►
From YouTube: Lyman Filament Winder - July 29, 2017 Design Sprint
Description
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----
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A
A
It
will
be
nice
to
do
this
extruder
as
a
workshop,
however,
I
can
I
don't
have
energy
to
do
that
by
the
25th
of
August,
when
our
big
CB
press
build
comes
up
so
I
just
posted
that
if
you
go
to
the
Facebook
pages
or
open
source,
ecology,
org
workshops
page,
you
can
see
the
next
CB
press
build,
which
is
exciting,
I
mean
building.
Yet
the
next
iteration,
with
some
improvements
where
the
machine
is
going
to
the
University
of
Utah,
where
they
have
a
design
program
for
low-income
housing.
A
Typically,
they
work
on
Native,
American
reservations
and
provide
low-income
housing,
but
they
they
like
CB.
So
they
bought
our
machine
and
that's
great.
So
we
continue
doing
that
and
the
goal
there
being
that
just
like
we're
making
the
3d
printer
workshop
right
now,
replicable,
so
the
next
next
workshop
being
the
August
12
and
we're
actually
looking
at
next
one
end
of
September
actually
with
the
manual
in
in
main,
because
he's
got
a
number
of
people
there.
It's
like
two
hours
from
Boston,
but
hopefully
we
just
get
a
regular
schedule
going.
A
That's
I
mean
that's
the
whole
whole
deal
right
now
and
Jose.
That's
where
the
website
comes
in.
We
got
to
get
that
going.
We
got
to
work
on
on
that,
getting
the
remote
sign
up,
so
we
we
definitely
want
to
do
that
as
part
of
the
marketing,
because
I
think
right
now,
the
biggest
issue
there
is
is
marketing.
A
We
have
six
people
signed
up
so
far.
That
said,
the
two
at
the
halfway
point:
that's
not
a
lot!
That's
so
that's
actually,
because
it
makes
me
think
yeah.
We
definitely
want
to
want
to
work
out
the
marketing
aspects,
and
it's
typically
that
it's
a
linear
progress
of
people
signing
up
so
people
will
be,
will
be
signing
up
right
up
to
the
last
day.
A
So,
according
to
the
present
trend,
there's
going
to
be
at
least
twelve
people
at
the
workshop,
but
I
would
like
to
have
24
because
I
ordered
materials
for
24
and
if
we
don't
use
them
up,
we're
going
to
use
them
up
in
the
next
workshop,
so
but
definitely
trying
to
see.
Okay.
If
we
go
to
different
locations,
definitely
there
could
be
much
much
more
improvement
but
otherwise
actively
reaching
out
to
to
schools,
get
teachers
to
to
build
3d
printers,
or
something
like
that.
A
Just
like
the
organization
called
3d
for
edu
out
of
a
Michigan
State,
there
etc.
Okay
on
the
filament
maker
I'm
going
to
keep
my
eyes
out
for
anybody
who
can
pretty
much
lead
the
the
development
of
that
workshop,
because
I
really
can't
definitely
until
August
25th,
because
I'm
I'm
working
on
a
CNC
torch
table
which
isn't
much
that's
a
much
bigger
priority
here.
And
but
if
anyone
wants
to
rise
to
working
with
me
on
organizing
that
creating
an
event
announcement,
actually
the
big
part
is
going
to
be
just
sourcing.
A
All
the
parts
and
and
doing
you
know
just
kind
of
assessing
that
everything
goes
together
well
and
possibly
doing
some
of
the
assembly
before
the
workshop,
but
not
too
much
just
as
long
as
we
have
all
the
parts
and
we're
pretty
confident
that
you
know
maybe
do
some
initial
tests
of
all
the
critical
components.
But
for
the
workshop
itself
it
could
be
an
experimental
workshop
where
we
don't
charge
people
a
lot
of
money,
maybe
like
50
bucks
or
something
to
come
and
participate
in
a
day.
A
And
we
can
make
a
whole
day
out
of
that.
Where
we
build
the
extruder
show
the
printers
at
work
etc.
So
we
can
make
a
make
a
pretty
interesting
workshop
and
I
don't
know
of
anyone
else.
Who's
I
mean
any
really
working
open-source
extruders
outside
of
this
one,
and
this
one
that
we're
working
on
I,
mean
I
mean
certainly
doesn't
have
viral
replication.
