►
From YouTube: 120 Design Lessons - Day 15
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A
Let's
talk
about
today,
let's
talk
about
window
design,
door
door
design,
so
right
now,
at
this
time
we've
got
a
lot
of
the
details.
We
talked
just
a
little
bit
about
electrical
system,
how
we
we
run
run
wires
through
the
utility
channel,
so
that
the
electrical
is
built
into
the
the
wall
modules
that
we're
building
at
this
time,
so
that,
at
the
end
of
the
day,
wall
modules
contain
electrical
insulation
structure,
exterior
sheeting
and
then
after
we
finish
the
house
we
put
on
the
interior
sheeting
and
for
the
interior
walls.
A
We
we
keep
them
largely
as
frames
there's
some
that,
because
they
overlap
at
seams.
The
interior
panels
must
be
put
in
like
once
in
place,
except
for
some
edge
ones,
which
oh
there's
only
one
panel
and
they
do
not
overlap
like
there's
small
sections,
for
example
around
the
staircase,
where
there
might
be
a
wall
section,
that's
only
one
panel
long,
in
which
case
you
don't
have
overlap,
and
we
can
pre-build
those
kinds
of
panels
anytime.
A
It's
overlap,
there's
a
little
overlap
between
interior
panels
on
interior
panels.
There
is
no
overlap,
we're
actually
actively
cutting
away
the
overlap
so
that
we
can
build
and
then
seam
it
up
later,
build
it
as
modules
in
the
first
place,
otherwise
to
to
cut
like
all
your
plywood
to
shape
like
around
the
windows,
doors
and
other
details.
A
It
takes
a
lot
of
time
so
in
order
to
save
time
we're
talking
about
what
kind
of
numbers
we're
at,
but
I
mean
if
we
can
get
the
reality,
the
absolute
clear
reality
of
a
500
hour
number
for
one
of
these
houses,
then
I
think
this.
The
basic
statement
is
we've
got
it
made.
I
mean
that's
a
that
could
be
a
robust
business
model
and
after
that
you
can
still
talk
about
optimization,
with
improved
design
and
streamlining
everything
still
potentially
3d
printing
some
parts
to
reduce
costs
and
time
further
for
the.
A
A
A
A
A
Probably
like
a
two-year
would
be
an
easy
way
just
standard
like
two-way
two-year
tech
school
which
could
do
this,
and
I
do
believe
we.
We
are
clearly
making
this
easier,
because,
unlike
regular
tech
school,
just
the
streamlining
and
the
degeneracy
aspect,
meaning
that
we're
reducing
very
actively
to
okay.
What's
what
is
sufficient
to
get
you
a
high
quality,
build!
A
Do
any
inferior,
inferior
design
or
things
that
do
not
pass
codes?
This
is
all
about
code
approval
and
our
milestone.
Our
next
milestone
right
now
is
to
get
this.
This
version
for
a
build
in
september
so
september
in
kansas
city,
so
transitioning
the
regular
workshop
to
do
most
of
it
here
and
then
we
can
explore.
Okay.
Now
we
can
transport
all
our
built
pre-built
modules
for
a
rapid,
build
awesome.
That
could
be
one
one
way
to
do
a
revenue
model.
A
A
A
So
you
can
just
itemize
it
into
okay.
Here's
all
the
missing
details
from
the
point
where
we
are
right
now
we're
at
the
point
that
we
have
built
most
of
the
frames.
We
have
also
yesterday
installed
the
sill
plate,
which
is
great,
which
means
that
right
now
the
wall
modules
could
go
right
on.
So
that's
that's
we're
at
right
now,
but
we
do
want
to
finish
them
more
I.e,
put
the
insulation
and
other
details.
A
B
A
Couple
of
months
ago,
now
where's
this
lod,
for
this
is
here
wall
modules
here
this
section,
so
in
it
I
kind
of
went
to
the
further
detail
of
each
of
the
modules
to
show
exactly.
What's
in
one,
let's
take
a
look
at
start
with
a
very
simple
one,
and,
and
how
do
we
do
this,
because
this
is
something
we're
gonna
have
to
do
in
a
workshop
right,
so
everybody's
awareness
in
terms
of
catching
this,
what
the
construction
is.
A
You
haven't
built
this
before
you
haven't
seen
the
materials
you
haven't
felt
it's
probably
difficult
to
imagine
all
this,
so
I
mean
ideally
it's
like
we
do
that
in
the
workshop.
We
we
take
as
much
notes
as
possible.
C
A
Other
elements
around
it,
but
how
do
we
I
mean,
do
you
guys
have
any
suggestions
of
okay?
We
go
into
the
workshop.
How
does
it,
how
does
that
process
become
more
spontaneous
and
and
self-organizing
rather
than
me
saying?
Okay
now
do
this
now,
do
that?
Is
that
possible,
or
or
is
that
kind
of
a
heavy-handed
leadership
or
more
heavy-handed,
like
more
involvement
necessary
to
do
this?
I'm
just
trying
to
get
some
feedback
on
that?
Is
it
or
what
would
be
the
best
way
so
okay,
say
we're
building
one
of
these.
Do
we?
A
F
A
C
Just
do
one
do
one
together
catch
that
process.
A
C
Quality
control
of
all
these
modules,
so
we
we
have
like
pretty
much
all
of
them
built,
there's,
maybe
a
few,
a
few
that
are
not,
but
maybe
what
we
can
do
is
go
through
this
finishing
process
and
maybe
in
this
finishing
process
we
can
say
okay
well,
first
of
all,
let's
make
sure
we
know
where
every
single
modulus
so
now.
A
We
have
the
rack
of
the
all.
The
modules
are
in
iraq
now,
so
we
can
maybe
number
them.
So
it's
immediately
visible
where
each
one
is
impossibly
rearranged.
Okay,
like
go
1
through
24
and
so
forth,
so
we
know
exactly
where
to
go
and
we're
not
spending
all
this
time.
Just
going,
you
know
running
around
the
workshop,
trying
to
find
the
right
one.
A
Finish
that
completely
like
to
every
single
detail
with
including
what
we're
going
to
talk
about
right
now
with
the
all
the
other
pieces
and
we'll
go
from
there
and
then
we
can.
But
we
also
have
to
look
at
okay,
we're
going
to
have
to
put
in
the
electrical
boxes
that
we
talked
about
the
other
day,
we'll
just
nail
them
in
run
some
wire
from
one
to
the
next
and
call
it
a
day
and
then
finish
it
when
we're
inside
the
house,
but
that
we
have
to
there's
a
bit
of
detail.
