117 0 1MB
English Pages 28 Year 1982
FULL AUTO
RUGER MINI-14
FULL AUTO CONVERSION MANUAL
FULL AUTO
RUGER MINI-14 FULL AUTO CONVERSION MANUAL
Full Auto
Ruger Mini-14 Conversion Manual WARNING
!
The legal construction and possession of a fully automatic weapon is controlled by the Bureau of Alcohol, Tobacco, and Firearms division of
the
U.S.
Treasury
Department.
Proper application to the B.A.T.F., authorization, and permission must be secured before
constructing
this
or
any
other
similar
Local and state laws vary and may restrict ship of this or similar type weapons.
device. owner-
Severe penalties are authorized for violators of these laws. Minuteman Publications offers this information for academic study of firearms design and disclaims any responsibility or liability for the improper or illegal use of this or other similar devices.
Table
Of
Contents
CONTENTS
PAGE cececiisliciincccaccccccivsiictssss
cunt
......ccccccccccceccccccrscece
FY
Chapter 1 General Description And Mode Of Operation Semi Automatic .....ccceeceeeeeeeerereeees
1d
Chapter 2 Genera] Description And Mode Of Operation Full Automatic ........ mrelelelateteleratetetetsietelartal=
21
Chapter 3 Modifications
.......
29
.............
39
TNCPOdUCEION
Index
Blueprint
Chapter 4 New Parts Chapter
To Be Made
To Weapon
To Be Manufactured
5
Material
For
Construction
................
51
Introduction The
purpose
of
this
the necessary blueprints conversion for mation
civilian automatic bursts, The later,
version, weapon being
fully
manual and of
is
to
into MINI-14 RUGER firing of capable controlled
modification basically but
provide
manufacturing inforsemi-automatic the
by
will be consists
the
a fully multiple
firer.
fully described alterations of
stock, and a sear group, and to the receiver, also the manufacturing of a disconnector assembly. The weapon can be converted to fire fully autosemi-automatic to back restored be or matic in little more time than it takes to field strip it. This conversion does not provide selective fire capability. It is very reliable and rugged due to its design and manufacture. This
manual
presents
the
necessary
data
that would be required by a machinist or gunsmith to complete all modifications to the gun and Engineers to manufacture the required components. design weapons such as this with a great deal of care, and for successful operation care must also be exercised in the manufacturing procedures to be explained regarding this conversion.
Index
Blueprint 1,
OPERATING SEQUENCE - SEMI AUTOMATIC Hammer A. sear.
cocked,
engaged
trigger
with
hammer releasing is depressed Trigger B. to strike the firing pin and detonate the forward moves sear Secondary cartridge. slightly.
C. The trigger is still depressed. The slide and bolt have cycled rearward causing the hammer to be forced rearward and engage the
secondary
sear.
D. The slide and bolt have cycled forward stripping a cartridge from the magazine. The trigger is released and the secondary trigger the as hammer the releases sear sear engages and holds the hammer, ready for the next firing cycle. 2.
OPERATING
A.
SEQUENCE
Hammer The
sear.
- FULL
cocked,
AUTOMATIC
engaged
disconnector
trigger
with
assembly
is
shown
in position. B.
The
trigger
is
depressed
releasing
the
hammer
to fire
the cartridge.
Disconnector
With the trigger still depressed, the slide C. and bolt have cycled rearward forcing the hammer to engage the secondary sear which had previously moved forward slightly as the slide unlocked the
and
bolt
rearward.
moved
The slide and bolt move forward under recoil D. spring pressure. Just before the slide stops it makes contact with the tripping lever, forcing it forward. As the tripping lever pivots the disconnector
and
releases
the
forces
the hammer
secondary
to fire
sear
another
rearward
Pin-Disconnector Assembly
and
Pin-Disconnector, ment
Secondary
Clip-Retaining-Disconnector
Fixtrue-For machining.
holding
cartridge.
The trigger is released allowing the hammer E. The firer has only to engage the trigger sear. to depress the trigger to resume automatic fire.
3.
4.
PARTS
TO MODIFY
A.
Receiver
B.
Slide
C.
Secondary
0 .