A
Not
everyone's
doing
this
I
mean
I,
haven't
really
heard
of
many
people,
I,
don't
know
about
any
of
you
if
you've
researched
it,
but
I
haven't
heard
of
many
people
actually
using
the
Lyman
filament
extruder
outside
of
the
mr.
Lyman
who's,
of
course
very
successful
at
it
because
he
developed
it.
But
the
question
is
I
mean
how
easy
is
it
to
replicate
and
make
work
and
very
reliably,
because
that's
I
mean
that's
going
to
be
the
challenge
that
we're
going
to
have
to
work
out.
So
let's
go
to
the
the
working
document.
A
So
anyone
any
way
summary-
and
that
is
anyone.
If
anyone
wants
to
step
up
to
helping
coordinate
the
filament
maker
workshop,
please
let
me
know,
and
anyone
who's
watching
that
please
do
so
as
well,
but
it
will
take
it'll
take
some
time
to
do
that.
So,
let's
go
to
the
the
working
Docs.
We've
got
the
Lyman
filament
extruder
to
see
where
we
are
at
and,
and
my
first
question
is:
can
anyone
fill
me
in
on
whether
the
procedure
for
today
is
clear,
so
I
sent
out
an
email
and
procedure?
A
A
A
Well,
nobody
wants
to
pipe
up
I'm
going
to
continue
here.
So
this
is
the
design
sprint
preparation.
It's
we
Rhonda
lineman,
a
filament
winder
page,
okay
and
I
did
a
little
video,
a
little
preparatory
video
on
that.
Hopefully
you've
all
seen
it.
So,
let's
go
into
the
actual
design,
sprint
document
noon
to
4:00
today
so
and
actually
I'm
the
Internet
guys
coming
down
today,
so
I
actually
need
to
check
out
just
basically
leave
for
a
little,
maybe
15
minutes
at
2
p.m.
A
to
get
them
going
because
we're
getting
some
faster
internet
here
we
only
have
4
mega
mega
of
a
line
winder
finishing
here
so
so
the
basic
idea
is
getting
I
mean,
since
we
only
have
5
of
us
right
now.
So
what
we
want
to
do
is
we
want
to
divide
up
the
work
what's
what's
happening
today.
So
the
main
point
is:
if
we
go
to
the
line,
mcfillin
filament,
winder,
page,
there's
the
master
index
and
the
critical
parts
are
so
so
the
master
index
essentially
has.
A
Today's
not
July
20,
that's
the
July
29
correct
that
and
I
think
you
guys
can
also
make
sure
make
sure
you
guys
can
edit
this
document.
Please
go
into
this
document.
Let
me
paste
it
right
in
there's
the
there's,
the
winder
finishing
document
and
then
alignment
filament
winder
in
the
page
wiki
pages
there.
A
A
Okay,
so
let's
just
quickly
go
over
this,
the
main
point
of
today,
so
we've
got
the
filament
winder,
which
is
what
I
did
is
I
copied
to
some
of
the
critical
parts
from
the
the
winder
from
the
last
working
document.
So
we
have
it
all
right
here,
but
step
number
one
is
going
to
be
to
to
take
all
of
these
three.
These
are
STL's
that
exist
or
the
winder.
We
want
to
redraw
them.
First
of
all,
reverse-engineer
them
into
the
workable
design
possible.
There,
they're,
not
STL's
within
freecad,
I,
just
downloaded
the
master
assembly.
A
A
A
A
A
Let's
put
that
in
red,
that's
where
we're
working
right,
but
we
have
to
identify
the
parts.
Okay
and
the
critical
column
is
the
one
in
red
which
is
the
actual,
simplified
Cadfael
link.
So
what
we
want
to
do
is
assign
people
to
that
so
assignment.
Let's
put
the
assignment
in
column
L,
where
we
have
people
fill
in
their
names
too,
to
whatever
part
there
is
so
we
have
to
identify
the
part
we
have
to
identify.
A
Who
does
it
so,
given
that
we
have
two
four
six:
seven
people,
four,
five,
six,
seven
people,
let's
put
seven
people's
names
and
just
get
started
immediately,
so
the
workflow
one
more
time
is.
If
we
go
to
the
first
page.
That's
that's
up.
That's
the
procedure,
basics!
