I'm actually planning the construction of my future layout and have settled on using Peco's code 55 Electrofrog turnouts wich I already have on hand.I have some experience with Peco's code 80 turnouts of both types (Insulfrog and Electrofrog) on the club's layout and neither have caused any problem so far other than occasional dirty rail contacts.
In fact,the only real annoying situation I've found with these turnouts (an most likely with any brand I guess) is when a loco is accidentally driven into a wrongly thrown TO...an immediate short and loco derailment occur.I have given this problem some thoughts and have come up with an idea that I believe is worthed experimenting,or may be has been investigated in the past by someone on this forum in wich case I'd like to hear their conclusions.
Instead of installing insulated joiners at the frog legs,as per Peco's instructions,couldn't someone install regular conductive joiners and have insulators installed let's say four to six inches away from the frog within the adjoining rails,making them "sort of" extended frogs?I can see a couple of advantages to this such as:
-a loco driven into a wrongly thrown TO would still create a short indeed but would also stop a few inches from the TO so it wouldn't derail anymore.
-installing feeders to power the live frog would be much easier as they could easily be soldered to the "extension" rails with their other ends being joined together to a Tortoise,Snap-relay,DPDT swtich,etc.
-eventual replacement of a defective TO would also be much simpler as only sliding the joiners would be needed to remove and reinstall,no rewiring necessary to reactivate the live frog.
The only drawback I see to this idea is that there couldn't be another loco stopped over the gap of the other leg of the frog without causing an inevitable short but other than that,I can't figure out why it wouldn't be practical.There may be some other obvious problem I don't see making it a crazy idea so I'd like to know your thoughts about it?Thanks.
Jacktal wrote:Instead of installing insulated joiners at the frog legs,as per Peco's instructions,couldn't someone install regular conductive joiners and have insulators installed let's say four to six inches away from the frog within the adjoining rails,making them "sort of" extended frogs?
Thanks guys for your responses.Just like many if not most model railroaders,I have what I believe to be the most common problem to overcome,meaning the lack of available space for an interesting layout.I'm actually moving stuff out of the way for the purpose and yet,the free space will not be that great,so the layout will fill most of it.Since going around it will be hardly possible at least on two sides,powered turnouts are a must as long as making stalling and derailing nearly inexistant.
I will be using Tortoise's to actuate all my primary (main lines) turnouts and Peco's PL-10 twin coils will handle the secondary ones (yards and sidings).All the frogs will be powered with either Tortoise terminals and Snap Relays for the other and all sidings will have their own feeders.This way,operating locos on the sidings will not be affected by the way the TO's are thrown as long as they don't reach the gap.I understand that pushing the gap further from the frog will indeed shorten the siding's span but this is a price I'll gladly pay for reliability.
I also plan to install some signalling system,probably a red lamp,that would indicate when the TO isn't properly thrown,at least for the hard to see TO's in the beginning.Tortoise's terminals do make this easy as well as the Snap Relays.I also will need two different TO throwing power systems,meaning a decent CDU that I still have to make/purchase for the PL-10's while I think the Tortoise's can be fed constant voltage.I've set my hands on an older but still brand new Digitrax Chief system (only tested but runs great) that I will upgrade with a DT-300 or 400 in the future as I hate the DT-100 that came with it.And,if the Chief allows it,wireless operation would be neat too when the budget permits it.