The sound at 3:35 when the shelix head spins down is a damaged bearing somewhere. When new lubricated bearings are turned by hand there should be no noise at all, and absolutely no feeling of "bumpiness".
@@WikiSnapper Yes. I wonder if the bearing was installed by beating it on with a hammer, or if the assembly was dropped on to the bearing at the factory.
The ATTENTION TO DETAIL in all aspects of all your videos! It's apparent that you know a ton about experimental design and the details that you include in your videos are highly educational and remind me constantly to be just as vigilant when designing and executing my own experiments!
For the general hobbyist (like myself), perhaps noise and power consumption are secondary concerns to output quality and maintenance (including cost). For me, I love the result of my helical cutters and know that should I (lord forbid) cause my thicknesser any damage, it's a relatively minor cost to replace only 1 or 2 cutters rather than a blade. Love your tenacity and methodology as always! Cheers from Sydney, Dave
I put a Shelix head in my Dewalt 735 planer and it made a HUGE difference both in terms of noise volume, finish quality and ease of use on my machine as I can take off more material easier. And if you do get a nick in a blade, you just rotate the one blade a quarter turn and keep on going. The carbine cutters last way longer than HSS. *edit* The other thing to consider with a helical head vs a standard knife cutter is that helical heads produce small chips instead of long ribbons which can really clog up dust collection.
That's awesome because so far my steel knives have lasted me 25 years. So way longer would be like lifetimes. Of course I sharpen my knives pretty often. I bought another set of knives but I've never used them yet. They're still sitting in a drawer.
@@1pcfred if your knives are that old, it's possible the quality of steel was better when they were made because a lot of HSS cutters now dull quite easily. I'd also like to know how often you're putting lumber through your machine as I read a review by one fella who said he's run over 5000 board feet through his shelix head on one project and they still cut like new.
@@krenwregget7667 I do not know if my knives are HSS. Maybe? I do know they take a sharp edge. I've passed some pretty bad wood through them too. Like pallet wood. Although that's not all the same. A board foot is a measure of volume, not area. So it is not easy to figure out how much surface 5,000 board feet really is. I used to run my planer more than I do now. I'll only break it out today if I have to plane a lot of wood. Which isn't too often anymore.
maybe already said in comments, the most important variable to recognize is the comparison in cut quality between hss and carbide. when things are easy the comps might be similar, but when things are difficult a carbide anything is going to outperform hss because it’s harder and stays sharper longer. Great work, Matthias. I appreciate your unbiased approach and the interesting discoveries that result.
I can't lie, I'm actually really impressed by the low severity of injury on this one, I probably would have cut myself so often I'd bleed out before running the second test batch.
It's like when you become obsessed with getting your chisels and plane irons to ultimate sharpness, and they only need to look at you to draw blood. 😬 Either that or I am getting clumsy in my old age.
There might be a problem with bearings or balance. I put a shelix head on my 6” jointer and the performance was night and day. Although almost noting can beat freshly sharpened flat heads for a smooth finish, I had to resharpen almost every day with heavy usage. The shelix cuts like butter, laughs at most knots, and is ~4 times quieter (I didn’t do tests but my ears and the people around are thanking me) and I haven’t even rotated a single blade in over a year.
Yeah there's really no replacement for sharp tools. Once you see what sharp tools can do then you always just want to use your tools when they're sharp. So what that ultimately means is you have to get really good at sharpening. It's a vicious cycle. I look at my tools under a microscope now to see how sharp they are. It gives another perspective on matters. Now I want a better microscope, of course. I just have a cheap USB one now. I was looking at saw teeth the other day with it. Very interesting.
Watch out for those knots. I put a pine board through my Dewalt thicknesser and the shelix head pulled out a loose knot which was so hard that as it bounced around inside the machine it completely wrecked the cutter head - not just the cutters - it bent back many of the cutter seats machined into the head, parts of them were torn and split. It didn’t do the thicknesser much good either. I managed to sort out the machine, but the head was a right off. It’s as it there had been a steel nut bouncing around in there.
@@1pcfred I recommend the Edge-On-Up sharpness tester - gives more quantitative information than a microscope image. That feedback helped me improve my sharpening a lot.
@@paulkolodner2445 what I did to improve my sharpening was just sharpen stuff for over 50 years. Maybe there's something else I can do to improve? I've an open mind. Just between you and me though I kind of doubt it. But we'll see.
Cheers from Belgrade, Serbia i watched almost all of your videos, you have interesting take on wood and exhibitionist ideas, so its fun to watch, and you dont lose nerves when things goes badly, which is nice
Those old bearings look to have a Metal Dust Shield (part number ending with Z or 2Z) the new bearing is a Rubber Seal (part number ending with RS or 2RS). Rubber seals will naturally create more drag.
More Drag - Yes. Like 500 Watts more drag? No. That would immediately melt the rubber completely off, or ignite it more likely. Its prob 50/50 Grease, Air resistance and maybe slightly missaligned bearings causing pinching.
@@marcoschwanenberger3127 I took his "more drag" comment to mean the difference between spinning freely and stopping themselves earlier. Not so much the power consumption.
@@Scoots1994 his old bearings definitely have zero grease left in them. Those things are bone dry. Even oil would stop free spinning. They're pretty low load so they might not even need grease, so that might be all the better for him to save on efficiency.
@@F0XD1E Problem with metal shield bearings and grease in wood processing machines is the dust - the dryer the better. Wooddust on grease ignites in a bearing easily once it is enough to increase friction - even worse with a wooden corpus. the dust-on-oil/grease is the reason why historic machinery was openly oiled twice a day in amounts to wash the collected dust to the outide of the bearing. A bloody mess and a problem for finished surfaces not yet coated, but the way to keep the machine running without going through bearings weekly. In this case here though I'd go for the alignment with Matthias' planer, because a dry, slightly worn bearing is way more forgiving than a new tight greased one.
@@manfredschmalbach9023 Bearings on some of the steam driven stuff I used to 'engineer' on, like the Riverboat at Disney had CONSTANT oiling from clear cups so you could see when they needed filling, and the tops had a pull and tilt to turn the flow off when not running, and a screw under that tilt do dad to adjust the flow. It made a mess if you had the flow set too high, and it seemed like most everywhere you had to get to wipe the mess off was hotter than H E double hockey sticks. These were mostly VERY low speed bearings, some of them like like 12 RPM,on the paddle wheel and nothing over about 150 RPM. They were mostly babbet type bearings, IIRC.
Oh, COOL! The noise, surely you recognize that. It's the exact same effect as your homemade siren, the dust collector pulling air through is alternately stopped/passed as the blades close and open the gap between themselves and the bed. Paused @ 01:12, I bet the shelix head doesn't do that since the flow is never fully stopped.
I also recently replaced the straight blade cutter head in my planer for a helical cutter head. There's definitely something wrong with yours, or the installation, based on the sound. With my dust extractor running, I literally cannot tell whether the planer is turned on or off, it's that quiet.
I had a 6" helical head jointer with a 1.5hp motor. It clearly was underpowered and a pain to use on hardwood. I swapped it out for a 3hp motor and it was like night and day. Completely transformed the jointer from a pain to an absolute dream to use. I am not surprised therefore that you were using twice as much power with the new helical head, because that is exactly what my anecdotal experience says would happen.
The bearings on your old cutter head appear to be metal shielded. The ones you're comparing it to are rubber sealed. Metal shields Don't make contact between the shield and the inner race like the rubber seal bearings do so they will spin more freely. That being said they probably shouldn't spin that freely. They also don't sound very good. It's not really easy or practical to repack metal shielded bearings because the metal shields usually get distorted / destroyed during removal. Best just to replace them
Setting aside bearings and noise, the cut quality was not the unambiguous, major improvement I was expecting. Thanks for the comparison (round 1 I suspect).
