We had been thinking of a live edge slab for our table, but coming up wiht small pieces was difficult. We went to a local guy a couple weekends ago, and found a piece that should work!
Its a cedar or Lebanon, a local 98 year old tree that was taken out when the opera house was remodeled.
It will be finished with a satin polyurethane, lots of coats and lots of sanding…..
I made a leg out of a piece of steel, this will be at the outside edge. A piece of aluminum angle iron is attached to the wall to support that side. I drilled and tapped the floor for the table leg.
Then the top gets set in place and screwed in! It turned out very nice. It’s a little skinny, but makes getting in and out of the benches easier.
I will give it a couple coats of paste wax once the poly has set for awhile. That will give it a good wear layer.
Because we are leaving on a longer trip, we should probably have the water done right? Starting two days before we leave is the vest time right?
Well it was a TON of work but it got done, and we only left two hours late.
To start I had a 30 gallon tank, it just barely fit under the larger bench at the dinette. It was so tight that I had to take the ledges that hold the top up off…. But it just fit. We laid down 2″ of foam insulation under the tank. Hopefully this will keep it from freezing when outside temperatures drop to -15 (that’s as cold as we have stayed!).
With the tank in place, there is just barely enough room to make the connections. I almost got a slightly longer tank, and I am really glad I didn’t.
With the tank dropped in I had to secure it in place. I used a ratchet strap to hold it vertically, and its pinned in by the bench to hold it horizontally.
With the tank in place I could start the plumbing. I used pex pipe everywhere I could. Its great stuff, connections don’t leak, its ok with freezing, and a little bit flexible. On the outlet from the tank, I put a T, one side will go to the water pump, the other side has a valve so the tank can be dumped if needed.
The water runs across the wall/floor and into the other bench, this is where the water pump goes. The water pump being in with the heater should give it lots of heat to keep it warm in the winter. Valves were used both sides of the water pump so it can easily be removed if needed. Reinforced vinyl hose was used either side of the pump to try to keep noise down. Its still quite loud.
The hot water heater was installed next. It needs one hole for intake and exhaust, its a concentric vent. Also a propane connection, and an electrical connection.
So out come the hole saw and one more hole is added. Some careful measuring and drilling a hole from the outside and inside, and I go them to line up!
The intake/exhaust was glued and screwed into place, and I could then run the propane line.
Propane was connected and it was back to water. Again I used valves so the heater could be drained if needed. I am hopeful that it wont be needed! I still need to run the drain though the floor.
Next up I had to drill the hole for the faucet. Using a diamond bit usually works well, but needs to be kept wet. The trick is kids modeling clay, it works great to make a dam around the hole so it can be kept full of water. Use towels, it will make a mess…
Wohoo it didn’t break! The bit walked a little so its not perfectly centered, but oh well, it didn’t break! So a hot and cold line was run up and a threaded adapter was used to connect to the faucet connections. You can also see the hose barb adapter used for the sink drain in the next picture.
The grey water is simply a six gallon jug that sits under the sink. I think this will work well, it also helps track water usage some.
And put it all together and we get hot water coming out of the tap! Now I didn’t get to installing the outdoor shower yet, but the pex pipe can be cut and modified easily.
That brings us to the end of the water part one. It worked great, being able to just wash hands etc was so nice, we never used the water in our old truck at all. We also found out that the sink pull out can go out the kitchen window for showers 😀
Electrical never ends. So many little things that take soooooo much time.
But I got to installing the inverter/charger. Its a 1250w inverter and a 55 amp charger. The inverter is a little smaller than I would have liked, but it was cheap and used, and the charge is well size for my generator and keeping wire size down. The charger should only draw about 5 amps at 120V Ac, so that means I can use a standard 15amp cord and plug, easy.
The inverter charger gets installed. It will have a 1/0 cable running through a 200 amp breaker and then to the battery bank. Making 120V AC takes a ton of amps at 12V DC.
For my shore power connection, I had planned to use the drivers side tool box. So I needed to run a power cable from there to the inverter. I used flextite electrical conduit for this. It protects the wire and keeps it dry.
I ran the power cable through the conduit, its the male end of the same extension cord I used to wire the truck, I have about 25′ left, that should be enough to hook up to most hookups or get the generator a ways away. I also pulled a pair of 8 gauge wires for my solar connection.
It all rolls up nicely inside the tool box.
