CNC PCB milling
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I found the problem: bad power supply brick. It is supplying no voltage at all. :(
The power brick that came as part of the kit says it is rated at 24v dc 5.62amp. Is that enough, or should I get something that can do more amps?
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I don't have much optimism that the cheap-ass power supply that came with the kit can be repaired (well, not by me anyway).
I ordered a 6amp one as a replacement, just to have a little more headroom:
https://www.amazon.com/gp/product/B01AJQ9G2C/ref=oh_aui_detailpage_o01_s00?ie=UTF8&psc=1It may turn out to be cheap-ass also, but I can get it tomorrow, so I'm rolling the dice.
If that burns out too, then there's this one, which looks more beefy and would be my first choice, but will take a week to receive it:
https://www.amazon.com/gp/product/B01J19G00E/ref=oh_aui_detailpage_o00_s00?ie=UTF8&psc=1 -
Dang. I cancelled the order, as I'm not sure whether its 5.5mmx2.1mm barrel jack will fit or whether a 5.5mm x2.5mm is required.
Looks as though the barrel on the woodpeck is 2.5mm inside diameter....
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Powering it from a variable power supply, it apparently works. Here's the etching on a piece of plywood:
I watched the current being drawn, and it appeared to always be below 1 amp. The variable power supply can supply up to 5 amps, so no problem there as far as I can see.The etching that it did was a bit weird: deep cuts in the inside diameter of the P's, but only faint cuts just outside. The R was barely even touched at all. The surface doesn't feel sufficiently non-flat to account for that.
Ideas as to what's going wrong there?
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Here is a contextual photo:
The clamps are holding the board very securely. -
After thinking about it, my hypothesis is that the feedrate is too high. I have it set to 1 in ChilliPeppr. I think maybe it comes down rapidly to the programmed height, but if it meets resistance then it skips some motor steps. Since it's open loop, it doesn't know. Then it dwells at that depth until it picks up the bit and relocates. I'll try a slower feedrate and see if it makes a difference.
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Maybe the bit is too dull as well. It's one of the freebies that came with the kit.
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Also, what is the preferred way to tighten the ER11 chuck? So far, I did it just by hand, which seems to have been good enough. However, maybe a better practice is to give it a 1/4 turn further tightening using wrenches after that? How are others here approaching that?
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Also, what is the preferred way to tighten the ER11 chuck? So far, I did it just by hand, which seems to have been good enough. However, maybe a better practice is to give it a 1/4 turn further tightening using wrenches after that? How are others here approaching that?
@neverdie for er11 fastening you should use two wrenches.
if you loose steps during the milling, then with the given feed rate / depth / spindle speed combination the cnc / spindle / steppers are not powerful enough.
if you wood milling depth is not constant then:
- the wood is not flat
- the cnc bad is not flat
- the cnc x axis is not horizontal
my availability for the next couple of days will be quite limited, so I wish you good luck for experiencing the router and for the first PCBs!
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Also, what is the preferred way to tighten the ER11 chuck? So far, I did it just by hand, which seems to have been good enough. However, maybe a better practice is to give it a 1/4 turn further tightening using wrenches after that? How are others here approaching that?
@neverdie said in CNC PCB milling:
Also, what is the preferred way to tighten the ER11 chuck? So far, I did it just by hand, which seems to have been good enough. However, maybe a better way is to give it a 1/4 turn further tightening using wrenches after that? How are others here approaching that?
+1 for the wrench, mostly because of vibrations that could unscrew it. No need to pull a muscle on it as it is tapered and has big contact surface
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Also, what is the preferred way to tighten the ER11 chuck? So far, I did it just by hand, which seems to have been good enough. However, maybe a better practice is to give it a 1/4 turn further tightening using wrenches after that? How are others here approaching that?
@neverdie If it is anyway similar to a Router, it should have a locking pin to hold the spindle, or a second nut against which you tighten the collet. Do not overtighten, just enough to bite the shaft, otherwise you either damage the shaft or more seriously shatter the collet, it should be just enough to be a firm clamp to ensure grip, the collet will do the rest.