Yeah and Mathias didn't even sharpen the steel knives either. While he put them up against brand new carbide inserts. Plus with the heavy cut that's worst case for the steel knives too. It favors the inserts more.
I really appreciate this video. My jointer came with a spiral head, and I have no interest in changing that out, but I have been on the fence on changing the head for my planer. I like how the carbide heads don't need replaced as often but using more juice makes me hesitant because my shop struggles with that already.
I'm still running my original knives and they're decades old now. Of course they've been sharpened countless times between then and now. They still got life left in them too.
Are your power consumption concerns related to cost, inadequate service or both? I occasionally trip a breaker, but never have given a thought to the cost of running my planer or table saw for any given project.
@@marshallmurrell4583 I have 3 outlets in my entire shop, and so I have power bars with breakers in them that all of my tools are plugged into. It's not ideal but my shop isn't large and I do hobby wood working not professional work. The breakers in the power bars pop under too much load. I only ever run 1 tool at a time (and my dust collector which has its own breaker because it pulls all the juice).
This is great information! I installed a similar head on my planer and love the results but never looked into the power consumption. That’s why these videos are great, they are always full of information that I didn’t know I was interested in!
First off I absolutely love your videos and have been watching them for many years, but I do have to say that homemade jointer is the most terrifying thing I’ve ever seen, my solid steel jointer is terrifying and it’s solid as a rock, but those heavy, razor sharp blades spinning up to a thousand or more rpms is just beyond scary, it’s truly amazing that those two small pieces of birch ply have kept that thing from seriously hurting you or even killing you buddy, as always stay safe truly. I’ve made some dumb mistakes as all true woodworkers have and have seen even more had have to say the worst are always jointer and table saw with routers close thereafter, I’ve witnessed someone mutilate their hand on a jointer after hitting a knot( which they should have paid attention too before even beginning) as well as my self loosing the top of my right ring finger after a board took off like a rocket! Please stay safe Matt
Yeah I don't trust those wooden bearing blocks whatsoever, there's a lot of energy in that cutter. Would be nice if a machining channel made him some steel or alloy bearing blocks that he could properly bolt down rather than using deck screws.
Good stuff! I can’t argue with your measured results, so I won’t try. I installed a Lux spiral cutter in my Dewalt 735X planer several months ago. I always wear eye and hearing protection since the planer and dust collector make so much noise together, therefore I don’t really notice a sound difference. I do see a dramatic increase in cut quality, however. My dust collection has seemed to improve with the smaller cuttings, which I appreciate. The Lux head was very expensive, but I would do this upgrade again.
Even if the insert cutter performs the same with higher power consumption, the increased longevity will be a big benefit. Also, it might be easier to rotate those inserts than to change out the old blades.
For Canadian viewers, there's a Canadian company called Sheartak in Kitchener-Waterloo that makes custom helical cutter heads. They have tons in stock, and can make one for just about anything. Cheaper than Shelix.
I’ve got a Sheartak head in the 510 wide felder jointer. It’s amazing. They are not Canadian. Heads are made and shipped from China, but service is first rate and they are very responsive.
@@gl7662 Sheartak includes shipping, and also 5 free replacement cutters. Try completing that Shelix order, you will find that your total goes up to $608 before adding any cutters. Add another $45 for 10 replacement cutters. And add a surprise amount of brokerage fees when it arrives at your door from the US. In many cases the price difference is more dramatic. My order from Sheartak for a Shopsmith cutter head was $590, from Shelix it would have been about $1000.
I did a power comparison with the SHELIX and OEM knives in the DW735 planer. The SHELIX drew less power under no load (around 3 amps less), but more power under load (around 5 amps more).
I just took delivery of a Shelix head I ordered 50 weeks prior for a Dewalt planer. Nothing against the company, they were up front about lead times when I ordered. They are popular and therfore the line is long.
Something to explore swap the cutterhead bearings side to side to see where the vibration may be coming from. I found a bearing issue by mounting a dial indicator to outfield table ( mine is magnetic 😉) with the probe over each bearing cap. Shows up very quickly.
I love your way of thinking and how you try to deal with engineering challenges through experimental measurements. I think that the best way to measure the efficiency of each planner head is to measure directly the cutting force under constant feeding speed and load (as you did), not the power consumption. Bearings have increased power loses when rotating under load. If you know the forces acting on a bearing then you can estimate the power losses with a simple calculation. Most bearing manufacturers provide rolling resistance (friction) factors for their products.
The helical head (lux cut, a shelix clone) vibrates noticeably more than the original straight knife head in my DeWalt planer. Overall I'm not in love with it. I *do* love the shelix I installed on my jointer though.
I think the bearings are out. or something. if you can, protect your hands, push hard on the bearings, and roll the cutter. It should roll silently, and have no play. I would not be surprised if the cutters bearings got damaged 'cause shipping decided to play kickball with the crate
I grew up with that old style blade head and it was always very loud but a friend of mine got a new planer with a Shelix head and it was so quiet we could have a normal conversation over it running. Even with the new head cutting it was quiet enough you could still loudly talk without having to shout.
The noise that matters to me is when you're actually planing. With my DeWalt the shelix is much quieter (with the straight blades you could hear it a few blocks away). However, I'm unhappy with the finish quality of the shelix.
I replaced my 8" jointer head with a Byrd Shelix Cutterhead. It had 40 cutters on an 8" head. The difference was night and day. Quieter, smoother cut and to sharpen, just rotate the heads and there's NO OUTFEED TABLE ADJUSTMENT NEEDED! Yay!!!!!
The drastic increase in planing power consumption can be attributed to a continuous cut. With your conventional head, you're only cutting for a fraction of every revolution...the knives are only hitting three times per revolution even though the contact area is higher in comparison. The shelix head is basically always guaranteeing that some part of a cutter is in contact with the wood (with the contact area lower) so the motor is always under load and doesn't have time to do any kind of speed recovery that would help with cutting momentum. I run a Shelix on my 735X and have noticed how uncomfortably warm the plug gets now. I wouldn't say that it leaves a superior finish per se, it just leaves micro waves that are much easier to sand and blend than what I might deal with with straight knife gouging...or worse, chunks missing out of a knife.
This actually does not make any sense, physics wise. If anything the continuous load should use LESS power. It is probably the cutter geometry. The shelix is probably making smaller chips or doing more damage to the chips than the straight knife.
@@NGinuity Compare it to router bits with a straight flute vs spiral cut. A straight knife is going to briefly impart a very large force since it's cutting the entire width of the board, whereas the helical cutter only has a very small cutting edge in contact with the wood at any time. However the helical cutter has a new edge going into the wood continuously, where the straight knife head has a relatively large gap between cuts. Power consumption might average out - small continual force, vs large intermittent force. But I would make the argument that the intermittent cutting is less efficient because of all the vibration it creates.
Hey, great video. It has never occurred to me to make a shop built planer, and you have done a nice job of it. I'll be checking your old videos in a bit to see if you covered it. I really don't think you can regrease sealed bearings, and if they are noisy and that free running, they need replacing. It's not like they are super expensive. We used to have a DeWalt thicknesser at my Menz Shed that had HSS blades. It was so noisy I couldn't consider getting one for my home shop. We now have a cast iron 15" Macma thicknesser with helical heads which is _much_ quieter. It also doesn't clog the dust extractor when used with damp wood. It does still leave slight lines across the timber, but not as bad as the DeWalt, and I didn't fit the inserts and, sad to say, some of the Shed lads are not flash with their workshop practices.
