burnteloi
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Heating mantle conversion
I have this heating mantle that wasn't working properly, so tested it and noticed it wasn't getting up to temp or pulling the rated wattage at the
wall outlet.
I popped the front cover off it and found the controller inside rated fro 220-250vac despite the plug attached being a US standard 3 prong. See photo.
Anyway, so I was reading through the forum here and seems i may be able to work around this issue and get the mantle working properly if I can find a
suitable replacement for the controller. I saw some posts regarding 1000 watt dimmers but for some reason those dimmers are super expensive here in
Canada. Like anywhere from $60-$100 and they are all slider type dimmers , cannot find any rotary ones. I thought the dimmer would be a cheap way
to get up and running, but apparently not.
The mantle itself is rated 450 watts and holds 2000ml vessels.
http://www.ebay.ca/itm/110-V-2000-ML-Capacity-Heating-Mantle...
(of course it is not actually a 110vac as evident from the controller)
Anyone have any other suggestions?
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Sulaiman
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is this what you are looking for ?
http://www.ebay.ca/itm/2000W-220V-AC-SCR-Electric-Voltage-Re...
or in an enclosure
http://www.ebay.ca/itm/AC-110V-220V-SCR-Voltage-Regulator-ad...
CAUTION : Hobby Chemist, not Professional or even Amateur
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wg48
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I suggest you bypass the controller by connecting the mantle directly to the main supply then check to see if it uses the rated 450W say between 400W
to 500W. If its a round 113W the problem is the mantle is designed to operate on 220V (assuming it is a 450W mantle).
Note if the mantle is designed for 220V replacing the controller with a 110V one will not make it consumer the 450W.
If with the 220V controller switched to maximum, it only consumes a round 113W, that strongly suggests it is a 220V mantle.
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JJay
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I'm not really sure how well these work: http://www.ebay.com/itm/272294600743
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burnteloi
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Quote: Originally posted by wg48 | I suggest you bypass the controller by connecting the mantle directly to the main supply then check to see if it uses the rated 450W say between 400W
to 500W. If its a round 113W the problem is the mantle is designed to operate on 220V (assuming it is a 450W mantle).
Note if the mantle is designed for 220V replacing the controller with a 110V one will not make it consumer the 450W.
If with the 220V controller switched to maximum, it only consumes a round 113W, that strongly suggests it is a 220V mantle.
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Not following you sorry, the unit when plugged into a 110v outlet draws 195 watts regardless of knob position. The mantle itself is simply a heating
element wrapped in fibreglass webbing and connected to the controller, like a hotplate. I was actually thinking of buy a $20 cheapo hotplate and
gutting it.
Not sure if you were actually suggesting I plug the element directly into a 110vac source, but um that doesnt seem like a great idea.
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burnteloi
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You da man! Just bought it (with enclosure), will mod and test and post back
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wg48
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Quote: Originally posted by burnteloi |
Not following you sorry, the unit when plugged into a 110v outlet draws 195 watts regardless of knob position. The mantle itself is simply a heating
element wrapped in fibreglass webbing and connected to the controller, like a hotplate. I was actually thinking of buy a $20 cheapo hotplate and
gutting it.
Not sure if you were actually suggesting I plug the element directly into a 110vac source, but um that doesnt seem like a great idea.
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Connecting the mantle directly to the mains is test to help determine what is causing the problem and to check the mantle power on 110V. Yes doing
that permantly is not recomended as it could over heat the mantle.
However now that you have given the additional information on the power and the fact that the control knob does not vary the heating/power consumption
it is almost certain the power controller is faulty and will need to be replaced.
There maybe other problems too for example it may not be wired up correctly or if the mantle is 220V it can only consume 1/4 of its normal power on
110V.
[Edited on 13-2-2017 by wg48]
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Praxichys
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Just use a multimeter and check the resistance of the element. That will tell you exactly what it will draw at 110V, no need to plug it in directly.
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burnteloi
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Quote: Originally posted by Praxichys | Just use a multimeter and check the resistance of the element. That will tell you exactly what it will draw at 110V, no need to plug it in directly.
