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Claims  |
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The invention claimed is:
1. A rifle with improved stock assembly comprising: a barrel and action
assembly including receiver and trigger mechanisms having a barrel
projecting therefrom; separate hollow butt and forehand stock sections
enclosing said barrel and action assembly, said receiver and trigger
mechanisms being enclosed within said buttstock section and said barrel
projecting therefrom through said forehand section; a trigger assembly
projecting from said forehand stock section and including trigger means
for actuation by an operator; and means slidable within said buttstock
section coupling said trigger means to said trigger mechanism for firing
said barrel and action assembly when said trigger means is actuated by an
operator; said buttstock section including means at one external end for
abutting an operator's shoulder, and means internally of said buttstock
section for locating said receiver and trigger mechanisms internally
adjacent to said shoulder-abutting means in inverted orientation, such
that said trigger mechanism and said trigger means project generally
oppositely of the axis of said barrel and action assembly.
2. The rifle set forth in claim 1 further comprising means mounting said
buttstock section onto said forehand stock section for rotation of said
buttstock section with respect to said forehand stock section about said
axis.
3. The rifle set forth in claim 4 further comprising means on said forehand
and buttstock sections for limiting rotation of said buttstock section
equally in both directions about said axis from an orientation wherein
said trigger means and said trigger mechanism are coplanar.
4. The rifle set forth in claim 1 wherein said trigger assembly comprises
means within said forehand stock section for clamping engagement with said
barrel, and a trigger housing affixed to said clamping means and
projecting from said forehand stock section, said trigger means being
carried by said trigger housing for sliding motion parallel to said axis.
5. The rifle set forth in claim 4 wherein said trigger assembly further
comprises pistol grip means adjacent to and projecting from said trigger
housing.
6. The rifle set forth in claim 4 wherein said trigger means comprises a
trigger, guide means for guiding sliding motion of said trigger with
respect to said trigger housing, a first spring biasing said trigger
forwardly of said housing, and follower means coupled to said trigger and
carried by said housing for sliding motion conjointly with said trigger,
said means slidable within said buttstock section being coupled to said
follower means.
7. The rifle set forth in claim 6 wherein said means slidable within said
buttstock section comprises a slide coupled at a forward end to said
follower means and extending within said buttstock section parallel to
said axis, an arm projecting radially from said slide at the rearward end
thereof within said buttstock section adjacent to said shoulder-abutting
means, and means on an end of said arm remote from said slide projecting
perpendicularly of said axis into said trigger mechanism.
8. The rifle set forth in claim 7 further comprising means within said
buttstock section adjacent to said shoulder-abutting means for supporting
and guiding motion of said slide parallel to said axis, and a second
spring for urging said slide forwardly with respect to said supporting and
guiding means.
9. The rifle set forth in claim 7 further comprising means mounting said
buttstock section onto said forehand stock section for rotation of said
buttstock section with respect to said forehand stock section about said
axis.
10. The rifle set forth in claim 9 wherein said slide includes an arcuate
plate having a slot concentric with said axis, said follower means
including means projecting into said slot such that said follower means
remains coupled to said slide within said slot during rotation of said
buttstock section and slide about said axis.
11. The rifle set forth in claim 4 wherein said trigger assembly further
comprises means for mounting an optical scope sight to said rifle, said
scope-mounting means being rigidly affixed to said barrel-clamping means
so as to fixedly orient said scope-mounting means with respect to the said
axis of the barrel clamped by said barrel-clamping means.
12. The rifle set forth in claim 1 wherein said forehand stock section
includes means forming an air cavity surrounding said barrel and apertures
for admitting air into said cavity.
13. The rifle set forth in claim 12 further comprising a funnel-shaped
flash hider projecting from said forehand stock section surrounding the
end of said barrel remote from said buttstock section.
14. The rifle set forth in claim 13 wherein said forehand stock section and
said flash hider are spaced radially of said barrel, such that air is
drawn by venturi forces into said forehand stock section through said
apertures by propulsion of gasses exiting said barrel.