Solar! Yes I am excited. I have two panels and a PWM charger on the roof of our old truck. They always topped the batteries up a little, but never charged all the way. They were always dirty too…
For the new truck I am going to try a portable panel. I can park in the shade and have the panels in the sun, throw it on the hood etc. I went with a folding 100W panel, its very thin and light weight, it should be easy to store, this was one of my concerns with a portable one.
I opted to spend the little extra money for the MPPT controller, I went with a Victron, having only the one panel I wanted the extra efficiency I could get using it. I will do some tests to see how the panel actually puts out compared to its ratings.
Now that we are using the truck, we really should have a way to monitor the batteries. Now I know most people just use voltage gauges, but it’s really not a very good gauge of whats really happening. A much better solution is to use a shunt.
A shunt is basically a large bus bar, with a known voltage drop across it. You connect all the negative sides of your loads and charger to one side, and your battery negative to the other, and it can measure the amps drawn into and out of the batteries because of the tiny voltage drop across the shunt. They use the negative side simply because its safe to have exposed negative posts, the exact same could be done with the positive side.
I had to make up some cables, I am using 2/0 marine cabling, its tinned thin stranded wire, crimp lugs on the ends and adhesive heat shrink tubing. It makes for very nice cables!
The meter is quite nice. You tell it how many amp hours your battery bank is and it tells you your percentage left. It can also show current amp draw, high lowest, deepest discharge etc. Its a nice unit. It all hook up with a piece of cat5 cable and RJ 45 jacks.
I installed it in the end of our tall cabinet, next to the thermostat. I’m really happy with this product. I originally was going to use a Xantrex unit, but this one is far simpler to set up and was less money as well!
After a few trips of driving the truck, it was obvious the rear shocks were not doing what they were supposed to. It bounced after every whoop and bump in the road, even just on pavement. To the point of launching things off horizontal surfaces. The truck does have 107k on it now, and the shocks do look original.
So a new set was ordered. I settled on Bilstein 5100 series shocks. They are a good quality monotube, that don’t cost a fortune.
I crawled under, wiggled my way into a sitting position and got to work. Luckily the old ones came right out (one upside of having an oil leak I guess, not much rust). They collapsed completely by hand and didn’t rebound at all. Definitely garbage at this point.
The new ones went in fine, they were much harder to get in place, as what do you know they had a gas charge and wanted to extend themselves with much force! But with a little help from my wife and a floor jack both sides were in place.
Driving is MUCH better, so much so I want to do the fronts too, as you can feel them bounce a little now that the rear end is controlled. A good upgrade, especially to old worn out shocks.
With the tank in place it was direction in front of the tires, meaning everything the tires pick up would get thrown at it. It needed some protection.
So I set about doing just that. I started with a very thick coat of car undercoating. It’s a soft rubber than covers the bottom/wheel wells of most cars to keep road debris from denting and chipping things. Its nasty stuff, almost tar like when you get it on you, which you inevitably will do….
So that is the first step, and really probably all it needs, but stuff could still get over the top of the tank. We drive in the snow a lot and I didn’t want that to pack in there and get down to the valves on the other side. So I picked up a giant mud flap. Its heavy and thick and should take impacts very very well, that is kinda what it’s designed for. Turns out it’s really hard to cut too.
The mud flap gets bolted to the same bolts that hold the propane tank brackets. Then to the bottom corner of the body just in front of the tire. I need to hold it from flying back into the tire in the wind.
This worked pretty well, but the inside corner was pretty “flappy” even after cutting it shorter. So I added a piece of cable to pull it forward. I used an existing slot in the spring hangar to tie it to, hopefully that is enough.
That should keep things off the tank pretty well!
One other thing needed to be addressed, I had to climb under the truck to turn the propane on and off, as the valve was hidden against the side of the tool box. Not fun in mud or snow…. So a 4″ deck plate was added to the side of the box, much easier access, but still not able to fill sadly.
That is the end of the propane install, until the tank is empty and the water heater goes in any way.
Propane tank time! I had originally planned on using two 20# BBQ style tanks on the back door. But since we went to diesel for heat, I didn’t think that much was needed. Also running lines all the way to the back, as all the propane needs were at the very front seemed silly (and expensive, and maintenance) so I tried to figure out where else I could fit one.
There was a pretty large gap in front of the wheel on the passenger side, but it was just not the right size for a BBQ tank, so I started to look at other options. I settled on trying to find an ASME tank. They are made for permanent mounting on cars/RV’s and as such have very thick walls, and also do not require hydro testing like BBQ tanks. Win win. They are also many designed for horizontal mounting, unlike BBQ tanks.