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I had an extra new element and just tested the resistance, came up as 138-140 ohms. I plugged the black into the com port on the multimeter and the
red to the volt/ohm/amp, switched the dial to ohms and probed each end of the wire element. It has been awhile but I think I got it right:-)
The element itself on its packaging is rated 450watts, but provides no other specs.
As for the math...dunno, looks like 110v 13a 140ohm 1430 watts.??
[Edited on 14-2-2017 by burnteloi]
[Edited on 14-2-2017 by burnteloi]
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wg48
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Quote: Originally posted by burnteloi | Quote: Originally posted by Praxichys | Just use a multimeter and check the resistance of the element. That will tell you exactly what it will draw at 110V, no need to plug it in directly.
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I had an extra new element and just tested the resistance, came up as 138-140 ohms. I plugged the black into the com port on the multimeter and the
red to the volt/ohm/amp, switched the dial to ohms and probed each end of the wire element. It has been awhile but I think I got it right:-)
The element itself on its packaging is rated 450watts, but provides no other specs.
As for the math...dunno, looks like 110v 13a 140ohm 1430 watts.??
[Edited on 14-2-2017 by burnteloi]
[Edited on 14-2-2017 by burnteloi] |
So you do have a multimeter. Given the resistance and voltage the equation for the power is (110*110)/139 = 174W
You appear to be way out of your depth even for remote trouble shooting. I suggest you try to find someone who can help you hands on.
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Sulaiman
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burnteloi
there are inconsistencies in your data;
if the resistance is 139 Ohms then using 110 V you should measure 87W
(110x110)/139 = 87 .... wg48 has a faulty calculator
120 Vac would give 103.6W
for 139 Ohms drawing 195W the voltage would need to be 164 Vac
not to worry, the figures give a ballpark guestimate .....
250 Vac would give 450W into a 139 Ohm load.
So unfortunately I suspect that you have a 240 Vac 450W 'nominal' element.
87W for a 2l flask is going to need lots of insulation and patience
The controller that I pointed to, and you bought, should cover WARM to SIMMER ... sorry , not
I had a quick look at the 110:220 adapter pointed to by JJay
I suspect that they are 50W (in an Antarctic wind tunnel, based on most cheap-Chinese specifications)
so not useful here.
There is a 'trick' to multiply the power using diodes and capacitors but I would not do that in this case.
Unfortunately you need a 500 VA, 220-240 Vac supply (transformer)
or a different element, or mantle,
or, as above, insulation and patience.
P.S. ... regarding insulation and patience ... since vapourising water requires 2257 kJ kg-1,
https://en.wikipedia.org/wiki/Enthalpy_of_vaporization
with perfect heat insulation, 87W would vapourise 1l of water in 7.2 hours
[Edited on 14-2-2017 by Sulaiman]
CAUTION : Hobby Chemist, not Professional or even Amateur
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JJay
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Hmm... similar ones say that they can handle 13 amps... I don't really see any reason to believe that they are 50 watts....
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Sulaiman
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I think that the adapters are designed for 50W when coverting to/from 110/220 Vac
but when just passing-through the power without changing the voltage, just the plug or socket gemetry, then 13A can pass
I read specifications with a cynical eye
P.S. I also consider things another way, heat.
With no ventilation, I doubt that more than about 5W could be dissipated by the enclosures before serious internal heating occurs,
and good commercial inverters are 90% efficient,
so 50W is about right, to me.
OR, at 240V x 13A output, 5W dissipation requires a 99.84% efficient inverter, unlikely to be anywhere near that.
[Edited on 14-2-2017 by Sulaiman]
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JJay
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You might want to use it with one of these: http://www.ebay.com/itm/152429484217
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wg48
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Quote: Originally posted by JJay | Hmm... similar ones say that they can handle 13 amps... I don't really see any reason to believe that they are 50 watts.... |
Given the size and cost its probably just an adapter for connecting various plugs to various sockets.