15. An improved stock assembly kit for the barrel and action assembly of a
U.S. M1 carbine which includes trigger, receiver and operating slide
mechanisms having a barrel projecting therefrom, said kit comprising:
a hollow buttstock section including opposed concave half-sections
internally contoured to receive the action portion of said barrel and
action assembly, including said trigger, receiver and operating slide
mechanisms,
a trigger assembly constructed to be mounted to the barrel of said barrel
and action assembly adjcent to the forward end of said buttstock section
externally of said buttstock section,
said trigger assembly including a trigger housing and a trigger mounted for
sliding motion in said trigger housing, said buttstock section including
means at one external end for abutting an operator's shoulder, and means
internally of said buttstock section for locating said receiver and
trigger mechanisms internally adjacent to said shoulder-abutting means in
inverted orientation, such that said trigger mechanism and said trigger
means project generally oppositely of the axis of said barrel and action
assembly,
a trigger slide constructed to be carried within said buttstock section for
slidably coupling said trigger to a said trigger mechanism, and
a hollow forehand stock section including opposed concave half-sections
contoured to be affixed to said trigger assembly and projecting forwardly
therefrom so as to enclose the barrel of a said barrel and action
assembly.
16. The carbine stock kit set forth in claim 15 further comprising means
for mounting said buttstock section onto said trigger assembly and said
forehand stock section for rotation of said buttstock section and said
rifle and action assembly with respect to said trigger assembly and said
forehand stock section about said axis.
17. The carbine stock kit set forth in claim 16 further comprising first
means on said trigger assembly and said forehand stock section and second
means on said buttstock section for limiting rotation of said buttstock
section equally in both directions about said axis from an orientation
wherein said trigger means and said trigger mechanism are coplanar.
18. The carbine stock kit set forth in claim 17 wherein said trigger
assembly further comprises pistol grip means adjacent to and projecting
from said trigger housing.
19. The carbine stock kit set forth in claim 16 wherein said trigger
assembly further comprises means for clamping engagement with said barrel
and means for mounting an optical scope sight to said carbine, said
scope-mounting means being rigidly affixed to said barrel-clamping means
so as to fixedly orient said scope-mounting means with respect to the axis
of the barrel clamped by said barrel-clamping means.
20. The carbine stock kit set forth in claim 16 wherein said forehand stock
section includes means for forming an air cavity surrounding said barrel
and apertures for admitting air internally of said cavity.
21. The carbine stock kit set forth in claim 20 further comprising a
funnel-shaped flash hider for projecting from said forehand stock section
to surround the end of said barrel remote from said receiver and trigger
mechanism.
22. The carbine stock kit set forth in claim 21 wherein said forehand stock
section cavity and said flash hider are spaced radially from said barrel,
such that air is drawn by venturi forces into said cavity through said
apertures by propulsion of gasses exiting said barrel. |
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Claims |
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Description |
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The present invention relates to rifle stocks, and more particularly to an
improved stock assembly which may be provided in the form of a kit for use
in conjunction with a rifle barrel and action assembly of preselected
generic configuration, such as that of a U.S. M1 carbine.
A general object of the present invention is to provide an improved rifle
stock which finds particular application in conjunction with the barrel
and action assembly of a generic rifle configuration, particularly the
U.S. M1 carbine, which when combined therewith is light in weight, which
places the rifle action "on the shoulder" and thereby results in a shorter
overall assembly, which is equally adapted for use by either right-handed
or left-handed operators, which includes facility for accurate mounting of
operators, which includes facility for accurate mounting of an optical
scope sight and/or a carrying handle, which provides enhanced cooling of
the carbine barrel during use, which is both functional and ornamental,
and which may be readily disassembled for maintenance or repair.
The invention, together with additional objects, features and advantages
thereof, will be best understood from the following description, the
appended claims and the accompanying drawings in which:
FIG. 1 is an exploded perspective view of a carbine which includes a
presently preferred embodiment of the stock assembly in accordance with
the present invention;
FIG. 2 is a top plan view of the carbine of FIG. 1 fully assembled;
FIG. 3 is a sectional view taken along the line 3--3 in FIG. 2;
FIG. 4 is a fragmentary sectional view of the buttstock portion of FIG. 3
with portions of the carbine barrel and action assembly shown in phantom;
FIGS. 5-7 are sectional views taken along the respective lines 5--5, 6--6
and 7--7 in FIG. 3;
FIG. 8 is a fragmentary partially sectioned view on an enlarged scale of
that portion of FIG. 3 contained within the circle 8;
FIGS. 9 and 10 are fragmentary sectional views taken substantially along
the respective lines 9--9 and 10--10 in FIG. 8;
FIG. 11 is a fragmentary elevational view substantially from a direction
11--11 in FIG. 9;
FIG. 12 is a fragmentary sectional view taken substantially along the line
12--12 in FIG. 9; and
FIGS. 13-15 are sectional views taken substantially along the respective
lines 13--13, 14--14 and 15--15 in FIG. 3.