Now that I knew what I wanted I had to try to find one. They are stupid expensive new. Some CL scouring later I found one, It was in decent shape, used, but not rusty. But its was BIG, like 50 pounds of propane big, but with a little coaxing and cursing it looked like it would fit, but only sideways…..
But that was ok, the valves would be protected well, but inaccessible….. The good news about using an ASME tank is that you can set them up for a remote filling station! So I did some googling and a few fittings, some high pressure line and a few AN fittings and we have all the goodies to fill it remotely. But wait, I have to install the fittings and the used tank came 2/3 full. UGH.
Well I guess we will just mount the tank and deal with the fill later when its empty. To mount the tank I had to make brackets as of course nothing lined up with nothing to bolt it into place. So brackets were made, they had to bolt through the side of one of the floor cross members since that was in the door way and you can’t just bolt through the floor there, and the front side had to help support the back and be spaced down from the floor 2″, but that one could get bolted up through the floor (well once the fridge was un-installed).
After wrestling the tank in and out numerous times I had all the measurements needed to make the brackets. They were simple enough.
Then it was time to loosely bolt the brackets to the tank, wresting it in one more time and try to bolt everything together!
And it fit, thank God. Well almost, I had to trim the forward spring hanger a little bit…. The tank and it wanted to occupy the same space. I only removed about 1/4″ of material, I think it should effect the structure.
While the fridge was pulled out I ran the 3/8″ line up to the stove and Wohoo! We have gas.
I decided to use rubber 3/8″ flare lines for all the connections. The regulator and a T were all there was space for. I was hoping to have a high pressure line also for an outdoor stove. But I just don’t have the room. It may be something I can try to work in later on.
Needed to get away, so we headed to one of my favorite areas, Blewett pass. It’s on the east side, but still has big trees, just without all the thick underbrush you would get on the wet side.
It’s a great spot to come in the winter, they keep Swauk Campground (review here!) plowed in the winter, it’s a sno-park and is free to camp with a snopark pass.
Occasionally someone will stop by to use the bathroom or stop by the main picnic shelter, but it’s usually very quiet in the winter. The lot was a sheet of ice, we ended up shoveling snow around the truck just so we could walk.
I added a folding had rail next to the stairs while we were here, just a quick project.
We had a nice little fire and a quiet dinner. It’s nice to get away.
Kitchen is coming together and it needs a fridge! Cold beer is better than warm beer. We are using a 12/120V marine fridge, that uses a DanFoss compressor. They are very very energy efficient and don’t need to be vented like a propane fired one. With the fridge being under the counter, I didn’t want to have to to get on my knees to to see in the bottom, so we found a great solution, a drawer fridge! The whole things slides out on drawer type glides. Works great for seeing whats inside. It’s an Isotherm 130 liter unit.
It also has a second smaller drawer and the top is a freezer section. I’m really happy with the fridge. It draws about 2.5% of out battery bank each day. Not bad at all!
The plywood top and camp stove worked just fine for a couple of trips, but we had now acquired the real stove, a sink and its time to put the counter top in.
We used 18×18 black granite tiles for the top. They were reasonably priced and much lighter than the slab of stone we had originally looked at. I was Leary of using standard tile thinset to stick the tiles in place, there is just so much movement and vibration in a RV, especially one that does a fair bit of time on forest service roads.
First order of business was to remove the thin crappy ply I had on there and put down a sheet of new 1/2″. Then carefully layout the sink and stove holes. The stove was rather complicated….
So I decided to try using polyurethane caulking to glue them down. Let me tell you that was interesting to trowel on, so much so that I have no pictures at all. Its sticky nasty goop. But it stuck! They took a few days to dry to the point of not moving when pushed on.
After they had dried for a few days, I was able to test fit the stove. There is only about 1/8″ overlap on the edge of this stove so I made the hole very tight, too tight. I was able to come in with a diamond grinder and carve it away just enough to slip it in.
Once that was done we could “grout” it. Just like not wanting to use thinset I didn’t want to use grout, again I was worried about flex. So we used a black silicone caulk.
To do this nicely, you first have to tape off all the grout lines. This will allow you to squirt lots of caulk all over trying to force it into the gaps, and then it also gives you a surface to wipe it down to.
Again a messy process, but it turned out well. You need to wipe as much as possible down to the tape line so it can be cleanly peeled off without leaving a ridge at the edge of the tape. Lots of paper towels and take your time.
You have to peel the tape before the silicone sets up, don’t worry its not too fast.
All finished. It turned out really well. The joint look nearly just like grout would, just a little shinier. So far I am really happy with how my unorthodox install worked out.