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I'm still kickin' rocks 😑 but kickin' um here, & tryin' to smile 😬

The piston assembly will lay loose in the slots until you lock everything down with the steam chest.

This is another loco with a similar set up, but on the engineers side instead. (665)  The dot in front of the bolt head is the end of the piston rocker arm (stepped bend) and moves fore and aft , piston and gravity(&/or spring on piston) keep it resting on the crosshead. (the spring seen is so if the piston hangs up, it doesn't bind up all the way to the motor, and softens compression and shock in side thrusts too. 

sketch-1559618008581IMG_20190603_223653~2IMG_20190603_223634

 

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That's it - got the smoke piston and lever assembly yesterday and installed it last night. Works exactly as everyone has pointed out - the lever is moved by the cross-head on the left side of the engine.

One last (hopefully) question - there is one wire coming from the e-unit to the "motor side" of the smoke unit. Is there supposed to be a second (ground) wire attached to the "front side" of the smoke unit ?

Thanks, again.  

Hi, Rob …. I guess, more specifically, my question is where I have the arrow at the heater element, is there supposed to be a wire or connection from that point to the chassis or frame or is the heater element grounded simply because it's physically attached to the frame ?  

The reason I ask is because if there's no more wires to attach, then it's not working right because I put a few drops of liquid smoke inside and ran it and got nothing - the heater element was not even warm.

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Last edited by Richie C.
Richie C. posted:

Hi, Rob …. I guess, more specifically, my question is where I have the arrow at the heater element, is there supposed to be a wire or connection from that point to the chassis or frame or is the heater element grounded simply because it's physically attached to the frame ?

The ground side of the element is supposed to be crimped/sandwiched between the smoke bowl and the metal cap.

2026 Smoke

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  • 2026 Smoke

Yep, it is connected, or should be anyhow.  A tab on one end, wire on the other. 

You could add a wire to the tab and chassis ground that if you wanted to.      I've had a cap fit so tight I couldn't get the tab to sandwich and still have the lid seat and another I added wire to because I didn't think there was enough pressure on the tab.  (pressure can reduce resistance more than total contact area does)

Richie C-

A lot of folks say that the wire-wound original smoke element will work with either pellets or liquid smoke fluid. Just use just 2 or 3 drops of the smoke fluid in place of the old style pellets. The big advantage is the wire-wound smoke element will last a lot longer as the original design wire is more robust than the liquid smoke conversion kit.

Carl J

Quick update - I got the headlight bulb, spring and eyelet assembly and that is working ok (but somewhat dim - see below).

I got the liquid smoke replacement unit and it works great on the bench, but produces no smoke when on the track. I suspect that the running track voltage might be too low to drive the liquid smoke element (28 ohms resistance). The engine runs best at about 9.5 v (as shown on the Z-4K) and will derail on an O-31 curve at 11 volts.

IF the heater element requires more voltage, then I'm not sure if this issue is correctable, so I may have to get a pellet-type element.

 

 

Richie C. posted:

Quick update - I got the headlight bulb, spring and eyelet assembly and that is working ok (but somewhat dim - see below).

I got the liquid smoke replacement unit and it works great on the bench, but produces no smoke when on the track. I suspect that the running track voltage might be too low to drive the liquid smoke element (28 ohms resistance). The engine runs best at about 9.5 v (as shown on the Z-4K) and will derail on an O-31 curve at 11 volts.

IF the heater element requires more voltage, then I'm not sure if this issue is correctable, so I may have to get a pellet-type element.

 

I may be way out of context here, but when I bought resistors for my 2-8-0, they were only 14 ohm...

Mark in Oregon

Richie C. posted:

Now have to decide if I should just get a replacement element and stay with pellets or convert to a liquid smoke unit. 

Just to reiterate what everyone else is saying, the original pellet smoke unit will work just fine (probably better) with liquid smoke.  No need to replace it with a liquid-only unit.

When I brought my 1951 2026 back to life in the Seventies, the porous pad in its smoke unit was so clogged with pellet residue that I had to throw the pad away and install a new pad.  It's been working just fine on liquid smoke ever since.

Richie C  and others

I have been out the country on vacation when you discovered the broken nipple on the e unit drum.  I know you have replaced the e unit.  Below is my method of repairing an e unit with a missing nipple on the drum for others and saving the time and cost of buying a new e unit.