Stock
PARTS
Sear
TO BE MANUFACTURED
A.
Screw-Pivot,
Tripping
8.
Tripping
Lever
C.
Bushing,
Tripping
Tripping
Lever
Lever
"
secondary
Lever Sear
Engage-
Pin
sear while
General Description And Mode Of Operation—Semi Automatic SPECIFICATIONS MINI-14
RUGER
The
operated,
gas
a
is
rifle
.223 the for chambered firearm semi-automatic (5.56mm) caliber U.S. military and commercially magazine box is It cartridges. manufactured 10, 5, hold to available magazines fed with A 75 round rotary 20, 30, and 40 rounds each. drum magazine is also available. mechanical basic its takes MINI-14 The properties from the U.S. military Garand family a scaled-down resembling somewhat of weapons, the
military
M-14
changes’
from
is
used
rifle.
steel
molybdenum
chrome
Hardened
and firing mechanisms. breech the in reliability is provided through the use wire coil springs. MINI-14
The its
introduction
One
governments
the
of is
its
and
law
Many
1972.
are
reasonable
since
enforcement
choosing
the
applications.
general
contributing
Spring of music
popular
very
become
has in
specialized
for
popularity
12
some
and
agencies MINI-14
the
of
parts
minor
several
had
have
MINI-14
internal
The
externally.
M-14
factors cost.
1982
to
its
prices
of approximately for $350.00 and investment. jood 540.00 required
$100.00 it
for
to
to
full
many
$285.00 for the blue version it a gun make stainless the the approximate to Compared for a Colt AR-15 and an extra inflation
with
people
is
RUGER
the
convert
to
parts
the
for
$150.00
auto,
choice
a practical riddled
budgets.
OPERATION The of
the
semi-automatic
following
steps:
inserts
1.
The the
firer rifle.
2.
The
slide
it
stops,
is and
mode
a
then then
is
of operation
loaded
consists
into
magazine
pulled
rearward
released
sharply
until thereby
forward under propelled the bolt, allowing recoil spring tension, to strip a live round during it chamber and magazine the from forward movement. As the bolt face contacts the breech of the barrel, a camming surface in the slide rotates the bolt forcing two locking lugs into matching recesses in the receiver. This will prevent the bolt from high initial the during rearward moving pressure
following
detonation
of
the
car-
At this point, the hammer is cocked tridge. and held back by an engagement between the sear notch on the trigger and the hammer. (See drawing # 1A)
3.
the
secondary
The
hammer,
spring,
is
firing
pin
sear under
moves
forward
pressure
from
propelled and
forward,
detonating
(See
drawing
# 1B)
and
locked
until
The
slightly.
striking the
bolt
the
cartridge.
will
stay
chambered
the
hammer
the
closed
pressure
a small level, and until to a safe drops barrel the from is vented of gas amount through the gas block blowing against the front of the slide with enough pressure to unlock the bolt (by reversing the camming action).
The
slide
carrying
with
it
the
spent
bottom hammer dary
which
bolt
cartridge
move
then
will
the
and
ejects
which
will
the
hold
extracts it.
The
forces the the secon-
of the bolt contacts and rearwards until it engages sear
rearward,
hammer
back.
spring As the recoil # 1C) (See drawing compression overtakes the recoil inertia, the slide will reverse and move forward, carrying the bolt which again strips a live cartridge from the magazine and forces it into the chamber. When the trigger is released, the sear engagement with the hammer will change. The trigger sear engages the hammer just before the secondary sear disengages from the hammer and moves rearward to its original position. By this time the bolt is locked into the receiver again and
pressure
applied
to
the
again release the hammer to tridge and repeat the cycle.
forward been moved the safety having With to "off", the firer then depresses the trigger which disengages the hammer from the trigger In this same motion of the trigger, sear.
15
trigger
fire
the
will
car-
$l *
NOTE-BOLT
&
HAMMER COCKED, SECONDARY SEAR
SLIDE
NOT
SHOWN
ENGAGED WITH TRIGGER IS NOT ENGAGED.
SEAR,
TRIGGER SEAR (INTEGRAL WITH TRIGGER)
OP.
DRWG.
SEQ.
NO.
