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CAUTIONS
oAvoid sharp knocks!
~
Str
a
in
-free glasses
Handle
th
e
mi
croscope gently,
taking
care
to avoid sharp knocks.
f)Wh
en carryi
ng
the
microscope
When carry ing
th
e
micro
scop
e,
hold its
arm
with
one
ha
n
d,
s
uppo
rting
t
he
bo
tt
om
of
the microscope bJse with the u
th
er.
The
in
s
tr
ument weighs
about
8 kg,
8 Place for using
Avoid
the use
of
the m
icr
uscope in a dusty
pl
ace, where it
IS
subject
to
~
brat
i
ons
or
exposed to high t
emper
atur
es,
rY1
0
lstu
re
or
dire
ct s
un
light.
o Power source voltage
-For
European
di
s
trict
s
onl
y-
Make s
ure
of
the
po
wer sour
ce
voltage,
nov
or
240V
, bY mea
ns
of
the i
nput
v
olt
age
change-over
switch
wh ich is
on
the
bottom
of
the microscope b
as
e.
o Exchanging
the
lamp bulb and fuse
Befor
e replacing
,he
lamp
bulb
(6V-20WI
or
fu
se,
turn
OF
F the power
S'VIIit
ch and
disconnect
the pl
ug
of
the
power
source
cord.
In
such cases as
of
replacement, do not
touch
the lamp
bulb
w
ith
bare hands, im-
mediately
after
putti
ng o
ut
the lamp.
oDirt on
the
lens
Do n
ot
le
ave
dust,
dirt
or
finger mar
ks
on
th
e lens surfaces.
They
will
prevent
yo
u
from
clcar obser
va-
tion
of the
spe
cimen im
age
.
The o
pti
c
al
eleme
nt
s
of
thi
s microscope
being cons
tru
cted of stra
in
-free
glass
e
~,
la
ke
particula
r
caution
in
handling
the
objectives and condenser len
ses
not
tu
cause strain to them.
«;)
Focus
knobs
Never
attempt
to
adjust
th
e l ightn
ess
of
the ri
ght
- and
le
tt
ha
nd
focus
kn
obs by
tu
rning the one,
while
holding
the other in
this mod
el
mi
c
ro
scope, bec
au
se
of
ca
using
disorder.
CARE AND MAINTENANCE
oCleaning
the
lenses
To
clean the lens surfaces, remove dust
using a soft brush or gauze.
Only
for
removing finger marks
or
grease, should
soft
cotton
cloth,
le
ns
tissue or gauze
lightly
moistened
with
absolute alcohol
(metha
no
l
or
ethanol) be u
se
d.
For
cleaning the objectives and immersion
oil
use
only
xylene.
Obser
ve
su
ff
icie
nt
caution in handling
alcohol and
xylene
.
f)
Cleaning
the
painted surfaces
Avoid
the
use
of
any organic solvent
(for
example, thinner, ether, al
cohol,
xylene
etc.)
fo
r cleaning the painted surfaces and
plastic
parts
of
the
instrument.
@)Never
attempt
to
dismantle!
Never
attempt
to
dismantle
the
instrument
so
as
to avoid the
possibility
of
impairing
the
op
era
tional
efficiency
and accuracy.
O 'When
not
in
use
When not in
use
,
co
ver the instr
ument
with
the accessory
viny
l cover, and store
it
in a
placeJree
from
moisture and fungus.,
It
is
especially recommended
that
the
objectives and eyepi
eces
be
kept
in
an
airtight
container cont
ai
ni
ng
desiccant.
oPeriodical checking'
To maintain the performance
of
the instru-
ment,
we recommend to check the ins
tru
-
ments periodically.
(For
details of
thi
s
check, contact
our
ag
ency
.)
CONTENTS
I.
NOMENCLATURE
II.
ASSEMBLY
III.
PREPARATION
1.
Interpupillary
Distance
Adju
s
tment.
2.
Diopter
Adjustment.
3. Optical Path Change-over in the
Trinocular
Eyepiece
Tube
"TP"
.
4. Centering the Objectives
5. Centering the Condenser Lens.
6.
Orientation
of
the Dia-polarizer
IV.
MICROSCOPY
..
1. Operating Procedure .
2,
Manipulation
of
Each E
le
ment .
1)
Focusi
ng
2)
Co
ndenser aperture diaphragm
3) Field diaphragm.
4) Circular graduated stage
5)
Objectives
6)
Eyepieces
..
7)
Ac
hro
mat strain-free condenser
8) Be
rtrand
lens
9) 1
/4
A&
tint
plate
10) Dia-polarizer and analyzer
...
11)
Filters.
1
2)
Illumination
system
V.
PHOTOMICROGRAPHY.
VI.
ACCESSORIES.
1.
5enarmont
Compensator .
2.
Quartz
Wedge
3.
Monocular
Eyepiece
Tu
be
"AP"
.
4. Universal
epi-illuminat
or .
5.
Attachable
Mechanic
al
Stage
Type
"E".
4f)
VII.
TROUBLE
SHOOTING
TABLE
..
W
REFERENCE
.
@)
ELECTRIC
SPECIFICATIONS
.
@)
(j)
(j)
o
o
~
~
Ql
Ql
Ql
Ql
@
@
@
@
\I)
\I)
~
~
~
~
~
~
~
4l;)
4ll
I.
NOMENCLATURE
Binocular eyepiece tube
"BP"
Interpupillary distance
scale
Eyepiece
tube
clamp
screw
-
---,
Diopter
ring
Centering nosepiece
-
---
~
CF
Achro~m;a~t~P
~
o~~~~
_
__
__
(strain~free
)
Circular stage
Circular
graduated
stage
clamp screw
Vernier
Achromat
strain-
fr
ee
con
de nser
CF
Bertrand
lens I
Analyzer
in
/
out
knob
Intermediat
e
tube
clamp screw
Coarse k
nob
Fine focus
knob
Orient
a
tion
plate
Filter
rec
eptacle
Fig. 1
Analvzer
rota
tI
on
ring
In
te
rm
ediate t
ube
"P"
Analyzer
clamp
screw
Co
mpensator
slot
1/4 " &
tint
Condenser
focus
knob
Nosepi
ece
cen
tering
screw
clip
Torque
adjustment
ring
Lamp
so
cke
t
Field
diaphragm
control
ring
V-POL stand
~
rotation
clamp
screw
Condenser
centering
screw
Condenser
aperture
control
ring
Condenser
clam
p sere
.,."