So
there's
the
link
to
the
wiki
page
just
to
go
over
what
we're
the
workflow
create
cat
for
every
part
of
the
master
index
so
we're
starting
with
the
3d
printed
files
name,
your
file,
Lyman
filament,
winder,
whatever
that
is,
and
then
upload
to
your
work
log.
A
Once
you
do
that,
then
you
download
the
latest
master
CAD
file,
which
is
on
the
filament
winder
page.
It's
right
here.
Lyman
filament
winder
CAD
and
insert
your
part
into
the
into
the
master
CAD
file.
What's
this
exciting
master
cat's
eye,
look
like
it's
only
this
now.
Does
this
even
belong
in
a
lineman
filament
winder?
A
Is
there
a
power
supply
in
the
in
the
lineman
filament
winder,
because
what
I
said
is
simply
okay,
I'm
going
to
just
take
one
part
by
one
part
start
with
the
first
part
and
just
put
into
the
master
cat
and
other
people
just
input
their
other
parts
and
arrange
them
in
a
way.
That's
that's
reasonable.
So
in
a
master
index,
yes,
we
do
have
a
power
supply,
12,
volt,
5
mm
power
supply,
so
the
I
started
basically
with
part
number
one
of
the
entire
assembly.
A
B
A
A
Here
it
is
so
here's
the
here's,
the
power
supply-
and
this
is
the
what
the
master
CAD
file
for
the
filament
winder
looks
like
it's
just
got
the
power
supply
in
it
so
far,
so
the
next
person
that
generates
a
CAD
file
just
use
this
use
this
file
and
just
start
putting
the
other
parts
in
there
and
we
should
have
like
the
XYZ
axis
like
right
now.
The
XY
Z
Z
is
yeah.
This
is
right
now
we're
looking
like
you
see
in
the
corner
here
the
XYZ
orientation,
that's
good.
We
should
start
like
that.
A
So
we're
looking
at
add
the
whole
machine
from
the
front.
So
look
at
if
you
look
at
the
little
XYZ
marker
here,
so
just
when
we,
when
we
do
this,
we
orient
everything
this
way
here.
As
you
see
the
axis
XY
and
Z,
so
the
vertical
is
going
up.
X
is
going
to
the
right
and
Y
is
going
into
the
page
here,
but
basically
we
can
start
throwing
the
files
in
here.
A
But
for
now,
so
let's
go
into
just
just
to
go
through
the
procedure
here.
So
so
we're
at
Newstart
page
number
one
here
so
you're
downloading
the
master
CAD
file,
inserting
your
part
that
you
have
just
drawn
or
generated
and
each
part
generated
should
take
like
15,
20
minutes
or
30
minutes.
Then
we
finished
the
complete
master
CAD
and
then
we
start
working
on
a
visual
bill
of
materials
with
all
part
links
just
like
on
last
week's
document.
A
So
if
you
go
to
lineman
filament
extruder,
just
for
reference,
we
did
this
master
visual
BLM
index.
So
we
could.
This
was
our
final
assembly
and
then
in
our
working
document
we
had
the
final
assembly
labeled
with
hyperlinked
parts
to
every
single
part,
and
we
did
that
it's
found
in
the
linemen
filament
extruder,
and
you
just
want
to
show
you
the
final
product
that
we
did.
A
There
this
we
want
to
get
the
equivalent
of
this
four
hours
from
now.
That
means
hyperlinks
to
all
the
on
the
sourcing.
Like
you
link
on
that,
and
you
can
actually
go
to
the
actual
buying
of
the
cart.
You
can
buy
your
your
auger
bit
right
there
through
that
link
and
so
forth.
Okay,
so
the
first
thing
is
to
just
do:
allocate
work
to
different
people,
so
I
suggest
we
go
right
into
the
since
we're
in
a
working
document.
A
A
So
what
are
the
parts?
Well,
we
have
to
identify
them,
so
let's
label
them
in
order
to
match
our
index
here,
25
through
36.
A
A
Okay,
help
me
out
here
so
so
start
putting
numbers
25
through
36.
So
do
that
and
then
more
people,
other
people
go
to
page
9,
okay,
so
ii.
A
A
C
A
Correct,
that's
because
we
were
working
from
a
from
somebody
else's
design.
This
is
mr.
Lyman.
He
did
that
and
he
just
has
his
own
files
and
basically
he
couldn't
provide
the
files
to
us.