A
F
E
G
E
H
E
Just
around
some
of
the
the
other
finer
points
like
they
can
build
the
module,
but
then,
like
the
select
d
until
each
happens
to
go
in
there
needs
to
be
a
certain
way
that
it's
done
so
the
panel
actually
works.
It
meets
the
design.
A
C
E
E
A
E
Far
away,
do
you
think
that
is
so?
It's
like
the
simple
and
then
technical
like
how
do
you
meet
in
the
middle
because,
like
the
simple
is
the
cheat
sheet
like
just
hammer
this
together
versus
the
technical
specification
which
is
like
we
got
to
build
it
this
way
because
of
the
code
because
of
the
design.
D
E
A
Yeah
I
mean
there's,
you
can
go
atomically
through,
like
you
can
have
a
cheat
sheet
for
like
why
this
is
designed
this
way
you
can.
You
can
point
to
all
these
things,
but
that
would
repeat
itself
a
lot
of
times,
so
you
probably
want
a
more
generic
design
doc
that
talks
about
the
whole
thing,
because
there's
going
to
be
a
lot
of
overlap
right
because
of
the
modules.
A
Now
you
need
those
extra
that
excruciating
detail
for
each
module
when
many
people
build
it
because
you
have
to
build
that
to
those
specific
sizes
and
everything
else.
Whereas
for
the
rationale,
that's
a
thing
you
studied
beforehand
anyway,
we
definitely
want
to
have
a
design
guide.
We
definitely
want
to
have
like,
like
katerina's
building
book,
where
she
tried
to
capture
all
the
different
details
of
why
it's
designed
a
certain
way
and
what
how
it
meets
codes
and
stuff
like
that.
So
there's
different
different
levels
of
detail.
A
D
B
A
A
D
A
Just
atomic
breakdown
of
all
the
points
that
you
always
have
to
check
through
so
okay,
let's
bring
them
up
here.
So
we've
got
these
just
talking
about
the
knowledge
structuring
here,
mastering
basics,
and
here
we're
saying,
okay,
atomic
points
of
info
and
we're
saying.
Okay
already,
we
have,
let's
remember
that,
remember
that
so
we've
got
22
on
the
first
page,
no
24
on
the
first
page.
A
B
A
Call
it
so
wall
module
overall
design,
so
first
start
with
the
framing
start,
with
framing,
which
was
the
20
start
with
okay,
the
28
points
of
framing.
B
A
B
D
A
So,
actually,
what
happens
so
in
these
modules
in
that
section?
So
this
is
not
what
we've
been
working
on
lately.
This
is
these
modules,
which
actually
have
just
about
all
the
atomic
detail
of
the
all
the
other
parts.
So
there's,
if
you
look
at
the
part
tree,
there's
insulation,
so
the
fiberglass
describes
that
as
r19
fiberglass
insulation,
it's.
A
Shows
you
actually
the
length,
and
the
first
number
is
actually
so.
This
is
actually
was
trying
to
do
like
this
explicit,
bom,
generatable
kind
of
a
nomenclature
here.
So
all
simple
parts,
the
parts
that
you
extract
from
the
part
tree
are
actually
things
that
go
into
build
materials.
This
is
itemized
list,
so
r19
fiberglass
93
inch
one,
so
that's
the
first
one,
so
so
93
inches
of
that
fiberglass
insulation.
A
So
insulation,
how
long
are
you
gonna?
So
what
do
you
do?
You
got
a
roll
of
insulation.
What
are
you
gonna?
Do
you're
gonna
go
out
there
to
the
big
table
with
all
the
supplies
and
we're
gonna
be
cutting
for
the
eight
foot
wall.
How
how?
How
long
are
they
gonna
be
so
that
info
in
the
free
cut
fast?
Is
it's
93
inch,
so
that
makes
sense
right?
It's
93,
inches
minus
the
three
inches
top
and
bottom
plates
right,
so
total
is
96..
A
A
So
say
we
take
off
the
front
face
yeah.
You
can
see
the
pink
stuff
there.
Let's
hide
that
hide
those
and
behind
what
we
have.
Let's
make
this
all
transparent.
Well,
let's
make
the
face
transparent
on
the
back.
B
I
I
A
A
So
this
is
yeah,
so
this
is
a
little
older
and
that's
before
the
blocking
was
put
in
then
so
yes,
good
observation,
this
would
need
to
be
updated
to
the
current
status
of
blocking
insulation.
Second
detail.
A
It's
breathable
now
how
okay,
if
we
got
a
4x8
panel,
what
do
we
want
to
do
here
when
I
wrap
it
around
the
edges
a
little
bit,
let's
wrap
it
around
the
front
and
back,
but
also
on
the
bottom.
This
is
going
to
be
overlapping
to
the
first
floor.
A
So
actually
the
bottom
part
of
this
of
the
house
wrap
an
important
point.
Is
it
actually
sticks
down
all
the
way?
So
we
don't
even
cut
the
house
wrap.
It's
ten
foot
rolls,
so
it's
going
to
be
sticking
about
two
feet
down
below
because
it
has
to
skirt
over
the
second
story
platform
and
actually
attach
over.
The
first
story
panel
overlap
over
that.
A
A
We
have
two
kinds:
there's
there
is
nine
foot
wide
and
ten
foot
wide.
A
Well,
nine
foot
wide
is
good
for
the
the
bottom,
because
those
are
nine
foot
panels
for
the
ten
foot
wide.
Interestingly,
the
wider
house
wrap
goes
on
the
smaller
panels
so
because
that's
to
overlap
the
bottom
floor,
so
larger
house
wrap
larger
size,
house,
wrap
and
house
repository
we're
standing
upon
like
we
put
that
in
the
foundation
just
to
walk
on
there.
So
we
didn't
get
the
foundation
dirty
there
too.
A
A
A
A
Well,
there's
actually
going
to
have
to
be
a
little
more
little
strip
more
because
there's
going
to
be
siding
there
as
well,
the
exterior
siding
so
we're
going
to
overlap
that
should
probably
stick
out,
maybe
like
yeah.
When
we
think
about
it,
you
have
the
now
the
roof
sections
which
is
it's
going
to
be
like
16
or
18
inches,
and
we
do
want
to
wrap
that
with
house
wrap
as
well.