Is the Shelix head heavier than the old head. On my DeWalt DW735 planer, I think the default head was aluminum and thus a lot lighter than the Shelix I replaced it with.
Suggestion: you could install a spring to pull the guard back over the spinning head once you finish the cut. A few years ago Jamie from Perkins Builder Brothers channel found out how unforgiving an unguarded jointer is ...
I would definitely pursue this further. Seems like it needs a wee bit of tweaking lol. My company is still a strong believer in the standard straight knife cutter heads and doesn’t want to shell out money for spiral carbide cutters. We run everything through our wide belt to clean up the material but it’s never perfect. All they’re more expensive I still think this is the way to go
The difference is quite huge. Especially when one does hit a nail and you have to turn an insert versus change/sharpen the blades. Also Carbide stays sharp a very long time compared to STeel.
i put one of those on my dewalt planer.. it was like a whole new machine; no longer did it blow the breaker, even with heavy cuts, and it cuts MUCH cleaner than the stock cutterhead that it came with. if you there is one single thing you can do to your planer to upgrade it, it's getting a helical cutterhead for it.. can't reccomend it enough. When I bought a new edger, I specifically looked for one with a helical head on it...
Great comparison video! I've always wondered: Would it be a good idea to make a jointer with an oblique cutter head? I mean: the traditional one but installed in a diagonal. Maybe it pushes wood laterally? Maybe it's a great uprgrade. And obviously should have both tables modified (in and out). Hope to hear you opinions!
My Dewalt 735 with a Shelix cuts so smooth, it is like I don't even need to sand after. I take shallow cuts so maybe that is it. No problem with little snipes with each carbide insert either.
I wonder if you redesigned your dust collection orifice, by adding some baffles and maybe taper it away from where the cutter head meets the planer bed. Seems like you have created a chamber the wants to amplify the sound and pumping action of the air flow around the orifice/blade. Food for thought.
Recent installation of Shelix head in my jointer has made a world of difference in the ease of use of the jointer and the noise level. The jointer operation is MUCH more smooth and much quieter. Quality of the cut is much better. Have on in my Makita planer as well.
After you switched, did you check to ensure the bearings and shaft were perfectly aligned? It appeared that you might have reattached the cutter head assembly without checking that or checking that the assembly was still perpendicular to the motor pulley. Don't know if any of those might affect noise level or power consumption. It had always been my impression that the shelix head was quieter. At least you were able to confirm that the shelix head gave a smoother surface overall. While I truly admire you, John Heisz and others who make their own fabulous power tools, there must be reasons why top end jointers have machined cast iron bases and machined steel pillow block bearings, such as durability and repeatability when re-installing bearings or cutter heads.
True for the repeatability aspect. These wood made machines are one-offs so less of an issue. I'd expect the strength/resistance of the cutter head and metal bearings to exceed that of the screws' attempt to move one bearing out of line with the other.
You could also stick some of this sound dampening material which is used in cars on the inside of the jointer to get rid of some of the noise. They prevent that the wood could start to swing and act like a resonance body
Yay, helical heads take more power, but run smoother and way quieter cutting. There is something up with that head you have there. Been running a LuxCut in my dewalt planer and its unreal how much better and longer lasting they are! Do a LOT of reclaimed 200yr old oak and the stock knives would go dull and be useless after 6-8 runs.. havent changed the lux cut blades yet, they really are better!
Been looking forward for this to come out after you mentioned getting it in, so long ago it seems! Hope those quirky issues you have get sorted and it performs better. The increase in power is a common observation, as instead of taking two intermittent cuts, it's under a constant load from the staggered teeth. The power increase while not cutting doesn't make as much sense, as that'd be either a difference in air resistance on the carbide knives versus two steel blades, or bearing issues.
Sound is a fickle thing, did you turn off any automatic atenuation? might've just adjusted to the higher base level sound of the vibrating planer and thus the cut noise is also lower.
I’ve heard/read that the reason that the Shelix head consumes more power is because there are cutters in contact with the wood at all times because of the spiral design. That’s not the case with straight cutters. I’m not sure if that argument holds water but it’s a possibility.
I just mentioned this in another comment. Our HSS bladed thicknesser used to clog the dust extractor port when using less than perfectly dry timber. The helical head thickness does not have this problem because the shavings it makes are small chips rather than long strands. The finish is better and the thing I personally like best is that it is way quieter. Not even as loud as a table saw. The DeWalt thickness we used to use was so loud I couldn't possibly have bought one for my home shop.
Yep. The wood mounting, being less rigid, would allow a small out of balance to swing out by centrifugal force and become a larger amplitude of out of balance. In other words the flexibility of wood increases the amount of vibration. I think his jointer is unique in having an all wood mounting system for the rotating blade. Not much experience to go by.
What software is used in conjunction with the smart plug to get the second by second date? is there a video/thread anywhere explaining how to set that up?
Did an 8 inch shelix head on a Delta jointer. Should have done that years ago, won't be going back to straight knives. Quieter, smoother and have yet to rotate the inserts.
A thought about getting the fairest comparison: would not splitting a board on the bandsaw and then planing each half of the book matched pair on either planer give the most comparable result?
How hard do you think it would be to add an indicator gauge calibrated with the infeed table to show how much material you're removing, or is it easy enough to use a gauge that it wouldn't be worth it?
The bearings are mounted in a wooden holder which is mounted on a wooden frame. This may permit much higher amplitude vibrations. In other words the shelix needs a very rigid mounting system. All metal. On the other hand, it may be seriously out of balance compared to the knives. Still an open question.......
I saw when you inserted the new cutter-head and bearings in your bearing blocks, it seemed to get in pretty smoothly without any force (at least the first one). On your bandsaws I remember the fitting had to be tight, in order to prevent it from working loose. Am I correct, that in this plander configuration the bearings are not prone to work themselves loose so easily as on a bandsaw?
The carbide inserts have a grade tolerance on the edge position relative to the seat, not sure if those are tight or loose tolerance, so not sure if the lines can get better or not. I suppose in madness you could get a bunch of loose ones and fit it to each seat measuring edge alignment.
MW what was the source of your shelix head/ size and cost carbide square count and type (some are wedge edged and use a corner). Would a higher quality sample make a big difference and best quality bearing are the absolutely parallel.
I've noticed on my own jointer that I can often use it without dust collection for shallow cuts and can turn on dust collection after to dispose of the chips stored in the dust port. Perhaps you can test a reduced amount of airflow to see if that helps with the noise. You might find that you don't need such powerful suction to achieve perfect results. After all, planer chips aren't the dangerous super-fine dust anyways, so you might find the noise to be more pollution than a small pile of chips to be swept later.
no bearings are precision parts, they dont break in ideally. more likely that the wood supporting the bearings isnt properly aligned (there is a reason bearing seats are machined from metal in "serious" applications) causing it to not run properly. or the bearings are shot, propably both, but its important to know, that using precision stuff like this in a DIY machine made from wood is far from ideal. does it work? obviously. does it come with drawbacks and problems? obviously again :)
Don't think so. Something is wrong with the new shaft. We have two of these in the shop and had another in our old planer. I'd never go back to straight knives again. Cut quality, especially over time is so much better.
You have to find that problem! My shelix is whisper quiet in my jointer and much louder in my yellow Dewalt planer. That thing is dangerous.(I think, I don't actually know) Also! I didn't think I had a miss aligned cutter in my planer and I thought I bent something. I'll go take a look next time and maybe I just shifted a cutter on the pallet garbage I was running thru there. I was afraid to look.
