tstage wrote: Does anyone know if the Proto 2000 GP38-2s cabs can be removed?I was watching a Joe Fugate video recently where Joe was installing headlight and ditch lights in an Athearn(?) locomotive. He was able to pop the cab right off to access the light ports to the headlight and number boards. The Protos have tabs but appear to be glued to the rest of the shell.Tom
Does anyone know if the Proto 2000 GP38-2s cabs can be removed?
I was watching a Joe Fugate video recently where Joe was installing headlight and ditch lights in an Athearn(?) locomotive. He was able to pop the cab right off to access the light ports to the headlight and number boards. The Protos have tabs but appear to be glued to the rest of the shell.
Tom
tstage,
The cab comes off my P2K GP30. The shell comes off the walkway and then there are some tabs holding the cab on the rest of the shell.
Hope this helps,
SOU Fan
David,
For the most part I follow your idea. But you lost me on the couplers. Could you elaborate on it a bit further for me? Thanks for the help.
https://tstage9.wixsite.com/nyc-modeling
Time...It marches on...without ever turning around to see if anyone is even keeping in step.
Thanks, Dave. That seems to be the least obtrusive and risky way to do it. I could even just use a file to flatten or knock off the point of the nose. Shouldn't require taking too much off to pass four wires up the front of the nose. I'll keep you posted.
Any further observations and ideas by others are still welcome.
Dave,
You're right. There is plenty of room in the cab and, actually, in the area above the DCC board. The problem is routing the wires to get to those openings.
The way this Proto 2000 frame is designed in the front portion of the locomotive, it protrudes up into the nose opening of the shell and completely blocks off that, as well as the sides leading to the cab. (Maybe I'll try and add pictures later today to better illustrate what it looks like.) There is a slot already cut into the top of the frame's nose section that could be used as a wire chase. I'd have to mill the front "V" of the nose off slightly to create a chase.
Another idea is possibly running the wires across the bottom and up through the front truck opening into the cab area. I'd want to make sure that the wires did not impede the trucks at all when they rotated.
That's what I was wondering, too. My concern would be how reliable and "reasonably" repeatable are they to plug and unplug.
Thanks for the help, you two!
Chip
Building the Rock Ridge Railroad with the slowest construction crew west of the Pecos.
The saga of detailing my HO Proto 2000 GP38-2 continues:
First, the good news:
Now, the bad news: For the life of me, I can NOT figure out how to route the ditch light wires so that the shell closes all the way down.
There are a few "chaseways" that can be used for routing wires but there is really no place to "stuff" the excess when you are finished. And you need excess in order to be able to pull the shell off the frame and lay it to the side so that you can access the decoder - without having to unsolder everthing.
Apart from milling out some of the frame, the only other method that I can come up with means that I'll have to solder and unsolder the wires with the shell already on the frame, thereby having to solder very close to the shell. If I leave just enough slop in the wires, I should be able to poke them back up in a couple of the gaps, just behind the front pilot. (Not exactly desirable but workable.)
Has anyone else been able to come up with a viable solution for situations like this? Are there small connectors that can be "reasonably" connected and unconnected. Other than the couple of ideas mentioned above, I'm pretty much at a loss what else to do.
And, it's more challenging because you can't really see inside the shell when it's attached to the frame. You sorta have to hold both halves in front of you then play what I call "3D Tetris": Extrapulate in you mind where the shell fits onto the frame to see where there might be a void or channel to stuff or run wires.
The moral of the story: You really don't know what you're getting yourself into until you've gotten yourself into it. Boy! Have I gotten myself into it.
Thanks for the help!