Not a user of these CNCs but I would guess the same principles apply... Just my 2c... -
@neverdie for er11 fastening you should use two wrenches.
if you loose steps during the milling, then with the given feed rate / depth / spindle speed combination the cnc / spindle / steppers are not powerful enough.
if you wood milling depth is not constant then:
- the wood is not flat
- the cnc bad is not flat
- the cnc x axis is not horizontal
my availability for the next couple of days will be quite limited, so I wish you good luck for experiencing the router and for the first PCBs!
Have a Merry Christmas!
Also, I'm not going to dwell on etching wood . It was just my first attempt at etching anything, and I thought wood might be a little softer.
I suppose the next step is to have a go at auto-leveling on a PCB rather than perfect the machine's etching of plywood. Indeed, PCB's may turn out to be easier, as the resistance to downward motion (especially after auto-levelling) should be more uniform.
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Meh, I think I know what happened now. If the z-axis ever skips a step in downward motion--for whatever reason--then the rest of the etching is screwed from that point forward, because the higher height then becomes the new "zero" for the entire remainder of the etching since the depth control is completely open loop. So, the first spot in the sequence that isn't at proper depth would be where the error occurred, creating a persistence of the error from that point forward in the etching sequence.
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Meh, I think I know what happened now. If the z-axis ever skips a step in downward motion--for whatever reason--then the rest of the etching is screwed from that point forward, because the higher height then becomes the new "zero" for the entire remainder of the etching since the depth control is completely open loop. So, the first spot in the sequence that isn't at proper depth would be where the error occurred, creating a persistence of the error from that point forward in the etching sequence.
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@neverdie If the material is parallel to the cutting plane, the cut depth should be constant. Might I suggest doing same experiment using auto-level.... Wood is easier on the bits, plywood less so but still less abrasive than FR4...
@zboblamont said in CNC PCB milling:
Might I suggest doing same experiment using auto-level....
Is there an auto-level that works on wood? I thought it assumed a conductive surface, like on a blank copper PCB, to facilitate the auto-leveling mapping process, so that it knows when contact is made and therefore the height at each touch point.
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@zboblamont said in CNC PCB milling:
Might I suggest doing same experiment using auto-level....
Is there an auto-level that works on wood? I thought it assumed a conductive surface, like on a blank copper PCB, to facilitate the auto-leveling mapping process, so that it knows when contact is made and therefore the height at each touch point.
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@zboblamont said in CNC PCB milling:
Might I suggest doing same experiment using auto-level....
Is there an auto-level that works on wood? I thought it assumed a conductive surface, like on a blank copper PCB, to facilitate the auto-leveling mapping process, so that it knows when contact is made and therefore the height at each touch point.
@neverdie I should explain my thinking... I do not think your wood experiment made sense. You assume your sensors and the wood are parallel, this need not be true. Plywood is generally less than 0.3mm out of true, even if you could zero the 4 corners with foil or similar it would give you a plane on which to see if the original trial was misleading.
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@neverdie Tinfoil?
@zboblamont said in CNC PCB milling:
@neverdie Tinfoil?
You get an A+ for creative thinking. I suppose extra wide foil tape might work.
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@zboblamont said in CNC PCB milling:
@neverdie Tinfoil?
You get an A+ for creative thinking. I suppose extra wide foil tape might work.
@neverdie I was thinking kitchen foil pressed flat as possible to the block surface, whatever works...
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This is a good video for how to auto level in ChiliPeppr:
https://www.youtube.com/watch?v=6WNE3E1ZZYYSo, with that as inspiration, I plan to connect the probe to A5 on the woodpecker, and the PCB surface to GND. He soldered his ground wire to the PCB, so I guess I'll do the same, at least for now.
I'll use tape to secure the PCB to the sacrificial board underneath.