Field lens
Brightness
control
dial
(including
power
switch)
Fig. 2
o
II.
ASSEMBLY
• To assemble
the
microscope, follow
the
procedure
in
the
order
given:
Bottom
of
the
Base
CF
eyepiece
~
~'=-n-se
~'~t
~t:':h-e-e':'y-
e
-
ie-c-e-C=-=
FWCC-
""-=O
-
p
"'
X
-C::-M"""--
~
.....
®
into
t
he
right-hand slee
ve.
fitting
.......
sta
the
pin
of
the
eyepiece
in
the
right-h
and
notch of
the
sleeve.
Int
o
the
left
-hand
sleeve, insert
IheCFW
l
Ox
.
1111
I:
G
I •
.-.
~~
®
~1
~/4
~
A
~&~t_in.:.t.:.p
.:.
l~at
~
e
____
~
____
~
Remove
the
screw
by
the
side of
the
1/4
A
pl
at
e o f
the
1/4
A &
tint
plate
and
insert it
into
t
he
co
m-
pensat
or
slot
of
the
in
t
ermediate
tube
"P",
facing
the
posit
ion
ing
Input
voltage c
han
ge-over gro
ov
e to
ward
the
operator
side.
switch
Reatwch
the
r
emov
ed scr
ew.
(For
European districts only)
sure
power
source
~
C
~
~ ~
a
t~p
~
__________
__
~
F
A.:.c
h~r~o.:.m
~
~O
~b~je
=-C~t
~iv~e
__________
~
vol (age,
220
V
or
24
0V.
by
means
®
----
-
of
the
input
vU
l
wge
change-ov
er
Mount
the
objectives
on
the
nose-
sw
itch
on
the
botto
rn
of
the
piece in such posi
tions
that
th
eir
ro'icroscopp. bnse.
mvgnifying
powe
r increases
as
the
nosepiece
is
revo
lved
clockwise.
@
Bottom
of
the
Bas8 I
-=S
:.cp
-=-:::
~
n
:::
~
_ _
~-
ec
i
m:::e
~
c
li::.p
_
__
_
~
Place
the
clip
on
the
stage using
ho
le
s
on
the
swg
c surfClce. !
Stage clamp scl'ew
---
--I1JIl
~
1i~;i~i;~
~~~
,~m~~~t~;;e~,~t~t~h;e~St
~
'
~g~e
~o~n
-
-1
the
circu
l
ar
dovetail of t
he
sub-
stClg
e.
Clamp
the
sc
rew.
microscope.
mnn
ip
ulJte
th
,,,
,rl;
l
"t-
jng screw
at
on~
foot
on
the
botto
m o f
the
mic
roscope
base.
@2
A
chromat
condense,
nsen 10
con
-
denscr facing
Ihe
ape
rtu
re
num
ber
plate
towar
d the
operator.
Fasten the
clamp
scr
ew
on
the l
eft
side
of
th
e
carrier.
Aperture
nu
mber
pl;''',_ _
____
J
-=
Dia
-p
,-,
I
a::.
r
-,--
r
--
-
taJ
----
-=-
:c
,---o
iz--,-e
;..
--.,.------
-
-Gm
fl'2'3
~
After
centering
th
e
ob
jec-
ti
ves
a
nd
condenser,
insert
the
dia-polar
i7..
er
inlO t
he
bottom
of
the
condenser.
(J)
Eyepiece
tube
Attach
the
eyepiece
[Ube
on
th
e
intermediate
lUbe "
p"
.
fitting
the
notch
of
the
circular
dovetai
l on
the
end
of
the
clamp
screw
.
Fa
sten
the
cl
amp
screw.
Eyepiece
tube
clamp
screw
®Intermediate
tube
"
P"
1
Atlach
the
int
er
mediat
e
tube
"P"
un
th
e
arm
of the
V-POL
stand,
fi
lling
the
notch
of
th
e c
ir
cu
lar
d
ove
tail
on
the e
nd
at
[he
clamp screw. Fasten the
clamp
screw.
ntermediate
tube
clamp screw
Power source
Halogen lamp
bulb
(6V-20W)
In
se
rt
the
lamp
bulb
with
its
pins
int
o
the
accePting
holes in
the
socket.
No
te:
Don't
touch
the
bu
lb
sur-
fa
ce
direct
ly
with
the
fin-
ger.
®Lamp
socket
-Insert
socket
into
the
recep-
tacle on
the
rear
of
the
baSE!.
@l
L
-.:...:
lte
'-
__
_ _
Fi
':O::
r
Place
the
filler
on
the field
t
ens.
q,
..
45
Fig. 3
III.
PREPARATION
1. Interpupillary Distance
Ad
ju
st
ment
Place a spec
im
en
on
the stage, and f
oc
us on the
specimen ,
As shown in Fig. 4, adjust the interpupillary
distance, so that both the right and left v
ie
w-
fields become on
e,
Fig. 4
2. Diopter Ad
just
ment
Rotate the diopter ring on the eyepiece CFW
l OX e M until the cro
ss
lines are seen clea
r.
(Fig 5)
Diopter
rin
g
--.
\
Fig. 5
(For
binocular ob
se
rvation)
1) Mo
unt
the
spe
cimen on the st
age
. Swing
the objec
ti
ve l OX
int
o p
os
iti
on,
an
d bring
the
sp
ec
imen
im
age
int
o f
oc
us l
oo
king
into
the right-hand eyepiece.
2)
Without
manipulating
the
co
arse-and-fine
focus
kn
ob,
turn
the
di
o
pt
er rtng on the
left
-ha
nd
eye
pi
e
ce
to
focus on the speci·
men.
3. Optical Path Change-over
in
the
Trinocular Eyepiece Tube
''TP''
(Fig. 6)
Ve
rt
ical
photo
1
t
ub
e:
86
%
Ob
s
ervation
Observati
on
~~
~Jl
~
tu
be
:
100
% tube :
14
%
-
OPti
c
al
p
<lIh
-
c
hang
e-o
ver
knob
Fig
.6
,
I{
Since Ihe CF eyepieces
ar
e
of
high eye·
po
int
type. it
is
not n
eC
e
55ar
y for the
use
r
putti
ng
on h
is
specta
cl
es to
re
move
th
em.
Only fold do
wn
the eyeguard rubber.
