Hi guys,
Most of my turnouts are in the yard in places where close-set tracks prevent me from putting a Caboose Industries manual throw. So I bought a few Tortoise machines to try out. I'm going to run a bus around the yard, hook up the Torts to a single power source, like a 12v wall wart.
So far so good.
But I was talking to a guy at a swap meet yesterday about how the Tortoise machines are designed to be powered all the time, and that I had heard they actually use more power while sitting idle than while moving the points. He recommended some kind of powering off mechanism -- he said it too quickly for me to get -- so that the machines didn't overheat. I told him my understanding was that they were designed to be always powered and that I'd never heard any talk of it being a problem. "It's a problem," he said. "They do overheat."
So my question to my esteemed fellows here is manifold: have you experienced Tortoises overheating? If so, what did you do about it? Does the idea of some shut-off mechanism make sense to you? How does one do this?
My initial setup will be four Torts on a bus, with a wall wart powering the bus. Would a throttle be useful instead so that I could throttle down after the switch is thrown? Or would throttling down even have any effect here? Remember, I know almost zilch about electrical stuff (although I am proud to say my eight DC power blocks work perfectly and the whole layout works in DCC as well, but mostly that's because of the excellent help I have received here).
Thanks in advance,
-Matt
Returning to model railroading after 40 years and taking unconscionable liberties with the SP&S, Northern Pacific and Great Northern roads in the '40s and '50s.
You don’t use a bus to power a Tortoise. They need constant power, if you disconnect power to a Tortoise it will slack up the pressure on the moving points. The Tortoise is a designed stall motor.Use constant power from a DPDT reversing switch.
A Tortoise will not overheat unless you exceed the voltage specs, I'm sure there are members on this Forum that have dozens of Tortoise switch machines in service for many years without overheating. Mel My Model Railroad http://melvineperry.blogspot.com/ Bakersfield, California I'm beginning to realize that aging is not for wimps.
My Tortoises are powered by a DC power pack. My layout, including the power pack, is powered up for hours at a time. I have never experienced a Tortoise overheating.
Rich
Alton Junction
crossthedog...So my question to my esteemed fellows here is manifold: have you experienced Tortoises overheating?
I have only one Tortoise on my layout, on the stub end of a turning wye, and also powered it from a wall wart. The switch, a simple double pole one, was labelled to allow me to access the turnout from either the north or south tracks. It worked well for years, but a couple months ago it seemed to be dead.
I checked the wall wart, which was working fine, but started to wonder if the Tortoise was damaged due to me working in the layout room with the power on for up to 20 hours a day. I'm not sure why the idea popped into my head, but I decided to change the switch on the layout's fascia that controlled the turnout. I replaced it with a similar switch but one which also had a centre-off feature, and as soon as it was connected, the tortoise worked as it had originally. When I'm not using the wye, I leave the switch on "OFF", and the points remain in the position last selected.To be honest, I don't know why it had stopped working, and I don't know why changing the actuating switch fixed the problem.
Wayne
Matt, if you want manual turnouts in the yard, there are many less bulky alternatives to the Caboose ground throw.
Sheldon
I run my Tortoise machines at 9 volts. The slightly lower voltage causes them to move at a slower, more realistic speed. No problems with overheating.
I have a few Tortoise machines in more isolated areas. I run them with stationary decoders. They work fine, but one of these days I'll replace those decoders with the slightly more expensive ones that also allow a parallel toggle from a control panel. After living with controlling turnouts from the throttle for a while, I definitely prefer panel toggles.
It takes an iron man to play with a toy iron horse.
RR_MelYou don’t use a bus to power a Tortoise.
@Sheldon. I'm all ears. What are some of them and which have you used and which do you favor?
@Wayne. Can you tell me or link me to the exact precise product that you chose for your reversing center off DPDT? I'm unsure whether all DPDTs have the crossing wires or if that's something you have to specifically choose. Also, is this a button you push or a toggle you throw, and does it matter? Also, it sounds like your experience is different from Mel's, that your throw bar did not relax problematically when you turned off the power to the Tortoise?
@Mr. B. I did read in several places that 9v works better for Tortoises b/c it makes them slower and quieter, but I wasn't sure if you can START with 9v. I thought I read also that if you start with 12v and have a number of switch machines or lights or other things on the circuit, it lowers the power that each Tortoise gets to about the ideal voltage. Do you instead recommend getting a 9v wall wart? Would the switch machines work right if each is not getting the full 9 volts?
Thanks all.