So,
ideally,
we'd
have
six
inches
sticking
out
the
top
of
the
top
panel
I'd
say
because
you
still
have
to
make
that
overlap.
A
Otherwise,
you'd
have
to
get
under
the
outside
panel
to
make
it
overlap.
So
there's
two
ways
to
do
it.
One
is
to
one
is:
to
leave
some
sticking
out,
so
you
can
overlap
it
or
leave
the
panel
a
little
loose,
so
you
can
slip
that
into
that
house,
wrap
underneath
it,
but
now
that
that
would
be
at
height
up
there,
so
we're
working
on
a
roof
like
that's
like
second
story,
so
probably
I
don't
know-
maybe
not
maybe
do
that.
A
Maybe
just
leave
it
sticking
out,
don't
worry
about
like
taking
off
the
panel
like
on
that
just
have
it
stick
out
for
safety
reasons,
so
let's
write
that
point
down.
Stick
it
out,
because
the
overlap
that
you
want
is
like
six
inches
or
so,
which
means
we
reduce
how
much
it's
dripping
dripping
down
dripping
dripping
down.
It's
like
18,
we've
got
18
inches
left,
wait!
18
inches!
Yes,
because
we're
sticking
six
inches
up
above
is
18
inches
going
to
be
enough
for
us
to
to
do
it
yeah.
A
We
have
to
just
show
a
little
diagram
here
so
just
to
clarify
this
point.
A
Because
before
and
we're
going
to
use
the
hammer
stapler
like
we
used
yesterday
to
put
on
the
house,
wrap
let's
like
nail
nail
this
detail,
so
it
was
like
no,
you
know
we
can
go
through
this
checklist
and
nobody
has
a
like
question.
I
think
a
lot
of
times
before
what
was
happening
is
there's
a
number
of
details
and
because
we
never
really
wrote
them
down,
I
think
they
keep
on
kind
of
getting
missed
here
and
there.
So
I,
the
hope,
is
with
this
list
here
we're
not
going
to
miss
any
of
these
details.
A
A
But
what's
between
them,
you've
got
the
you've
got
the
second
story
platform,
the
basically
the
flooring
here
like
this,
maybe
like
top
plates
and
stuff
like
that,
but
on
top
is
the
roof
too,
that
were
the
actual
roof
roof
structure
similar
to
the
second
story
structure
like
that.
Well,
so
then
your
your
house
wrap.
Let's
draw
that
in
white,
maybe.
A
Here
we
said:
okay,
we
want
to
overlap
until
we
reach
down
to
to
this
one
which
remember
the
panel
on
the
first
one
is
only
down
to
like
the
exterior
siding
is
only
up,
so
we
should
make
that
taller
to
represent
that
it's
actually
like
nine
feet
right
so
here's
our
say
exterior
panel,
which
only
covers
partially
up
like
up
to
only
like
eight
feet
and
let's
make
that.
A
Which
is
kind
of
the
house,
so
this
thing
has
to
go
up
cover
at
least
some
of
this,
so
this
entire
thing
is
going
to
have
house
wraps,
so
the
house
wrap
level
is
going
to
be
up
to
like
right
there
and
just
you
know
just
ending
with
that
edge
there.
So
that's
going
to
be
how
high
that's
going
to
be
so
this
house
wrap
has
to
overlap
this
one.
A
This
one
goes
above
it.
Why
so
that
water
coming
down
from
this
one
goes
above
this
one.
It
can
be
something
like
this
right.
You
gotta
do
this.
It
overlaps
the
one
underneath.
A
A
Cover
the
bottom
there,
not
enough
like
you've,
got
if
you
got
the
dimensions
there,
so
this
is
just
like
working
with
materials
and
okay
strategy
like
how
do
you
wrap
this
thing
with
house
wrap
in
a
way
that
uses
existing
pieces
and
allows
you
to
do
modularity
so
we're
adding
all
these
components
here?
So
on
this
one
yeah,
let's
say:
we've
got
the
housewrap
2
there
we'll
fix
that
there.
A
A
A
So,
let's
just
do
this,
your
second,
you
know
the
overlap
like
this
with
the
six
inches
sticking
up
and
then
we're
gonna
have
to
just
cut
a
strip
like
a
little
bit
more
for
whatever
is
up
here
and
that's
going
to
be
more
like
16
inch.
There's.
We
already
know
it's
12
inches,
plus
4,
inches
of
foam
of
the
foam
insulation,
so
yeah
there's
just
going
to
be
a
thin
strip
way
up
there.
D
A
D
A
D
A
Added
that
too,
it's
a
second
story
platform.
That's
here,
basically
floor
platform.
A
A
A
A
With
so
stick
that
out,
that's
convenient
to
have
it
sticking
out,
so
the
insulation
doesn't
get
dirty
and
also
you
can
staple
that
to
the
to
the
edges
to
the
all
the
base.
So
insulation
has
paper
face.
A
A
Nine
foot
panels
and
oh
the
other
ones,
also
have
a
little
overhang
too,
because
you
want
to
do
a
drip
edge
over.
So
if
the
top
panels
are
sitting
on
the
wall
like
that,
you
still
want
it
to
be
dripping
over
instead
of
like
water
getting
into
the
crack.
So
you
still
want
the
same
pay
attention
to
up
and
down
so
now
for
the
say.
A
A
Yeah,
I
think
the
ultimate
metric
yeah,
it
is
so
say
you
put
it
in
place.
How
do
you
tell
like
what
are
you
looking
for?
You
put
it
on
assume
assume
we
quality
control
the
thing,
and
we
say:
okay,
this
is
at
the
right
place.
You
know,
okay,
we
know
everything
is
good.
A
It's
squared
up
and
by
the
way
the
the
plywood
is
going
to
make
your
frame
square
because
it's
already
square.
That's
what's
going
to
happen.
How
do
we
tell?
How
do
we
tell
do
you
have
it
under
on?
Because
you
can
attach
it
both
ways
right,
you
can
put
it
to
the
top
blocking
or
bottom
blocking,
if
you're
one
side
or
the
other
well.
E
A
E
I
A
By
when
you're
hanging,
one
when
hung
down
by
1.1
inch,
you
are
at
midpoint.
A
And
it
should
not
be
at
the
midpoint
when
you
use
the
other,
because
those
dimensions
were
a
little
different,
so
that
should
be
obvious.