I have repaired the missing nipples on e units several times. My method does not require wedging open the e unit frame. 

I leave the drum in the e unit and drill a small hole, slightly smaller than the hole in the frame where the nipple went, in the drum where the nipple was.  I mark the center of the drum where the nipple was with an awl to center the hole.  I drill this through the hole in the frame where the nipple would have gone.  Then I find a small round headed wood screw maybe 1/4 to 3/8 inches long and screw it into the hole which should be slightly smaller than the screw diameter size.  The screw makes its own threads in the soft plastic of the drum.  Do not tighten the screw and allow it to let the drum rotate.

This fix is stronger and should last longer than plastic nipple of the original drum.  It may not work if the plastic of the original drum is aged and crumbling.  In that case the drum should be replaced.

Charlie

Last edited by Choo Choo Charlie

I think the command units use those. Command gets a constant 14-18v at the track (mostly 18v) Holding the loco so wheels spin & it doesn't take off like a rocket, note what voltage does make smoke. (Is that enough smoke? Lower ohms get hotter per volt)

  If its only a few volts difference. It may take a minor wiring change, but you could then insert diodes for a voltage drop to the motor, full power will go to the element.  ....All as an alternative to chasing down another element of course     Ive done this to 4 locos to improve smoke with the elements on hand that weren't exactly correct, or were poor smokers when new.

  Read amps the motor draws, 4a may be enough, 6a definitely large enough and will stay cooler, but theytare bigger. Choose general purpose rectifying diodes of your amp choice. Use in pairs in opposed directions & pair legs tied together, in series with other pairs, to the e-unit input from roller wire. Each pair added eat about 0.7v.  So six diodes, 3 pairs in series eats about 1.8v-2.5v +/- a few points.  (results vary slightly by diode choice) ten diodes would give a little over 4a drop, etc, etc.  

The smoke unit gets connected between diodes and roller so it ends up with element getting a full 11.5-12v out of 11.5-12v, while the motor sees only 9.5v. of 11.5-12v  thru the diodes. 

GP rectifying diodes are super cheap if you shop (literally pennies ea.) and useful for lots of things in the hobby. 

Oh, forgot.... It sounds more like the element ni-cjromeni-cj ←spellwreck... nichrome had a flaw, if you can't imagine what shorted out.

 The PW units are FAR more robust than the liquid types.  The caps turning color from heat not unusual. Neither are cracks etc. really. (after seeing aa couple of melted tops from B.S. copies not in high heat plastic or teflon, I like to stick to the metal tops.

Which headlamp bulb # or voltage, watts, amps (printed on base)

 Im guessing it's an 18v or higher bulb. move to a 12v bulb for more brightness.

Rule of thumb, a 12v bulb burns half as bright and lasts twice as long used at 6v.  It burns twice as bright and lasts half as long on 24v.  (The heat range is something you need to check. It can occasionally not be what's expected, so I'm not even going eleborate on the "norm" because it has bit me before.

Adriatic posted:

  It burns twice as bright and lasts half as long on 24v.  (The heat range is something you need to check. It can occasionally not be what's expected, so I'm not even going eleborate on the "norm" because it has bit me before.

I think it's more of an exponential curve than a linear curve.

RoyBoy posted:
Adriatic posted:

  It burns twice as bright and lasts half as long on 24v.  (The heat range is something you need to check. It can occasionally not be what's expected, so I'm not even going eleborate on the "norm" because it has bit me before.

I think it's more of an exponential curve than a linear curve.

You might be right on the bulb. I thought it was a 14v  53-300 or 57-300 bayonet type, but I didn't check what they shipped me - it could be an 18v unit. I'll check tonight and post on Monday.

RoyBoy posted:
Adriatic posted:

  It burns twice as bright and lasts half as long on 24v.  (The heat range is something you need to check. It can occasionally not be what's expected, so I'm not even going eleborate on the "norm" because it has bit me before.

I think it's more of an exponential curve than a linear curve.

Very much so. It's full of variables. Once at our extremely low voltage, it's close enough to fudge more. Lower volts have thicker filiments. Long life vs normal life would react differently too.

A 120v bulb on a 110v feed would nearly double life.

  Ac vs dc is a toss up too. Ac may vibrate more breaking the tungsten, but is allows more cooling. DC currents will be higher. Throw in a gas bulb like halogen vs a vacuum and too low a temp. will effect the tungsten's life as the halogen needs to get hot to work right.  Underdriving lowers efficiency.