(Fig 8)
Fig. 7 Fig. 8
4. Ce
nte
ri
ll9
th
e Objectives
1) Place the specimen on the st
age
,
an
d rocus
on the specirnen. Bring
all
ap
pro
pri
ate tar-
get 10 the ce
nt
er of the
cro
ss
lin
es
in the
eyepiec
e,
2)
Insert the cenlering
too
ls in the cente
ri
ng
sc
rews on the n
OS
l;!p
i
ec
e. (Fig. 9)
Ce
n te
rin
g
screw
3)
Rotate
the
stage abo
ut
180
0, and the target
is
displaced fr
om
the center
of
the cross
line
s.
Move
the
obj
ective using the cente
r-
i
ng
too ls
so
that
the center of the cross
lin
es
com
es
to one half pos
ition
of
the
displace
ment
of
the target. IF 1
9.
10)
~
"
Rotate
=4
180·
.-+--
-
-t
-
~~
A
hal'
Target--.
------
posItIon
of
the
displacemen
t
Fig.
10
• Repeat the
ab
ove procedure
two
or
three
times, and the rotati
on
ce
nter
of
the s
ta
ge
coinci
des
with
thl;! cross lines center.
• Carry
out
ce
ntering
for
eac:h
objective.
15.
Ce
ntaring
the
Condenser Lens
1) Close the field diaphragm
in
the
micro
-
scope
bas
e
to
its smallest site
by
mea
ns
of
the field diaphragm
control
ring. Ro tate
the condense r focus knob to move the
cond
ense
r vertically so t
ha
t a sharp i
mage
of
the field diaphragm is for
rned
on t
he
specimen surface.
2) Bring the field d
ia
phragm image to the
center of the field
of
view
by
mea
ns
of
the condense r cen teri
ng
screws.
(Fig
11
-l
fl )
3)
Ctlange over to the objective
40x,
cmd
adjust the field d i"phragm
so
that the
im
age
of
the
di
aphragm is about the
same
as
the
eyepie
ce
viewf
ield stop,
as
shown in
Fig.
11
-~
.
If
n
ot
centered,
use
t he con-
denser centering
sc
rews
again.
Image
of
field
,
diaphragm
[
~
LEyepiece
----
I:l
l
Eyepiece
viewfield
StOP
viewfield
stOP
Fig. 11
6.
1)
2)
3)
Orientation
of
the Dia-polarizer
Plac t
he
specimen on the
stage
, focus on
the specim
en
using objective 40 X.
Set the
ana
lyzer
sca
le on the
int
ermediate
tub
e " P" to O.
I nsert the dia-po
la
rizer
int
o the
bott
om
of
the conden
se
r
as
shown in Fig. 12.
Oia-polarizer -
Fig.
12
4) Remove the eyep iece from the sleeve.
Observing the e
xit
pupil
of obj
ec
tive
ins
ide,
rotate
the dia-polarizm
so
as
to
form
a dark cross image on the exi t
pupil
as
shown in Fig. 13.
Dark
cross image
Fig.13
IV.
MICROSCOPY
r1. Operating Procedure •
1)
Turn
the
brightness
control
dial
(including
power
switch) to
light
the
lamp.
2)
Bring
the
analyzer and
the
Bertrand lens
out
of
the
optical
path. (Refer
to
P. 13 & 14)
3) Place
the
specimen on the
stage
and swing
the
10X
objective
into
position. Focus on specimen.
4)
Adjust
the
interpupillary
distance and
diopter.
(Refer
to
P.
8)
5)
Place
the
filter
on
the
field lens.
6) Carry
out
the centering procedure
for
the
objective. (Refer
to
P.
8)
7)
Carry
out
the centering procedure
for
the con-
denser. (Refer
to
P.
9)
8)
Bring
the
analyzer
into
the
optical
path.
9) Swing in
the
objective
to
be
used
and refocus on
specimen.
1'0) Brightness
voltage. IS adjusted
by
changing the lamp
Table 1
Ortho
sco
pic
microscopy Conoscopic
microscopy
Top lens
o~
lO
X
or
higher
IN
IN
co
ndenser
4 X
or
lower
OUT
Bert
r
and
le
ns
OUT
IN
Aperture
diaphragm
lOX
or
higher
70
%
--
80%
of
the
numerical aperture
of
the
objective
Circumscribed
the circumfer·
enee
of
the
conoscopic
field
of
view
(or fully
opened)
4 x or
lower
Fully
opened
Field
diaphragm
lO X
or
high
er
Circumscribed
the
ci rcumference
of
the eyepiece field
of view
Circumscribed
the circum fer·
enee of
th
e
orthoscopic
field of
vi
ew 4 x or
lower Fully
opened
2. Manipula
tion
of Ea
ch
Element
1)
Focusing
•
The
rel
ation
between
t he
direction
of
rota·
tion
of
the
focus knobs and that
of
vertical
move
f
nent
of
the
stage is as indi
cated
in
Fig. 14.
Torque
adjustment
ring
Fine
focus
knob,
--
--+l~
= •
Fig.14
• One
rotation
of
the
fine
focus
knob
moves
th
~
stage
0.2mm.
The
graduati
on
on
th
is
fo
cus
knob
is
divided i
nto
2,um.
One
rotation
of
the
coarse focus
knob
moves
the
stage
4.7mm.
•
The
range
of
coarse and
fine
mot
ion
is
within
30mm:
2m
m
up
and 28mm
down
from
the
standard post ion.
Tension of the coarse focus
knob
tightens
by
turning
the
torq
ue
adjustment
ring
counterclockwise.
Never
turn
the
right
or
left
knob
wh
ile
holding
the
other.
2)
Condenser
aperture
diaphragm
(A
dia-
phragm)
(1)
Orthoscopic
microscopy
•
The
condenser aperture diaph ragm
is
,p
rovided
for
adjusting the numerical
aperture
(N.A.)
of
the
illuminating
system
of
microscope.
In general, when
it
is
stopped
down
to
70
'""-'
80%
of
the
n~~-;P;;t
-
~
re
of
the
objective,
a good image
of
appropriate
contrast
will
be
obtained
(F i
g.
15)
-
Exit
pupil
of
objective
Aperture
diaphragm
Size
of
the
condenser
aperture
diaphragm
Fig.15
• Remove
the
eyepiece
from
the
eyepiece
tube,
adjust
the
Si78
of
the
diaphragm,
observing the image
of
the
diaphragm
which
is
visible
on
the
bright
circle
of
exit
pupil
of
objective
inside.