The improved rifle stock assembly in accordance with the present invention
is illustrated in the drawings and described in detail hereinafter in
connection with a preferred embodiment thereof for use in combination with
the barrel and action assembly of a standard U.S. cal. 30 M1 carbine. This
embodiment of the invention is preferred because there are literally
millions of M1 carbines available in the hands of collectors and
enthusiasts. However, as will become apparent as the description unfolds,
the principles of the invention may be applied equally as well to other
generic rifle styles or configurations, such as the AR-15 civilian version
of the military M-16. It will also be appreciated that directional
adjectives, such as "forward" and "rearward", are employed in a
descriptive sense in conjunction with conventional orientation of the
rifle, with "rearward" being directed toward the butt section of the rifle
and "forward" being directed toward the open barrel end. The terms
"carbine" and "rifle" are employed somewhat interchangeably in the
description. A "carbine" is a species of "rifle" having a short barrel
length. Implementation of the invention is a "carbine" is preferred.
However, it will become apparent as the description unfolds that the
principles of the invention apply equally as well to other types of
"rifles".
In general, the present invention contemplates an improved stock, which may
be provided in the form of a kit for example, for use in conjunction with
the barrel and action assembly of a generic rifle or carbine
configuration, and the carbine or rifle which results from such a
combination. The stock kit includes a pair of concave half-sections which
are adapted to be assembled to each other in opposed relation so as to
form a hollow buttstock section. The butt half-section cavities are
internally contoured to snugly receive the action portion of a selected
type of barrel and action assembly, i.e. the receiver, trigger and
operating slide, with the action being located within the buttstock
section internally adjacent to the shoulder abutment end thereof. A
trigger housing assembly includes a trigger housing adapted to be firmly
but rotatably clamped to the barrel of the barrel and action assembly
immediately adjacent to the forward end of the buttstock section. A
trigger is mounted in the trigger housing for sliding motion in a
direction parallel to the barrel axis and is coupled to the trigger
mechanism of the generic barrel and action assembly by a slide which
extends through the buttstock section. The trigger housing includes a
pistol-type grip and facility for mounting an optical scope sight and/or a
carrying handle in accurate location with respect to the axis of the
rotatably clamped barrel.
A pair of concave half-sections are adapted to be mounted in opposed
relation to form a forehand stock section which encloses the barrel and
that portion of the trigger housing assembly clamped thereto. The forehand
stock half-sections include apertures for admitting cooling air into the
volume or chamber which surrounds the barrel. An outwardly opening conical
or funnel-shaped flash hider is captured by the forehand stock
half-sections surrounding the trigger-remote or free end of the barrel.
The flash hider and forehand stock half-sections are radially spaced from
the free end of the barrel, which is to say that the free end of the
barrel floats within and is not clamped by the stock. This not only
provides enhanced firing accuracy but also promotes circulation of cooling
air through the forehand stock section cavity by venturi action during
firing of the rifle.
Turning now to the drawings in detail, the reference numeral 20 indicates a
barrel and action assembly from a standard U.S. M1 carbine with buttstock,
stock, handguard, front sight and recoil plate removed, and with
relatively minor modification made thereto for use in conjunction with the
stock assembly of the invention. Only such modifications will be described
in detail. The laterally projecting handle (not shown) on the operating
slide 22 is removed and replaced by an apertured tab or handle 24 which is
affixed to the slide 22 and projects therefrom in the plane of the action
trigger mechanism 26. The safety and magazine catches are removed and
replaced by the safety and magazine catches 28,30, which are identical to
those that they replaced but possess lengthened actuator buttons so as to
extend through the walls of the buttstock section to be described. The
trigger housing retaining pin, which couples trigger mechanism 26 to the
magazine receiver mechanism 32 through the aperture 33, is likewise
removed.