We
haven't
still
haven't
seen
any
any
files
from
him,
so
he
just
got
his
own
numbering,
we're
just
starting
from
scratch
and
because
we've
got
our
master
index
like
we
have
here
so
yeah
because,
for
example,
for
part
25
through
36
I
mean
he
just
clumped
everything
into
into
one.
A
A
A
A
So
all
you
need
to
do
is
do
a
representative
part,
so
part
library
here
will
be
that's
the
part
library.
So
all
those
parts
are
in
there
so
identify
that
part
and
download
it
as
an
STL
put
it
into
three
CAD,
but
then
just
draw
that
redraw
that
so
it's
a
native
file
in
free
cat,
so
we
can
actually
work
with
it
within
within
free
cat
because
you
can't
work
with
STL
file
as
well.
So
does
that
make
sense.
A
C
A
A
A
A
A
She
secret
even
did
that
in
the
background:
okay,
okay,
so
all
there
we
go
well
look
at
that,
so
that
looks
like
a
spool
disk
and,
for
example,
and
a
and
the
size
of
that
file
is
30
K!
That's
that's
quite
good.
He's
got
quite
a
bit
of
detail
in
there,
like
you
know
all
these
little
notches,
so
that's
a
very
pretty
detailed
file
and
that's
great.
So
he
already
did
that
well,
excellent,
okay,
so
so,
let's
go
back
to
our
procedure
and
reevaluate
from
there.
A
A
A
A
Oh
wait.
That's
if
that's
the
case,
then
25
being
the
school
this
we
have
to
copy
that.
So
we've
got
this
right
here:
25,
spool,
disc
and
there's
two
of
the
spool
discs,
so
we
can
call
that.
So,
let's
see,
let's
look
at
that.
So
we
go
between
the
master
index.
A
D
D
A
Okay,
let's
see
what
I
want
to
do
is
I'm
going
to
add
names
to
these
as
we
go
along
or
column
L.
Can
you
guys
put
your
name
in
as
far
as,
but
what's
the
task
if
we've
got
the
file
or
any
of
them
missing?
Maybe
not
so
well,
if
that's
the
case,
we're
pretty
dumb
much
done
with
the
3d
printed
parts.
So
what
I
suggest
is
we
just
go?
Okay,
those
are
all
they're
great
I
mean
we've
got
the
whole
column
M
to
fill.
A
A
A
A
A
That's
it
and
a
solvent
cement
rubber
bands
MDF
board.
All
the
cement
we
don't
need
is.
That's
can't
really
see
it.
Rubber
bands
yeah,
we
could
do
a
placeholder
for
a
rubber
band.
Some
that's
a
hard
one.
Well,
not
necessarily
after
we
I
think
we
ran
out
of
people
already
three
four
five
six.
We
run
out
of
people,
one
two,
three,
four,
five:
six.
We
ran
out
of
people
so
rubber
bands
of
next
person,
so
we've
got
three
three
more
items,
so
maybe.
A
A
Okay,
so
these
washers
are
pretty
easy
here,
I'm
going
to
put
the
hose
a
on
more
of
those
because
that's
m3
washer
s,
HC
s,
m3
washer
and
for
washer
yeah.
Those
are
you
can
pull
those
readily,
probably
from
a
place
like
McMaster,
car
or
anywhere
I
mean
those
are
very
simple.
A
Can
you
guys
do
that
I
put
names
of
people
into
all
those
as
soon
as
you've
got
your
uploaded
to
the
wiki,
then
you
have
the
simplified
CAD
file,
link
that
now
the
next
team
can
start
composing
into
the
final
file.
So
why
don't
I
start
doing
that?
So,
since
I
started
the
master
assembly
I'm
going
to
continue
on
that,
and
because
we
have
all
the
SQL
parts
I'm
going
to
start
putting
them
into
the
schooler
and
winder?
A
A
Better
speed,
in
fact,
we
should
do
assemblies
like
break
down
the
master
cat
file
into
into
smaller
assemblies
as
well.
I'll
do
that
I'll
set
those
up
because,
as
soon
as
the
parts
are
ready
for
you
guys
that
should
take
like
a
half
hour
or
something,
then
we
can
start
assembling
the
individual
assemblies
and
then
put
them
into
the
final
big
assembly.
So
I'm
going
to
start
the
placeholders
for
all
the
assemblies.