• When swinging
out
the
top
lens
of
the
con-
denser
(for
rnicroscopy
using
4X
or
lower
objective),
fully
open the condenser
aperture
diaphragm.
(2)
Conoscopic
microscopy
• In conoscopic
microscopy,
the condenser
aperture diaphragm
works
as
a
field
dia-
phragm on
the
conoscopic
image surface.
Stop
down
the
diaphragm
to
such an
extent
that
it
circumscribes the
circumfer-
ence
of
the
field
of
view
of
the
conoscopic
image
(exit
pupil
of
objective)
to
shut
out
the
stray
light.
3) Field diaphragm (F diaphragm)
•
The
field
diaphragm
is
used
for
determin-
ing
the
illuminated
area on
the
specimen
surface in
relation
to
the
field
of
view
of
the microscope.
Generally,
it
is
stopped
90wn
to
such an
extent
that
the
circum-
ference
of
the
illuminated
area
circum-
scribes
that
of
the
eyepiece
field
of
view.
[Note]
This diaphragm does
not
work
as
the
field
diaphragm
when
the
condenser
top
lens
is
swung
out
of
the
optical
path. In
this
case
the
diaphragm
is
recom mended
to
be
fully
opened because the
numerical
aperture
of
the
illumi-
nator
will
be
cut
off
when this
diaphragm
is
excessively stopped
down.
4)
Circular graduated sta
ge
• The
rot
ation angle of
th
e s
tage
is
readable
with
the accuracy
of
0 . 10 via a vernier
sca
le.
• The
stage
can
be
clamped
at
any posi
tion
using
the
stage
rotation
clamp
sc
rew on
th
e vernier.
5) Objectives
• The
CF
Ac
hr
omat P objectives
(S
train-free)
and CF eyepiec
es
adopted in the
Nikon
POLARIZING
MICROSCOPE
LABO·
PHOT·
POL
are
des
igned
on
the
bas
is
of
a
concept
"C
hromatic
Abe
rration Free
".
In every c
ase
use
the CF
obj
ecti
ves
in com-
binat
ion
with
the CF eyepieces.
(1) Oil immersion objectives (Oil)
• Object i
ve
CF Ac
hr
omat P lOO X (Oil) ,
an
oil-immersion type, is
to
be immers
ed
in
oil
between the speci
me
n and
front
of
the
objective.
To
see
if
air bubbles
are
present in the im-
mersion
oil,
which deteriorate the image
quality,
pullout
the eyep
ie
ce
from
the
eyepie
ce
tub
e
to
examine the objective exit
pupil
inside the tube.
To
remove air bub-
ble
s,
re
volve the nosepiece sl
ightly
to
and
fro
sev
eral times, apply additional
oil,
or
rep
la
ce
the
oil.
Be
careful
not
to
rotat
e the
nosepiece
too
far
as
to
soil the ends
of
the
other
obj
ecti
ves
with
oil
.
•
To
clean
off
the
oil,
pass
le
ns tissue
or
so
ft
cloth
moistened
wi
th
xyle
ne li
ghtly
two
or
three
tim
es
over the l
ens.
It
is
ess
ent
i
al
at
this
time
to
av
oid touching the lens
with
the part
of
tissue or cloth
onc
e used.
(2)
Coverglass
• With the objectiv
es
engr
ave
d
"160/0.17",
u
se
a
cOlJerglass
of
O.1
7
mm
in thickness.
•
Th
e indication
--;;-
1
60/-"
on the objective
means
that
no matter whether a covergl
ass
is
used
or
not,
no decrease
of
i
mage
defini-
tion
or
of
contrast
will
result.
5} Eyepieces
•
To
take
full
advantage
of
the
CF
eyepieces,
use
them in
combination
with
the CF
objectives,
• By inserting the eyepiece
with
cross lines
and graduation (CFW 10 XCM)
into
the
eyepiece s
le
eve
fitting
the
protractor
pin
into
the rig
ht
-hand
si
de
groove
of
the
sl
ee
ve
, the O·direc
tion
of
the analyzer and
dia-polarizer are aligned
with
the
cro
ss
lin
es
dir
ection.
If
the protractor pin
is
fitted
to
the upper
right
sid
e groove
of
the sleev
e,
the c
ross
lines
will
be align
ed
with
the diagonal posi-
tion
of
the polari'talton.
• CF PL Projecti
on
len
ses
are exclusively
design
ed
for
photomicrography.
Do
not
use
them
for
obse
rva
tion.
• F
or
fo
cusing
with
the observation
tube
of
the
trinocular
eyepie
ce
tube for
photo
-
microg
ra
phy
,
use
the eyepie
ce
incorporat
·
ing the
photo
mask.
7)
Achromat
strain-free condenser
• The
top
lens
of
the condenser
is
to
be
placed in the OPtical path
for
the
ortho-
scopic and conoscopic m icroscopy
provid-
ed
that
it
is
to
be
swung
out
when
an
objective
of
4X
or
l
ow
er
magnification
IS
in
use
.
iNo
te]
Fo
r the
orthoscopic
m
ic
rosc
opy
, a
lo
wer
numen
c
~1
aperture
illumlna
~
tion w
ith
the top
lens
swung
out
conden
ser
was used to
be
recom-
mende
d,
however, this method is
not
eff
ective especially
for
high
magnification observation because
of
the lowered resolution. Hence,
for
the
latt
er
case,
use
of
the
top
lens may rather
be
r
ec
ommend-
able except the retar
dation
mea-
surem
ent
or
th
e interference color
observatIon
for
which
it
is
neces-
sary
to
make the
illu
m
ination
light
flux
as
parallel
as
poss
ible
to
the o
pti
cal
axis
by
swinging
out
the
top
lens or stopping
down
the
aperture diaphragm.
•
Thi
ckness
of
the gl
ass
sli
de
mu
st be 1.
7mm
or
l
ess,
otherwise,
the
field diaphragm
might
fail to foc
us
its image
on
th
e speci-
men.
8)
Bertrand
len.
(w
ith
the
t
nn
ocular eyepier.e tube " TP"
or
the bin
oc
ular eyepiece
tub
e
"BpI'
in
use)
• Bring the Bertrand lens
in
tO
the
opt
i
ca
l
path
by
turning
the
Bertr
E
Jnd
lens ring
le
ftwar
d
to
observe
th
e conoscopic image.