If
it's
not,
then
we
might
have
to
look
at
okay.
Are
these
blockings
in
the
right
position
and
that
would
be
take
you
back
to
a
little
more
quality
control
midpoint.
So
the
midpoint
is
the
important
part.
A
G
A
A
I
know
we
covered
it,
but
that
was
I
thought
that
was
for
the
bottom.
We
did
cover
it
and
it
does
get
covered,
but
on
the
bottom.
H
I
A
A
So
so
we've
got
that
house
wrap
stapling
exterior
panel
now
here,
depending
on
whether
you're
working
with
an
upper
or
lower
floor
modules,
just
pay
attention
to
which
which
role
you're
using
and
do
those
three
or
four
points
make
that
clear.
Like
say
you
take
one
panel
versus
the
other,
when
you
say
you
use
this
as
your
cheat
sheet.
A
Well,
you
know.
There's
two.
First
yeah,
you
remember
point
two
yeah
nine
foot
panels
use
nine
foot
wide
house,
wrap
yeah,
larger
size
house
wrap.
Ten
foot
goes
on
smaller
eight
foot
panels.
Yes,
so
you
can
read
point
four
and
three
and
say:
okay,
I
better
make
sure
which
which
one
is
which
for
one
for
what
the
tenth
strip
we
don't
have
to
worry
about
yet
because
that's
later
on,
once
we're
actually
up
at
the
house,
but
actually
no
there's.
A
No
reason
why
we
do
it
up
at
the
house,
because
it's
dangerous
up
there.
Why
don't?
We
do
that?
Attach
that
when
we're
on
the
ground
and
we're
preparing
how
we
prepared
the
long
joist
long
joists
on
the
roof
and
second
story
floor?
So
but
this
is
pre-done,
that's
a
pre-done
as
a
module
as
a
rim,
joist
rim,
joist.
Well,
it's
roof;
joist,
roof
rim,
joist
as
part
of
a
roof
rim,
joist.
A
A
A
A
The
framing
does
only
so
much,
but
the
framing
could
rack
rack
on
you
like
that,
so
once
you
actually
put
in
the
sheeting,
it
prevents
the
racking
part
and
that's
why
windows?
If
you
put
windows
in,
they
can
wrap
large
doors
and
windows.
They
can
rack
more
because
they
don't
have
the
the
whole
panel
just
buttoning
it
all
up.
A
A
A
A
A
What
else
do
we
know
that
we
have
to
know
about
it?
Don't
get
it
wet
that
that
stuff
will
kind
of
like
collapse
on
you
like
you,
don't
want
to
get
it
wet
outside.
A
A
So
the
order
is
well
if
the
siding
is
on
the
outside
and
then
there's
insulation
and
there's
the
wood.
You
might
think
like
just
don't
get
confused
thinking
that
oh
yeah
well,
because
the
the
wood
is
first,
it
goes
on
the
panel
first
because
then
you
say
oops.
I
forgot
to
throw
my
insulation
under.
A
Ideally,
if
you
did
that
you
would
go
like
okay,
I'm
gonna
staple
that
insulation.
You
can
also
staple
it
to
the
wood.
Does
that
make
any
sense.
H
A
A
Around
edges,
this
is
side
edges,
because
the
top
and
bottom
we
already
discussed
okay,
there's
overlap
overhang.
Just
a
bunch
of
inches
up
above
grab
house
wrap,
wrap
around
edges
to
the
back,
so
you're,
basically
like
one
inch
so
you're
still
on
the
back
side
by
one
inch
so
that
you
can
actually
staple
it
back
there
around
edges
and
1.5
inch
more.
A
A
A
Your
house
is
warm
outside,
may
be
cold
or
the
other
way
around,
and
you
definitely
get
condensation
outside.
So
no
house
wrap
on
inside
of
house
because
it's
controlled
room
environment
you've
got
heating
and
cooling,
which
makes
it
that
you
don't
have
high
humidity
issues
inside
a
house.
Ideally,
so
you
got
air
conditions
in
in
the
winter.
A
A
I
A
A
It
doesn't
really
now
that
I'm
thinking
about
it,
how
do
you
you
have
your
panels
that
are
wrapped
tightly.
A
You
have
to,
I
think
we
just
need
to
slit
the
insulation.
Can
you
picture
this
issue,
so
you
wrapped
it
like
a
box
around
the
edges,
but
your
your
bottom
and
top
stuff
has
to
either
hang
or
go
above.
So
I
think
you
kind
of
gotta
like
cut
the
corner,
there's
two
so
that
you
do
have
that
full
skirt
little
details
there.
A
Just
a
little
bit
just
a
little
bit
on
the
back,
just
a
one
inch,
so
you
can
staple
it
so
because
this
gets
into
how
the
panels
attach
to
each
other.
So
let's
maybe
take
the
next
slide.
Just
just
explore
this
detail
because
now
we
get
into
I
mean
this
is
all
the
real
details.
How
do
you
get
water
infiltration
away
from
the
seams
because
we're
building
in
seams
which
were
bonding
together
with
lag
bolts?
But
let's
talk
about
seams.
A
A
And
this
is
actually
where
we
spent
time
developing
all
this
stuff
because
different
ways
to
do
it.
So
if
you
look
at
so
I'm
going
back
to
concept
design
the
basic
problem
statement
there
was.
This
is
what
we're
trying
to
figure
out
like
this
is
the
problem
statement.
So
that's
the
cdca
home
you're,
looking
at
the
panel.
A
A
A
You've
got
the
front
sheeting
you
see
in
this
detail
here.
It
shows
this
overlap,
but
we're
getting
rid
of
that.
We're
cutting
off
this
edge.
There's
like
a
little
bit
here
and
a
little
bit
there
that
we
cut
off,
because
in
practice
it's
not
possible
like
once
you
make
the
modules,
you
cannot
butt
them
together,
accurately
enough
to
make
that
seam
work
if
you're
doing
the
sheathing
separately
as
an
after
step,
you
can
do
that.
A
A
So
what
happens
to
this
self-adhesive
waterproof
barrier?
Why
is
it
there?
Why
isn't
the
baton
enough?
Well,
first
of
all,
there's
a
film
barrier
thing
about
this
tape
is,
if
you
look
at
it,
if
you
puncture
it
with
a
nail
which
you
have
to
because
you're
putting
on
the
batten
it
self
seals
around
it.
