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Table Tennis Robot for sale

After looking around at a bunch of table tennis robots out there to help me practice, I decided to make it a fun project with my wife to build one of our own with a feature-set that was similar to or better than what was already out there. It's been a long on-and-off development cycle, but it's finally to the point of being usable. It utilizes a dual-wheel ball thrower with vertical, horizontal, and rotational servos. It is currently controlled by an Arduino Mega 2560 microcontroller, but I have plans to change that to a Teensy 2.0. Drills are created on a PC using a simple Java application and then saved to an SD card. The Arduino displays available drills on an LCD interface and a standard TV remote is used to select the drill and start/stop it. Power is provided by a standard ATX computer power supply (both 5V and 12V).

I had originally started this project with the intention of making everything hand-made using off-the-shelf parts from the local Home Depot/Lowes, but it quickly became apparent that anything made would not be easy to reproduce so that was idea was scrapped. We then went the route of home fabrication with a 3D printer and purchased a Reprap Prusa Mendel from Makergear to help make any parts that we modeled on the computer. This has been absolutely essential to making this design work :-) So, there will be some parts obtained at a local Home Depot/Lowes and some purchased online. All-in-all, the total Bill of Materials comes to about $230 without shipping. BoM is attached below (as both a PDF and XLSX).

Summary of construction
I will break this out into three main components: frame/ball path (including PVC and custom parts), electronics, and software. To complete this project you will require basic hand tools, a wood saw, a drill, measuring tape, stapler and staple gun, a 3D printer (or printing service), soldering iron, multimeter, and a PC with a USB port (and an SD card reader/writer if you want to use customized drills). While not necessary, I found it much easier to utilize a custom PCB to mount all the electronic components (LCD/SD/resistors/servo leads/etc) - to do so, you'll either need a laser printer and chemicals to do etching, a CNC mill for PCB milling, or utilize a PCB creation service.

Some notes
1) The larger the throwing wheel, the slower it needs to spin since as the wheel gets larger, the linear speed at the outside diameter will increase while the angular speed remains the same. This being said, a larger wheel allows for better granularity of speed as well as quieter operation (lower motor RPM). The downside is that the throwing head needs to be a bit larger.
2) If you throw a ball with absolutely no spin (in table tennis this is a dead ball, in other sports it may be known as a knuckle ball) it will fly very erratically and be incredibly inconsistent. Rather than throw deadspin balls, I found it was better to throw a _very_ light backspin ball so it would fly consistently and be almost dead once it hit the table.
3) With the speed controllers I have selected, if the motor is spinning and is stopped for any reason (too much load, reversed without stopping first, someone held the motor, etc) they will not spin the motor again until they are brought back to neutral (0) throttle. I think this is a safety feature to prevent overloading of the speed controller if the motor is stuck or dead.
4) Due to the nature of FDM (fused deposition modeling - a method of 3D printing), the parts can sometimes be weak along the printed axis. As an example, let's say you printed a cup as if it were placed vertically on a table. If you were to pull the top and bottom in opposite directions, they would come apart quite easily along a layer seam. With this in mind, it can be beneficial to lightly coat certain stress points with plastic cement (hobby glue) to help increase strength. Such places to coat would be hinge tabs, screw holes, etc.

Video overview

Topspin test
Source: www.instructables.com
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