here is some info- http://www.laserdesign.com/
Who out there (in here?) has looked at using laser devices for digitizing items and creating cutting routines?
Most are very pricey. Many production machines charge 8 to 10 thousand dollars for the option. Acculux makes a "Laser Ranger" in the $1200 range.
What am I missing? Mach 1 and Mach 2 both support digitizer inputs and even have a wizard to program the scan. I think CNC Pro does too. It looks to good to be true, is it? If a production machine option is 10 thousand dollars and the home grown is 1200 dollars, what gives? Is this the onetime good deal?
I want to implement this capability.... anybody out here (in here?) got any experience with this little jewel.
http://www.aculux.com/
Like I said "if it looks too good to be true" just what is it???
twombo
Similar Threads:
here is some info- http://www.laserdesign.com/
Thank You,
Paul G
Check out-
[URL="http://www.signs101.com"]www.signs101.com[/URL]
Also look at
www.scantech.net
We have one of these at work and they work great. I will have to give a look over the aculux web page. I know that one of the things that the Scantech system offers is a package outside of the scanning system that creates tool paths for STL clouds. It is a very powerful system. Scantech runs in the $15,000 range
Paul Riedlinger
Let the chips fall where they may...I'm not going to clean them up!
Here's an other link. Looks spendy, but who knows.
http://www.axila.com
(Note: The opinions expressed in this post are my own and are not necessarily those of CNCzone and its management)
I like the LaseRange found at www.aculux.com. Does anyone have this and what do they think with it. Since they do not include any software, what software can work with this, mach1, mach2, emc? I have future plans to buy this one.
Art Fenerty of MACH1, MACH2 fame is looking into supporting these serial type devices sometime in the future. Still in the planning stage. Support for serial attached devices coincidentally faciitates auto tool changing capabilities. That is the reason this getting his attention at this time. Kills two stones with one bird for us in the trenches.
I am corresponding with another fella about DOS based scanning routines using the Acculux. He is getting good results With dos routines but the comm flow is a little slow with current Windows based controllers, Looks promising though!
This appears to be the device I need for my workflow come together. I ordered one the other day and will share my results as I make progress.
Most commercial laser measurement systems set up for CNC machinery seem to be runing in the the 10,000 to 13,000 dollar range. This promises to be breakthrough technology for us bottom feeders, huh!
I am looking at possibly using a DOS based Numerical Controller package like Shopboat or MAXNC to get digitizing going (kinda slow based on limited step rates of these appications but they currently support a digitizing probe and may be useable with a little effort) and transitioning to a Windows based controller for path generation and cutting.
That's what I know, mostly preliminary, so, take it witha grain of salt. I'll stay in touch!
I had some links of folks who have made their own 3d digitizers. (some may be out of date though) I am puzzled why such things are not dirt cheep now. A $5 laser pointer with something to spread the light, and a $15 USB port video camera would be all the hardware necessary. With the new generation of multi-megabyte cameras, such a device would even be pretty accurate. However, the software to do anything with the results of the scan seems to be the biggest challenge.
A scanner based on a laser pointer;
http://thaumaturgy.net/~etgold/scanner/
An extremely interesting approach using nothing more than a desk lamp, stick, and a video camera;
http://www.stanford.edu/~weyn/223b/
Same concept, different person;
http://sans.chem.umbc.edu/~nicholas/...alresults.html
Joe Dunfee
Metris metris makes several laser measurement probes for CMMs (trading off speed, resolution, accuracy).
They were originally designed to replace the mechanical probes in Renishaw CMMs Resnishaw, however, they are generic.
They are fast enough to do automated inspection as well as traditional reverse engineering and metrology.
Metris has a free software package to mesh cloudpoints.
Poor planning on your part does NOT constitute an emergency on my part!
This thread should really be kept alive! I am very interested in this topic. The 2 links lsited were very interesting. I thinka hybrid of the 2 sets of results would be decent.. And also.. wouldnt making a simple linear encoder digitizer be fairly simple?
As soon as i finish my latest test-bed device I plan to work on a probe of some sort.. Any ideas?
Robert
Design & Development
My Portfolio: www.robertguyser.com | CAD Blog I Contribute to: http://www.jeffcad.info
To see lots of measurement companies at one place, attend the
http://www.sme.org/westec show next week.
Poor planning on your part does NOT constitute an emergency on my part!
There surely is a market for a laser digitizer system for the hobbyist's pocketbook. Anyone able to put together a DIY kit(with software) and present it at a low price will be assured of success.