(F ig 16)
Be
rtr
and lens
flip-in
/o
ut
ring
Fig.
16
• The conoscopic
view
fie
ld
is
as
large
as
about
1/4
of
the
orthoscopic
view
fi
eld.
(Fig. 17)
/"
Conoscopic image
of
th
is
area can
be
/'"
observed
(
"-
~
r--
Ort
hoscopIc vl
ewf
leld
../
Pin hole eyepiece
Fig.
18
In
th
e above simu
lt
aneuus observatIon
of
th
e
co
noscopic and o
rth
oscopic imag
es,
the
f
orme
r image
ma
y appear deviated
from
th
e
orthoscopic
view
fie
ld
cen
te
r,
however, the deviated image
re
pre
sen
ts
the conoscopic
light
fl
ux
that
cevers the
centr
al
p
art
of
the
orthos
copic
view field
to
the
extent
of
about
1/18.
9) 1/4 X &
tint
plate
• Removing
the
1/4 A plate side sc
rew
, ho
ld
the 1
/4
X &
tint
pl
ate.
the click·stop
groove
fa
cing the ope
rator
an
d insert
it
forward
into
t
he
co
mp
ensator s
lot.
Th
en
sc
rew-
in
the above
sc
r
ew
as
it was.
(F ig. 19)
Fig.
17
• The conoscepic image may also be observ-
ed overlapping
on
the
orthosco
pic image
through
the
binocular
obs
ervation,
one of
th
e paired eyepieces being reploccd
wi
th
the
accesso
ry
pin
hole eyepiece and
with-
out
the
Be
rtrand
lens In
th~
uPtical path.
(F ig
18)
1/4
i\
plate
t/
4X&
tint
pla
te
,
Fig
. 19
•
Th
e t
int
plat
e h
as
an em
pt
y ho
le
at
the
ce
nt
er. By pushing
it
th
rou
gh
th
e slOt, the
se
n
si
tive
ti
nt
p
la
te
(530nm)
is
brought
int
o
th
e
optic
al
path
and
by
pulling
it
out
the
1/4 X plate
is
brought into
the
optica
l
path.
10) Dia-polarizer and analyzer
• When the
both
are
se
t
at
Q reading
on
the
protrac
tor
sca
le, position
of
the polariza-
tion planc coincides
with
the
orientatio
n
p
la
te (X-direction f
or
polarizer, V-dir
ec
tion
for
analyzer) on the microsco
pe
base.
(Fig 20)
[Note]
Some of the reference books
or
spe
cial works abo
ut
polarizing
microsco
pe
available in the
m~rket
explain that X-direction
is
for
analyzer and Y -di
re
c
tion
for
polar;7er.
-....:;-
ip
~~
-
~
Orientation
plate
(~~
-
/1
~
Fig.
20
• As the orientation
of
the dia
-p
olarizer
slightly cha
ng
p.s
when centering the co
n-
denser, check the
orientation
after
ce
nt
er-
ing
the
condenser .
•
Th
e analyzer
rot
ates 1800 via the rotation
ring the left-hand side clamp being rele
as-
ed.
T
he
rotation
angle
is
readable
with
accuracy
of
0.1
Q via the vernier.
An
alyzer
clamp
Anal
yzer
rotation
ring
in/out
knob
Fig.
21
11) Filters
•
Pla
ce
the
filter
on
th
e field lens.
Table 2
Type
01
f
il
ter
Use
B
(Day
light)
F
or
general
mi
cro
scopy
GIF
For
retardation
measure-
(G
ree
n interference) ment
12) Illumination
system
• The oPtical
sys
tem for
Illumination
in
the
LAB
OPHOT·
PO
L microscope
is
construct·
ed
to
fulf
ill
th
e Koe
hl
er
illumination
requirements pe
rf
ectl
y,
and
off
ers
a
br
ight,
unifor
m f
ie
ld w
ith
ou t any change-over
manip
ulation.
• Halogen
la
fllp
6V
-2
(J.N
(PHI
LI
PS
7388)
is
used
as a
light
sou r
ce.
V.
PHOTOMICROGRAPHY
Prepare the
following
cquipmc
nts in
fJdui
tion
to
the LABOPHOT
·POL
mi
croscope
rna
in
bod
y.
*
Nikon
Mi
c
roflex
*
Tr
inocular eyepiece
tube
"TP"
* CF
PL
Projer:tion Lens
1. C F P L Projecti
on
Lenses
The combined use
O'f
the CF P objectives and
CF
PL Projection lenses
is
essentiaL
For the same total magnification, select a com-
bination
of
the
hiQhest
poss
ible
objecti
ve
power
and lowest
po
ssib
le
pruject
i
on
lens
pow
er
to
ach ieve the
utmo
st image de
finit
ion and
cont
rast.
2. Illumination
,)
Checking
the
illumination
Uneven
ness
in
the il
lumi
nation
will
show
up more conspicuously in
photomi
cro-
graphy than
in
observation. Conse
qu
e
ntly.
before taking a photugraph, recheck the
positioning
and
centerinn
of
the lamp and
the
correct
adjustment
of
the condenser.
2)
Selection
of
voltage
and
filter
The
color
tempera
ture
of
the light so
ur
CB
vari
es
with
the vort
age
being used.
Th
ere-
fore,
in
co
lor
photomicr
og
raphy, the
selection
of
voltage ano f
il
ter
is
essential
(for
the
result to be obtDinedl.
In
color
pho
to
micr
og
raphy,
set
the
bright-
ness
cont
rol dial
to
5.5
, and u
se
NCB10
fi
lter.
Depend
ing
upon the make of the
film,
•
different
color
renditions
mD
y result. It IS
recommended
that
in
additi
on
to
the NCB
10
filter
a color comp
en
sation
fdtcr
(CC
filte
r),
available
fr
om
the
film
manufac
turer
, be
use
d.
3.
Shutter
...:
:l:
=-
___
_ _ _
SI
peed=
Desirable
shutt
er
speed
s for least v
ibratio
n are
1/4
""'-'
1/
15
sec
.
Adjustment
of
the imJge bright-
ness
for
color
photomicrog
r
ap
hy should be
made
by
means
of
the NO
fi
lter
s.