If you wire all of your Tortoise to a bus when you reverse the polarity every Tortoise with operate. Each Tortoise has to have it’s own reversing switch. The buss can’t go directly to a Tortoise. You can Buss the reversing switches as the power source but not the Tortoise its self. Mel My Model Railroad http://melvineperry.blogspot.com/ Bakersfield, California I'm beginning to realize that aging is not for wimps.
RR_Mel If you wire all of your Tortoise to a bus when you reverse the polarity every Tortoise with operate. Each Tortoise has to have it’s own reversing switch. The buss can’t go directly to a Tortoise. You can Buss the reversing switches as the power source but not the Tortoise its self. Mel
If you wire all of your Tortoise to a bus when you reverse the polarity every Tortoise with operate. Each Tortoise has to have it’s own reversing switch. The buss can’t go directly to a Tortoise. You can Buss the reversing switches as the power source but not the Tortoise its self. Mel
You can set up a pair of bus wires to your DC power pack or wall wart and run multiple DPDTs to that pair of bus wires. But the outer two power wires (#1 and #8) on each Tortoise need to connect to the center tabs on its own DPDT.
I use subminature slide switches and little spring rods. I don't have a photo handy, but later I might be able to post a drawing.
crossthedogI thought I read also that if you start with 12v and have a number of switch machines or lights or other things on the circuit, it lowers the power that each Tortoise gets to about the ideal voltage.
if a power supply is rated at 12V 200ma, it may start out above 12V but will be at 12V when delivering 200 ma (~10 Tortoise machines)
rather that using and wiring DPDT reversing switches, another approach is to use a pair of power supplies so that you have a V+, Gnd, V- bus supplying the layout and using SPDT switches.
the SPDT switches are wired to V+ and V-, supplying one to one terminal of the T machine and connecting the other side of the machine to Gnd.
greg - Philadelphia & Reading / Reading
richhotrainYou can set up a pair of bus wires to your DC power pack or wall wart and run multiple DPDTs to that pair of bus wires. But the outer two power wires (#1 and #8) on each Tortoise need to connect to the center tabs on its own DPDT.
Wait, no, that would switch the polarity of the whole string of switches, like someone said earlier. I guess the DPDT has to be up the line toward the switch machine, eh? Or...no... that's no good... I think I don't understand this very well. :(
crossthedog Also, it sounds like your experience is different from Mel's, that your throw bar did not relax problematically when you turned off the power to the Tortoise? -Matt
Also, it sounds like your experience is different from Mel's, that your throw bar did not relax problematically when you turned off the power to the Tortoise?
The Tortoise is a stall motor drive by design. With power applied to the Tortoise the motor stalls with pressure on the spring wire going to the turnout points. Removing the power from the Tortoise lets the gears turn freely as the spring tension equalizes to 0 pressure. If you put your ear close to the Tortoise you can hear the gear movement when the power is removed. The spring rod to the turnout points will have 0 pressure on the spring rod without continuous power. Mel My Model Railroad http://melvineperry.blogspot.com/ Bakersfield, California I'm beginning to realize that aging is not for wimps.
Wire it this way.
Multiple Tortoises/DPDTs.
Matt,
You are going to want to do a little research on various types of turnout control. There are advantages and disadvantages to the various types of control systems. It can take a while to decide what you want to do. The guy who told you that tortoises overheat was not accurate. There was some sort of a problem with the set-up if the machines were overheating.
The simplest control method, as Sheldon mentions, is a mechanical linkage of some sort. There are limitations to this approach but the various set ups can work quite well. Possibilities range from caboose throws, to choke cables, to slide switch arrangements, Bluepoint controls, to Joe Fugate’s door bolt set up and controls such as the OOP Hump yard products. Peco and Micro engineering turnouts use a spring in the points so they can be thrown by simply flicking the points with a finger.
Then are electric options that run the gamut from solenoid (“crash and bangers” as some of us used to call them) to stall motors to servos. I’m not familiar with servos, so I leave that up to you to research.
The solenoid options include Atlas and Peco switch solenoids as well as older Kemtron and other devices. Solenoid devices want momentary power application to throw the solenoid and then shut off. This can be accomplished with a push button or a momentary on-off-on toggle switch (there are also lots of other momentary contact switches that can be used).
The advantages of these machines is cost and ease of wiring but they can be hard on points and can be difficult to install in a way that you won’t see them (ie under the layout). Peco requires a hole cut in the layout surface under the turnout or a linkage. Atlas require a linkage for under the layout installation.
