Digital Readout Linear,0-300mm/12'' Magnetic Linear Scale,Large LCD Readout Scale for Milling Machine

I bought this hoping to add a digital readout to a standard 6" jointer, and it worked far more easily than I anticipated. The photos show the DRO attached to the jointer (an older Bridgewood model fitted with a helical cutterhead). The steps to fit it to the jointer were: 1. Determine where the end brackets need to be so the guide bar is parallel to the infeed table ways, and drill and tap 8-32 holes in the jointer base for the mounting screws. 2. Attach the end brackets, and use these to determine how long the bar needs to be, and cut the bar to this length (mine came out to exactly 6" - who'd have thought...). Since the bar is aluminum, it's easily cut with a hacksaw and cleaned up with a file. 3. Place the guide bar and carriage into the brackets, and measure the distance from the bottom of the carriage to the side of the infeed table to determine the carriage attachment bracket depth. 4. Adjust the supplied carriage attachment bracket to provide the necessary depth for attachment as measured in the previous step. This may involve adding spacers, or as in my case flattening out the "z" in the bracket to reduce the depth. 5. Remove the guide bar assembly, attach the bracket to the carriage, re-attach the guide bar to the end brackets, and determine where to drill and tap a hole for the screw to fasten the carriage bracket to the infeed table (mine landed exactly on the hole from the original arrow indicator, so just needed to be enlarged and tapped - as they say, it's better to be lucky than to be good), and attach to the infeed table 6. Adjust the table to give a 0 depth of cut, and use the zero-set button to calibrate the gauge The whole process took just about an hour, and initial testing seems to indicate it's quite accurate. A couple of caveats: - Put the batteries in first and see which orientation of the carriage gives positive versus negative measurements - you really want to have positive measurements increasing as you lower the infeed table, i.e., as the carriage moves to the left. For me, this meant orienting the carriage with the output wire on top - The measurements given by the DRO need to be scaled by some factor to get the actual depth of cut, since the DRO measures the travel along the angled ways. You can determine this by using the existing scale along the infeed table, which will show how far the infeed table needs to be slid down to get a desired depth of cut. In my case, the factor was exactly 2, so the depth of cut is exactly half of what the DRO shows - i.e., if the DRO shows .050", the depth of cut is .025". I don't know if this is the standard angle used for jointers, or specific to my machine, so you might have a different factor. (It would be great if the manufacturers provided a mechanism to set a scale factor to make it ideal for applications like these.)

Cheap inexpensive way to ad Z-axis to a Bridgeport mill.

Must have addition to the planer, but there are some things you need to know. First of all, and most importantly, this isn't the kind of DRO where you can wind the planer to 2" (or whatever number you like) and then punch in 2" to "set" the DRO to match reality. You can run things up and down and then ZERO the readout but that is challenging with a planer because they don't wind all the way down to zero. Getting to a correct absolute reading IS doable but it takes some effort and you'll need to build some adjustability into the sensor mounting point to get it done. Second, the instructions are worthless so don't even waste your time with them. I mean unless you're into instructions like "install the bracket in an appropriate position". This DRO is more of a generic "one sizes fits whatever you can figure out a way to screw it to" kind of piece, so that's to be expected, just don't expect any help on the install. Finally, and this is only applicable to my planer model (the Dewalt DW735)...SUPER easy install. I simply attached the slide bar directly to the face of the factory scale bar (drill and tap two 5mm bolts, one top and one bottom) and then used the factory bright red pointer as the mounting plate for the sensor pack. It was my intention to drill through the pointer for two M3 screws into the back of the sensor pack, but I used a Command Strip to hold it in place temporarily to find the right alignment and found that that held more than adequately. So, in fact, I didn't even end up using any of the supplied brackets. Still waiting on a print off of the 3D printer to mount the readout, but you can put that piece anywhere convenient (has a nice long cord). Which is nice because bending down to read little screens sucks. Anyway, 1 star off for the crappy instructions and the drama getting zero'd out, but a nice piece of gear otherwise. I was able to tune the system to get a 1" thick planed board to 3 digit accuracy (checked with calipers), which is ridiculous with wood carpentry. Better than you'll ever need.

This SHAHE Measuring Tools LCD Linear 0-150mm/0-6inch Digital Readout Scale has been fantastic! I bought this due to my need to add a DRO on an older piece of equipment I have, so that I could be more repeatedly accurate in my depth operations. I bought the 150mm/6" stroke version. I picked this Brand due to its good reviews, and that ended up being a great decision! I am coming back here today, after having used this nearly every day of the week, over the past three years now. It has been accurate for me down to 0.0005", as verified with other calibrated certified measuring equipment, used to measure the parts it produces. This purchase was a great value for the money. It has been extremely accurate, fast, and easy to use.

Worked great on my drill press, and for a great price

After drilling and tapping holes on my xy table to install, I find out there are at least 2 dead spots on the travel making the dro completely unreliable. It wasn’t immediately obvious until the part I was fabricating was ruined. Cheap Chinese knock off-DO NOT BUY

Accurate. Easy to navigate and understand. Wish it turned off automatically after 'X' number of minutes, because it's easy to use it and forget it's on, which will kill the batteries.

This worked out great as a DRO for my lathe cross slide.

Accurate and good quality for this price...