I'd be interested to see a new set of knives vs new shelix, and then perhaps over time you can keep track of hold long it takes before the shelix heads start losing cut quality, and need rotating. I think it's pretty accepted the Shelix is better, on some level, but the up front cost is huge, and replacement cutters are expensive, so it'd be interesting to know the durability, to compare cost over time.
I think people prefer the helical carbide cutters better because they're just too lazy to sharpen steel knives. They want to avoid the whole work aspect of woodworking as much as possible.
I wonder if you can get finer angle carbide inserts to make it "sharper" without affecting the geometry? Once balanced if you could do that, it'd be my pick.
Since you use this jointer for 11 years, the size seems perfect for you. Do you know how wide it is and how l long the in and out feed tables are? I am considering to buy 10 inch version (Hammer a3 26) which are still affordable.
Obviously not Matthias, but given that the outer bearing race shouldn't be moving unless there's major issues, they should hold up pretty darn well to simply static clamping load on a ring.
I wonder, could you try turning the teeth upside down to cut instead of scrape? Or is that angle too steep? Because I'm guessing the power difference was mostly due to the extra weight - having to 'spin up to speed' constantly as it's being slowed down by (slightly higher?) scraping friction. There's also the fact it's cutting at every degree of rotation, not just on the opposite faces? The shelix isn't cutting as much with each tooth (maybe only 2 or 3 engaged at any one moment), but it's a constant force, rather than the intermittent one of the flat blade. It feels like that would be more of a drag.
searching all the comments I can't figure out which model shelix this is so I can order it for your jointer I'm building, how can I contact jonathan and ask him I don't want to buy one that won't work with matthias jointer plans. thanks for any help
The pulley retention nut removal process had me screaming at the screen! I thought you would lose a 1.2mm layer from your leg if that mamma jamma went flying. The head vibration is scary. I am curious if your bearing blocks are not co-linear and cause you excess friction. Twist on the bearing races could be causing the shaft to cam over or Lean the outer races. Good luck and keep sharing your Mad-Scientific-Methodologies with your grateful masses! -CY Castor
@@matthiaswandel But you removed them and it appeared you re-installed them (or tried to) in the old screw holes. I think that might have caused some misalignment that you would not have had with a metal base, metal blocks and bolts.
@@matthiaswandel Slightly worn, bone dry metal-shielded bearings are way more forgiving in terms of alignment than brandnew rubbersealed tight ones. It can also start self-energizing cycles depending on amount of disalignment and rounds per minute with "whipping" tendency of the cutterhead once every factor's maximum should come together in a "shit hits the fan" moment. We once had a cracking cutterhead (spiral blade, dead-stop emergency brake allegedly saved us from complete disintegration of the head) in the first sawmill/planing factory I worked. Later assessment showed too worn-down bearing-holders in combination to an imbalance of the cutting head, after all was bent in place again and counterbalanced on an industrial balancer. Bearings were still in spec, their holding blocks weren't any more, single digit grams out of balance was enough to wreck it with the whipping tendency.
That nut spinner or whatever it was that kept edging closer to the running head due to vibration was driving me nuts. Also some tight metal pins to locate those bearing caps would help with that problem, as you said, screws or bolts are LOUSY locating devices, especially wood screws. Big stuff out of spec, like you are talking about is frightening, the kind of stuff that can end careers, and on rare occasions, even lives. Some of the 'safety features' on tools any more make the damned things far more dangerous. Not necessarily even bad design in some cases but horrible sticky flimsy crap. I just took the one off of my table saw because trying to start a board through it was absolutely risky. Some safety stuff is designed exactly as it should be, usually on high end or industrial tools.
@@MrJdsenior I worked as a selfemployed boatbuilder for over 30 yrs and rented machine rooms near my very work sites/customer's boats over that time. It got worse over those years, in terms of "safety": often I had to remove "safety features" in the way of my work for two or three hours - and put it back on after I was done cutting, thicknessing, planing and routing my strips'n boards, curves and rounds, when I was technically ready to leave. It became so bad I finally built a mid size boatbuilder's workshop in a trailer I could completely open, both sides became the awnings to work out of the weather in and on both sides of that thing, just to not have to mess around with "legal safety devices" making a lot of my work undoable on "legal" machinery anymore. You gotta know pretty well whatcha doing and have to keep Your regular as the irregular loads in sight and checked. You can only do that as long as there aren't any employees or even apprentices working with You. That makes safety and safety devices such a nuisance: You gotta make anything as vandal-proof as You can imagine vandal idiocy of Your employees, and then the deciding little sum of vandal idiocy more You couldn't even imagine yourself in a delirious stupor.
The sound at 3:35 when the shelix head spins down is a damaged bearing somewhere. When new lubricated bearings are turned by hand there should be no noise at all, and absolutely no feeling of "bumpiness".
That sound always reminds me of a coffee grinder.
@@Owiko7 With marbles in it.
@@2OO_OK everything about that makes me cringe inside. 😬
@@WikiSnapper Yes. I wonder if the bearing was installed by beating it on with a hammer, or if the assembly was dropped on to the bearing at the factory.
Notchy bearings will do this, even a little pitting on the races or a roller will make a difference at this rpm.
The ATTENTION TO DETAIL in all aspects of all your videos! It's apparent that you know a ton about experimental design and the details that you include in your videos are highly educational and remind me constantly to be just as vigilant when designing and executing my own experiments!
For the general hobbyist (like myself), perhaps noise and power consumption are secondary concerns to output quality and maintenance (including cost). For me, I love the result of my helical cutters and know that should I (lord forbid) cause my thicknesser any damage, it's a relatively minor cost to replace only 1 or 2 cutters rather than a blade. Love your tenacity and methodology as always! Cheers from Sydney, Dave
I put a Shelix head in my Dewalt 735 planer and it made a HUGE difference both in terms of noise volume, finish quality and ease of use on my machine as I can take off more material easier. And if you do get a nick in a blade, you just rotate the one blade a quarter turn and keep on going. The carbine cutters last way longer than HSS.
*edit*
The other thing to consider with a helical head vs a standard knife cutter is that helical heads produce small chips instead of long ribbons which can really clog up dust collection.
That's awesome because so far my steel knives have lasted me 25 years. So way longer would be like lifetimes. Of course I sharpen my knives pretty often. I bought another set of knives but I've never used them yet. They're still sitting in a drawer.
@@1pcfred if your knives are that old, it's possible the quality of steel was better when they were made because a lot of HSS cutters now dull quite easily. I'd also like to know how often you're putting lumber through your machine as I read a review by one fella who said he's run over 5000 board feet through his shelix head on one project and they still cut like new.
@@krenwregget7667 I do not know if my knives are HSS. Maybe? I do know they take a sharp edge. I've passed some pretty bad wood through them too. Like pallet wood. Although that's not all the same. A board foot is a measure of volume, not area. So it is not easy to figure out how much surface 5,000 board feet really is. I used to run my planer more than I do now. I'll only break it out today if I have to plane a lot of wood. Which isn't too often anymore.
Carbide does stay sharp far, far longer, even though it is not quite as sharp as HSS., in absolute terms
@@1pcfred sorry, I did write board feet where I meant linear feet. He was making flooring and trim moldings for two houses.
maybe already said in comments, the most important variable to recognize is the comparison in cut quality between hss and carbide. when things are easy the comps might be similar, but when things are difficult a carbide anything is going to outperform hss because it’s harder and stays sharper longer. Great work, Matthias. I appreciate your unbiased approach and the interesting discoveries that result.