Stall motors are another category of control. These motors are designed to stall with the power on - they draw very little current when stalled @20 ma or less. These machines need a constant power supply to keep the points locked solidly against the rails – not all stall machines will back off pressure on the points all the time but this happens often enough that they are not reliable unpowered. These machines need an on-on toggle to work correctly.
There are several brands of stall motors in use in the hobby – Tortoises and Switch master (hankscraft motors) are the main contenders.
Tortoises mount under the table and need a 1/2’ hole to move the points. You have to drill this hole before you permanently install the turnout. These machines work well and come with several contacts that can be useful for powering frogs and other things.
Switch masters also mount under the table using a crank assembly that does not require a large hole. The disadvantage is that you do see the crank on the throw bar in the ties – Not noticeable to me, but I am biased as I have lots on the layout so I might not “see” them anymore. The motors can be installed after the switch is in place on the layout and are very reliable. They do not come with contacts.
If you choose another brand of stall motor than the two listed above, check the stall current – several vendors a few years ago were selling stall motors with high stall currents (something to be avoided).
As far as wiring there are several schemes that have been already discussed in this thread. If you use a wall wart – use a REGULATED supply that won’t drop voltage as the supply’s amp capacity is reached. Run the system at 75% of the amp capacity of the supply (when motors are stalled) for longer supply life. I have several friends who run their tortoises at a lower voltage to reduce noise and to slow down the motion of the throw- it works reliably.
My layout uses switch masters (70+), hand throws and solenoids. I use a dual polarity power supply as Greg mentions above for the stall motors and it works well. I laid all the track and used temporary ground throws while I tweaked the track arrangement and then I went back and installed switch masters after everything was the way I wanted it.
I chose stall motors because I have lots of remote turnouts and I didn’t want operators to damage things by reaching into the scene to throw a turnout. I chose switch masters due to the ease of installation and because my friends use them, so I have a pool of expert advice on their use and installation.
All of the methods and machines/setups can work well – your choice.
Sorry this post is so long, I'm sure I'm leaving some stuff out - Opinions vary on this subject – good luck with the project,
Guy
see stuff at: the Willoughby Line Site
RR_Mel crossthedog Also, it sounds like your experience is different from Mel's, that your throw bar did not relax problematically when you turned off the power to the Tortoise? -Matt The Tortoise is a stall motor drive by design. With power applied to the Tortoise the motor stalls with pressure on the spring wire going to the turnout points. Removing the power from the Tortoise lets the gears turn freely as the spring tension equalizes to 0 pressure. If you put your ear close to the Tortoise you can hear the gear movement when the power is removed. The spring rod to the turnout points will have 0 pressure on the spring rod without continuous power. Mel My Model Railroad http://melvineperry.blogspot.com/ Bakersfield, California I'm beginning to realize that aging is not for wimps.
I had a pair of Atlas Custom Line code 83 #6 turnouts that the points would move enough with heavy traffic to derail without power on the Tortoise.Actually I’ve been experimenting with servos for my turnout switch machines. I remove the electronics from the servos (Tower SG90) and wire the motor like the Tortoise (Stall Motor) and use a resistor to limit the current to 20ma. They have a lot more torque than a Tortoise and at $1.50 each a bunch cheaper, no tweaking either.Using an Arduino for a controller is a lot more effort than just using the servo as a stall motor. I have two servo (stall) motors installed and both are working very good.Mel My Model Railroad http://melvineperry.blogspot.com/ Bakersfield, California I'm beginning to realize that aging is not for wimps.
Matt:
So far you have received several excellent answers. Rich's wiring diagrams are spot-on. They should help a lot.
I have used Tortoise switch machines exclusively for my last four layouts. These responses are to your original post from my experience:
crossthedogHave you experienced Tortoises overheating?
No.
crossthedogDoes the idea of some shut-off mechanism make sense to you?
crossthedogWould a throttle be useful instead so that I could throttle down after the switch is thrown?
Not for the use you described. That said, as Mr. Beasley suggested, I use an old power pack to supply electricity to the Tortoises. I adjust down to 7-8 volts or so just so the motors move slower. I never adjust this setting once it is where I am happy with the speed.
For what it is worth, yes, the Tortoise will draw more current when the motor is stalled and not moving, but we are talking milliamps here. In application, it makes no matter, they will not overheat. One small power source can run several of these machines.
I hope this helped.
-Kevin
Living the dream.
