I decided a while back that I wanted to build an automatic top off (ATO) for my tank, and have been slowly accumulating the pieces and parts necessary to do so. This project is loosely based on dfisch1's as well as some others.

I don't have room to do a gravity-fed system, so I needed something that employs a pump to pull water from a 5 gallon water container.

I wanted to use a float switch, but in my readings, I found a couple of references to float switches wearing out early if required to carry the full load of the switched device. This article (http://www.floatswitches.net/SpikingVoltage.html) provides the best explanation. As such, I decided to use a relay, the purpose of which is to allow the float switch to activate the relay, which in turn will carry the full current of the pump, sparing the switch. Granted, the Aqualifter has a very low draw of current, but in a situation like this, where failure can lead to water all over the floor of my house and my corals and fish shocked from hypo-salinity, I felt it best to do this as safely as possible.

Wherever possible, I also tried to use bits and pieces and scraps of stuff I had around the house. Half the fun of DIY projects is using that stuff you saved from the last project JUST IN CASE.

Before going any further, please don't do this project if you're at all uncomfortable with working with electricity. As with all electrical projects, this one offers you the opportunity to seriously injure yourself.

Supplies:

Tom Aquatics Aqualifter (http://www.marinedepot.com/ps_ViewItem~idProduct~OE1137~tab~1.html)
2x 1" PVC End Caps
3" of 1" PVC Pipe - thin walled
1-2 float switches (http://www.floatswitches.net/Miniature_Vertical_Mount_Float_Switches.html)
1 120VAC relay (http://marvac.com/detail.aspx?ID=25428)
1 Relay Socket (http://www.marvac.com/detail.aspx?ID=25794)
Black wire
White wire
1 Two-outlet electrical box
1 Outlet
Extension cord with female end cut off
Wire Nuts
Outlet Cover Plate
Zip ties


Overview of the steps I took:

Figure out how to wire the thing
Wire up the circuit and perform tests
Create the PVC housing for the float switch
Create the bracket to hold the switch
Wire it all together
Install


1. Figure out how to wire the thing...
I knew I needed a relay, but I had no idea how to wire one. The good news is that my brother was an electronics tech in the Navy back in the day (Desert Storm), so I tapped into him. After about 30 minutes of scrutinizing the schematics we found online (http://www.nteinc.com/relay_web/pdf/R12.pdf), we came up with a wiring approach.

Here's the wiring diagram that we came up with:
http://www.chenry.com/tankphotos/ATO.jpg

I'm sure this isn't an electrician-approved diagram, but I understood it.

The way the relay works is that when there's a circuit made between pins 13 and 14, it activates the coil in the relay, and moves the load bearing part of the relay from the resting connection on pin 1 to the activated connection on pin 5. So, I split the black wire coming from my power cable (represented by the "AC" in the drawing) and connected it to pins 5 and 13.

To complete the activation circuit, I connected pin 14 to the float switch, which I in turn connected to the Common (white) lead from the power cable. With this configuration, the float switch only bears enough load to activate the coil.

To complete the circuit the pump runs on, I connected pin 9 to the Hot side of the outlet, then connected the common side of the outlet to the white wire from the power cable.

2. Wire it up
One problem with all of this wiring is that I have never soldered a thing in my life, and I didn't think this was the time to start. I purchased a relay socket that has screw terminals for connecting the wires, and that made things much easier for me. If you're good at soldering, then you may not need the socket.

Here's a kind of blurry shot of the socket with the wire leads attached:
http://www.chenry.com/tankphotos/IMG_2152.jpg

Here's a shot of the socket with the relay installed
http://www.chenry.com/tankphotos/IMG_2146.jpg
Note: in this photo, the wire that's supposed to be on pin 5 is connected to pin 1 mistakenly.

When connecting things to the relay socket, I used wires cut to about 5" that were stripped on both ends. I didn't attempt to wire anything directly to the socket (other than the pigtails).

Here's a shot of the relay, outlet, power cable, and a light switch playing the part of the float switch (I used the light switch for testing purposes to make sure I had it all together the way I wanted)
http://www.chenry.com/tankphotos/IMG_2149.jpg

Next, I'll show how I built the PVC Housing...

Good stuff so far! Great job at taking the time to understand electricity before venturing off. Can't wait to see it!

3. Create the PVC Housing for the Float Switch
For this part of the project, I used two 1" PVC end caps, a short piece of thin walled 1" PVC pipe, and, of course, the float switch.

First, I drilled a 3/8" hole in the center of one of the end caps. Then I hollowed out the hole some more because it wasn't quite big enough. Next time, I'll make a 1/2" hole and save myself some aggravation.

Next, I drilled four holes around the edge of this end cap. These holes will let the air out as it enters the lower part of the housing. Without these holes, a pocket of air would be created and the water would never rise high enough to activate the switch. You could probably get away with one or two holes, but I wanted to make extra sure.

When drilling these holes, I drilled from the inside of the cap so I could get the drill bit right up next to the edge of the cap. Any smallish bit will do for this part. I think I used a 1/8" bit.

Here's the top cap with the holes drilled:
http://www.chenry.com/tankphotos/IMG_2153.jpg

And again from the inside of the cap:
http://www.chenry.com/tankphotos/IMG_2154.jpg

Next, I removed the nut from the top of the float switch and then threaded the wires through the center hole. After pushing it through the center hole, I threaded the nut on the wires and tightened it down.

Here's what it looks like from the top:
http://www.chenry.com/tankphotos/IMG_2156.jpg

And from the bottom:
http://www.chenry.com/tankphotos/IMG_2155.jpg

Even though we're only using 1" PVC piping, there's plenty of room around the float to allow it to move up and down, even with the pipe installed.