Shoptask rebuild:
[url]http://www.cnczone.com/forums/showthread.php?t=2139[/url]
Home built gantry router:
[url]http://www.cnczone.com/forums/showthread.php?t=5049[/url]
Leica has a laser rangefinder, not terribly accurate, 1.5 or 3mm accuracy, new model has bluetooth access apparently. I got interested in this as it appies to measuring architecture, but it may have applications for cnc.
http://www.disto.com/products/comparison.htm
I sent an email to the guy that was doing laser articles on Nuts and Volts, but he wasn't interested in doing an article on laser rangefinders.
I contacted the aculux people and they want $2,495 for their device.Originally posted by twombo
Who out there ....
I want to implement this capability.... anybody out here (in here?) got any experience with this little jewel.
http://www.aculux.com/
Like I said "if it looks too good to be true" just what is it???
twombo
Owen
The Disto Plus is apparently $699.00 list, but getting the data out of it through Bluetooth might be a chore. Each data point would takes .5 to about 4 seconds for the machine to aquire. Getting a "point cloud" of a large data set would take a bit of time.
I use a Microscribe digitizing arm at my work. It is definitely the lowest cost solution of its type out there. We purchased our on E-bay for around $800, which is a very good price. I think a more average price used is around $1,000.
However, I wouldn't say that the touch probe is the easiest way to digitize stuff. If want to digitize corners, it is difficult to put the probe point on a fine corner (I ended up machining a special point with a "V" to help). Think of the probe arm as a 3-D mouse.
I'm sure laser or even the gantry-mill type touch probes are better for copying an existing object in many situations. The challenge is that they produce too much data, and it takes expensive software to really examine the point clouds and turn it into simplified geometry.
Joe Dunfee
Joe Dunfee
How often does a home shop require an object laser digitized? How much detail? Does the model need to be scanned in multiple scans, and then have those scans pieced together? Would outsourcing the job to a firm with the hardware & software be an option?
I don't have a home CNC machine, so my answers are not from the perspective you are looking for. Rather, I work at a theater where I design the structural aspects of the sets. My job starts when they hand me a 1/2"=1' scale model of the set piece they want. So, my purpose is to get that model into my CAD system.
I think I have posted this here before, but there are several home-brew laser scanner projects out there on the net. However, the missing aspect is the ability to put multiple scans together. It seems laser scanners have an effective coverage of about 90 degrees of a curved object. I.e. a cup would only effectively get 1/4 of its circumference scanned.
I suspect most home users would need to combine two scans, at the least. But if the approach is to create a very large point cloud, and then try to organize or simplify that data... that seems to be too challenging even for the most expensive software. Those that make the home scanners simply things considerably by analyzing only one line of the scan at a time. Then their task is only to extract the curve for that line.
I think the challenge is to try to figgure out a way to do that same easy curve extraction with multiple scans. I think the way to do that is to make sure the laser scan plane is kept on the same plane for each scan.
If this were a device to put on a CNC machine head, it might be accomplished by using two lasers, aimed at the center of the scan and angled from each other by 90 degrees. This would provide coverage for 180 degrees around a cylindrical shaped object. Then to see that line, also provide two separate cameras (USB cameras are pretty cheap nowdays) to see that same scan line from different angles.
This is not a method that is guaranteed to scan every nook of every shape. But it should be reasonably easy to implement without a lot of intense processing of the data.
Joe Dunfee
Found this, thought it was pretty cool:
http://www.indoor.flyer.co.uk/probe.htm
That web page was very nicely done. I've seen touch probes before, and they are certainly a nice addition to a milling machine. If the touch probe has an end the same diameter as the cutting head, it is possible to use the tool path taken from a direct copy of the digitizing path. The shopbot has a low-cost probe available.
Joe Dunfee
Found something at the Mark III Robot Store that might work for CNC, and is cheap.
http://www.junun.org/MarkIII/Info.jsp?item=30
"Sharp GP2D02 Distance Measuring Sensor , $12.50
Infrared distance measuring sensor. Accurately determines range to target between 10cm [ approx. 3"] and 80cm [about 2'-8"]. Output is an 8-bit binary number representing the distance, read serially. Comes with one 1N4148 protection diode. "
It is used in cameras and stuff to measure distance. If the object isn't shiny or too reflective or irridescent (it confuses the sensor) it might be very handy for inputing data. Am not sure how accurate it is, but it might be able to scan in Z heights quickly. Without having to touch the object.
The infrared light would have to be shielded in some kind of flat black light absorbing tube to focus the light to a small point on the scanned object. Or perhaps a infrared laser could be used?