| Sat
8 Sep 2007
I'm building shutters at present and as I've discussed
them before I haven't got much to say for the moment.
At
least that is the case until I've nearly finished
the large shutter that covers what I call the "utilities
area".
I've
known for some time that the Luton peak (the bedroom)
has got a droop, but with the body high in the air
on its legs I was too difficult to look into so I
decided to leave the problem until the body is back
on the ground.
While
building the utilities shutter I lower the body (those
legs have been great, I can raise or lower the body
to whatever height is comfortable for working) to
make it easier to access the hinge area at the top
of the body, I've already done the basic frame for
the shutter with a 3mm (1/8th") clearance to
the body, but when I lower body the clearance all
but disappears on the left hand side and the shutter
is nearly touching the body.
Reasoning
that this is caused by the weight of the Luton peak
I jack the peak up until it's taking the weight of
the body. Sure enough the frame surrounding the shutter
squares up and I have my 3mm clearance back.
Time
to look into the drooping Luton peak.
The weight of the peak (a) is born
by the W-braced beam and transmitted to the rest of
the body at about point b. With no real strength at
this point the force causes the vertical members in
this area to deform, manifesting itself as a 2mm bend
in the member at the side of the shutter (c).
By
measuring from a straight edge I find that the droop
at the front of the peak is about 10mm, way too much
for my liking, but it's too late to do anything about
it today.
Sun
9 Sep
After entertaining some friends I return to the drooping
peak problem.
I
cut the frame at four locations.
The four cuts.
Then
I jack up the front of the peak again. The four cuts
either get wider of narrower according to their locations.
I
measure cut 'a' with calipers and find that it changes
from 3.46mm with the peak unsupported to 2.53mm with
the jack and 2.04mm with my weight added to the frame.
Cut 'a' varies by 1.42mm as the peak
is loaded and unloaded.
That
doesn't sound like much but it's quite a lot at a
point so close to the location at which the peak is
rotating, ie the body's top beam.
Now
I have identified the problem I need a solution.
I
really need to beef up the frame at the point that
is bearing the force, but that area is almost entirely
void space as we have two large shutters there that
provide access to a storage bin and the utilities
(plumbing, gas etc) area.
Void areas (blue) and a potential strength
area (red).
There's
nowhere to brace the frame to handle the force at
'b', the nearest place that could provide strength
is the area near the door (red in the above drawing).
So I add bracing there and make a horizontal beam
from RHS to transmit the force to that area.
Location of the added beam and bracing.
Now
the force at 'c' doesn't bend the frame, it is transmitted
to the new braced area near the door.
The force is distributed to an area
of strength.
While
not a huge job this has taken all day, firstly because
it took a while to measure and analyse things, but
also because of the placement of the horizontal beam.
As
always appears to be the case when building a motorhome,
everything affects everything else. The beam goes
right across the utilities area, and while it's position
isn't particularly important for the purposes of fixing
this problem, it's critical for the utilities area
as many items have to be placed there and most have
to be accessible, some even have to be removable,
like gas bottles and filters.
Therefore,
to fix a problem with the frame bending in the bedroom
we have to decide, for example, where the spare toilet
cassette is to be stored.
Mon
10 Sep
Yesterday I fixed the droop on the left side of the
frame but this left the body a little lopsided, so
today I repeat the process for the right side.
The
right side is a bit easier though because it doesn't
have the large void areas so it's mostly just a matter
of cutting the peak, jacking it up, and strengthening
the frame.
While
doing this I notice that part of the frame has bowed
in slightly, so I fix that as well.
All
in all I've had a fair bit of trouble with warping
frame members, much more than I did with Wothahellizat
1 and I can only assume that it's because I'm using
much lighter steel that is more prone to being distorted
by the heat of welding.
Tue
11 Sep
While working on the front bedroom shutters I realise
that I haven't done the drain. This drain is supposed
to take the water from the shutter's internal gutter
and runs it away under the truck somewhere.
The
gutter is a 16x16mm (5/8th) aluminium channel and
the drain is a 12.5mm (1/2") tube, I'll use a
length of...well that's the problem.
I
have three options to hand in the workshop, some steel
brake line, some copper pipe, or some CVT (Clear Vinyl
Tube). I'm not keen on the tube although I will use
it to run the water from the end of this drain.
That
leaves steel or copper and there are advantages either
way. The copper won't corrode as much as steel with
the water passing through it, but I can weld the steel.