A
And
keep
looking
at
the
exterior
part
library,
yeah
I
mean
look,
don't
don't
neglect
the
part
library,
the
part
that
you
working
on
may
be
already
in
there
I
see
some
pulleys
washers
yeah,
a
lot
of
that
is
in
there,
so
yeah
I'm,
seeing
it
it's
in
there
so
like.
If
you
look
at
my
screen,
those
those
screws
are
in
there.
So
all
you
need
to
do
is
paste
them.
If
that's
that's
what
you
need
to
do
so,
don't
redo.
E
A
A
A
Not
editable,
that's
all
right,
I
mean.
D
B
C
C
C
A
A
A
Yeah,
don't
worry
about
that?
Let's,
let's
move
on,
let's
see
if
we
can
organize
everybody
now
for
the
next
phase.
So
what
I'm
saying
here
is
that
the
sanest
and
a
master
index,
this
schooler,
schooler
or
winder
winder
mechanism,
master
part
index
I'm
saying
just
about
everybody-
did
that
the
whole
day.
You
also
have
that
that
non
freaking
file,
just
the
step
right
or
something
like
that.
So,
but
if
not
just
don't
worry
about
it.
For
now,
just
just
put
like
a
very
simple
you
know
block
or
whatever,
just
just
a
placeholder
okay.
A
So
this
one
here
that's
got
a
blank
here,
that's
just
only
one
that
I'm
seeing
otherwise,
then
this
one
Roberto
here,
but
otherwise
everything
looks
complete.
So
the
next
phase
is,
if
you
look
at
my
screen
here
and
slides
number,
seven,
eight
and
nine
and
ten,
they
show
the
sub
assemblies
now
and
on
the
wiki
page
I've
differentiated
all
the
sub
assemblies
from
si
one
through
si
seven
and
named
them
so
si
one
starting
with.
So
this
is
what
we
have
here
sub
assembly.
One
is
the
actual
role
of
the
spool
sub
assembly.
A
2
is
the
holder
for
the
spool,
the
that's
the
side,
with
the
motor
on
it
and
then
there's
another
part
on
the
other
side,
which
is
the
side
with
just
the
other
side.
So
these
can
be
broken
down
into
three
very
distinct
units.
Then
we
can
break
this
down,
which
is
the
the
rollers
into
two
more
units
which
are
the
motor
side
with
the
bracket
for
the
holding
the
motor,
and
then
the
motor
would
have
its
own
wires
on
the
end.
A
A
Seven,
that's
also
pretty
complicated
too
well,
I
mean
not
depending
how
you
look
at
it,
but
the
power
supply
and
all
the
other
electronics
so
placeholders
for
those,
including
will
be
nice.
There
is
the
wire
just
placeholders
for
the
wire
connectors
and
then
the
last
one
sub-assembly
six
is
the
is
the
limits
which
is
basically
where
the
wire,
where
the
filament
goes
in
between
two
limits,
which
is
to
turn
on
the
spooler
on
and
off.
But
that's
that's
seven
sub
assemblies
total.
So
we've
got
six
people.
So
can
we
divide
divide
it
up?
A
A
A
What
is
the
process?
The
file
link
is
already
there
so
start
a
file
of
that
name
on
your
desktop
import,
the
parts
that
are
already
there
for
that
assembly.
So
I
guess
the
trick
is
okay,
exactly
what
are
all
the
parts
that
go
into
that
particular
assembly?
That's
the
I,
guess
the
difficult
part,
so
we
can
actually
start
probably
labeling.
The
very
yeah
like
what's
happening,
they're,
getting
very
specific
labels
to
all
the
parts
that
would
do
it
yeah.
That
would
do
it.
So,
let's
get
let's
get
those
happening.
A
A
A
A
So
there's
six
allocated
sub
assemblies
just
like
what
I'm
doing
right
now
and
sub
assembly,
one
I'm
labeling
it
with
the
parts
and
a
master
index
using
the
number
so
that
we
don't
get
overwhelmed
with
text
so
do
that
for
each
respective
module
of
sub
assets
for
each
respective
sub
assembly,
so
the
six
ones
that
we've
selected,
please
label
it
very
carefully,
so
you're
keeping
track.
First
of
all,
the
parts
that
are
needed,
subs.
A
Or
I
mean
I
can
do
that
as
well.