Some specimens require, on ar.co
unt
of
their
in
su
ff
ici
ent
brig
htn
ess
, longer exposure times,
and conseq
ue
ntly
poor
co
l
or
r
ep
ro
duc
ibilit
y
owing
to
t
he
"
Reprocit
y L
aw
Fai
lure"
of
f
ilm
may
r
es
ult
. So, when
taking
picture
of
such
specimens, it
is
recommended
to
use
the Ni
kon
Polarizing Microscope
OP
TIPHOT·POL.
In
photom
icrography, the
adjustment
of
the
field diaphragm
is
importanr for t
he
purp
o~
of
limi
ting
extran
eous li
ght
which
causes
fl
are
In
the microscope image.
Stop
down
the dia-
phragm
so
as
to
get
an
illuminated
area sligh
tly
larger than th
at
of
th
e
picture
field.
By
adjust-
ing the aper
ture
diaph
ragm, a change
of
depth
of
f
oc
us,
contrast and reso
lution
of
image is
attainable. Select a s
iz
e suited
to
the purpose.
Gene
ra
lly speaking, the aperture
diaphr
ag
m, is
properly
Slopped
down
to
70 -80%
of
the
aperture
of
the objective being used.
[
5.
Focusing
Focusing
for
photomic
rograp
hy
can be
do
ne
with
the observation
tub
e
of
the
trinocu
lar
eyepie
ce
tube "
TP"
or
by
us
ing the
Mi
crn
flex
find
er.
1)
For
focusing
with
the
Microflex
finder
Refer
to
the
In
str
uction
Manual
for
the
Nikon
Mi
cro
flex.
2)
Focusing
with
the
observation
tube
For
focusing
wit
h the observation tube,
use
ti
l e eyepi
ece
incorporati
ng
the
photo
mask.
Before
pror
ecdlnQ to
fo
cusi
ng
,
the
bi
no
-
Cll
iar dio
pt
er adjustment should have been
fini
sh
e
d.
(1)
Inse
rt
the
eyepiece
with
photo
mask
Into
the eyep
ie
ce
s
lee
ve
on
the
side
of
(he user's
domina
nt
eye, and the viewing eyepiece
into
tile
other
Side
sl
eeve.
Turn
ing the
diopter
ring,
bri
ng
the
dou
bie
cross li
ne
s in
th~
m
ask
eyepi
ecr.
int
o
~t
l
arp
focu
s,
CJn
d then, turning
th
e coarse-fine
foc
us
kn
o
b,
focus the
spe
cim
en ima
ge
onto
the focused su
rfClce
at
the
('
..en
ler
of
the
mask. For
diopter
adjustme
nt
in the
other
eyepiece, do
not
manipulate
th
e focus
knob ,
but
the
diopter
ring
to
bring the
image
int
o focus,
with
the
ob
jective 4 X
or
lO
x.
(2) Turning the eyepie
ce
as a whole,
set
it
in
such a position
that
the
photo
ma
sk
ap·
pe
ars
as
shown in Fig. 22.
,,--
Inner
frame
Intermediate
frame
.....
-
Outer
frame
Mask
eyepiece
viewfield
Fig.
22
(3)
Furth
ermo
re, when
usi
ng a
low
pow
er
objective, place
th
e
fo
cusing telescope over
th
e mask eyepiece,
thu
s constructi
ng
an
eyepiece
of
higher magnification, to per·
form pre
cise
fo
cusin
g.
3) Magnifications
of
CF PL Projection lenses
suitable
for
each
frame
size
of
photo
mask
Refer
to
Table
3.
Table 3
For
photo
micrography,
wh
en
f
OCUSi
ng
with
the binocular observati
on
tube,
use
the
CF
eyepiece, CF PL Projection
lens
and
CF Photo Mask eyep'lece, w
ith
the magnifi·
cation and
other
indications
eng
raved in
yellow,
or
in
white
w
ith
a
white
dot
in
additi
on.
6. Others
• As the
int
ermediate tube
"P"
of
LABO·
PHOT·POL microscope b
uilts
in
the
depolari
Le
r,
it's
not
necessa
ry
to
give Ca
re
to
the relation between the
orientation
of
the polarizer, analyzer and
the
position
of
the
Microflex
.
•
For
the
use
of
other
photomicrographic
a
tta
chme
nt
s refer
to
the
pertinent
instruc·
tion
manuals.
Mask
CF
PL
Proj
ec
ti
on
lens
Film
SI
2e
35
mm
6
X9
em 3
Y.
" X
4%"
4"X
5"
Inner
frame
2 x x --
2.5 X --
4 X
1)
-
5 X 0 -
'"
1
nter
·
mediate
frame
2 x X - -
25x
0
'"
-
4 x
0 X
0 --
-
'"
-
OUler
frame
2 X x
11)
-
2.5 X
I)
--0
4 x ---
5 X ----
Note: Framing for
pictur
e composi
ng
wi
ll
be
mOre
accurate
by
the ocular
fi
nder than the mask eyepiece .
VI.
ACCESSORIES
1. Senarmont Com ensator
To
be inserted
into
the
co
mp
ensator slot
of
the
int
ermediate: tube " P" in pl
ace:
of
the 1 /4 A &
tint
plOl
te
to
measurr: ttu; r
etar
d
atio
n
with
the
accuracy
of
the
~
uM . (Fig.
23)
Fig. 23
1)
Detecting
of
extinction
position
Rotate
the stage
with
the specImen under
the crossed
Nico
ls
to
find
o
ut
the direc
tion
where the
spe
cim
en
part
for
measurement
appears darkest.
2)
Detecting
of
subtraction
position
Rotate
the stage 450
to
br
ing it
to
the dia-
go
nal
po
sit
ion
from the
extin
ctio
n
po
sition
and
confir
m that the interference cot or of
the specimen part
for
measurement ch
anges
toward the
lower
order side
by
ins
e
rting
t
he
1/4
~
&
tint
plate
into
the
opt
ic
al
path.
If the col
or
chang
es
toward hi
gh
er
order
side, rotate
the
stage fu
rt
her
by
90
0.
3)
Measurement
Inserting the
filter
GI F in
to
the
filter
receptacle, replace
the
1/
4
~
&
tint
plate
by
the
comp
en
sat
or
.
Rota
te
th
e
ana
lyzer
so
as
the
spe
cimen part
for
measureme
nt
becomes
as
dark
as
possi-
ble.