A
A
This
is
good,
but
if
it's
super
cold
or
super
hot,
it
does
not
work
well
and
if
it's
very
cold,
it
tends
to
not
stick
and
super
hot
temperature
tends
to
melt
like
super
hot
means
like
like
texas
and
like
direct
sun.
Maybe
black
black
surface
somewhere,
like
above,
like
close
yeah
like
pretty
high
pretty
hotter
than
you,
can
touch
the
rating
on
this
here
is
it's
like
only
for
it
says
to
apply
it.
If
you
look
at
that,
do
I.
A
A
A
A
A
Where
do
we
get
to
when
we
make
the
finished
modules
we
get
up
to
our
house
wrap
the
front
panel,
but
not
this.
We
don't
put
the
butyl
tape
or
trim.
That's
after
we
put
the
house
stand
the
house
up
in
place,
but
that's
the
detail
and
then
that's
the
interior,
sheathing.
Now
the
interior
sheathing,
we
do
overlap
using
those
little
overlaps,
like
shown
here.
A
We
do
have
that
on
the
inside
because
it
wants
to
be
neat
and
continuous
inside
without
we're
not
using
battens
on
the
inside,
because
we
put
those
panels
on
later.
We
put
them
on
later,
because
I
mentioned
about
code
inspection
schedule.
The
electrical
inspector
needs
to
look
inside
your
panels.
Your
panels
cannot
be
closed
at
the
inspection
point
for
electrical.
A
So
but
that
gets
into,
if
you
can
picture
this
in
your
mind,
like
we
wrap
this
house
wrap
around
what
happens
as
far
as
dripping
down
over
the
well.
The
second
store
pan
second
story
panels.
We
said
they're
dripping
down
like
18
inches
to
cover
what's
below.
A
I
think
the
only
way
we
can
do
it
is
kind
of
like
when
we
do
it
in
place,
we'll
see
better,
but
maybe
probably
you
gotta
slit
it
because
you
see
the
issue
there.
It's
like,
if
it's
wrapped
around
it'll,
be
like
you
have
seen.
You'll
have
seams
going
in
between
panels.
A
Probably
leave
the
probably
leave
oh
yeah,
so
you
probably
have
to
leave
one
side,
yeah
yeah.
I
think
that's
what
we're
doing
there.
One
side
has
to
be
left
unwrapped
around
the
back.
I
believe
I
didn't
even
see
this
before,
but
yeah
like
when
you
look
at
this.
How
do
you
make
this
drip
down
when
we're
in
a
workshop?
We'll
take
a
look
at
it.
Let's,
let's
build
the
second
story
panel
and
we'll
see:
what's
the
easiest
way,
they
can
drip
down
the
skirt
while
overlapping
the
panel
next
door.
A
So
obviously,
if
you
go
like
this
around
the
panel,
if
you
just
wrap
around
the
panel
like
it's
kind
of
hard
like
this,
the
seams
below
bottom
right
and
bottom
left,
you're
gonna
be
still
end
up
with
seams.
So
we'll
take
a
look
at
that.
Maybe
what
we
have
to
do.
There
is
just
use
some
more
house
wrap
and
just
maybe
put
cover
those-
maybe
like
a
long
strip
after
that,
let's
take
a
look
at
that
inside.
As
far
as
the
detail,
you
see
the
issue.
F
A
D
A
What
we
did
before
we
can
tell
you
is
that
we
left
one
side
of
the
exterior
panels
loose,
so
we
can
slip
the
insulation,
the
the
house
wrap
underneath
there
now
it's
kind
of
messy,
because
then
you
you
got
it
loose
and
then
you're
screwing
it
back
on
you're
kind
of
like
make
folding
it
underneath
you're
putting
it
under
which
we're
trying
to
do
this
better
this
time
around.
But
we
haven't
built
this
detail
out.
A
A
It's
really
easy
to
like
patch
up
little
spots
as
long
as
you
have
the
bulk
book
of
it.
Correct
thing.
We're
trying
to
optimize
for
is
getting
these
self-contained
edges
that
you
don't
have
to
like
mess
with
like
screwing
around,
with
massaging
the
the
house
wrap
to
like
fold
underneath
and
stuff
like
that.
Now
that
still
leaves,
if
you,
if
you
look
at
before
here,
there's
this
band
right
here
that
doesn't
so.
A
A
A
Well
for
the
strips,
and
also
for
the
edge,
because
these
panels
are
a
little
bigger
than
48
right
now
because
of
the
overlaps,
so
we
need
to
cut
off
like
just
a
little
sliver
off
the
edge
like
3,
8
or
something
which
would
otherwise
you'd
create
that
gap.
If
you
use
the
whole
width,
so
the
other
way
to
go
about
this
is
you
can
just
use
plain
exterior,
plywood
now,
plywood
does
not
look
as
good
as
these
panels
that
we're
using.
A
So
we
want
to
use
these
rather
more
attractive
panels,
but
we
have
the
issue
on
the
edge,
so
the
kind
of
the
characteristic
look
of
the
cd
cajon
with
kind
of
the
vertical
slits
in
it.
You
wouldn't
get
that
from
plain
plywood.
It
wouldn't
really
look
as
good.
It
kind
of
look
less
refined.
B
F
A
A
A
A
A
A
A
A
A
They
come
in
16
foot
pieces,
they're
already
stained,
so
we're
not
going
to
attach
it
like
here
we're
going
to
attach
a
16
foot
piece
once
we're
at
the
house
level
so
that
you
have
to
worry
about
that
now-
and
here
is
this
sawp
self-adhering
waterproof
barrier,
so
the
seam?
I
will
put
that
later
so
exterior
plywood.
B
A
A
A
D
D
Okay
back
to
the
cab,
so
you
covered
the
sill.
Oh
wait!
That's!
Oh!
That's
the
one!
This
other
one
open
all.
D
A
D
J
A
Okay,
let's
answer
that
question
so
sil
gasket,
what's
the
issue
about
it,
so
that's
the
sill
gasket.
A
J
And
and
there's
some
kind
of
overlap,
kinda.
A
A
A
So
I
think
we're
okay
there
and
so
here
you're
looking
at
what
are
we
looking
at?
That's
the
bottom
of
where's,
the
bottom
of
the
panel
on
top.
How
do
we
orient
ourselves?
Okay,
that's
another
detail
which
we're
not
putting
in
but
there's
also
z,
flashing
there,
which
eight
foot
well:
okay,
okay,
so
top
and
bottom
here
it
actually
looks
like
this.
