Page History: Unisaw Disassembly
Compare Page Revisions
Page Revision: 2008/04/03 23:56
Keith Bohn posted
http://www.owwm.org/viewtopic.php?t=13307Starting of course means taking off the top unless you're
really into pain. OK, it's mandatory onna 'count of you
can't undo the trunnion brackets without the top off.
Next up you'll want to brush/blow/suck every spec of dust
from the cabinet interior. This is because when you drop a
part or screw you won't be having to fish around in the pile
of crap in the bottom of the saw cabinet, unless of course
you are into pain in which case I'll not discourage you.
Next up you'll probably find that the blade raising/tilt
shafts are pretty skanky from years of pitch and gum
building up. Get your favorite razor handle (I prefer the
Titan (tm) brand).
http://www.amazon.com/exec/obidos/tg/detail/-/B0002JN34E/103-1475100-2041426After you have razored off the heavy gunk you can go at it
with the Scotch-Brite (I prefer the No. 8541 Doodlebug Brown
Scrub 'N Strip Pads/the closest thing you'll find to an
abrasive griddle brick).
]http://www.instawares.com/3M-Doodlebug-Brown-Scrub-n-Strip-Pad-8541.8541-3M.0.7.\htm]
Go across the shafts holding the Scotch-Brite two-handed
like you were shining shoes.
(stops to wait while everyone Googles "Shoe Shining")
Now you want to inspect the shafts for dings or where some
idjit took a vice grips to them because he was too brain
dead to know better. File these down.
Once the shafts are brought back to smooth and shiney you
can go about sliding them out. On the older machines the
stop collars and worm gears were held in place with tapered
pins. I like these better than the later roll pins. With
both you'll need a proper pin punch but since these are the
tools people should own (I have a single Starrett that makes
my nipples hard but my more complete set are Enders and they
are fine) you won't mind getting a set. With the tapered
pins you can use a smaller than recommended pin punch but
with the roll pins you really need to size the punch to
match the pin otherwise you'll just curl over the ends and
it makes for a skanky looking job. Take great care with the
tapered pins to drive them out from the narrow end. The
reverse will not free the pin and only lead to frustration
and pain but again, you might like the pain so have at it.
I should note here that with the blade tilting shaft the
shaft will have to be spun until the worm gear pin is
horizontal (parallel to the floor). You'll notice a round
hole beyond. It's there so you can drive the pin out.
So, as we said, be sure to mark everything as it's being
taken off and pay attention to which way the pins went in if
they are tapered and with the roll pins be extra careful to
note the orientation of the collars and worm gears to the
shaft. For some reason over the years there wasn't much in
the way precision when these parts were machined and what
you'll find is the drill holes won't be dead center and
actually must mate back up with the collar put there at the
time of first assembly.
One tiplette is to re-assemble some assemblies as you go
along. For instance, with the shafts you can slide the
collars, fiber washers and worm gears back on and set them
aside. If you have tapered pins it's a good idea to drop
them in their holes but there's no need to seat them. Just
enough friction that they don't fall out on their own.
Also at this time you'll discover the fiber (fibre David)
washers. Be careful that you keep them in the same order as
they were found. Installing a too thick washer where it's
not supposed to be will later cause you to exert too much
force to raise/lower and tilt the blade.
Don't be afraid to flood the shaft with lubricant (I prefer
Marvel oil but there are others) because this will make the
job of removing the collars and worm gears easier. Also,
you might find that some of the pitch and gum are close up
to the collars and worm gears and this will temporarily slow
you down. Once you clear that everything pretty much slides
off with little resistance.
Something else you can try with parts that assemble to a
shaft is to use zip ties (cable straps/ties/the
uncomfortable style handcuffs that some po-lice departments
use).
With the shafts removed you can go about removing the rest
of the guts. There are three major components. The rear
trunnion bracket that screws down to the rear right and left
hand corners, the front trunnion bracket that screws down to
the front right and left corner and the trunnion/blade
raising bracket/yoke assembly. Once the trunnion brackets
are loosened it all comes out. Be mindful that you don't
allow the trunnion brackets to fall into the cabinet. Once
free of the cabinet they are a free agent and are no longer
fixed to anything.
Lay the trunnion brackets aside and take a look at the
trunnion/blade raising bracket/yoke assembly. The yoke is
screwed to the trunnions and aligned with steel dowel pins.
Once the screws are removed you can tap it apart with a
rubber mallet.
The blade raising arbor bracket is assembled to the yoke via
a heavy shaft that slides through the yoke and into the
motor bracket. There is also a pin (tapered on older
models) that will need to be driven out. Once the pin is
removed and the screws are loosened it pretty much spilling
on some lubricant and using a rubber mallet to drive
everything apart. It does not hurt to have a fat wood dowel
as a drive pin for this.
From here it time to buff bright the machined surfaces,
cleaning the painted surfaces and just getting everything
clean. Paint is optional.
Once all this is done it's time to re-assemble which for the
most part is a reverse order of dis-assembly.
Prior to this though you would be smart to bench assemble
the entire thing to be sure that you have everything where
it should be. Dis-assembling a freshly re-assembled saw
from inside the cabinet isn't the funnest way to spend an
afternoon, right David?