Also, with both of them I run the risk of galvanic
corrosion (often erroneously called osmosis) between
the drain and the aluminium gutter.
I
decide to use a length of steel brake line, partly
because as I said I can weld it, and partly because
it's closer to aluminium on the galvanic table than
copper is, and therefore less inclined to cause corrosion
between it and the aluminium.
Any water that manages to get inside
the shutter hinge area will be caught by the gutter
(red), run down the drain (blue) inside a frame member,
and be spirited away somewhere under the truck by
some tubing (yellow).
 
Two shots of the frame member before
welding onto the frame, the drain can be seen protruding
from both ends.
Wed
12 Sep
Chris planned to go into town today by herself to
do some shopping. While there she was going to pick
up some bolts and such for me. But the time I totted
up what I needed, and realised that some things require
me to make a decision at the counter, I go as well.
Bang
goes another day, and after all that most things I
need have to be ordered in, so I'll have to go back
again.
We
get back late in the afternoon and I only have time
to finish off the steel in the bedroom floor. I actually
thought it was finished a few weeks ago, but we've
decided to try another method of constructing the
floor by sandwiching ply and insulation. This should
keep us nice and warm in the bedroom, but is not as
strong as the thick sheet of ply I planned to use,
hence the extra steel to provide better support.
Thu
13 Sep
It's a well documented fact that the entire western
world is getting bigger, modern humans are taller
and fatter than their predecessors. So what's that
got to do with building a a motorhome?
Well
this bit us in the bum with Wothahellizat 1 and it's
done so again this time. When I designed the last
motorhome I allowed for beds with single mattresses
of the "standard" 2'6" width, only
to be told that the standard had become 3 feet wide
and would soon be 3'6".
This
time we're using simple self-inflating foam camping
mattresses, we've had two in the cruiser for a couple
of years and find them very comfortable. They're also
extremely light which is a good thing as I'm trying
to keep the bedroom as light as possible because it's
over the front axle.
As
we haven't had these mattresses that long I designed
the space for their size, even though we plan to buy
new ones. With this in mind Chris does some web searching
for them and finds that almost all brands are 195cm
long these days, that's 5cm longer than our current
mattresses and the space I have allowed.
We
do eventually find mattresses the right length, however
in an attempt to "future proof" the bedroom
I decide to cut some of the frame to allow larger
mattresses if we have to buy again in a few years.
Fri
14 Sep
It's
the bedroom floor that gets our attention today. The
floor will eventually be a ply-insulation-ply laminate
but today just want to cut the bottom ply layer.
TIP:
When cutting across the grain, especially with
ply and with a jigsaw, splinters can ruin the
look of the cut. An old chippy's trick to get
a clean cut is to score the cut line first with
a blade. If you want to keep the off cut free
of splinters as well, score a second line a cut-width
from the first.
A cut across the grain, the upper side
of the cut has been scored with a blade and is nice
and clean. The lower side has not been scored and
is badly splintered.
The
floor requires two sheets of ply, they meet on top
of a 20mm (3/4") steel bar but if I just butt
them together I will only have 10mm on each sheet
for screws. Not enough I think, so I dovetail the
two sheets.
The two floor sheets dovetailed together.
Now
each has plenty of timber for screws.
Sat
15 Sep
Having got the bedroom floor sheets cut I put them
aside for a while so I can work on the pop top.
When
using the pop top we plan to use two gas struts to
take the load and raise/lower it by hand. The position
of least stress for these struts is at the opposite
end of the pop top roof from the hinge, however that
requires a strut with a 750mm (29.5") stroke,
much longer than we have.
The best (that is lowest stress) location
for a strut is as far away from the hinge as possible.
We
do however have some very strong but short struts
from the deck roof on the old body. These can be used
at a point closer to the hinge where the stroke requirements
are reduced.
An alternative and fairly standard
location for a gas strut. This however places a lot
of stress on the three pivot points.
Not
wanting to buy any more components than absolutely
necessary I retrieve two 150kg (330lb) struts from
the pile of Wothahellizat 1 bits, weld up some temporary
pivots for them from a couple of bolts, clamp everything
to a likely spot on the pop top and give it a try.
The
clamps cannot hold the struts with the force, so I
have to apply small welds to the temporary pivot points.
This
works but the pop top is too easily pulled down, as
it's not yet at it's final weight this would mean
that, in their current location, the struts would
be too weak.
I
cut the pivot points off and re weld them in a different
place.
This
time I cannot lower the pop top even with my entire
weight hanging from it.