SEMI-AUTO
1-A
ROTATION
emmy
TRIGGER STILL DEPRESSED: RECOILING BOLT ENGAGE SECONDARY SEAR. TRIGGER SEAR IS STILL FORWARD.
FORCED
TRIGGER IS DEPRESSED. HAMMER IS RELEASED AS TRIGGER SEAR AND SECONDARY SEAR ROTATE FORWARD SLIGHTLY,
$l bl
OP.
DRWG.
HAMMER
OP.
DRWG.
1-B
1-C
TO
AUTO
SEQUENCE-SEMI-AUTO
NO.
REARWARD
SEQ.-SEMI
NO.
SEQ.-SEMI-AUTO OP.
BOLT & SLIDE (NOT SHOWN) HAVE CYCLED FORWARD. TRIGGER HAS BEEN RELEASED, SECONDARY SEAR & TRIGGER SEAR PIVOT WARD. HAMMER ENGAGES WITH TRIGGER SEAR AS SECONDARY SEAR DISENGAGES FROM HAMMER. DRWG. NO. 1-D
20
i. 2
ROTATION
REAR-
2
Automatic
Operation-Full
Of
Mode
And
Description
General
of description the into getting Before please mode, full-automatic the in operation overlay conver-
an shows # 2A which to drawing refer of disconnector assembly required for this
better
This will help the reader sion. the sequence of operation.
understand
When the trigger is depressed, the trigger allowing the hammer sear and hammer disengage, to strike the firing pin and detonate the carThe slide unlocks the bolt and recoils tridge. The backwards, extracting the spent cartridge. firer still has the trigger depressed. The hammer is
caught
as
the
drawing
and
bolt #
held
2C)
by
back
completes Recoil
its
the
rearward
spring
secondary
sear
travel.
(See
pressure
reverses
then strip a live which wil] the bolt travel cartridge from the magazine and begin to chamber and is fully chambered As the cartridge it. as the bolt starts to rotate to lock, the slide It is at this time is still not fully closed. lever and forces a tripping it contacts that This forward movement of the tripping it forward. lever produces a rearward movement of the disconnector which is attached to the secondary sear. This movement forces the secondary sear rearward, the hammer to strike the firing pin releasing During the time necessary for the seconagain.
21
22
2-A
Ay
NO.
= H
SEQ.-FULL-AUTO
& 9
OP.
sequence
is depressed the magazine. trigger sear back in the by the firer firing.
DRWG.
firing
will repeat as long as the trigger and as long as cartridges are in When the trigger is released, the will engage and hold the hammer cocked position. Applied pressure to the trigger will resume automatic
1-A)
This
and the bolt safety to the
#
# 2D)
to
reached
DRWG.
drawing
have
AS
(See
will
(SAME
furthermost forward travel be fully locked, ensuring
hammer
the
for
slide
HAMMER IS COCKED, ENGAGED WITH TRIGGER SEAR DISCONNECTOR ASSEMBLY IS IN PLACE SLIDE IS FORWARD THE RADIUS c UT IN THE SLIDE BARELY ENGAGES THE TRIPPING LEVER, THEREBY APPLYING A SLIGHT REARWARD PRESSURE ON THE SECONDARY SEAR
the
PIN
pin,
PIVOT
and
disengage
firing
SCREW PASSES THROUGH STOCK & TRIPPING LEVERATTACHES TO RECEIVER (#6-32 THD.)
firer.
the
PIN ENGAGES & LOCKS INTO S EC. SEAR
its will
to
sear
& SLIDE
strike
CONTACT AREA TRIPPING LEVER
dary
1. 2.
°){
l/
=
REARWARD.
AUTO
TOP OF TRIPPING LEVER HAS MOVED
SEQ.-FULL
2-B
THE
TOP
CAUSING
SCREW.
OF
TO
LEVER
LEVER
TRIP.
TRIP.
MOVES
PIVOT
PIVOT
REARWARD.
ON
OP.