I strongly doubt it converts between 110V to 220V or 220V to 110V certainly not at 13A. Its too small and too cheap.
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wg48
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[rquote=474664&tid=72284&author=Sulaiman
(110x110)/139 = 87 .... wg48 has a faulty calculator
[/rquote]
Apparently yes lol
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JJay
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Quote: Originally posted by wg48 | Quote: Originally posted by JJay | Hmm... similar ones say that they can handle 13 amps... I don't really see any reason to believe that they are 50 watts.... |
Given the size and cost its probably just an adapter for connecting various plugs to various sockets.
I strongly doubt it converts between 110V to 220V or 220V to 110V certainly not at 13A. Its too small and too cheap. |
Right, but with one of those, he could plug his stirrer into a 220V outlet without modifying anything. Most U.S. households do have 220V current...
it's just that they usually only use it for major appliances.
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burnteloi
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Okay, the 195 watt reading is off the incorrectly installed 220 controller, that is, when plugged into a 110-120Vac my wattage meter says roughly
195, but that is with the wrong controller. So lets forget about that # for now.
I dont need a new mantle, the mantle body and element insulation etc is all brand new basically. The ONLY problem is the power controller.
Here is what we know,
old power controller (rotary style) rates 220-250Vac , 13amps. has a couple take offs for the operating light and two leads through the body. This is
not working because it was supposed to be a 110v version of the same mantle, logic dictates that there must be a controller that works with the same
element as they sell both 110 and 220 versions online.
I do not have any 220 mantles (well kinda do now, but wont work here in North America) so I am not positive that the mantle element is the same in
both models , but I am pretty sure it is. In fact upon looking I can't find replacement mantle coils rated only for 110 or 220.
There are no other electronics in the mantle. just wiring to the element through the mantle body
To WG48, never said I didnt have a meter and I am not trying to troubleshoot this, I am trying to find a suitable replacement part.
So just in my head keeping in mind, I know the basics only, if at 110v on a 140 ohm resistance the Ohms law calculator spits out 0.78571 amps and
86.42857 watts
Now if I increase that current variable to 4 amps I get about 440 watts which would be the elements rating. I am obviously missing something in
regards to current.
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burnteloi
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Quote: Originally posted by JJay | Quote: Originally posted by wg48 | Quote: Originally posted by JJay | Hmm... similar ones say that they can handle 13 amps... I don't really see any reason to believe that they are 50 watts.... |
Given the size and cost its probably just an adapter for connecting various plugs to various sockets.
I strongly doubt it converts between 110V to 220V or 220V to 110V certainly not at 13A. Its too small and too cheap. |
Right, but with one of those, he could plug his stirrer into a 220V outlet without modifying anything. Most U.S. households do have 220V current...
it's just that they usually only use it for major appliances. |
Yep only a couple problems there (just a mantle not a stirrer). Our 220 service is as you said just for large appliances and usually only terminate
in the basement and behind the stove in your kitchen. There is no 220 service where this unit is being used. Also the other option would be to buy a
220 plug, rewire the mantle and then plug it into a step up transformer, but I may as well just buy a 110Vac mantle for the cost. of course I would
always have a step up sitting around for use ,which may come in handy again, never know.
I am thinking my best best is to go back to plan A and just buy a cheap hotplate, gut it and mod it into the mantle housing. Not really elegant, but
cheap and acceptably safe.
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Sulaiman
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"Now if I increase that current variable to 4 amps I get about 440 watts which would be the elements rating. I am obviously missing something in
regards to current. "
how would you increase the current to 4A ?
it could be by increasing the voltage by a ratio of 4 : 0.78571
so 110 x 4/0.78571 = 560V
your mantle would now be dissipating 560V x 4A = 2.2 kW
OR
you need to reduce the resistance.
If you have no alternative, then you may be able to modify your mantle element .......
IF you could connect a heat resistant wire half-way along the heating element, and connect that to Neutral (White),
connecting one end of the element to 110 Vac (Black) would heat half of the element with
Power = (110 x 110) / (139/2) .... (half of the resistance)
Power = 174W in one half of the element
If you now connect the other end to 110 Vac also, you get 348 W.
