We're now nearly three months into our third trip and one of the recurring problems from the previous tours is the matter of drying hair. Sophie, who has lovely long blonde hair, hates not being able to blow dry it properly. We tried all manor of 12v hair dryers which varied from pathetic to down right dangerous with melting wires and popping fuses. In the end she settled to dry it using the hot air vents in the cab, which in Summer was a bit overpowering!

The solution was the setup I have described below, the cost for which was about £230. Relatively expensive however it is a small cost for the convenience of never having to go near a camp-site or pay for electric hookup if available at an aire and in that respect it has paid for itself already. Of course, when your done with it you can sell it on eBay - second hand units are making about £150+.

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The solution involves the installation of 2100W Inverter. An inverter works by turning the 12v found in your  battery into 240v as found in your house. There are two types of inverter, pure sine and modified sine wave.

Pure sine wave is the better type which is exactly the same as the electricity you have at home. It is "cleaner" but ultimately pure sine units are very costly and are only required in applications where the interference that can sometimes be caused might be detrimental. Modified sine is perfectly usable for this application.

We purchased a Ring 2100w Inverter - this particular model suited us for a number of reasons:

  • It delivers 2100W continuous power - not 2100W peak which usually means circa 1500w continuous.
  • It a manufactured from a reputable company rather than a grey Asian import.  
  • Built in low battery voltage alarm and shutdown, over voltage, overload and temerature protection.
  • Twin Sockets.
  • LED Display - showing both battery voltage and watts consumed.
  • Remote Control to turn off (although we isolate is separately as it will still use a minute amount).
Installation
My personal preference is to connect it to the cab battery rather then the habitation battery, the reason being is that it draws a great deal of power when in use and the leisure battery has now way of compensating for that. By connecting it to the cab battery you can run the engine bringing the alternator into play delivering 140Amps back into the system. You will find when the system is in use your rev's will increase to allow the alternator to compensate for the power draw and I personally would not consider running it without having the engine running - so aim to dry your hair before you set off if you are moving on.

An inverter running at 2000w and 90% efficiency will be drawing about 183 amps from the system which is going to rapidly discharge your leisure battery which in reality doesn't want to be discharged much further than 50% for longevity. 

Furthermore the whole point of the installation is to reduce the dependence on electric hook up so draining your leisure batteries is going to be counter productive. The exceptions to this are of course if you have an impressive solar system and in my mind some decent battery monitoring equipment such as the NASA marina battery monitor. 
  • Ring 2100w Inverter - £200
  • 2x 1m of 0AWG Cable (rated upto 250 Amps) - £25
  • In-line 0AWG cable 200 Amp Fuse - £10
  • 1x Battery Isolation Switch (rated upto 300 Amps) - £5
  • 6x 6mm Crimping Terminals for the Battery, Switch and Inverter - £1
  • Heat Shrink 
I installed it as follows:

1.) First of all I removed the useless Fiat Jack from under the passenger seat, it is much better replaced with a trolly jack or similar in the back of the van. Don't forget to keep the towing eye out of it if you do though! 

2.) You will need to prepare your cable for the installation. Open up the battery compartment under the cab floor and isolate it by removing the negative terminal. Lay out your cable so you know where it is going to be routed and where you will need to make the cut in the positive cable to allow for the isolation switch. Make the cuts and crimp the cables tightly ans shrink the exposed ends so they are neat. You will find the cables will run easily from the battery compartment into the break in the rubber floor either side of the seat, I ran the positive down the outside as this is where I was going to locate the switch, you might want to differently depending on your preference. I used heavy duty Velcro to mount the inverter in place as access for screws was difficult.

Be careful that there is no way for the positive cable to ground on the chassis of the seat or other exposed metal work.

Inverter fitted- view from the front. 
There is sufficent room so you can close the front and still have a socket attached - useful for charging items when in motion.

View from the back. You may want to shield the metal
retaining plate which was used for the jack kit.

3.) Drill a 20mm hole in the side of the seat base and fix the isolate switch through, this is also secured with a single screw to stop it being turned around. Be careful to give the seat's metalwork plenty of room so that a spark can't jump across.

You may want to remove the key when not in use to
be sure that the unit is 'off'.
4.) Reconnect the battery, turn on the engine and try it out! We found that Sophie's hair-dryer had a number of settings, with medium heat and full air the current draw was 1440W, on full power it was 1700W despite it being advertised as a 2000w hair dryer. 


The unit will also power straightening irons, which
my previous inverter for whatever reason have failed to do.

Post a Comment

  1. It's great to actually see an installation that provides al the info. Plus shows you what inverter will actually power the GHD hair straighteners. The misses will be pleased, thanks Addie

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  2. Surely Sophie could just cut her hair off ;)

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  3. There is hope after all, perfect

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  4. Thanks Adam , great instructions . Task completed SWMBO can now do what she has to do to her hair where ever we are

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  5. Wow that sounds brilliant...Im going to show my husband when he gets home...no excuses now that ive found this ;-) Thank you Adam

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  6. Love this! Now I can travel Europe AND look half decent in my photos!

    Thanks both x.

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  7. Hi Folks

    We also have the daily challenge of drying hair and also tried the driving with the van heating vents on full blast, the 12v hair dryers and the 240v dryer using the inverter we carry. Like you we've blown fuses, gone through 12v hair dyers & melted when driving, to little real effect.

    Our latest solution was a lot more effective and a lot cheaper - £7 all in! Our van has a Truma hot water and blown air heating system. Since none of the vents are placed conveniently for drying hair, this huge expense is for a 1m flexible pipe. All, except one, vents are closed, the heating turned up to max (in the summer at least) and the pipe placed over the remaining open vent (which is in the bathroom next to a large mirror). The Truma takes a moment to go to full fan blown heat and then the 'hair dryer' is working.

    It doesn't blow as fast as a 240v electric dryer but it is hot enough. So Angela's 20 inch long straight hair is now dried! Apparently this technique won't work for styling hair (I am told by the lady concerned), but it works for us. The flexible pipe could do with a proper connector to the heating vent, rather than just stuffing it in, and possibly a more elegant head. We also have gaslow, so the gas usage doesn't concern us.

    Great website & nice to hear how others adapt and deal with living on the move. Thanks for the advice. Enjoy the trips.

    Cheers

    Chris

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  8. Fantastic. No really, I am going to be blessing you for many years to come. At last we can get off the grid - or in the very least stay at an aire without triple checking that it has power.

    Last years solution was a petrol generator and 600w hairdryer - it weighed a tonne, made the motorhome stink of petrol and wasn't even considered an option by the wife who still wanted to spend every night on a hook-up!!!

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  9. Be careful using modified sine wave inverters, I've read about tongues overheating on them. Pure sine wave inverters are now (2014) much more affordable. I've just ordered a Chinese one off eBay. It has all the usual overload protection built in and was only £67 plus 23 postage, it looks the same unit as many other more expensive ones but half the price. This is the third inverter I've bought to get her bloody GHDs working

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  10. The previous inverter I tried was an expensive pure sine wave 475w victron energy model. I nearly powers the GHDs but trips after 5 seconds. They take 3 amps on mains whilst heating upso that's 720w

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