Order more wheels, need 4 :)
5. Wire up camera
6. Program some "get it working code"
7. Add arms and micro gear motors
8. Test servos with arms
9. Add wheels and do a bunch of tests.
10. Buy simulated moon regolith?
11. Redesign and make robust for education version