A buttstock section 34 comprises a pair of opposed generally concave
buttstock half-sections 36,38 which are internally contoured so as to
snugly receive and firmly clamp the action portion of barrel and action
assembly 20, that is trigger and receiver mechanisms 26,32 and operating
slide 22. Safety catch 28 projects through opposed aligned apertures 40 in
the respective buttstock half-sections 36,38, and magazine release catch
30 projects through an aperture 42 in left-hand buttstock section 38. As
best seen in FIG. 2, the upper edges of the concave buttstock sections are
oppositely recessed or contoured along their upper edges so as to provide
a slot 44 at the half-section parting line parallel to the barrel axis
through which slide handle 24 projects and is slidable for operating slide
22. Slide 22 is, of course, slidable within section 34 for operating the
rifle. Buttstock sections 36,38 are fastened to each other by the screw 43
and nut 45 (FIGS. 3 and 13) which extend through aperture 33.
A trigger housing assembly 46 includes a one-piece trigger housing 48 in
the form of a flat plate 49 having a pair of axially aligned spaced
integral semi-cylindrical bridges 50. Trigger housing plate 49 extends
upwardly from bridges 50 and flares outwardly to form a planar platform 64
parallel to the axis of bridges 50. A bar 52 (FIGS. 1 and 7) is snugly
clamped to plate 49 beneath platform 64 by the screws 56 which extend
through openings 58 in plate 49 into internally threaded openings 60 in
bar 52. Bar 52 has a pair of spaced coaxial arcuate tabs or ears 54
laterally aligned in assembly with bridges 50. Plate 49 and bar 52 are
accurately formed so that bridges 50 and tabs 54 cooperate to snugly but
not tightly clamp barrel 62 of barrel and action assembly 20 immediately
forward of buttstock section 34. Trigger housing 48 is free to rotate
about barrel 62 but is restrained from substantial lateral (radial)
movement with respect thereto. A threaded stud 66 (FIGS. 1-3 and 7)
projects upwardly from platform 64 and cooperates with a knurled jamnut 68
for fastening an optical scope sight (not shown) accurately with respect
to the barrel axis, or for removably mounting a carrying handle (not
shown) to the carbine.
A trigger 70 includes a head 72 having a concave forward edge configured to
be engaged by a user's finger, and a generally rectangular rear body or
shank 74 slidably disposed within a laterally opening rectangular pocket
76 on trigger housing plate 49 (FIG. 11). A longitudinal slot 78 (FIGS. 8
and 11) in trigger shank 74 is received over a pin 80 which projects
through housing plate 49 and cooperates with the top and bottom edges of
pocket 76 for guiding sliding motion of trigger 70 in a direction parallel
to the barrel axis. Pin 80 cooperates with the coil spring 82 (FIGS. 8 and
11) in slot 78 so as to bias or urge trigger 70 to the forward position
illustrated in the drawings. Trigger head 72 is enlarged laterally and
cooperates with a flat edge 83 (FIGS. 1, 3 and 8) on plate 49 to form an
abutment stop to rearward motion of trigger 70. A follower 84 (FIGS. 8, 9
and 12) has a central longitudinal slot 86 received over the pin 88 (FIGS.
1, 8 and 9) extending through trigger housing plate 49 for slidably
guiding and capturing follower 84 in an upwardly opening central slot 90
(FIGS. 8 and 9) in the trigger housing plate. As best seen in FIG. 9, slot
90 is coplanar in assembly with the axis of barrel 62. A downwardly
projecting tab or dog 92 on follower 84 is received within a corresponding
upwardly opening notch 94 (FIGS. 8 and 11) on trigger shank 74.
A second tab or dog 96 (FIGS. 8, 9 and 12) projects upwardly from follower
84 into and through an opening 98 in an arcuate trigger slide plate 100.
Plate 100 is an integral part of a trigger slide 102 which extends from
plate 100 along the inside wall of right-hand buttstock half-section 36
(FIGS. 4 and 15) generally parallel to the barrel axis to adjacent the
rearward end of buttstock section 34. An arm 104 (FIGS. 1, 3, 4 and 15)
extends upwardly from slide 102 along the inside wall surface of the
buttstock half-section. A resilient button 106 is affixed to the free end
of arm 104 and projects laterally therefrom into the trigger mechanism 26
of barrel and action assembly 20. Thus, slide 102 functions to couple
trigger 70 of trigger housing assembly 46 to trigger mechanism 26 captured
within and enclosed by buttstock section 34. A cylindrical collar 108
(FIGS. 1, 4 and 15) is affixed to the inwardly facing surface of arm 104
above slide 102 and is slidable in a direction parallel to the barrel axis
on a guide rod 110. Guide rod 110 is supported at opposed ends within the
apertures 112,114 (FIGS. 1, 4 and 14) in bosses which inwardly project
from right-hand buttstock section 36 forwardly and rearwardly of trigger
mechanism 26 (FIG. 4) and carries a coil spring 116 (FIGS. 1 and 4). Coil
spring 116 is captured in compression on rod 110 between collar 108 and
the shoulder or embossment surrounding rearward aperture 114 for normally
biasing trigger slide 102 to the forward or non-firing position
illustrated in the drawings. Thus, squeezing of trigger 70 against the
force of springs 82,116 functions through follower 84, slide 102, arm 104
and button 106 to squeeze trigger mechanism 26 against the buttstock
support, and thus to fire the rifle.