Next step was to drill the bottom cap as well as the piece of PVC tubing. I could have just left the bottom open, but thought it was safer to have it covered and to have lots of holes. That way snails and whatnot can't get in and mess things up.

I again drilled from the inside of the cap so I could get close to the edge.

Here's the bottom cap:
http://www.chenry.com/tankphotos/IMG_2158.jpg

And lastly, here's everything put together:
http://www.chenry.com/tankphotos/IMG_2161.jpg

Important Note: I did not glue any of these pieces together as I want to be able to get inside it from time to time for cleaning and replacement. Dry fitting provides a tight enough seal for what we're trying to do here.

Next step is to create the bracket to hold it all

4. Create the bracket to hold the switch
To create the bracket, I used some 1/8" acrylic I had around the house from a prior project. I cut a piece about 4" wide (more on that later), then bent the top part to create a hanger. Lastly, I drilled some holes in the long part of the acrylic, which I threaded zip ties through to attach the float housing.

Here's the photos:
http://www.chenry.com/tankphotos/IMG_2163.jpg
I needed something metal (to withstand the heat) about the same thickness as my sump, and I noticed that the top brace of my hand truck fit the bill nicely. I clamped the acrylic to the brace and started heating the acrylic with a heat gun.

(side note: the heat gun was a new purchase for this project -- another favorite part of DIY is that you get to buy new tools with the money you save from buying the commercial products)

http://www.chenry.com/tankphotos/IMG_2164.jpg
After bending the first 90 degrees, I stood up the hand truck and finished folding over the acrylic. In the end, the bend wasn't 100% straight, but it's close enough.

Next, I put the bracket into my sump (after it cooled off) to see about where the water level is and should be with the topoff. I eyeballed a spot, drew a line across the plastic with a sharpie, then drilled a couple of holes on one side of the bracket. Using zip ties, I fastened the housing through those holes to the bracket.
http://www.chenry.com/tankphotos/IMG_2165.jpg
http://www.chenry.com/tankphotos/IMG_2166.jpg

Next up: Final assembly

5. Final Assembly

At this point, I got too excited to take a lot of photos as I was putting the outlet, relay, etc into the electrical box. Essentially, I mounted power cord to the box using a crimp connector, then screwed the outlet into the holes at the top and bottom of the box. Next, I pretty much just stuffed the rest of the wires into the box, then put the outlet cover on the top of it all. (I was careful when stuffing to not create any points where the relay or some other wire could ground out to the box)

Here's the final assembly:
http://www.chenry.com/tankphotos/IMG_2167.jpg

6. Installation
I mounted the box in my stand and ran the power cable to the GFCI circuit I have in there. I then mounted the float switch and adjusted the level of it by sliding the housing a little (there's a little bit of give from the zip ties).

On the part that goes into the water reservoir, I used a piece of hard airline tubing to go to the bottom, then connected regular airline tubing from there to the aqualifter, and from the aqualifter into my sump, making sure that the part in the sump didn't get into the water to create a back-siphon. What's cool is that I found some black colored airline tubing, so I don't have to worry about stuff growing in there.

Here's the reservoir tank sitting next to my stand:
http://www.chenry.com/tankphotos/IMG_2168.jpg

Future Improvements
There are a couple of improvements I'd like to make to the design.


Get a second float switch installed on the bracket as a fail-safe in case the primary goes out. I'll have this one positioned higher on the bracket so it would always be on unless the primary switch fails. The reason I made the bracket so wide was to accommodate this second switch
Put a third float switch in the bottom of the reservoir tank so that if it runs out of water, the aqualifter doesn't burn out trying to pump water that's not there. I'm not sure if I'll do this one or not


Okay, I think I'm done now. I had a good time building this thing this afternoon and hope someone else is able to get some value out of it as well.

Off to coach soccer practice.... :)

One last note....

There were a couple of sites where I got some good information. Thought I'd pass the links along:
http://www.talkingreef.com/forums/diy-projects/5959-building-auto-topoff.html
Diy Auto Top-off [Archive] - The Reef Tank (http://www.thereeftank.com/forums/archive/index.php/t-20365.html)
Snailman's DIY Top Off Float Switch (http://www.hawkfish.org/snailman/diytofloat.htm)
Liquid Level Sensors from Chicago Sensor, Inc. (http://www.floatswitches.net/SpikingVoltage.html)
Relays (http://www.bcae1.com/relays.htm)

Nice project!

Good stuff! My DIY senses are tingling :) Makes me want to try somthing like this. I was playing with the idea of a container under my stand but am running out of room tho quickly. Was also thinking of a 6g potable water jug from Wallyworld that could be mounted to the top of the stand cabinet...will ahve to take measurements and figure something out. Thanks for the inspiration!

Thanks guys. It was certainly a fun project, and I got to learn a few things along the way. The more I think about the redundant float switch, the more I want to do it. That extra bit of security gives me warm fuzzies.

As for the water container, I wanted something that was easy and convenient. I get my RO/DI (and saltwater for that mater) water from my LFS for about $2.00 for a 5 gallon container. I convinced my wife that having the water container next to the tank is a good thing. :)

I too am out of space in my stand. The tank is only 24" wide and 18" deep. The stand is a tall one, so I've got vertical space in there, but with the sump, an HOB refugium, and a recirc skimmer that sits outside of the sump, I'm pretty much out of room in the stand.

Of course, now that I've played with the acrylic a little, I might look into moving the skimmer to be elevated in the sump, which would give me some room in the cabinet and I'd be able to find some sort of tall, narrow container for the fresh water. The only challenge there is that now I'll have to pour water from one tank to another, defeating the easy, convenient goal.

Anyway, thanks again for the kind words. Hopefully someone finds it useful.