I can't lie, I'm actually really impressed by the low severity of injury on this one, I probably would have cut myself so often I'd bleed out before running the second test batch.
Turning the machine off before you start makes working on it easier and less dangerous. :-/ :-)
It's like when you become obsessed with getting your chisels and plane irons to ultimate sharpness, and they only need to look at you to draw blood. 😬 Either that or I am getting clumsy in my old age.
@@TrevorDennis100 There are advantages and disadvantages to everything.
There might be a problem with bearings or balance. I put a shelix head on my 6” jointer and the performance was night and day. Although almost noting can beat freshly sharpened flat heads for a smooth finish, I had to resharpen almost every day with heavy usage. The shelix cuts like butter, laughs at most knots, and is ~4 times quieter (I didn’t do tests but my ears and the people around are thanking me) and I haven’t even rotated a single blade in over a year.
Yeah there's really no replacement for sharp tools. Once you see what sharp tools can do then you always just want to use your tools when they're sharp. So what that ultimately means is you have to get really good at sharpening. It's a vicious cycle. I look at my tools under a microscope now to see how sharp they are. It gives another perspective on matters. Now I want a better microscope, of course. I just have a cheap USB one now. I was looking at saw teeth the other day with it. Very interesting.
Watch out for those knots. I put a pine board through my Dewalt thicknesser and the shelix head pulled out a loose knot which was so hard that as it bounced around inside the machine it completely wrecked the cutter head - not just the cutters - it bent back many of the cutter seats machined into the head, parts of them were torn and split. It didn’t do the thicknesser much good either. I managed to sort out the machine, but the head was a right off. It’s as it there had been a steel nut bouncing around in there.
Anthony Bailey yeah you have to watch out for loose knots and crispy knots, they are dangerous
@@1pcfred I recommend the Edge-On-Up sharpness tester - gives more quantitative information than a microscope image. That feedback helped me improve my sharpening a lot.
@@paulkolodner2445 what I did to improve my sharpening was just sharpen stuff for over 50 years. Maybe there's something else I can do to improve? I've an open mind. Just between you and me though I kind of doubt it. But we'll see.
Cheers from Belgrade, Serbia
i watched almost all of your videos, you have interesting take on wood and exhibitionist ideas, so its fun to watch, and you dont lose nerves when things goes badly, which is nice
Those old bearings look to have a Metal Dust Shield (part number ending with Z or 2Z) the new bearing is a Rubber Seal (part number ending with RS or 2RS). Rubber seals will naturally create more drag.
More Drag - Yes. Like 500 Watts more drag? No. That would immediately melt the rubber completely off, or ignite it more likely. Its prob 50/50 Grease, Air resistance and maybe slightly missaligned bearings causing pinching.
@@marcoschwanenberger3127 I took his "more drag" comment to mean the difference between spinning freely and stopping themselves earlier. Not so much the power consumption.
@@Scoots1994 his old bearings definitely have zero grease left in them. Those things are bone dry. Even oil would stop free spinning. They're pretty low load so they might not even need grease, so that might be all the better for him to save on efficiency.
@@F0XD1E Problem with metal shield bearings and grease in wood processing machines is the dust - the dryer the better. Wooddust on grease ignites in a bearing easily once it is enough to increase friction - even worse with a wooden corpus. the dust-on-oil/grease is the reason why historic machinery was openly oiled twice a day in amounts to wash the collected dust to the outide of the bearing. A bloody mess and a problem for finished surfaces not yet coated, but the way to keep the machine running without going through bearings weekly. In this case here though I'd go for the alignment with Matthias' planer, because a dry, slightly worn bearing is way more forgiving than a new tight greased one.
@@manfredschmalbach9023 Bearings on some of the steam driven stuff I used to 'engineer' on, like the Riverboat at Disney had CONSTANT oiling from clear cups so you could see when they needed filling, and the tops had a pull and tilt to turn the flow off when not running, and a screw under that tilt do dad to adjust the flow.
It made a mess if you had the flow set too high, and it seemed like most everywhere you had to get to wipe the mess off was hotter than H E double hockey sticks. These were mostly VERY low speed bearings, some of them like like 12 RPM,on the paddle wheel and nothing over about 150 RPM.
They were mostly babbet type bearings, IIRC.
Every time I watch your stuff I’m incredibly impressed with how intelligent you are
Man, I’m no wood elf like you (absolutely no disrespect intended), but I can appreciate your analytics. Which is why I watch your videos. Nice work!
Oh, COOL! The noise, surely you recognize that. It's the exact same effect as your homemade siren, the dust collector pulling air through is alternately stopped/passed as the blades close and open the gap between themselves and the bed. Paused @ 01:12, I bet the shelix head doesn't do that since the flow is never fully stopped.
I also recently replaced the straight blade cutter head in my planer for a helical cutter head. There's definitely something wrong with yours, or the installation, based on the sound. With my dust extractor running, I literally cannot tell whether the planer is turned on or off, it's that quiet.
Then there is literally something wrong with your hearing if u can’t hear the difference. Sheesh.
@@MrTooTechnical You don't know how loud his dust collector is though
Then it’s a crappy dust collector
@@MrTooTechnical Just one great hot take after another, eh?
Well why not
I had a 6" helical head jointer with a 1.5hp motor. It clearly was underpowered and a pain to use on hardwood. I swapped it out for a 3hp motor and it was like night and day. Completely transformed the jointer from a pain to an absolute dream to use. I am not surprised therefore that you were using twice as much power with the new helical head, because that is exactly what my anecdotal experience says would happen.
great to see you again Matt
The bearings on your old cutter head appear to be metal shielded. The ones you're comparing it to are rubber sealed. Metal shields Don't make contact between the shield and the inner race like the rubber seal bearings do so they will spin more freely. That being said they probably shouldn't spin that freely. They also don't sound very good. It's not really easy or practical to repack metal shielded bearings because the metal shields usually get distorted / destroyed during removal. Best just to replace them
Setting aside bearings and noise, the cut quality was not the unambiguous, major improvement I was expecting. Thanks for the comparison (round 1 I suspect).
Yeah and Mathias didn't even sharpen the steel knives either. While he put them up against brand new carbide inserts. Plus with the heavy cut that's worst case for the steel knives too. It favors the inserts more.
This new head vibrates a lot, so a perfect cut quality is nearly impossible to achieve.
I really appreciate this video. My jointer came with a spiral head, and I have no interest in changing that out, but I have been on the fence on changing the head for my planer. I like how the carbide heads don't need replaced as often but using more juice makes me hesitant because my shop struggles with that already.
I'm still running my original knives and they're decades old now. Of course they've been sharpened countless times between then and now. They still got life left in them too.
Are your power consumption concerns related to cost, inadequate service or both? I occasionally trip a breaker, but never have given a thought to the cost of running my planer or table saw for any given project.
@@marshallmurrell4583 I have 3 outlets in my entire shop, and so I have power bars with breakers in them that all of my tools are plugged into. It's not ideal but my shop isn't large and I do hobby wood working not professional work. The breakers in the power bars pop under too much load. I only ever run 1 tool at a time (and my dust collector which has its own breaker because it pulls all the juice).
Mathias, you sir are doing God's work. Thank you for the content.
This is great information! I installed a similar head on my planer and love the results but never looked into the power consumption. That’s why these videos are great, they are always full of information that I didn’t know I was interested in!