After
several attempts at different locations Chris notices
that the hinge has bent. This is a hazard when using
a powerful strut close to a hinge. I haven't used
a particularly strong hinge as I did intend to either
buy longer struts and use them as mentioned above,
or even to get a linear actuator, but these cost money,
add more complexity, and are just another thing to
break down.
This
is turning into a pain in the you-know-what and we
have a good think about what we're doing and why we're
doing it.
Chris is wondering exactly what we get from this pop
top, so when I say "Do we even need
a pop top?" she instantly replies "No".
In
the old truck the pop top gave the bedroom a full-height
ceiling, and it was great, but we didn't raise it
that often. It was common for us to leave the roof
down for six months or longer. So we can live without
a pop top
We
do need a hatch however.
We
always planned to have a hatch in the pop top, this
would have been used for ventilation and also access
to the roof.
After
bandying around a few options Chris comes up with
the idea of having a huge hatch. I'm quickly convinced
so we get to work.
The
first thing to do is remove the hinge and weld the
pop top in place. Then I cut the central roof beams
from what was the pop top and also a couple of feet
into the main roof.
I
box in the area and before long we have a 2-metre
(79") by 800mm (31") hole in the roof. I'll
have to design the actual hatch, but a big hole is
a good start.
We're
really rapt in our change, it gives a huge opening
in the roof which will allow us to look at the stars
while in bed, use the bedroom as a viewing/camera
platform, and increase the truck's ventilation enormously.
This
change solves a few other problems as well, like how
to deal with solar panels on a tilting roof. It removes
a lot of complexity, and saves both weight and time.
You
gotta love that.
Mon
15 Sep
I'm spending all my time trying to get the 11 shutters
finished at the moment so there's not much to report.
Meanwhile
here's a photo of the new roof arrangement over the
bedroom.
The
blue area is the old pop top, mouse over the photo
to see the new hatch in red.
Note
that the hatch has been cut into the roof to the rear
of the pop top, this brings it over the kitchen and
will greatly increase the ventilation in this area.
The old body had a dead area around here and it sometimes
got quite warm when cooking.
Wed
19 Sep
As the shower floor is also the entrance floor we
need to make it from some material that lets water
through and is comfortable to stand on, and the other
day I spotted a piece of punch plate at the engineering
workshop while buying some steel.
After
thinking about it I decide that the punch plate will
make a good shower floor, the only problem is that
it's mild steel and it will rust. I'll use it but
will probably get it hot-dip galvanised.
The
plate is quite rusty already, so I spend some time
with a wire brush on the grinder.
The punch plate shower floor looks
good after a wire brushing.
Thu
20 Sep
After spending the morning in town we return to the
workshop with a view to raising the body and putting
it back on the truck. I want to do this for a couple
of reasons, firstly I need to see exactly where I
can put the steps, and secondly, after all the straightening
of the frame we've done, I'm worried that the mounting
bolts may no longer line up with their corresponding
captive nuts.
After
about 20 minutes jacking the body up I decide to put
the truck in line so we can just back it under when
the body gets to the right height.
The
truck however will not start, the motor turns over
well enough but it won't fire.
It's
been difficult to start for a while now, ever since
I plumbed in the fuel lines, filters, changeover valves
etc. I wonder if there's a connection.
After
much ado I find a connection that appears to be sucking
air, that would explain why I've been seeing bubbles
in the fuel lines. But we have another problem.
The
fuel pump I use to pressurise the lines to make bleeding
easier doesn't appear to be working. Chris reads the
instructions printed on the side of the pump. "Not
to be mounted more that 12" above the fuel pickup
point" it says.
I
did relocate it recently and now realise that the
new location is actually a couple of inches higher
than before and about 12" from the bottom of
the fuel tanks. By adding a longer length of fuel
line I can lower the pump and it starts pumping fuel.
With
this going it doesn't take long to get the fuel system
primed and running.
I
line the truck up with the body and we resume jacking.
Before long it's at the correct height and I reverse
into position, or at least as close as I can in the
now dark shed.
We'll
have to leave it there until tomorrow.
Fri
21 Sep
First job today is to bolt the body onto the chassis.
It takes about half an hour and I'm pleased to report
that the bolts line up perfectly.
It
will have to come off again for painting, but while
it's on I'll add some bracing to strengthen the body.
I
start by adding some to the lounge room wall, to do
this I need to know exactly where the water tanks
will be located so I get three of them from our pile
of parts and put them in position.
Having
decided where the tanks go I can add the braces between
them.