Let
the
ang
le
of
the above analY7er rota·
tion
be
8°
then
th
e r
et
ardation A (nm)
wi
ll
be obtained
as
fo
llows:
8
A
=
--
~
1
80
where
~
wave length o f the
lig
ht
used
for
the
measurement
When the
filter
GI
F IS used:
~
= 546nm
2.
Ouartz Wedge
Th
e Quartz wedge is used instead o f the 1/4 A
& tint plate that is in
th
e compensa
to
r
sl
ot
of
the in termed iate tube " P" (Fig.
24)
With
thi
s wedge the relarda
ti
on
in the range of
1
~
-
6~
c
an
ro
ughly
be
mea
s
ur
ed.
Fig.
24
1)
Detecting
of
ex
tinction
position
Detect the pos
ition
where
the
sPecimen
part
for me
as
urement
becomes darkest
by
rotating
the s
tage
under
the
cr
oss
ed
Nicols.
2)
Detecting
of
subtraction
position
Rotate
the
s
tage
45°
to
bring
it
to
the dia·
gonal
position
from
the
extinct
i
on
position
and co
nfirm
that the interference color
of
the specimen part
for
measurement changes
t
owa
rd the
low
er
order
side
by
inserting
the
quartz
wed
ge
i
nto
the o
pt
ical path.
If
the col
or
ch
anges
toward
the
hi
gher
order side. rotate the stage
further
by
90°
.
3)
Measurem
e
nt
By
sliding the
quartz
wedge along the slot,
the
interfe
rence co
lor
changes consequent-
ly
.
The wedge sliding is
to
be
stopped
wh
en
the sPecimen
part
for meas.urement comes
under the dark stripe, then compare the
interfer
ence color
of
the view
fi
eld
beyo
nd
the specimen
but
under
the
same
dark
stripe
wi
th the
Int
erferen
ce
Color
Ch
ar
t to
assume the amou
nt
of retardation.
If
the
view field is e
ntire
ly f
ill
ed
with
the
specimen around the part
to
be measured,
restrict the
illumination
of the view field
exce
pt
around the
part
f
or
measurement
by
means of the field diaphragm; remove
the
sp
ecimen away the optical path and
then compare the
interf
eren
ce
co
lor
wi
th
the cha
rt
.
Pin
hole
swing
-
in/out
knob
Lamp
ho using
cla
mp
screw
R"S;~:;;;---F
,eld
diaphragm
ri
ng
~~I.IC---
-P
olarize
r
rotation
ring
Intermedi
ate llJbe
clamp
sClew
3. Monocular Eyepiece
Tube"
AP"
B
ertrand
l
ens
~
in
/ou
t
tu
rret
-!1
-
lt
~~~~~=1
B
ertra
nd
lens
focus
turret
Fig. 25
,)
Bertrand
lens
Th
e Bertrand lens is
brou
g
ht
in and
out
of
the
OP
tical p
ath
by
turn
ing
th
e
Bertrand
lens
turret.
Th
e le
ns
is in
the
OPtical path when the
indication on
the
turret
is
B.
T
he
Bertrand
lens
can
be
focused by turn-
ing
the
focus
turre
t located
under
the
B
ert
rand lens
turre
t.
2) Pin
hol
e
knob
T
he
pin hole
ca
n be
put
in
or
out
of
th
e
oPtit:C:li
p<Jth
by
operati
ng
t
he
pin
hole
knob
located
right
·hand
Si
de of the eye-
piece sleeve .
By
means
of
the pin hole, the conoscopic
image covering
th
e
area
of
10Jlm¢ on the
specimen
su
rf
ace
(when a
100X
objecti
ve
is used) can be observed.
Univer
sal
epi
-
ill
um
inator
--
--.
Optical
-
path
cha
nge
-ove
r
knob
_
___
-"
Dust-tight
slider
----
-'
4. Universal epi· illuminator
Used
for
episco
pi
c
polarizing
microscopy.
mounted
between the Y -PO L stand and the
int
ermedi
<.J
te
tube"
P
".
1)
Nom
e
nclature
• Referring to
Fi
g.
26,
assemble in
the
order
given.
11
Remo
ve
the eyepiece
tube
and the
int
er-
fflediJte
luu
e
"P"
from
the
V-POL
stand.
CV
Mount
the
universtll
ep
i-
i
llum
inator
on the
microscope arm,
pusit
iuni
nn
the
illumi-
nator
nearly
pa
rallel
to
the arm. Clamp the
sc
rew.
(j)
After
rel
eas
ing s
ufficient
ly
th
e clamp
sc
r
ew
on
th
e la
mp
housing, t o
wh
ich
th
e
lamp
bu
lb (1
2V
-50W
Hologcn
la
mp)
and
socket
is
attached, in
se
rt
the lamp
hOUSing
into
the
universal
ep
i
-ill
uminator
and
clamp
th
e
scr
ew.
@ Connect
the
lamp
cord
to
the
tra nstormer.
:s;.
Remove
the
acc
esso
ry
ND32
filt
er slider
fr
um the
illuminat
or.
Pu
sh in
th
e
po
larizer
s
li
der
until
it
clicks
tw
ice,
® Pl
ace
the
fi
lters.
CD
Mount
the inte
rm
e
diate
tube
"P"
on
the
illuminator,
fitting
the
notch
of
the ci
r-
c
ular
dovetai l on
the
end
of
the
clamp
sc
rew. Fasten 11
1e
c
la
mp
sr.rcw.
@ Referring
to
p.
7,
mo
unt
the
eyepi
ece
tub
e
on
the
int
ermedi
ate
tube
"P",
~--
Socke
t
sleeve
clamp
scr
ew
~-
-
L
a
mp
lateral
ce
ntering
screW
,
4'
~
I
Tran
sforme
r I
'---
lamp
vertica
l
ce
nt
enn
g
nng
Polarizer slider
Fig
.
26
2)
Preparation
(1)
Centering
the
lamp
Make
certain
that the
optical
-pa
th
change-
over
knob
is
pushed
(0
th
e li
mit.
(Z)
T
urn
ON,
th
e power
SW
it
ch on
th
e trans-
form
er,
se
t the voltafle to
6V.
Q)
If
the
L
900C
fi
lt
er
is
in
th
e
optical
·path,
remove this.
\4'
Fully
open
the
ap
e
rture
di
ap
hr
Clgrn
.