First off I absolutely love your videos and have been watching them for many years, but I do have to say that homemade jointer is the most terrifying thing I’ve ever seen, my solid steel jointer is terrifying and it’s solid as a rock, but those heavy, razor sharp blades spinning up to a thousand or more rpms is just beyond scary, it’s truly amazing that those two small pieces of birch ply have kept that thing from seriously hurting you or even killing you buddy, as always stay safe truly. I’ve made some dumb mistakes as all true woodworkers have and have seen even more had have to say the worst are always jointer and table saw with routers close thereafter, I’ve witnessed someone mutilate their hand on a jointer after hitting a knot( which they should have paid attention too before even beginning) as well as my self loosing the top of my right ring finger after a board took off like a rocket! Please stay safe Matt
Yeah I don't trust those wooden bearing blocks whatsoever, there's a lot of energy in that cutter. Would be nice if a machining channel made him some steel or alloy bearing blocks that he could properly bolt down rather than using deck screws.
@@ferrumignis Agreed! Aluminum bearing housings with through machine bolts plus jam nuts or safety wires, is the way to go here.
Good that You with this test removed all my doubts to buy it - Best with my normal knive head
Change the bearings and retest. I have shelix heads on my planer and jointer, both are fantastic. Low noise and terrific finish.
Good stuff! I can’t argue with your measured results, so I won’t try. I installed a Lux spiral cutter in my Dewalt 735X planer several months ago. I always wear eye and hearing protection since the planer and dust collector make so much noise together, therefore I don’t really notice a sound difference. I do see a dramatic increase in cut quality, however. My dust collection has seemed to improve with the smaller cuttings, which I appreciate. The Lux head was very expensive, but I would do this upgrade again.
Even if the insert cutter performs the same with higher power consumption, the increased longevity will be a big benefit. Also, it might be easier to rotate those inserts than to change out the old blades.
For Canadian viewers, there's a Canadian company called Sheartak in Kitchener-Waterloo that makes custom helical cutter heads. They have tons in stock, and can make one for just about anything. Cheaper than Shelix.
I’ve got a Sheartak head in the 510 wide felder jointer. It’s amazing. They are not Canadian. Heads are made and shipped from China, but service is first rate and they are very responsive.
@@gl7662 Sheartak includes shipping, and also 5 free replacement cutters. Try completing that Shelix order, you will find that your total goes up to $608 before adding any cutters. Add another $45 for 10 replacement cutters. And add a surprise amount of brokerage fees when it arrives at your door from the US. In many cases the price difference is more dramatic. My order from Sheartak for a Shopsmith cutter head was $590, from Shelix it would have been about $1000.
@@bpt006 They're a Canadian company. Yes, the parts are made in China. I don't know where Shelix are actually made.
@@trevorlambert4226 they're made in kentucky.
@@whirled_peas 👍👍👍
I did a power comparison with the SHELIX and OEM knives in the DW735 planer. The SHELIX drew less power under no load (around 3 amps less), but more power under load (around 5 amps more).
Awesome video and extremely helpful. Always good to get reviews from several perspectives.
Very interesting to see the data. Surprising how different the geometry is between the knives and the carbide inserts.
I just took delivery of a Shelix head I ordered 50 weeks prior for a Dewalt planer. Nothing against the company, they were up front about lead times when I ordered. They are popular and therfore the line is long.
Something to explore swap the cutterhead bearings side to side to see where the vibration may be coming from. I found a bearing issue by mounting a dial indicator to outfield table ( mine is magnetic 😉) with the probe over each bearing cap. Shows up very quickly.
I love your way of thinking and how you try to deal with engineering challenges through experimental measurements. I think that the best way to measure the efficiency of each planner head is to measure directly the cutting force under constant feeding speed and load (as you did), not the power consumption. Bearings have increased power loses when rotating under load. If you know the forces acting on a bearing then you can estimate the power losses with a simple calculation. Most bearing manufacturers provide rolling resistance (friction) factors for their products.
The helical head (lux cut, a shelix clone) vibrates noticeably more than the original straight knife head in my DeWalt planer.
Overall I'm not in love with it.
I *do* love the shelix I installed on my jointer though.
I really wouldn't want one in my DeWalt. It blows breakers from time to time as it is, and the shelix needs twice as much power to do it's thing!
@@matthiaswandel I have one on my DeWalt, does not trip breaker any more then before
@@matthiaswandel only because there is something wrong with yours!
The greatest benefit I've experienced is longevity. The noise and surface differences weren't very noticeable, but the blade life is far superior.
Love all the testing and comparing videos lately!
I think the bearings are out. or something. if you can, protect your hands, push hard on the bearings, and roll the cutter. It should roll silently, and have no play. I would not be surprised if the cutters bearings got damaged 'cause shipping decided to play kickball with the crate
Nice test and interesting result. Thanks for sharing.
I grew up with that old style blade head and it was always very loud but a friend of mine got a new planer with a Shelix head and it was so quiet we could have a normal conversation over it running. Even with the new head cutting it was quiet enough you could still loudly talk without having to shout.
The noise that matters to me is when you're actually planing. With my DeWalt the shelix is much quieter (with the straight blades you could hear it a few blocks away). However, I'm unhappy with the finish quality of the shelix.
I wear ear plugs when I run my planer so I'm not so concerned about the noise. Because it is permanent hearing damage loud in use.
A Machine made of Cast iron runs quieter. What is the weight difference of the heads?
I replaced my 8" jointer head with a Byrd Shelix Cutterhead. It had 40 cutters on an 8" head. The difference was night and day. Quieter, smoother cut and to sharpen, just rotate the heads and there's NO OUTFEED TABLE ADJUSTMENT NEEDED! Yay!!!!!
The drastic increase in planing power consumption can be attributed to a continuous cut. With your conventional head, you're only cutting for a fraction of every revolution...the knives are only hitting three times per revolution even though the contact area is higher in comparison. The shelix head is basically always guaranteeing that some part of a cutter is in contact with the wood (with the contact area lower) so the motor is always under load and doesn't have time to do any kind of speed recovery that would help with cutting momentum.
I run a Shelix on my 735X and have noticed how uncomfortably warm the plug gets now. I wouldn't say that it leaves a superior finish per se, it just leaves micro waves that are much easier to sand and blend than what I might deal with with straight knife gouging...or worse, chunks missing out of a knife.
This actually does not make any sense, physics wise. If anything the continuous load should use LESS power. It is probably the cutter geometry. The shelix is probably making smaller chips or doing more damage to the chips than the straight knife.
@@mckenziekeith7434 "If anything the continuous load should use less power"
wut.
@@NGinuity Compare it to router bits with a straight flute vs spiral cut. A straight knife is going to briefly impart a very large force since it's cutting the entire width of the board, whereas the helical cutter only has a very small cutting edge in contact with the wood at any time. However the helical cutter has a new edge going into the wood continuously, where the straight knife head has a relatively large gap between cuts. Power consumption might average out - small continual force, vs large intermittent force. But I would make the argument that the intermittent cutting is less efficient because of all the vibration it creates.
That's pretty cool
I love your channel I've been watching your channel since 3 years
Hey, great video. It has never occurred to me to make a shop built planer, and you have done a nice job of it. I'll be checking your old videos in a bit to see if you covered it. I really don't think you can regrease sealed bearings, and if they are noisy and that free running, they need replacing. It's not like they are super expensive. We used to have a DeWalt thicknesser at my Menz Shed that had HSS blades. It was so noisy I couldn't consider getting one for my home shop. We now have a cast iron 15" Macma thicknesser with helical heads which is _much_ quieter. It also doesn't clog the dust extractor when used with damp wood. It does still leave slight lines across the timber, but not as bad as the DeWalt, and I didn't fit the inserts and, sad to say, some of the Shed lads are not flash with their workshop practices.