I do use a separate power supply for my Tortoise machines. It has plenty of capacity, so there is no reduction of voltage as I add more Tortoises. If I put on too many, exceeding the capacity of the supply, then I would see a voltage drop.
The diagrams you mentioned with multiple Tortoises connected to a bus are likely using the bus power to drive the turnout's frog power, not the motor to move the points. Powering the frogs provides more reliable operation at slow speeds with smaller engines. The frogs must be metal to do this. It's a lot easier to power the frogs when you install the Tortoise than to retrofit them afterwards.
I'm sorry I can't respond to all the good suggestions and info here. I'm following up on threads where I still have questions.
One question is about Kevin's comments, but anyone feel free to jump in... it sounds like you're saying that the throttle on a power pack can actually be used to modify the voltage output... (I mean, now it occurs to me that that's what we're doing when we run our trains and use the throttle, eh?). If so, that's good news. I have an old MRC Trainpack gold box that outputs 14 volts. I could use that separately and throttle it up only 3/4 to power my Torti, sounds like?
Otherwise, I found these two old battery chargers in my box of stuff that we can't throw away or recycle and it all has to be taken to the hazmat or some other approved repository. But they each output only 7.5 volts. So that would not be enough to power the switch machines, right? Would the Torti not work at all or would they just be very slow?
richhotrainMultiple Tortoises/DPDTs. Rich Wiring-DPDT-2.jpg Ad
crossthedogBut they each output only 7.5 volts. So that would not be enough to power the switch machines, right?
The Tortoise Instructions say no more than 12V and don't specify a minimum voltage.
crossthedogWould the Torti not work at all or would they just be very slow?
slow
The guy at the swap meet is wrong, he likely tried to run them on some cheap power pack turned up full throttle and was putting 18 volts on them.
9 volts is nice, it gives them a realistic speed.
Trust the instructions that come with the product, this is a product with a 34 year track record......
crossthedog I found these two old battery chargers in my box of stuff that we can't throw away or recycle and it all has to be taken to the hazmat or some other approved repository. But they each output only 7.5 volts. So that would not be enough to power the switch machines, right? Would the Torti not work at all or would they just be very slow?
I've never seen anyone mention what the minimum voltage is to drive a Tortoise, but I would think 7.5 would easily be enough.
The power supply on the left would only handle three switch machines (16 ma x 3 = 48 ma, the supply says 50 ma max), while the one on the right could handle 18.
Thanks guys. The last question no one has answered (it was back a ways) is... is the reversing of the polarity in a DPDT something that you have to specifically look for -- like a "reversing DPDT switch?" or is the reversal a function of how you wire any old DPDT switch? Rich's wiring diagram makes me think it's not the latter.
crossthedog Thanks guys. The last question no one has answered (it was back a ways) is... is the reversing of the polarity in a DPDT something that you have to specifically look for -- like a "reversing DPDT switch?" or is the reversal a function of how you wire any old DPDT switch? Rich's wiring diagram makes me think it's not the latter.
It is the way you wire the switch. The red and black X's in the center of each switch in his diagram is the wiring you add to make the switch reversing. The input is wired to one of the outer sets of terminals and then crossed as it is wired to the other outer set of terminals. The output is wired to the center set of terminals.
CSX Robert crossthedog Thanks guys. The last question no one has answered (it was back a ways) is... is the reversing of the polarity in a DPDT something that you have to specifically look for -- like a "reversing DPDT switch?" or is the reversal a function of how you wire any old DPDT switch? Rich's wiring diagram makes me think it's not the latter. It is the way you wire the switch. The red and black X's in the center of each switch in his diagram is the wiring you add to make the switch reversing. The input is wired to one of the outer sets of terminals and then crossed as it is wired to the other outer set of terminals. The output is wired to the center set of terminals.
What is the saying? "When the student is ready, the teacher will log on" or something like that? Behold, the masters have spoken their ancient wisdom of the electrons, and the student has advanced a notch.
I had an extra DPDT, and I found an old charger in my box of "stuff that we can't recycle or throw into the garbage and now have to take to the hazmat". It was only 7.5 volts but I tried it anyway, following all of your expert guidance. It works beautifully!! Nice and slow.
Thank you guys so much! I didn't even have to go to the hardware store.
Regarding the question of what happens when power is removed from the Tortoise. This happens to be a center off switch, so on switching to the center, the arm relaxes a bit but not very much and there's still plenty of tension. It's not easy to move it with my finger when powered off.
I'm calling success on this one. Yeehaw!