Basically you are putting 110 Vac across each half of the element which is equivalent to 220 Vac across the original element.
I have not tried this, I do not know how difficult it is to safely and reliably connect to the middle of the element,
but in theory it works
P.S. if you are off a little, say 60% and 40% along the element instead of 50:50, I think that would be OK
You should be able to 'probe' through the insulation with a needle to find the near-mid-point.
[Edited on 14-2-2017 by Sulaiman]
[Edited on 14-2-2017 by Sulaiman]
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JJay
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Most cheap hotplate controllers run at full throttle until the thermostat signals that the temperature is too high and then shut off until a certain
amount of time has passed and the temperature is acceptably low. If you put one into a heating mantle, you're going to be disappointed.
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Sulaiman
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the one that he ordered is a phase-controlled triac 'dimmer'
it gives very steady heating.
A simple power controller like these gives a more constant boil-up rate than a mantle (or even an oil bath) with a PID controller
unless the PID is very well tuned and/or there are changes in the environment during operation.
EDIT: As of this morning's post, I now have three of these controllers,
one for my 1.5 kW 240 Vac hotplate, which works very well
(so far with this controller I have only done 6x 1.4 litre EtOH distillations, not at full power ... time will tell),
one for my in-progress diy 250 W mantle/stirrer, (still looking for 500ml-mantle-sized tin cans)
and now one for spare (they are cheap-Chinese)
P.S. I just realised, JJay is warning about any future purchase of a mantle, I think ... D'oh!
[Edited on 14-2-2017 by Sulaiman]
[Edited on 14-2-2017 by Sulaiman]
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JJay
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Quote: Originally posted by Sulaiman |
P.S. I just realised, JJay is warning about any future purchase of a mantle, I think ... D'oh!
[Edited on 14-2-2017 by Sulaiman]
[Edited on 14-2-2017 by Sulaiman] |
Umm... no:
Quote: Originally posted by burnteloi |
I am thinking my best best is to go back to plan A and just buy a cheap hotplate, gut it and mod it into the mantle housing. Not really elegant, but
cheap and acceptably safe. |
Anyway, this is really not as complicated as people are making it out to be, but hopefully no one starts a fire or gets electrocuted....
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Praxichys
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I can think of two options that might work.
Typical 110v houses are wired with a 220v split-phase connection. From the pole there is a "neutral" wire and two "hot" wires, each hot being about
120 Vrms above ground, but 180° out of phase with each other. Thus, you get 110V for appliances and such by connecting them across neutral and one of
the phases, and the 220V appliances are simply connected across both phases, so the appliance gets + and - 110V for a total of 220V.
That said, if your house is fed with split-phase (and they most often are) you can run an extension cord from a 110V outlet connected to the A side of
the panel to an outlet connected to the B side of the panel. Make a cheater cord to skip the neutral connections and instead wire both hots (and for
Pete's sake, the safety ground) to the mantle. This will feed it 220V and it will operate as designed.
Alternatively, you can try to put a tap in the resistance wire within the mantle itself. If you connect to the heating element exactly halfway down
its length (you can check where you are by measuring resistance, no need to disassemble), you can connect your tap to one side of the heating
controller and both the original connections to the other side of the heating controller, effectively splitting one element into two parallel
elements, thus halving the resistance and therefore doubling the wattage. It will then run at 110V with the same power as it was designed for at 220V.
EDIT: Whoops, Sulaiman has suggested idea #2 already.
To find whether you have both an A and a B side socket, use the multimeter and measure the voltage across both hots. If you're on the same side, it
will show 0V, and if you have opposite sides, it will show 220V.
[Edited on 14-2-2017 by Praxichys]
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burnteloi
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Absolutely friggin brilliant guys, gonna try the tap first, I purchased some 500C fibreglass insulated high heat wire (16amp)
[Edited on 15-2-2017 by burnteloi]
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