So
there's
another
detail.
We
don't
have
to
worry
about
that
because
that
we
put
on
a
house,
but
this
is
where
the
exterior
plywood
goes
just
for
your
reference
for
later.
A
A
We
don't
have
to
worry
about
it
now
that
that
we
put
in
at
the
end,
so
here
we
do
actually
want
to
leave
this
edge
unbuttoned,
so
we
can
slip
in
the
z
flashing
underneath
it
so
the
screws
down
here
wow
there's
a
lot
of
details
to
take
care,
take
care
of
here,
but
when
we
put
on
the
so
this
this
brings
up
when
we
do
the
panels
like
steer
panels.
On
the
second
floor,
because
we
have
this
z
flashing,
you
can't
leave
this.
You
can't
screw
down
the
bottom
edge.
It's
not
a
big
deal.
A
You
just
take
out
the
screws.
That's
part
of
the
reason
why
we're
doing
screws
until
we
nail
this
or
until
you
graduate
you
want
to
use
screws
because
the
nail
it's
like
when
you
mess
up
a
nail,
it's
pretty
hard
to
take
it
out
so
until
graduation.
We
do
this
and
I
don't
know
if
we
have
ever
switched
to
full
nailing,
because
I
don't
know
we
may
or
may
not.
A
A
A
A
I'm
forgetting
myself
so
yeah
so
now,
like
all
these
details
of
where
things
end
up
matter,
because
we're
building
panels
up
vertically
one
on
top
of
each
other.
So
let's
take
some
measurements
here.
So
in
this
one
I
would
expect
to
be
3
8
inch
under
eight
feet.
A
A
A
A
We
keep
it
simple
by
aligning
the
top
edge
because
remember
in
a
first
floor
panel,
we're
explicitly
dripping
it
down,
because
we
want
to
drip
over
the
foundation
like
like
we
talked
about
and-
and
we
don't
have
z
flashing
down
there
here
we
are
using
z
flashing
because
now
you've
got
the
panels.
The
exterior
panels
are
below
this,
so
you
do
want
to
have
that
z,
flashing
at
every
seam.
A
That's
just
industry
standard
we've
got
a
seam
of
two
things:
two
panels
safest
way
to
to
seal
it
up
is
the
z
flashing
where
it
goes
under
one
and
above
the
other.
That's
that's
the
standard
there.
So
here
I
think
we
can
be
fine
with
this,
because
the
flashing
is
put
underneath
here
now.
A
One
point
yeah.
This
actually
does
bring
up
a
point
about
what,
if
we
were
to,
like
you
know
talking
about
live
design
here,
okay,
improvements.
Now
that
we're
looking
at
it
in
more
detail
what,
if
we
hang
this
down
halfway,
it
doesn't
really
hurt
us
to
do
so
so
say
you
drip
it
down
three
quarters
of
an
inch.
A
What
if
we
used
flashing
where
you
put
it
on
three
quarters
underneath
here,
three
quarters
are
more
like
an
inch
under
so
can
we
find
z
flashing
where
we
don't
have
to
unscrew
this?
That's
actually
you
know
it's
actually
the
first
time,
I'm
thinking
about
it
any
more
depth,
but
it
probably
would
be
useful
to
do
one
one
inch,
z
flashing,
that
you
don't
have
to
unscrew
this
in
order
to
put
the
flashing
back
under
there.
A
So
that's
a
detail
to
to
consider,
and
we
should
probably
I
don't
know
we
can
may
or
may
not
do
that
not
too
bad
to
just
unscrew.
You
know
screw
the
few
screws,
but
it
is
extra
work
and
you're
up
there
at
it's
only
well
at
that
level,
it's
only
the
nine
foot
mark
which
is
still
on
a
ladder
up
there.
A
D
A
D
D
A
We're
able
to
cover
all
the
house
wrap
on
the
first
floor
modules
put
in
so
do
quality
control
on
the
first
floor
modules
attached
to
the
house
wrap
as
well
as
the
the
front
panels,
and
if
you
want
to
complete
so
there's
two
ways
to
do
it
like
we
can
do
that
and
maybe
rack
them
again
or
just
do
it
all,
which
is
look
at
the
diagram
we
started
looking
at
yesterday,
which
was
where
are
the
electrical
boxes
for
that
we
have
to
go
back
to
the
wall,
module
design.
A
A
So
actually,
there's
a
bunch
of
them
that
just
have
simple
outlets
and
we
can
do
a
bunch
of
those.
So
like
we
discussed.
D
A
A
Here,
there's
one
so
there's
a
door!
You've
got
a
a
plug-in
right.
Next
to
it,
we've
got
on
the
other
side.
Here's
the
electrical
panel.
That's
we'll
put
the
put
the
power
meter
and
electrical
box
right
here.
So
everything
comes
effectively
out
of
here
and
why
there's
that
hole
there
is
that
because
we're
just
leaving
a
a
two
inch
hole
for
the
conduits
to
go?
A
There's
a
30
amp
outlet
here,
30
amp,
it's
a
different
plug,
there's
going
to
be
the
the
cooking
range
there,
which
is
we're
trying
to
do.
The
thing
of
highly
electrical
like
the
heat
pump
is
electrical
because
we're
assuming
that
we
can
do
off-grid
solar,
like
with
inexpensive
solar
panels.
A
So
that's
a
good
idea
for
for
design
with
low
energy
like
zero
energy
houses,
where,
if
you
have
enough
panels
and
you're
running
all
these
loads
during
the
day
and
have
things
like
a
super
efficient
fridge,
which
you
turn
just
power
management,
where
you
turn
everything
that
you
don't
need
at
night,
you
can
get
away
with
either
a
very
small
battery
system,
or
I
mean
you
have
to
have
some
storage
unless
you
go
without
electricity
after
after
night
now,
there
are
laptops
that
they
have
built-in
batteries,
but
you
can
definitely
do
like
free,
the
refrigeration
part
or
heating
cooling.
A
So
that's
that's
going
to
do
it
low
low
energy,
but
you
do
want
to
have,
but
even
if
you
do
use
like
a
little
trickle
of
energy
at
night,
just
for
some
essential
things,
even
if
you're
connected
to
the
grid,
this
system
is
we're.