I
can
maybe
like
if
you
want
to
start
by
simply
starting
your
CAD
file,
already
feel
free
to
do
that.
What
I'll
do
to
organize
the
whole
thing
since
I'm
going
to
be
probably
sourcing
this
or
helping
somebody
else
source
it
I'm
going
to
just
put
in
all
the
numbers
from
the
master
index,
so
you
can
feel
free
to
actually
start
the
CAD
files.
A
Okay,
so
will
you're
saying
you
labeled
everything,
for
example
on
one
yeah,
okay,
good
good
good
I
will
I
will
do
the
don't
you
do
this?
You
know
start
doing
the
your
module
keep
going
at
it,
so
either
you're
either
linking
to
the
mastered
index,
part
numbers
or
you're,
just
starting
right
on
a
cat.
So
whichever
is
easiest
for
you
to
get
I
would
just
suggest
start
right
on
a
cat.
We
get
right
into
the
cat
and
I'll
work
in
the
background
to
leave
all
the
parts
here.
A
The
big
rings
are
identical
because
they're
actually
I,
don't
know
how
you
call
it.
They
are
identical.
They're,
not
my
Remer
eyes,
they're,
actually,
both
identical
at
mirror
images,
whereas
the
sub-assembly
two
and
three
holders.
They
are
mirror
images,
but
they
are
not
identical
parts.
Mirror
images
are
not
identical
parts.
In
that
case,.
E
A
A
A
A
D
A
F
E
A
E
A
F
F
C
B
A
A
D
D
A
D
A
A
D
A
B
B
B
B
A
And
how
do
we
arrange
it
physically
I
don't
know:
do
you
have
an
idea
it
starts
with?
Do
we
have
the
individual
parts
for
that
yet
I
think
we
do
right,
so
yeah
yeah
arrange
those
into
a
CAD
file
ISM
and
then
put
the
yes
since
you
know
about
the
wire
and
put
the
connect,
maybe
start
by
putting
connectors
onto
those
individual
parts
or
maybe
put
that
put
all
the
individual
parts
into
final
file
and
put
on
the
connectors.
Would
that
make
sense.
A
B
A
B
A
A
A
A
So
the
final
product
where
we
got
to
today
was
pretty
good
just
to
review.
We
we've
gone
through
the
entire
index
of
the
Lyman
filament
winder
parts,
so
we
we
pretty
much
generated
all
the
files
they
were
in
different
places
and
some
of
them
I
think
only
we
had
to
generate
like
only
a
few,
but
we've
got
the
individual
CAD
files,
so
he
started
putting
together
the
assemblies
with
six
different
assemblies,
actually,
seven
different
assemblies
which
are
in
the
working
document
sub
assembly,
one
which
is
the
spool
two
as
the
school
base.
A
What
are
we
calling
that
we're
calling
this
the
tensioner,
the
the
part
just
before
was
the
puller.
This
is
the
tensioner
at
sub
assembly,
but
also
is
actually
a
final
assembly
here
in
a
final
final
scheme
of
things,
assembly
one
is
the
whole
schooler
part
assembly,
two
which
has
got
just
a
puller,
the
complete
puller
and
then
assembly.
Three
is
the
tensioner
so
and
then
there's
the
electronics
assembly.
A
So
final
winder
assembly
will
have
the
electronics
in
there
as
well,
so
we're
combining
three
parts
into
the
spooler
two
parts
into
the
Pooler
cooler,
one
part
in
the
tensioner
and
one
part,
electronics
to
make
the
final
assembly,
and
that's
where
we're
at
so
we
want
to
put
once
we
get
all
the
spooler
parts,
the
three
of
them
we
need
to
allocate
somebody
to
that.
Then
we
need
to
allocate
somebody
to
the
puller
and
then
the
final
assembly.
A
B
E
A
A
Yeah,
so
any
questions
for
as
far
as
we
are
in
this
this
meeting,
because
we
can
go
now
and
I'm
talking
to
Dickson
right
after
this
on
the
video
we're
putting
together
a
video
once
for
the
3d
printer
workshop,
when
it's
here
Dickson
is
going
to
be
coming
and
he's
going
to
take
video.
So
we
can
have
a
nice
promotional
video
made
out
of
that
workshop,
where
we
interview
some
people
and
show
some
of
the
process.