With everything bench assembled attach the blade rasing hand
wheel and see how it operates. It should be smooth. If not
and you find something sticky take a look at the fiber
washers where the mate up against the collars. They might
be too tight in which case you could have the wrong washers
in the wrong spots. Try switching them around and maybe
even thinning them with a piece of sandpaper taped flat
against your bench.
Something to keep in mind when bench testing the assembly is
the works aren't as they were designed, i.e., hanging from
the cabinet so try to be sure that something isn't proper
because it's sitting on it's back.
When you are ready to drop the whole thing back in remove
the shafts while keeping all the collars, washers and worm
gears in proper order.
Give all the machined surfaces that run in a machined
surface a good lubricating. You can use paraffin (Gulf
wax), chain lube, graphite spray or any of the
fanci-schmancy products on the market for this. Try to
avoid greases that attract dirt because this will just
become a gob of crap later and could cause binding and
your'e back here doing it all again.
Next take the front and rear trunnion brackets and seat them
against the front and rear trunnions. Using both hands and
being careful not to allow either bracket to drop away (and
crash onto the floor thus breaking) lower the whole assembly
into the cabinet. It will stay in place at this time but
drop the cap screws through the holes in the four corners
and run the nut up just this side of finger tight.
Start threading in the shafts adding the collars, washers
and worm gears as you go.
Drop, or drive the pins into the collars but don't seat them
yet.
Again, with the blade tilting shaft the shaft will have to
be spun until the pin is near horizontal (parallel to the
floor) to get it in. This pin will have to be fully set
before testing as anything sticking too far proud of this
gear will rub against the casting and you will either have a
hard time tilting the blade or you won't be able to tilt the
blade at all. File it down if necessary.
So eventually you'll get all of this to where you're pretty
much all back together but everything is somewhat loose. At
this point you can grab the front and rear trunnion brackets
and squeeze them towards each other. Hard finger tighten
the screws going through the trunnion brackets at the four
cabinet corners and then give them all just enough wrench
tightening that they won't go moving about. Now test
everything to see how it operates. Locate and loosen
anything that seems to be binding.
You might notice some back lash in the hand wheel(s). Back
lash is a term to define how far you have to go in one
direction with a gear engaged to the other direction and
have the gear re-engage. In other words, you're raising the
blade, you stop, reverse direction but for the first 1/8
turn it isn't engaged. That 1/8 turn is your back lash.
This is caused by there being a space between the mating
surfaces each side of the worm spiral and the rack teeth.
There is always some back lash, just degrees of how much.
My saw is 65ish years old and I'm not bugged by it's back
lash. You might be. I guess you could take a chance and
buy a new trunnion(s) and worm gear(s). Me? I live with
it.
And in case you were wondering, anything with "zero back
lash" is otherwise defined as "froze up", i.e., you have to
have some back lash, otherwise the resistance of both sides
touching would be too great to over come. In other words,
zero back lash is a myth.
So where were we? Oh yeah, rinse and repeat with the
lubricating, tweak things here and there and when you're
satisfied it's the way that God, Al Gore and Herbert Tautz
intended it to be. You can tighten down all the screws, tap
in all the pins and pretty much get it buttoned up like it
was race day. I've left out a lot about the itty-bitty
parts but with an exploded drawing you'll figure that out.
Further discussions, and another post by Keith Bohn here:
http://owwm.org/viewtopic.php?t=25715I removed the tilt trunnion bracket and the entire guts came free just like I knew something.
This is the piece.
In the same post
http://owwm.org/viewtopic.php?t=25715, Bill Nance related his experience.
I just took the guts out of mine a couple days ago. I thought I had to remove the pins and pull the rods, but was able to get everything out without disassembling the rods from the brackets. Pretty much like what JohnnyApollo described... remove all the exterior parts, take off that tilting bracket in Keith's pic, make sure nothing remains connected. Then remove the trunnion bracket bolts, shimmy the various brackets around a little until you can slide the rear bracket off and lift it out. Then twist the yoke (?) a little to lift it out with the elevation rod, and finally pull the front bracket with the tilt rod.
In the same post
http://owwm.org/viewtopic.php?t=25715, jblenzi suggested:
It's been a few years since I've done one, but it helps if you tilt the arbor some.
In the same post
http://owwm.org/viewtopic.php?t=25715, rjconleyy2003 offered the following tip.
I have disassembled a few Unisaws and those tappered pins are a #%@&! What found that works best is a large tappered punch. I have 12" long punch that is 5/8" dia and tappers down to just under the pin dia. Slicker than snail snot. Brakes the pin loose and the you drive the pin out with a round punch. The punch is long enough and stiff enough that you can give it a good whack with out assuming an awkward position inside the cabinet and worrying about hitting a casting. First time I tried it the pin went flying out of the hole. Hum, a little to much force and I had to tap the punch free from the other side. No real damage to the tappered hole but the next one was a better measured blow. After worrying on the pins for hours and getting nowhere a single wack was gratifying. The tappered punch made short work of the tappered pin holding the shaft that the arbor bracket is mounted to also.
Some discussion of when the Unisaw switched from tapered pins to roll pins, then rjconley2003 shared:
The roll pins are not tapered and are a lot easier to get out. You need a roll pin punch to drive them in or out correctly. The roll pin punch has a little ball on the end to keep the punch centered on the pin. I don't know when they changed to roll pins but you can tell the difference visually since the tapered pins are a solid cross section and the roll pins are hollow.