I put everything together to see how it works out and I have to say I was very impressed at how smooth the carriage rides on the rail.
I used the insertion nuts to attach the wheels because they were the only 5mm nuts I have.
I made a test cut of the makerslide extrusion using an 80 tooth 10″ carbide tipped saw blade in my miter saw. The cut exceeded my expectations – as you can see from the picture of me holding the cutoff piece, the cut is very smooth. The irregularity you see in the picture is actually caused by the flash. I would say the roughness across the cut is no more than 0.01″
I bought a bunch of rough “5/4″ cherry lumber a couple weeks ago for my table.
I jointed two sides, planed, and tonight I ripped the boards down to the final width + 1/4”
The boards are grouped in twos and this is no accident. I intend to glue-up pairs of two boards initially, and then further group those together to produce two 30″ wide panels and one 12″ panel — the center leaf which is removable.
The final top thickness will be pretty close to 1″
Pick and place machines commonly have one or two cameras. The highest precision machines have two cameras, one looks up and one looks down.
The up-looking camera is mounted somewhere near the part feeders. After picking up a part, the head moves over to the up-looking camera. The software looks to make sure the head actually picked up a part. If the part is there, it looks at the part to measure it’s rotation angle and x/y offset. The x/y offset is saved, and the software then knows more precisely where to place the part. Why? Because the head might have picked up the part a few mils away from the ideal center point of the part. An 0201 sized resistor is only 0.6 by 0.3 millimeters – if you’re off by 0.2 mm then you might have a problem.
Which brings me to the second camera: the downward-looking camera. The downward camera is mounted to the moving head, and is used to:
Calibrate x/y relative head location (by looking at fiducials)
Verify PCB pad position
Verify correct part placement
Locate part in feed tape
If you don’t have these cameras then your machine has no concrete proof that it is correctly placing parts. If you’re placing the smallest components, i.e. 0201 and 0402, then you almost certainly need a high precision system that has vision.
If you’re placing 0603 and larger parts, you can probably get away without vision as long as you have decent linear encoders on your x and y axes.
And if you don’t have linear encoders you’re flying in the dark and you’re probably stuck with 0805 and larger.
For my machine I’m really hoping to be able to place the smallest components. So I’m shooting for the highest performance I can reasonably achieve. We’ll see where I end up.
They’re transparent strips with parallel lines spaced approximately every 0.0066 inches. You can buy them from Electronics Goldmine. They’re used for precision linear encoding, i.e. so my pick and place machine can get accurate feedback about where the head is.
There are several ways to read these strips. Avago et. al make modules that might be able to read these directly.
Fundamentally you can take a collimated light source – a laser, for example, and shine it through a short strip of this. What you’d have are several parallel lines of light. If you then put another strip in the path of this light and move it, the light will alternate between being visible and completely blocked.
I’ll post a better explanation when I get around to testing them out.
The short: The top is going to be 1″ thick cherry. The legs are trestle style, though quite modern. I can’t honestly take credit for the design as you can buy it (for about $2500) from a major furniture retailer.
I’ve taken on the task of building a pick and place machine for electronics assembly.
In doing some preliminary research on components, I came across the Makerslide project.
One of the more arduous tasks in designing any low cost CNC machine is finding a low cost yet reliable and accurate linear motion system. I believe the Makerslide project has successfully addressed this issue.
Apparently Makerslide was somewhat difficult to locate. Go to inventables to buy Makerslide components.