Is the Shelix head heavier than the old head. On my DeWalt DW735 planer, I think the default head was aluminum and thus a lot lighter than the Shelix I replaced it with.
old one is considerably heavier
Suggestion: you could install a spring to pull the guard back over the spinning head once you finish the cut. A few years ago Jamie from Perkins Builder Brothers channel found out how unforgiving an unguarded jointer is ...
I would definitely pursue this further. Seems like it needs a wee bit of tweaking lol. My company is still a strong believer in the standard straight knife cutter heads and doesn’t want to shell out money for spiral carbide cutters. We run everything through our wide belt to clean up the material but it’s never perfect. All they’re more expensive I still think this is the way to go
The difference is quite huge. Especially when one does hit a nail and you have to turn an insert versus change/sharpen the blades. Also Carbide stays sharp a very long time compared to STeel.
Very beautifully built jointer
Would love an update on this with the new bearings... Really interesting video.
i put one of those on my dewalt planer.. it was like a whole new machine; no longer did it blow the breaker, even with heavy cuts, and it cuts MUCH cleaner than the stock cutterhead that it came with.
if you there is one single thing you can do to your planer to upgrade it, it's getting a helical cutterhead for it.. can't reccomend it enough. When I bought a new edger, I specifically looked for one with a helical head on it...
Love to see how you balance that new cutter.
I'm pretty sure the extra noise and power consumption is because of a bad flux capacitor in your oscillation overthruster.
Pretty much. I think it's twisted about 80° as well. You have to take the Earth's magnetic field into account. Not as simple as people assume.
Great comparison video! I've always wondered: Would it be a good idea to make a jointer with an oblique cutter head? I mean: the traditional one but installed in a diagonal. Maybe it pushes wood laterally? Maybe it's a great uprgrade. And obviously should have both tables modified (in and out). Hope to hear you opinions!
My Dewalt 735 with a Shelix cuts so smooth, it is like I don't even need to sand after. I take shallow cuts so maybe that is it. No problem with little snipes with each carbide insert either.
I didn't sand after planing with my old head either.
I wonder if you redesigned your dust collection orifice, by adding some baffles and maybe taper it away from where the cutter head meets the planer bed. Seems like you have created a chamber the wants to amplify the sound and pumping action of the air flow around the orifice/blade. Food for thought.
A power feed jointer seems like a cool feature. If you could ensure it rides against the back guide.
Sounds to me like a good project!
Recent installation of Shelix head in my jointer has made a world of difference in the ease of use of the jointer and the noise level. The jointer operation is MUCH more smooth and much quieter. Quality of the cut is much better. Have on in my Makita planer as well.
After you switched, did you check to ensure the bearings and shaft were perfectly aligned? It appeared that you might have reattached the cutter head assembly without checking that or checking that the assembly was still perpendicular to the motor pulley. Don't know if any of those might affect noise level or power consumption. It had always been my impression that the shelix head was quieter. At least you were able to confirm that the shelix head gave a smoother surface overall. While I truly admire you, John Heisz and others who make their own fabulous power tools, there must be reasons why top end jointers have machined cast iron bases and machined steel pillow block bearings, such as durability and repeatability when re-installing bearings or cutter heads.
I didn't check it just like I didn't check it when I first built it.
True for the repeatability aspect. These wood made machines are one-offs so less of an issue.
I'd expect the strength/resistance of the cutter head and metal bearings to exceed that of the screws' attempt to move one bearing out of line with the other.
You could also stick some of this sound dampening material which is used in cars on the inside of the jointer to get rid of some of the noise. They prevent that the wood could start to swing and act like a resonance body
Yay, helical heads take more power, but run smoother and way quieter cutting. There is something up with that head you have there. Been running a LuxCut in my dewalt planer and its unreal how much better and longer lasting they are! Do a LOT of reclaimed 200yr old oak and the stock knives would go dull and be useless after 6-8 runs.. havent changed the lux cut blades yet, they really are better!
Those little blades are usually made from a higher carbon steel, aren't they?
@@rrrt01 yup! much higher grade, as it's carbon still not high speed steel.. or some such thing like that.
@@Thomllama they are carbide... Not steel
Been looking forward for this to come out after you mentioned getting it in, so long ago it seems! Hope those quirky issues you have get sorted and it performs better.
The increase in power is a common observation, as instead of taking two intermittent cuts, it's under a constant load from the staggered teeth. The power increase while not cutting doesn't make as much sense, as that'd be either a difference in air resistance on the carbide knives versus two steel blades, or bearing issues.
he mentioned the idle power goes down on the shelix after the grease in the bearings is getting warm...
Sound is a fickle thing, did you turn off any automatic atenuation? might've just adjusted to the higher base level sound of the vibrating planer and thus the cut noise is also lower.
I’ve heard/read that the reason that the Shelix head consumes more power is because there are cutters in contact with the wood at all times because of the spiral design. That’s not the case with straight cutters. I’m not sure if that argument holds water but it’s a possibility.
MATTHIAS - What's that screw that fell under your left knee at 2:28?
Comparing the shavings would be intresting too!
The new Cutter head could make smaller shavings wich are easier to collect with dust Connection
I just mentioned this in another comment. Our HSS bladed thicknesser used to clog the dust extractor port when using less than perfectly dry timber. The helical head thickness does not have this problem because the shavings it makes are small chips rather than long strands. The finish is better and the thing I personally like best is that it is way quieter. Not even as loud as a table saw. The DeWalt thickness we used to use was so loud I couldn't possibly have bought one for my home shop.
I have a hypothesis; the increased noise "may" be being introduced by the wood construction of your jointer, especially the pillow blocks.
Yep. The wood mounting, being less rigid, would allow a small out of balance to swing out by centrifugal force and become a larger amplitude of out of balance. In other words the flexibility of wood increases the amount of vibration. I think his jointer is unique in having an all wood mounting system for the rotating blade.
Not much experience to go by.
This is such a brilliant video.
What software is used in conjunction with the smart plug to get the second by second date? is there a video/thread anywhere explaining how to set that up?
I wrote a python script
Did an 8 inch shelix head on a Delta jointer. Should have done that years ago, won't be going back to straight knives. Quieter, smoother and have yet to rotate the inserts.
A thought about getting the fairest comparison: would not splitting a board on the bandsaw and then planing each half of the book matched pair on either planer give the most comparable result?
Hmm hope you can figure out that balance, that thing don't sound right 🤔
Matthias, Very interesting! Thanks
How hard do you think it would be to add an indicator gauge calibrated with the infeed table to show how much material you're removing, or is it easy enough to use a gauge that it wouldn't be worth it?
The bearings are mounted in a wooden holder which is mounted on a wooden frame. This may permit much higher amplitude vibrations. In other words the shelix needs a very rigid mounting system. All metal.
On the other hand, it may be seriously out of balance compared to the knives.
Still an open question.......
I saw when you inserted the new cutter-head and bearings in your bearing blocks, it seemed to get in pretty smoothly without any force (at least the first one).
On your bandsaws I remember the fitting had to be tight, in order to prevent it from working loose.
Am I correct, that in this plander configuration the bearings are not prone to work themselves loose so easily as on a bandsaw?
yes. whichever part that spins needs the tight fit. these bearings are tight on the head
Interesting comments and testing.
The carbide inserts have a grade tolerance on the edge position relative to the seat, not sure if those are tight or loose tolerance, so not sure if the lines can get better or not.