Three of our six tanks in location
under what will be the lounge room floor. On the left
can be seen the the location of the other three tanks
and the bracing I've just added.
Sat
22 Sep
We'll be doing the roofing soon but before that can
happen I must add a lot of diagonal bracing to the
roof frame.
This
will strengthen the frame and also provide more support
to the thin roof sheets.
The diagonal bracing in the bedroom
roof area.
Mon
24 Sep
Mark and Gail (motorhoming friends) are arriving
for a short stay today, but before they arrive we
work on the roofing steel.
Because
the roof is slightly gabled the sheets must have small
folds applied at two locations and I originally thought
I would have to have this done by someone with a pan
brake. However we find that the old trick of clamping
a sheet between two lengths of RHS and bashing it
with a mallet works a treat.
Tue
25 Sep
With Mark and Gail visiting and able to lend a hand
it seems like an opportune moment to glue the sheets
on the roof.
We'll
be using Sikaflex with no mechanical fasteners and
in the past I would just have bought some tubes from
the nearest hardware store, cleaned the areas to be
glued with a cleaner like PrepSol, and stuck the sheets
on.
This
time however we decide to get some advice on the correct
method. I ask several people which Sikaflex to use
for truck bodies, and they all say 227. But why not
go to the source, sika.com? On the manufacturer's
web site we find that 227 is called an adhesive/sealant
and the recommended product for adhering panels to
truck bodies is in fact 252.
So
far so good, we'll use 252, but how to we prepare
the areas to be glued? Unable to find any info I phone
for technical advice. Here are some tips from Sika.
DON'T
clean with PrepSol, it leaves an oily residue.
DON'T undercoat the welds with Red Oxide primer, Cold
Gal, or any other zinc-based primer. The Sikaflex
will not bind to these paints.
With
galvanised steel and aluminium DO abrade the metal
with sandpaper or other abrasive.
DO
use Sika 205 cleaner.
DO
use Sika 210 primer, it's resin-based and designed
for the job.
The Sika 205 cleaner (right) and 210
primer.
It
takes all day, but we get five sheets on the roof,
that's the majority of the body covered.
Five sheets of roofing are fixed to
the frame.
Wed
26 Sep
In terms of square metres the roof is seven sheets
in area and yesterday we did five of those sheets
so we should finish in no time today.
However
the remaining area is more complicated and we spend
all day folding and cutting sheets.
By
the end of the day there is only a small area to be
done, this area though is recessed to house the TV
and other aerials, it still requires some thought
so for the moment we're done with the roof.
Thu
27 Sep
Some time ago I was working on the shutters
but the job ground to a halt because we were sent
the wrong hinges.
After
weeks of telephone calls that cost us more than the
actual hinges we finally take delivery of them and
can return to some shutter building.
As you may remember from the description
of the shutter hinge design the hinges are not
straight forward.
Both
the shutter and the fly screen have to be openable
either independently or in unison, this means they
both have to have hinges that pivot at the same point.
I could use two hinges but have decided to use a single
piece of continuous hinge and cut one of the flaps,
this effectively gives me two aligned hinges that
only need one fastener to hold them to the body.
I
cut some continuous hinge into 11-knuckle lengths,
then cut one of the flaps at a point four knuckles
in to create two flaps, one for the shutter and one
for the fly screen. The smaller of the two (for the
fly screen) is then cut again to create a shorter
flap. This will place the fly screen at just the right
spot within the window frame.
The cuts (red lines) create two independent
flaps.
Now
I weld a 30x24mm piece of angle (cut from a length
of 35x35 RHS) to the short flap and a length of 15mm
flat bar to that.
The
short flap is modified to go around the gutter and
connect to the fly screen inside the window frame.
The
angle takes the hinge around the gutter, and the flat
bar attaches to the fly screen frame, this will allow
more fasteners to be used which will spread the load
out over a wider area of the relatively flimsy screen
frame.
With
me cutting and welding and Mark cutting and grinding
it takes most of the day to make the 26 hinges required.
We finish undercoating them just in time for beer
o'clock.
Thirteen left-hand and thirteen right-hand
shutter hinges.
Fri
28 Sep
With my bevy of newly-made hinges I set to hanging
the shutters. This takes a lot longer than I anticipated
and I only get the four bedroom shutters hung after
working all day.
Below
can be seen a photo of a hinge in place.
Mouse over the text to see the various
components of the shutter and hinge assembly. (photos
may take a few moments to load the first time).
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