Winding cords?

[mrmcfly]

Hey I'm just wondering if it's ok to wind the cords up on my lights to keep them out of the way n tidy? Something makes me think it might not be good for them so I figured I should ask. 600 w hps by the way. Thanks

 

[DCcan]

Depending how they are wound...tight and close with lots of bends is no.
I like these retractable clips, keeps cords exactly where they need to be.
Up top and out of the way unless you need to move something.

 

[Renfro]

Hey I'm just wondering if it's ok to wind the cords up on my lights to keep them out of the way n tidy? Something makes me think it might not be good for them so I figured I should ask. 600 w hps by the way. Thanks

It's not a problem.

 

[DCcan]

It's a problem if you make induction coils, nice and tightly wound.
They produce heat and voltage loss.
Like light cords with 30 wraps instead of 4-5 loops.

That extension cord was probably losing 40vAC to induction while running a string of Christmas lights, then melted.
The one below it was tightly clamped and wound, also producing a hot spot.

 

[Renfro]

It's a problem if you make induction coils, nice and tightly wound.
They produce heat and voltage loss.
Like light cords with 30 wraps instead of 4-5 loops.

That extension cord was probably losing 40vAC to induction while running a string of Christmas lights, then melted.
The one below it was tightly clamped and wound, also producing a hot spot.

View attachment 4674652

Well the fact you have both conductors means the current is flowing in both directions in the coil and therefore they cancel each other out.

 

[DCcan]

They don't cancel, they compound and draw more current, the closer together they get.
That's a crude electromagnet. It draws current, drops voltage , creates heat.

 

[Renfro]

 

[Renfro]

An extension cord that is in use while coiled up or coiled in a reel can be a serious shock and fire hazard. The heat produced from the resistance cannot dissipate and is instead trapped between the tightly coiled cable, leading to the a fire or shock.

The magnetic fields of the two current carrying conductors (going in opposite directions) do cancel each other out, but you can think what you like.

 

[Renfro]

Do an experiment. Take an extension cord and wrap it many times around a ferrous rod. Should make a magnet if you are correct (but it wont). If you just coil one of the wires in the extension cord around a ferrous rod you will get a magnet.

 

[Renfro]

Note: You will need a load connected to the extension cord, so current is flowing.

 

[DCcan]

Note: You will need a load connected to the extension cord, so current is flowing.

Its been done already. 60 hz just means it heats up and then goes to zero and heats up again, instead of continuously.
It also creates an induction field every cycle, which draws current and drops the output voltage...a cord like this cant put 75 volts at the output.
Exhibit A:

 

[mrmcfly]

Here is a picture of what I'm talking about. I wrapped them back n forth, not like a coil. I might just be overthinking things but I remembered something about it creating extra heat/ issues and couldn't find an answer whether it might damage equipment. I think I might just turn them on for a while and keep an eye on temperature. Thanks for input.

 

[stalebiscuit]

Here is a picture of what I'm talking about. I wrapped them back n forth, not like a coil. I might just be overthinking things but I remembered something about it creating extra heat/ issues and couldn't find an answer whether it might damage equipment. I think I might just turn them on for a while and keep an eye on temperature. Thanks for input.

that seems fine imo

 

[Renfro]

Its been done already. 60 hz just means it heats up and then goes to zero and heats up again, instead of continuously.
It also creates an induction field every cycle, which draws current and drops the output voltage...a cord like this cant put 75 volts at the output.
Exhibit A:
View attachment 4674675

The electromagnetic fields generated from the current flowing in opposite directions parallel to each other do cancel each other out, it is for this exact reason that you can't use an inductive amp clamp on an extension cable without opening it and isolating one or the other current carrying conductors into the clamp probe.

Your melted cable is common with a lack of heat dissipation on a heavily loaded extension cord, the heat created from I2R is trapped in the coils. It is common that such coiled extension cables only be loaded to half their rated ampacity in order to avoid excessive heat in the coil.

 

[devilboy13]

No don’t wind them tight. Loosely drape them or they will overheat and melt and start on fire.

 

[MICHI-CAN]

No don’t wind them tight. Loosely drape them or they will overheat and melt and start on fire.

Not quite sure why we are discussing electro magnetics and induction? The concern here is resistance and thermal dynamics. A high load "Amps" on a small dia "AWG" will generate more heat than a larger gauge. But you must consider length when figuring resistance as well. This coupled with close proximity of closely coiled cord increase insulation value and thermal generation as well. In my language you can coil if the the rating or AWG is twice the minimun rating for your load and length. Best bet is large loose loops exposed to airflow. Be safe. We grow fire. Not start them.

 

[xox]

The electromagnetic fields generated from the current flowing in opposite directions parallel to each other do cancel each other out, it is for this exact reason that you can't use an inductive amp clamp on an extension cable without opening it and isolating one or the other current carrying conductors into the clamp probe.

Your melted cable is common with a lack of heat dissipation on a heavily loaded extension cord, the heat created from I2R is trapped in the coils. It is common that such coiled extension cables only be loaded to half their rated ampacity in order to avoid excessive heat in the coil.

i agree with this statement i've used an extension cord like that on a job overloaded the circuit with to many power tools plugged into that exact type in the photo and it melted how it is in that photo. is that photo just something that was pulled off google?

 

[MICHI-CAN]

i agree with this statement i've used an extension cord like that on a job overloaded the circuit with to many power tools plugged into that exact type in the photo and it melted how it is in that photo. is that photo just something that was pulled off google?

Magnets generate negligible heat at best. I don't get the relationship with heat melting things beyond drawing coils closer together to increase thermal insulating which is impossible because we use non fer-rites for conductors over distance.

I hope the OP followed my advice. You kinda backed it up.

 

[MICHI-CAN]

i agree with this statement i've used an extension cord like that on a job overloaded the circuit with to many power tools plugged into that exact type in the photo and it melted how it is in that photo. is that photo just something that was pulled off google?

Are Canuck's 110 or 220 V?
@xox

 

[xox]

everytime ive used an extension cord on a spool they never have a splitter on them that has a gfi built into the outlet they often melt when too many tools are plugged into them. here let me help you https://bfy.tw/P7Db