(
j"
Place the
ND
fil
ter on the
stc
1
qe
and focus
on it using
objective
lO
X.
~
Remove the eyepiece
fr
om
the
sleeve,
looking
into
th
e ex
it
pup
il
of
objective,
move
th
e la
mp
housing
ba
ck and
forth
to
form
a
sh
arp i
ma
ge of the lamp
filament
on
the
diffus
er of
exit
pupil.
•
'f!
Manipulate
th
e lamp c
ent
ering
sc
rews
to
center the
fil
ament
im
age
on
the
exit
pupi
l.
®
Pl
ace the L
900
C fil
te
r.
If
the
ima
ge
is
foun
d roo dark w ith an
ob
j
ecUv('!
of
40
X or higher,
re
mo
ve the
L
900C
fi
l
te
r.
(2)
Orientation
of
polarizer
(intermediate
tube
"P"
)
(j
: Nearly focus
on
the
ND
fil
ter
on
th
o
510ge
using
object
ive 4
0X.
• '
'Z1
S
et
the polarizer graduation
10
" 0".
~ Remo
ve
one eyepiece f
rom
the ouservation
tubes.
• L
ooking
int
o the ex
it
pup
il
of
the objective,
rotate
th
o
polan
2e
r r
otation
nn~
to
form
th
e da
rk
cr
oss
irnaut:!
nn the exit pupil.
(Refer
to
Fiy
.
13)
Note:
Take care
not
to
tour:h the
po
la·
rizer r
otation
ring
wh
ile observing
the specimen, or the or
ientatl
on
of
the
po
larizer
will
ge
t
out
of
order.
If
it
is
tou
ched
by
mistake, read·
just
th
e orientation.
3l
Objectives
Use the objectives
CF
M Plan
Achro
mat
P
• series (Strain-free, 210/451.
4) F
or
manipu
l
at
ion ond microscopy, refer to
diascopic polarizing microsco
py.
5. Attachable Mech
..
ical Stage
Type
"E"
To
atla
ch the atHlchablc s
tCige
nn the graduat
ed
stafjp.,
fit the t
wo
position
ing pins on the rear
side
of
the a
tt
ach
ab
le stage In
to
the
two
pin
hol
es
on the graduated st
age
surface, and clamp
th
e
sc
r
ew
using a
dri
ve
r or a
co
in
.
Attachable m
ec
hanical stage is eqUIpped
with
point
counter
s,
whose pitch IS
O.2mm
orO
.3mm
.
The
cou
nter
can be replaced
by
relea
SI
ng
the
h
ea~
of the pOint
co
un
ter
by means
of
a
COin
ai1d
rem
ov
ing
the milled
part
of
the
cou
n
ter.
To release the cli
ck-stop
of the pornt
count
er
,
release
th
e click sPrln9
nut.
(Fig . 2 7)
s
prin
g
nut
Positioning
pins
Attachable
mechanical
..
stage
type
E
__
,...l:...r-j--:~II-,~_
=
Fig.
27
VII.
TROUBLE
SHOOTING
TABLE
A
lth
ough nowhere
the
user can fjnd any disorder or derangement in
the
in
strument,
if
he
encounters some
diffi
c
ult
y or dissatisfact
ion
, recheck the
use
, referring t o the table
below:
1.
Optical
Fa
ilu
res
Causes Actions
Darkness
at
the •
Op
t ical
pa
th in
tr
inocular
tube
• Changin
g-
over
to
the
limit
pe
ripher
y
or
not
fu lly change
d-over
(Refer
to
P.
81
uneven bright- •
Centering
nosepi
ece
n
ot
in
click-
Re
vo
l
ve
it to
cl
ick-st
op
po
s
ition
ness
of
view- stOP position
(Objectiv
e not
field
centered
in
opt
i
ca
l
path)
(No
a
ppearan
ce • Condenser
not
centered Centering by using fi eld
of
viewfield)
di
ap
hra
gm
(Refer
to
P.
91
• Field
diaph
ragm too
much
closed
Op
en
it
properly
• Dirt
or
du
st on
the
lens -Cleaning
(C
ond
en
se
r.
object
ive, eye
pi
e
ce
, slide)
• I rnproper
use
of
cond8nser • Correct
use
(Refer
t o
~.
101
• Ber
trand
lens
in
th
e o
ptical
path
Flip
out
(Refer
to
P.
13 &
181
• Pin ho
le
in
the
op
ti
ca
l path Swing o
ut
(Refer
to
P.
18
1
(in
mon
oc
ular eyepiece
tube
"AP")
• T
op
l
ens
of condenser inc
orre
ct ly Swing in
to
the lim
it
positioned
• 1
/4
A &
tint
plate,
com
pen
sa
tor
Cor
rect setting
or
quartz
wedge incorrec
tly
positioned
Dirt
or
dust
in
•
Dirt
or
dust on the l
ens
Cleaning
the
v
iewfield
(Conden
se
r, objec
ti
ve, eyepiece,
f
ie
ld le
ns
l
•
Dirt
or
dust
on
the
slide Cl
ea
ning
•
To
o
low
pos
iti
on
of
condenser Correct
positionin
g
(Refer
to
P.
91
No good image •
No
covergla
ss
att
ached
to
sl
ide
Corr
ect use (Refer
to
P.
1
21
ob
tained
(l
ow
or
NeG
objective used w it h covergl
ass
reso
luti
on
or
• Too
thick
or
thin
cove
rg
la
ss
Use
sp
ec
ifi
ed thickn
es
s (0.1
7mml
contrast)
co
verglass (R
efer
to
P.
121
• Immersion
oil
soils
the
top
of
dr
y Cleaning
system objecti
ve
(e
specially
40
x I
•
Dirt
or
dust on the lens (conden
se
r, Cleaning
objective. eyepiece. slide)
•
No
immersion
oil
used on i
mmer
sion-
--
.
Usc
im
rn
ersion oil
sys
tem
o
bject
ive (Refer
to
P.
1
21
•
Ai
r
bubb
l
es
in
imm
e
rs
ion
oil
Re
mo
ve
bub
bl
es
•
Not
speci
fi
ed i
mmer
s
io
n oil u
sed
·Use
Niko
n imm
er
si
on
oil
• Conden
ser
apertur
e or
field
Open
prop
e
rly
(R efer
to
P.
111
diaph
ra
gm too
much
opened
•
Dirt
or
dust
on
the
entrance lens
....
Cleaning
/