Keeping
that
in
mind
here
so
that
if
you
do
off
go
off
grid,
then
just
the
minimal
battery
backup
system
would
be
sufficient
yeah
in
the
winter
in
the
summer,
during
the
daytime.
You're
perfectly
fine
like
this
is
for
the
daytime.
A
You
can
go
all
electrical
like,
not
even
gas.
If
you
use
like
we're
using
an
induction
cooktop,
which
is
like
twice
as
efficient
as
regular
or
whatever
the
figures,
there
are
plus
the
heat
pump,
which
is
electrical
so
for
the
heating
and
cooling.
It's
all
electrical,
including
the
the
stove
induction
cooktop
and
electrical
on-demand
heaters,
which
which
use
less
than
less
energy.
So
in
this
system
we're
building
the
capacity
to
go
off
grid
very
easily.
A
We
are
actually
getting
a
bunch
of
nickel
iron
batteries
because
those
are
lifetime
design
batteries
to
experiment
with
okay,
do
they
work
really?
Well,
we
never
use
them
before.
We
just
use
lead
acid
storage
batteries,
but
it
sounds
like
the
the
nickel
iron
batteries
sound
like
a
good
idea.
I
mean
they're,
definitely
proven
long-term
track
record
of
how
long
they'd
live.
A
So,
instead
of
throwing
out
your
batteries,
which
is
a
serious
environmental
issue
like
if
you're
going
to
be
throwing
out
your
batteries
every
few
years,
no,
it's
the
batteries
are
not
all
that,
so
you
either
go
to
a
lifetime
design
battery
or
try
to
do
something
else.
If
you
talk
about
ecological
integrity
for
the
infinite
future
yeah,
I
mean
batteries
they're
good
for
laptops
and
things,
but
once
you
get
into
larger
things,
you're
talking
about
a
lot
of
chemicals
that
end
up
in
environment.
A
So
I
I
am
a
fan
of
nickel
iron,
though,
because
nickel
and
iron
are
quite
abundant
and
you've
got
potassium
hydroxide,
which
is
lying,
that's
the
electrolyte,
so
it's
chemically
wise.
It's
pretty
benign,
there's
no
like
heavy
metal
pollution
or
stuff
like
that.
That
comes
out
of
that
and
the
extraction
of
it
is
it's
decent.
I
mean
iron
is
decent,
you
can
definitely
recycle
iron
and
nickel
does
not
seem
to
be
in
short
supply.
A
A
Is
that
true
yeah
it's
iron
and
nickel
nickel
iron
batteries,
so
we
have
a
big
built-in
nickel
iron
battery
that
we're
sitting
upon
now.
Extraction
of
that
is,
you
know
you
gotta,
wait
and
dig
way
down,
but
okay,
we're
not
in
principle
short
of
those
elements.
A
Electrical
plan,
continuing
a
bunch
of
outlets.
What
we
can
do
is
correlate
you
can
see
which
panels
these
are
on,
and
this
is
like
this
most
rudimentary
diagram.
The
green
ones
are
gfci,
so
that
means
the.
When
we
put
in
the
actual
outlet,
it's
got.
It's
the
gfci,
the
ground
fault
circuit,
interrupter.
It's
a
little
micro
circuit
in
there,
with
a
micro
controller
that
when
it
senses
that
you
got
a
short,
it
turns
it
off
immediately.
We
actually
use
it
on
a
3d
printers,
so
you
don't
get
zapped.
A
That's
that's
the
thing
for
bathroom
areas
and
wet
areas.
So,
for
example,
the
laundry
we
plug
in
the
washer
that
has
to
have
gfci
by
code,
the
kitchen
areas
and
bathroom
areas
have
to
have
that
by
code
and
then,
if
you
go
outside,
which
you
see
the
ones
on
panel
23
and
panel,
four,
the
green
things
outside
that's
going
into
the
carport
and
to
the
outside
outlet.
Those
also
have
to
be
gfci.
A
So
that
means
that
two
panels
have
exterior
connections,
but
that's
good.
So
you
can
have
power
outside
to
run
tools,
but
that's
that's
kind
of
we
can
take.
We
can
do
is
maybe
take
a
panel
like
say
a
simple
one,
like
the
one
in
the
corner,
which
is
what
17
or
so.
A
Maybe
we
build
that
as
far
as
the
full
build
out.
Well,
that's
a
complicated
one.
It's
corner
so
maybe
take
like
this.
One
here,
which
sounds
like
20,
can
take
one
one
simple
panel.
A
We
can
go
through
well
that
one
doesn't
have
electrical,
so
we
wouldn't
do
the
electrical
in
there,
but
maybe
we
do
one
well,
let's
start
without
electrical
first,
let's
complete
one
from
a
to
z.
Let's
just
walk
through
one
like
say
like
this
one,
which
has
no
electrical
well
like
this
one
too.
That
has
no
electrical,
so
take
a
simple
wall
panel.
We
should
do
the
everything
around
that.
A
I'm
open
to
either
this
pretty
much
goes
through
the
considerations
of
how
do
we
finish
up
the
panels?
Well,
we
got
to
put
in
electrical
and
and
and
all
the
insulation
so
gasket
all
the
details
we
mentioned.
A
So,
let's
see
is
that
relatively
clear
from
so
the
pages
we
try
to
capture
it.
Is
these
so
house
wrap
exterior
panel
insulation
still
gasket.
A
Here,
where
we
can
try
doing
is
we
worked
a
little
bit,
for
example,
on
on
the
electrical
box?
We
kind
of
went
through
this
exercise.
To
do
that,
we
can
start.
Let's
see,
we
don't
have
to
do
that
right
now,
but
eventually
we
want
to
have
a
full
cad
model.
That's
got
the
electrical
and
everything
else.
I
think
the
priority
would
be
just
to
get
the
thing
built
and
and
then
we
can
retrofit
the
cat.
It's
important.
A
We
understand
where
the
the
panels,
the
say
the
electrical
boxes
go
in
a
panel,
so
maybe
just
to
get
the
physical
practice
in
cad.
What
we
could
do
is
okay,
say:
there's
a
wall
switch,
okay,
let's
put
in
a
wall
switch.
We
already
did
that
junction
box
plus.
Well,
let's
see
we
did
the
junction
box,
but
we
did
not
do
the
actual
outlet.
A
So
useful
exercise
would
be
like
okay
position,
an
actual
outlet
in
a
panel
or
position
a
wall
switch
in
a
panel
which
are
things
that
we'll
be
doing
pretty
soon
in
actual
life.