I suppose in madness you could get a bunch of loose ones and fit it to each seat measuring edge alignment.
MW what was the source of your shelix head/ size and cost carbide square count and type (some are wedge edged and use a corner). Would a higher quality sample make a big difference and best quality bearing are the absolutely parallel.
That shelix head looks like it should have more cutters or is that just a by product of it only having a small diameter?
I've noticed on my own jointer that I can often use it without dust collection for shallow cuts and can turn on dust collection after to dispose of the chips stored in the dust port. Perhaps you can test a reduced amount of airflow to see if that helps with the noise. You might find that you don't need such powerful suction to achieve perfect results. After all, planer chips aren't the dangerous super-fine dust anyways, so you might find the noise to be more pollution than a small pile of chips to be swept later.
Fair's fair. I'd use the Sheilix for a while, too.
What's the recomended rpms from the manufacturer for the shelix cutter?
I wonder if the shelix cutter bearings will "break in" with some more time on them and start to use lower power to idle, and maybe run a bit smoother.
no bearings are precision parts, they dont break in ideally. more likely that the wood supporting the bearings isnt properly aligned (there is a reason bearing seats are machined from metal in "serious" applications) causing it to not run properly. or the bearings are shot, propably both, but its important to know, that using precision stuff like this in a DIY machine made from wood is far from ideal. does it work? obviously. does it come with drawbacks and problems? obviously again :)
Don't think so. Something is wrong with the new shaft. We have two of these in the shop and had another in our old planer. I'd never go back to straight knives again. Cut quality, especially over time is so much better.
i appreciate effort to dismantle all that stuff
Millwright here. That's the sound of a bad bearing. Maybe you installed them crooked in your "pillow blocks"?
How many rpm is generated in this test? I bought a used jointer and need to install a motor, greetings from Argentina
Where can I get the cutterhead to buy??
Would some Shelix heads be better than others? I would think the head would be balanced.
This is extremely interesting!
You have to find that problem! My shelix is whisper quiet in my jointer and much louder in my yellow Dewalt planer.
That thing is dangerous.(I think, I don't actually know)
Also! I didn't think I had a miss aligned cutter in my planer and I thought I bent something. I'll go take a look next time and maybe I just shifted a cutter on the pallet garbage I was running thru there. I was afraid to look.
Nice info and another good video. I know you played before/after audio but did you record any audio stats? dB levels or harmonics or anything?
I'd be interested to see a new set of knives vs new shelix, and then perhaps over time you can keep track of hold long it takes before the shelix heads start losing cut quality, and need rotating. I think it's pretty accepted the Shelix is better, on some level, but the up front cost is huge, and replacement cutters are expensive, so it'd be interesting to know the durability, to compare cost over time.
I think people prefer the helical carbide cutters better because they're just too lazy to sharpen steel knives. They want to avoid the whole work aspect of woodworking as much as possible.
@@1pcfredwhat an ignorant and arrogant comment
I wonder if you can get finer angle carbide inserts to make it "sharper" without affecting the geometry? Once balanced if you could do that, it'd be my pick.
no. those would be too prone to break. breakage is an issue on these already
@@matthiaswandel Interesting. Thanks, I value your wisdom very much. XXOO
Since you use this jointer for 11 years, the size seems perfect for you. Do you know how wide it is and how l long the in and out feed tables are?
I am considering to buy 10 inch version (Hammer a3 26) which are still affordable.
its 12.5" wide, and probably about 52" long
Hi Matthias, I bought your plans for the jointer but wanted to ask how have your wooden bearing flanges held up?
Obviously not Matthias, but given that the outer bearing race shouldn't be moving unless there's major issues, they should hold up pretty darn well to simply static clamping load on a ring.
Do you mean bearing caps?
I wonder, could you try turning the teeth upside down to cut instead of scrape? Or is that angle too steep? Because I'm guessing the power difference was mostly due to the extra weight - having to 'spin up to speed' constantly as it's being slowed down by (slightly higher?) scraping friction. There's also the fact it's cutting at every degree of rotation, not just on the opposite faces? The shelix isn't cutting as much with each tooth (maybe only 2 or 3 engaged at any one moment), but it's a constant force, rather than the intermittent one of the flat blade. It feels like that would be more of a drag.
if you turn the teeth upside down, they won't even scrape, all they will do is knuckle the wood.
Looking forward to hearing more on this one!
searching all the comments I can't figure out which model shelix this is so I can order it for your jointer I'm building, how can I contact jonathan and ask him I don't want to buy one that won't work with matthias jointer plans. thanks for any help
The pulley retention nut removal process had me screaming at the screen! I thought you would lose a 1.2mm layer from your leg if that mamma jamma went flying. The head vibration is scary.
I am curious if your bearing blocks are not co-linear and cause you excess friction. Twist on the bearing races could be causing the shaft to cam over or Lean the outer races.
Good luck and keep sharing your Mad-Scientific-Methodologies with your grateful masses!
-CY Castor
those bearing blocks were fine with the old head!
@@matthiaswandel But you removed them and it appeared you re-installed them (or tried to) in the old screw holes. I think that might have caused some misalignment that you would not have had with a metal base, metal blocks and bolts.
@@matthiaswandel Slightly worn, bone dry metal-shielded bearings are way more forgiving in terms of alignment than brandnew rubbersealed tight ones. It can also start self-energizing cycles depending on amount of disalignment and rounds per minute with "whipping" tendency of the cutterhead once every factor's maximum should come together in a "shit hits the fan" moment. We once had a cracking cutterhead (spiral blade, dead-stop emergency brake allegedly saved us from complete disintegration of the head) in the first sawmill/planing factory I worked. Later assessment showed too worn-down bearing-holders in combination to an imbalance of the cutting head, after all was bent in place again and counterbalanced on an industrial balancer. Bearings were still in spec, their holding blocks weren't any more, single digit grams out of balance was enough to wreck it with the whipping tendency.
That nut spinner or whatever it was that kept edging closer to the running head due to vibration was driving me nuts. Also some tight metal pins to locate those bearing caps would help with that problem, as you said, screws or bolts are LOUSY locating devices, especially wood screws.
Big stuff out of spec, like you are talking about is frightening, the kind of stuff that can end careers, and on rare occasions, even lives. Some of the 'safety features' on tools any more make the damned things far more dangerous. Not necessarily even bad design in some cases but horrible sticky flimsy crap. I just took the one off of my table saw because trying to start a board through it was absolutely risky. Some safety stuff is designed exactly as it should be, usually on high end or industrial tools.
@@MrJdsenior I worked as a selfemployed boatbuilder for over 30 yrs and rented machine rooms near my very work sites/customer's boats over that time. It got worse over those years, in terms of "safety": often I had to remove "safety features" in the way of my work for two or three hours - and put it back on after I was done cutting, thicknessing, planing and routing my strips'n boards, curves and rounds, when I was technically ready to leave. It became so bad I finally built a mid size boatbuilder's workshop in a trailer I could completely open, both sides became the awnings to work out of the weather in and on both sides of that thing, just to not have to mess around with "legal safety devices" making a lot of my work undoable on "legal" machinery anymore. You gotta know pretty well whatcha doing and have to keep Your regular as the irregular loads in sight and checked. You can only do that as long as there aren't any employees or even apprentices working with You. That makes safety and safety devices such a nuisance: You gotta make anything as vandal-proof as You can imagine vandal idiocy of Your employees, and then the deciding little sum of vandal idiocy more You couldn't even imagine yourself in a delirious stupor.
Were the HSS knives truly sharp before the test?