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IBM Selectric - Page 160

IBM Selectric
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10.18
SKIRT
CLEARANCE
Whi
Ie
manually
half-cycling
a 2 ti
It,
+5
rotate
char-
acter,
there
should
be
.025
11
-
.035
11
clearance
be-
tween
the
Rotate
Detent
and
any
tooth on
the
type
element.
To
obtain
this
clearance,
half-cycle
any
character
and
rotate
the
Detent
Actuating
Lever
Mounting Stud so
that
the
Detent
Actuating
Lever is
all
the
way
to
the
rear,
then
adjust
the
detent
cam on
the
print
sleeve
for
.00111
clearance
between
the
low
dwell
of
the
cam
and
the
cam
follower.
Redesigned
Detent
Actuating
Lever
and
Support
Current
production
detent
actuating
levers
have
been
en
larged
to
accept
a larger shou Ider
and
flange
on
the
support mounting
screw.
Using
larger
washers,
these
parts
have
improved stabi
Iity,
resulting in
re-
duced
exposure
to
breakage
and
loss
of
typehead
ski rt
clearance.
The
part
numbers remain
unchanged.
However,
since
the
new
level
parts
are
not
interchangeable
with
the
former
level,
field
replacement
of
former support
screws or
detent
actuating
levers wi
II
require
that
all
three
parts
be
replaced.
B/M 1272176
includes
the
following parts:
Part
No.
1128493
1128458
1128495
Description
Washer
Lever,
Detent
Actuati
ng
Screw,
Detent
Actuating
Arm
Note:
Production machines
wi
II
use a
large
nut,
PN
1134842,
on
the
top
section
to
the
detent
act-
uating
arm
screw.
It
is not
necessary
to
use this nut
for
field
installation.
10.19
ADJUSTMENT CHANGES -
TILT
SELECTION
On
gearless
tilt
machines,
adjust
the
RH
tilt
pulley
with a 0 ti
It,
0
rotate
character
half-cycled,
so
that
the
ti
It
detent
enters
.004
11
-
.008
11
to
the
rear
of
the
center
notch,
with
all
tilt
ring
backlash
held
lightly
to
the
rear.
Machines
prior to
gearless
ti
It
continue
to
be
adjusted
for ti
It
detent
entry
of
.00211
-
.004
11
to
the
rear.
10.20
WEAR
COMPENSATOR -
OVERCOMPENSATION/
ROLLER
DROP
Overcompensation
may
be
attributed
to
worn
or
rounded edges on
the
bronze
motor pu Iley
teeth
or
to
worn pawls on machines
equipped
with
nylon motor
pawls.
Slippage
of
the
driving
clutch
pawls
could
relax
the
selection
system
sufficiently
to
induce
roller
drop.
10.21
TYPEHEAD
HOMING
ON
MACHINES WITHOUT
SHIFT
OPERATION
In
most cases
it
is
not
necessary
to
loosen
the
rotate
5-16
pulley
for
typehead
homing on
I/O
Printers
without
shift.
Homing may
be
accomplished
easi
Iy
by
adjusting
the
shift arm
screw,
since
these
units do not uti
lize
shift
operation.
10.22
ANALYZING
PRINT
FAILURES
Some
cases
of
Mal-Selection
result in printing a
11.11
character
which
makes
it
difficult
to
determine
the
ti
It
and
rotate
se
lecti
on .
The ti
It
and
rotate
selection
may
be
easi
Iy
deter-
mined
if
a
standard
ET
type
element
is
substituted
temporari
Iy
to
ana
Iyze
the
fai
lure.
The
standard
ET
type
elements
print
a
different
character
for
each
ti
It
and
rotate
se
lection.
10.23
MAL-SELECTION
AT
+5
ROTATE
Occasional
mal-selections
at
the
plus five
rotate
band
on
the
typehead
can
be
caused
by:
1.
Variations
of
cycle
shaft
speed.
A sudden
in-
crease
in momentum
of
the
cycle
shaft may
cause
the
typehead
to
rotate
beyond
the
plus five
de-
tenting
position.
If
the
motor
clutch
pawl slips
off
a
tooth
of
the
motor
pulley
during
the
begin-
ning
of
a plus
five
rotate
operation,
the
cycle
shaft
wi
II
slow up for
an
instant:
when
the
pawl
re-engages
in
the
next
tooth
of
the
motor pu
Iley,
there
wi"
be
a sudden surge
felt
throughout
the
cyc
Ie
shaft
system. This surge
wi
II
cause
over-
rotati on
of
the
type
head
.
2.
SELECTRIC
I/O
Printers
operating
in an
open-
ended
mode
(1052/1053/1062)
may
also
exper-
i
ence
th i s prob
lem,
due
to
the
fact
that
they
are
being
pulsed
at
a
constant
rate
of
14.89
char-
acters
per
second,
whereas
the
printer
is
oper-
ating
at
a
mechanical
rate
of
15.5
characters
per
second.
This
difference
in
speed
is
a bui
It-in
safety
margin,
but
due
to
this
difference
in
speed,
the
cyc
Ie
clutch
may
try
to
latch
up
at
the
end
of
a
cycle
and
then
be
unlatched
again
by
the
next
incoming
pulse.
The
cycle
spring
clutch
will
be
opened
just
far
enough
to
allow
the
shaft
and
clutch
to
slip
slightly.
When
the
cycle
spring starts driving
again,
the
shaft
wi
II
turn
with
an
increased
momentum
and
the
over-ro-
tating
condition
will
result.
Several
solutions
to
this problem wi
II
be
listed
be
low:
1.
The motor
pulley
has
been
redesigned
as shown
in Figure 1
below.
The
engagement
area
on
the
pulley
for
the
motor pawl has
been
increased
so
as
to
allev.iate
the
possibi
lity
of
the
pawl
slip-
ping
out
of
the
tooth.
All
machines
in
the
Field
shou
Id
be
usi
ng
the
motor pu lIey
illustrated
be
low.
Old
style
motor pulleys
are
easily
recognizable
since
they
wi
II
not
have
this
flattened
notch
as
illustrated.

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