That
would
be
a
useful
exercise.
A
A
Now
so
I'll
download
the
panel
two
and
retrofit
it.
A
There's
also
one
point
like
okay:
if
we're
putting
in
all
these
details
into
the
actual
modules,
we
have
the
distinction
between
the
ones
we
work
on
just
to
do
the
design
and
the
ones
positionally
correct
the
trick.
There
is,
if
it's
positionally
correct,
is
that
still
the
original
file?
Well?
Typically,
not
because
you
have
to
remove
the
sketches
in
order
to
move
things
around,
you
have
to
make
copies,
so
it's
no
longer
the
original
file.
A
So
if
we
want
to
do
a
full
editability,
just
like
adding
continuing
to
evolve
the
actual
design
you
want
to
work
at
the
one,
that's
got
all
the
detail,
which
means
one
that's
prior
to
getting
positionally
correct,
now
not
opposed
to
the
select.
For
example,
there
are
assembly
workflows,
we
can
just
snap
one
panel
next
to
each
other.
That's
that's
good!
I
think
a
good
compromise
would
be.
We
can
so
once
again,
like
the
discussion
of
freecad
16
versus
19..
A
A
I
think
we
can
do
it
like,
for
example,
if
we,
if
we
design
the
basic
panels
in
16,
and
then
we
just
okay,
open
it
up
in
in
19
and
use
assembly
workbench.
If
you
want
to
do
that
or
we
can
do
it
move
it
manually
if
you're,
not
as
good
a
user,
because
you
got
to
learn
some
things
about
the
assembly,
there's
other
workflows
there.
A
I
don't
think
I
actually
haven't
done
much
with
it,
because
last
time
we
were
playing
with
that.
Since
then
they
came
up.
They
have
a
new
new
workbench
on
something
that
that
workbench
keeps
on
getting
improved
and
new
versions
keep
coming
out
and
stuff
like
that.
So
it's
under
active
development
did
you
guys
find
out
if
the
latest
one
is
relatively
stable
or
that's
they're
highly
recommended,
or
do
you
want
to
look
at
that.
A
Is
are
they
recommending
the
assembly
for
prime
time
yet
or
not?
Really,
I
haven't
really
looked
at
it,
but
we
are
welcome
to
to
use
that
if
you
want
to
do
some
assembly
workflows,
because
that
can
take
us
from
the
original
files
that
we
have,
then
we
turn
them
into
simple
copies,
and
then
we
can
manipulate
them
rapidly,
so
that
that
can
give
us
an
advantage.
A
But
in
the
meantime,
let's
do
when
we
edit,
like
I,
want
to
download
like
sam
doing
wall,
module
two
so
in
the
freecad,
there's,
probably
a
history
of
the
simple
copy.
I
want
to
do
the
one:
that's
not
the
simple
copy.
I
want
to
go
right
before
that.
Wait,
no
there's
also
a
more
simple
copy,
so
I
got
to
go
all
the
way
back
to
here
which
yeah
we
we
have
to
pay
some
attention
to
where
we're
heading
like.
Whenever
we're
editing
the
source,
we
should
go
as
far
back
as
before
any
simple
copy.
A
So
that's
that
would
be
a
good
practice.
I'm
not
sure
if
we
follow
that
throughout,
but
that
would
be
the
thing
to
do
so
that
you're
not
editing
a
file.
That's
only
partially
editable,
like
some
of
the
things
are
already
the
solids
and
other
parts
still
have
sketches,
because
if
we
up
say
update
this
one,
we
would
put
in
the
sketches
of
the
the
electrical,
but
nothing
else
is
editable.
So
I
think
we
should
probably
go
back
to
the
source
where
everything
is
editable
to
keep
it
to
keep
everything
organized.
A
H
A
So
I'd
expect
all
the
sketches
to
be
in
here.
Well,
it's
not
even
so
yeah
this.
We
should
pay
a
little
more
attention
to
that.
This
probably
got
copied
from
another
one.
That
was
a
simple
one.
So
what
we
should
probably
do
is
make
note
okay.
A
One
thing
we
do
want
to
do
is
minimize
the
number
of
crossings
like
if
you
do
have
to
cross
wires
from
one
bay
to
another,
so
there's
gonna
be
a
utility
channel
here.
Okay,
if
you
look
from
the
side,
this
is
the
kind
of
considerations
to
think
about.
A
A
If
you
remember
we're
going
to
put
across
here
we're
going
to
build
this
up
actually
by
putting
in
a
small
space
spacer
like
a
1
by
2
here
and
at
the
bottom,
so
that
we
have
like
three
quarter
gap
for
the
wires
to
run
it's
a
like
a
flat
channel,
so
the
wires
can
cross
across
these
without
having
to
drill
through
them.
A
So
we'd
like
to
stick
to
that
principle,
make
it
design
electrical,
so
you
have
to
do
minimal
crossing
so,
for
example,
if
you
want
to
put
an
outlet
first
of
all,
you
can
put
the
outlet
on
either
side
and
it's
con.
It
is
convenient
like
based
on
the
12
foot
between
outlets
requirement.
A
You
might
want
to
make
it
on
one
side
or
the
other,
or
in
the
middle
it
depends.
It
could
be
very
convenient
to
put
an
outlet
like
right
or
left.
It
just
depends
where
you
are.
So
if
we
look
at
the
rough
electrical
guidelines
here
here,
this
is
actually
towards
the
top
there,
and
why
so?
We
wanted
to
get
the
spacing
just
just
for
spacing
purposes.
This
outlet
is
towards
the
top
of
panel
number
two,
the
pink
one
here,
it's
towards
the
top.
A
So
let's
follow
that
and
that's
because
then
we
made
it
more
equidistant
from
this
one,
the
next
one
here
and
this
next
one
here
like
we
didn't
want
to
crowd
everything
into
the
corner.
So
it's
you
got
two
outlets
here
and
then
this
whole
space
wouldn't
have
an
outlet.
So
we
just
try
to
space
it
out
evenly.
A
It's
just.
I
mean
it,
wouldn't
kill
you
if
you
put
it
here,
but
let's,
let's
follow
this
diagram
and
say:
okay,
we're
going
to
put
it
when
looking
from
the
inside
we're
on
the
left
hand
side.
So
so
this
is
our
panel
number
two
with
the
noticing
that
the
front
paneling
is
not
in
the
right
position.