"Good enough" for a general understanding of what to expect; the heat retention differed from my expectations only twice that I encountered. I melted two pinball bumper tops because I didn't check the heat build up before I closed up. They were underdriven for sure. (18v fed 12v if I recall; but might have been 12v bulb @ 6v..? That was 15+ years ago.)(I had to change a few mini's daily, maybe 5-10 daily in a "spikey" week...about 100-150 a month average, 6-24v ac/dc, chopped drivers and sine. Too trivial to fret much when a few minutes, eyes and fingers tell the story for each case.) 

One of the power units is likely letting the bulb cool more via pulses. The resistance drops in the bulb, and the bulb eats more power. Or same thing reversed the element cools too fast reducing effective heat. (I forget if you are too dim or too bright on the light too. Get that right first imo. And you still might need a change later, you have a new balance between motor, bulb and element to achieve with a different element in the mix.)

Get the bulb number, watts, amps/ma, volts, lumen or all of "whatever" off the base or glass, ok?

I think I figured out why the 2026 smokes on the test bench with my CW-80 and not on the track with the Z4K. I took the CW-80 over to the layout, plugged it in and connected it to the inner loop track with alligator clips. With nothing else turned on, the engine ran and smoked.
 
So it was either the Z4K was defective (probably not) or the Legacy and/or DCS signal being transmitted to the track through the TIU was interfering with the smoke signal. I think that's what it is. Not sure if anyone else has experienced this issue where everything works except the smoke.
 
I then clipped the CW-80 leads to one of the track power drops and it worked again, so I'll probably just hook up a small transformer in order to run conventional, with a few more connections to the power drops. Since the two loops are electrically separated and each controlled by a separate handle, I should be able to run conventional on one track and command on the other at the same time. 
 
As to the headlight bulb, it is an 18v bulb. I was able to get a 12-16v bayonet bulb and it now runs brighter.
 
I'll post a video as soon as I get a chance.
 
Thanks, everyone.
 
 
 
 

The TUI is chopping the wave, no doubt about it. That's how the power to the engine is reduced.  The tui chops the on-time of voltage vs using resistance. The voltage will be the full voltage from transformer but turned off and on at lighting speed.  The end result for the heater is there is less on time, more cooling time, voltage being the lesser balance factor in this case, output heat stays low.

Bypass the tui with the Z4k power and I it may smoke better than the CW-80 which is also chopped (I think)   If you put the CW thru the tui (don't) it may stay even cooler as the tui could chop the wave up even more.

I would describe your operation as "command conventional" vs "command" or "conventional".... an in-between only missing the command signal.  I.e. the tui acts like a small board of a command loco.  The larger components for larger PW motor likely wouldn't fit inside a PW loco well. Plus this way doesn't require a board for every loco.

  I didn't see it included, or forgot, and it wasn't repeated on this page if I'm not mistaken. Sorry 

A low ohm element on a voltage regulator like command units use would be best for you imo. Regulators are postage stamp sized. One of GRJs little boards might even do the trick if you go that route towards "best". 

Concerning running it dry. A small switch could shut smoke off  should you run out if liquid.  Ive added them a couple of times....

Hey, to taylor it to your 2 situations (transf.), an on engine 2pos sw. for hi-low; or  3 pos. sw for off, high, low (add resistors of 14ohm total to a 14ohm element and your at 28ohm again; low)

Just to close out this thread and the restoration, I was finally able to get smoke out of the engine and have attached a short video of it running. It's a little hard to see, but I think you can make out the puffs of smoke coming from the stack. I have an original style pellet type smoke element installed and am using smoke pellets (great old-time smell), although a couple drops of liquid smoke also work.

The solution was to install a bridge rectifier (a diode would also probably work) in the line going to the motor, which reduced only the voltage going to the motor (but not the smoke element or headlight) for a given track voltage input. Therefore, in order to get the train to the same speed as before, more voltage has to be applied through track power and the higher voltage was enough to overcome the resistance in the smoke element and get it to work and also brighten the headlight, while at the same time keeping the engine at a reasonable speed that would not throw it off the track in the corners.

The whistling tender also works very well now (although my seemingly disinterested assistant forgot to press the button during the video).

All in all this was a very rewarding project and I certainly learned a lot about post-war locomotives and can't wait to get started on a new one. Thanks for everyone's input.

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2026 - final movie

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