SEQ.-FULL
AUTO
TRIGGER IS STILL DEPRESSED-TRIGGER SEAR STILL FORWARD. SLIDE AND BOLT ARE IN FULL RECOIL. AS THE SLIDE MOVED REARWARD, THE CONTACT BETWEEN THE SLIDE & TRIPPING LEVER CEASED. SPRING PRESSURE ON THE SEC. SEAR MOVED IT FORWARD WHERE IT THEN ENGAGES & HOLDS THE HAMMER BACK. THE DISCONNECTOR DRWG. NO. 2-c ASS'Y MOVED PORWARD WITH THE SEC. SEAR, : :
«
Nam
OP.
TRIGGER IS DEPRESSED-TRIGGER SEAR DISENGAGES FROM HAMMER, HAMMER ROTATES FORWARD TO STRIKE BOLT. (NOT SHOWN) SLIDE IS STILL FORWARD, ENGAGED WITH TRIPPING LEVER. SECONDARY SEAR REMAINS REARWARD WHILE SLIDE IS FORWARD. DRWG. NO.
SEC. SEAR STATIONARY
w WNhne
1. 2.
9
re
rei
)
ee
te ee
et
ee
PIVOT
ENGAGES. REARWARD PRESSURE APPLIED TO THE TRIGGER WILL RESUME FULL AUTO FIRE.
OP.
SEQ.-FULL
AUTO
CARTRIDGE INTO THE TRIGGER SEAR TO
PIN
OP. SEQ.-FULL AUTO
DRWG. NO. 2-E
BOLT ARE MOVING FORWARD-FEEDING A LIVE TRIGGER HAS BEEN RELEASED, CAUSING THE THE HAMMER AS THE SEC. SEAR DIS-
THE CARTRIDGE.
TRIGGER IS STILL DEPRESSED. ‘TRIGGER SEAR STILL FORWARD. FORWARD MOVEMENT OF THE SLIDE PIVOTED TOP OF TRIP. LEVER FORWARD AS CONTACT WAS MADE. THIS CAUSES REARWARD TRAVEL OF DISCONNECTOR WHICH MOVES SEC. SEAR REARWARD ALSO. ‘THIS DISENGAGES THE HAMMER TO STRIKE THE BOLT & FIRE DRWG. NO, 2-D
THE SLIDE AND CHAMBER. THE ENGAGE & HOLD
rt
es
3 To
Modifications
Made
Weapon
To Receiver
Be
= Drawing
# 3A
Machine lug off of lower right side of receiver flush with adjoining surface as indicated in the drawing. This is required to provide clearance for or assembly.
A
slot
as the
operation
machined
into
of
the
indicated. This provides tripping lever which will
this A
is
the
flange.
#
6-32
threaded
hole
jis
the receiver as indicated of the Disconnector assembly
screw,
Slide
- Drawing
the
disconnect-
upper
flange
clearance for extend through
machined for with
into
attachment the pivot
# 3B
A single cut is made into the slide as indicated on the drawing. This will provide Clearance for the top of the tripping lever, and also establish a contact point which the tripping lever engages during the forward movement of the slide.
28
3.
Secondary
Sear
- Drawing
# 3C
The secondary sear is machined in such a manner as to provide an easy and quick method of assembling the Oisconnector-Secondary Sear Pin to the Secondary Sear. The pin is inserted through the large hole in the secondary sear until the small diameter of the sear,
pin matches the slot in the secondary Slide the pin over in the slot until
the smaller of the two holes is reached, and then pull the pin out until it firmly locks with the secondary sear. The plastic retaining clip can then be attached to the small diameter of the pin to prevent the pin and sear from accidentally coming apart. Use the fixture previously described when machining this part.
Stock The
- Drawing
# 3D
stock
must
be
ance for tolerance
the for
disconnector assembly. The these cuts are not critical,
machined
to
provide
clear-
as long as adequate clearance is provided. However, the location of the pivot screw hole should be matched as closely as possible with the # 6-32 threaded hole in the receiver. This can be determined by scribing a vertical line on the receiver through the center line of the # 6-32 hole up onto the side of the flange. With the receiver in the stock, this line can be transferred back down on the outside of the stock to establish its vertical centerline. The horizontal centerline can be located by measuring the
distance from the bottom of the flange to the center of the # 6-32 hole, on the receivWith the stock and receiver assembled, er. measure down from the bottom of the flange on
the
outside
point
screw.
of
the
distance.
measured to
be
machined
stock
This to
and
scribe
establishes accept
the
the
the pivot
OPERATION
~
#
#
OPERATION “~~
#
(BOTTOM
(RIGHT
2
a
RIDGE (LOWER) SURPACE ‘A'
e
3/16"
(.1875)
- Raut # 36 (.1065) -32 N.C.
- MILL WITH
VIEW)
3 - MILL
1
VIEW)
SIDE
OPERATION # 1
OPERATION
we
A
OF
SLOT
2
WALL
WALL
FULL
SCALE
1
275
.450
AND
UNTIL
DRWG.
LONG
NO.
THREAD
FLUSH
——~ 265 eee
RECEIVER-MODIFIED
FLANGE,
RECEIVER
RECEIVER
ge
Le |
#50
OPERATION
OS
THROUGH
THROUGH
OFF
a
-
OPERATION
Vaé
3-A
125 (RIGHT
(BOTTOM
5
HAND
VIEW)
VIEW)
SLIDE-MODIPIED PULL
SCALE
DRWG.
NO.
3-B
AREA
Uf)
SHADED
SVSY
DIAGONAL
MODIFIED
REPRESENTS
LINES2
REPRESENT
STEEL
PORTION
3
3TOCK
OF
LINE
STOCK
oR
450
4.21
3.850
400
32
.
RIGHT SIDE VI EW RIGHT STOCK WALL
SL
LOCATION OF THIS HOLE MUST MATCH # 6-32 HOLE IN RECEIVER
ONLY)
1 '
ABS
a
I
oe --32]
|
eo
|
ry
|
TOP VIEW
STOCK ASSEMBLY | PULL SCALE | DRWG. NO. 3-D|
MILL AND
SLOT
.093
WIDE
BETWEEN
3/16"
HOLE
-
CENTER
ON
1/8"
4
HOLE
LINE
To
Parts
New
Screw-Pivot,
Manufactured
Be
Tripping
Lever
-
Drawing
#
44 This the
DRILL 3/16" (.1875) HOLE
screw will act tripping lever.
as a pivot point for It is designed with
against out bottom will that shoulder a the receiver when installed. This will prevent binding between the tripping lever and the receiver.
THROUGH
DRILL 1/8" (.125) HOLE THROUGH
Tripping
The of
top the
Lever
of
- Drawing
this
slide
lever
each
# 48
will
time
contact
the
means of a pivot in the the forward movement at causes the bottom of
gun
a portion cycles.
to move rearwards. It is by this that rearward movement is provided to
gage the secondary of the slide. Bushing,
Tripping
sear
Lever
By
center of the lever, the top of the lever the tripping lever during
- Drawing
each
action disen-
cycle
# 4C
This bushing iS permanently attached to the tripping lever by flaring the small end after inserting it into the lever. It
8
SECONDARY
FULL
SCALE
SEAR
DRWG.
NO.
3-C
is
through
mounts
this
the
Disconnector
This
part
lever
is the
to
that
the
- Drawing
linkage
the
pivot
screw
receiver.
Fixture-Secondary # 4H
# 40
through
movement of the tripping to the secondary sear.
assembly the disconnector and prevents disengaging from the secondary sear.
which
lever
the
is
rearward
transferred
ig
Pin-Disconnector
The
pin
and
attaches
Tripping
Tripping
the
Lever.
It
Lever
- Drawing
Disconnector also
acts
to
as
a
of
the
secondary
it.
the pivot
for the two parts. The pin is flared on both ends when installed to prevent the disconnector and tripping lever from coming apart.
6.
Pin-Disconnector, - Drawing # 4F
Secondary
Sear
Engagement
This pin is permanently attached to the disconnector and its purpose is to engage the
is sear
secondary
applied is
also
sear.
to
the moved
Clip-Retaining, # 46
When
movement
the
secondary
rearward.
Disconnector
The
plastic
clip
ter
of
disconnector
the
rearward
disconnector,
attaches
to
Pin
the
-
Drawing
small
secondary
sear
Machining
-
Drawing
The secondary sear has irregular shape not suitable for clamping in a mill vise. This fixture will securely hold and prevent movement
5.
Sear
from
diamepin,
4l
sear
while
machining
— 310 1040 cls
‘
3/16"
K}
ve
ras
RADIUS
-
BOTH
YS
|
.
ais
.670
=
2
1.085
_———
iL
a
- 400
ENDS
# $32
THREAD
6
_
z
309
;4
o)
a
aA
B
— —»
[7
|
1875
.375
Ud7
J
~~
1/16"
—
(.0625)
CHAMFER .020 x 45°, BOTH HOLES (ONE SIDE ONLY)
SCREW-PIVOT
42 SCALE
2X
DRWG.
'A'
= DRILL
7/32"
'B'
- DRILL
1/8"
4 NO.
4-A
(.2187) (.125)
THROUGH THROUGH
TRIPPING LEVER SCALE
2X
DRWG.
NO.
4-B
“7
5.217 -
|
)
—4,7.
3.785
(aA pe DRILL PIVOT
/|
1/8" PIN,
i
4
LP, CHAMFER '‘R*
11/64"
- DRILL
(.1718)
| 375
>)—
FOR (.125) THROUGH LEVER & TRIPPING DISC.
LZ»! —— .020 x 45°BOTH HOLES, THROUGH
FOR
SECONDARY
-0625 ONE SIDE ONLY SEAR
ENGAGEMENT
PIN
DISCONNECTOR 44
FULL
SCALE
DRWG.
NO.
4-D
i ./875
I.D.
PIN
CAN
BE
[J] MADE
|
,250
oR 1/8"
DIA.
ROD
DRILL
OR EQUIVALENT
.2/8
rs—
FROM
Q_yes
0.0.
PIN-DISC. 2X
TRIPPING | DRwa.
LEVER NO.
4-E
=
~ On Q
SCALE
&
-085 ./23 . 088 205°
STSHING C MREDDIRG TRIER SCALE
2X
| DRWG.
NO. 4-c
0
el} PIN-SEC. SEAR ENGAGEMENT SCALE 2X | DRWG. NO. 4-F
S
w
4
#29
ele
yee
-
Je
-085
tt : -250
}
(.136)
ence{RE
THROUG}
DRILL
; 4 .750
.
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—
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it
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TOP
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WD
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|
‘
bas
PIXTURE
| DRWG.
- SEAR NO.
4-H
x 1/2", SECONDARY
STEEL
sine
8-32 HOLD
3/qn
3
:~
SEAR IN FIXTURE WHILE MACHINING HOLES & SLOT
x
SCREW-# USED TO
3/h"
FIXTURE MADE OP
FULL SCALE
2.
TF
gyN
4
IPE
1
Ww
S
250.350
~>,
ae
4-I NO.
DISCONNECTOR ASSEMBLY
| DRWG.
Lever
This part can thickness sheet
INSERT PINS AS INDICATED BY ARROWS, FLARE THE PARTS PROTRUDING TO LOCK PINS IN PLACE.
Bushing,
HERE
Lever
Tripping
This screw can be either purchased or manufacUnhardened tured from a suitable material. drill rod would be fine for this application since it machines well, and is easily obtainable.
Tripping
FLARE
Construction
For
Material
Screw-Pivot,
FULL SCALE
PLARE HERE (USE CENTER PUNCH) FLARE
FLARE
5
be made metal.
from
1/16"
standard
Lever
Tripping
This part can be Drill rod as used
made from almost any steel. in #1 would be very good.
Disconnector The
same
material
for construction
used
of this
5
for
part.
#2
can
be
used
5.
Lever
Tripping
and
Pin-Disconnector
#1
used for The same material be used to make this part. Secondary
Pin-Disconnector,
Use for
ie
the
Clip-Retaining, The any
of
material type
of
this
for
#3
can
Engagement
#3,
and
#5
part.
Disconnector
used
#1,
as
material
same
construction
Sear
and
this
semi-flexible
Pin part
can
plastic
be almost such
as
requirement only The or NYLATRON. DELRIN is that this part be flexible or “springy” its it can clip onto and retain so that position on the pin, # 4F.
Fixture-Secondary Any for
Sear Machining
type of steel or this application.
aluminum
can
be
used