Trigger housing plate 49 integrally projects downwardly from trigger 70 in
the configuration of a pistol grip 119. A pair of pistol grip sections
120,122 are received by press-fit over the pins 124,80 (FIGS. 1 and 9-11)
on trigger housing plate 49 and are thereby fastened to the trigger
housing. Note that the pin 80 thereby functions both to mount the
contoured grip sections 120,122 and to bias trigger 70 forwardly in
cooperative combination with spring 82 (FIGS. 8 and 11) as previously
described. Right-hand grip section 122 captures trigger shank 74 laterally
within pocket 76 and spring 82 within trigger slot 78. A pair of
part-cylindrical wings 126,128 integrally project upwardly from the pistol
grip portion 119 adjacent to the rearward edge of trigger housing plate 49
coaxially with barrel clamping bridges 50. In assembly, as best seen in
FIGS. 9 and 10, trigger housing wings 126,128 embrace a corresponding pair
of part-cylindrical walls 130,132 on the respective buttstock sections
38,36. Walls 130,132 terminate in a pair of downwardly facing shoulders
134,136. A lateral slot 138 (FIGS. 8 and 10-11) in trigger housing plate
49 between wings 126,128 receives the notch 140 which depends from and is
formed by the respective buttstock half-sections 36,38. It will also be
noted with particular reference to FIGS. 9 and 12 that the aperture 98 in
arcuate slide plate 100 is likewise arcuate and includes a forwardly
oriented opening 142 (FIG. 12). Thus, buttstock section 34, including
barrel and action assembly 20 embraced thereby and trigger slide 102
captured therein, are free to rotate with respect to trigger housing 48
about the axis of barrel 62, which is rotatably embraced by the trigger
housing as previously described. Preferably, such rotation is accommodated
in equal opposite angular directions, illustrated in solid and phantom in
FIG. 10, from the nominal position illustrated in the remaining figures
wherein the trigger mechanism 26 of the barrel and action assembly and
trigger 70 within the trigger housing are nominally coplanar. Rotation of
the buttstock in opposite angular directions is limited by abutment of
buttstock shoulders 134,136 with the opposing edges of trigger housing
wings 126,128.
A forehand stock 150 is formed by a pair of concave forehand stock
half-sections 152,154. The rearward portions of stock half-sections
152,154 are internally contoured, as best seen in FIG. 7, to be snugly
received over the barrel-clamping section of trigger housing 48 and to be
fastened thereto by the screw 156 (FIG. 7). Screw 156 extends through
half-sections 152,154 and through trigger housing 48 into the threaded nut
158 molded into half-sections 154. The mid-portions of forehand stock
half-sections 152,154 are contoured, as best seen in FIG. 6, to form an
air chamber 159 surrounding barrel 62 of barrel and action assembly 20
extending therethrough. Apertures 160 are formed in the walls of the
opposing stock half-sections 152,154 for admission of cooling air. A ring
171 is telescopically received over barrel 62 and is clamped thereto by
the setscrew 169 in facing abutment with the rear portions of forehand
stock half-sections 152,154, as best seen in FIG. 3. During rotation of
buttstock 34 in opposite angular directions, axial positioning of the
trigger housing with respect to the barrel is maintained by ring 171 and
setscrew 169.
A conical flash hider 162 (FIGS. 1-3 and 5) includes a cylindrical collar
164 having an outwardly projecting flange 166 at its rearward end captured
within a circular notch 168 formed by the opposing forward ends of
forehand stock half-sections 152,154. A conical body 170 is affixed to and
opens forwardly of collar 164 surrounding the free end of barrel 62 (FIG.
3). A clamp ring 172 embraces the forward ends of forehand stock
half-sections 152,154 so as to capture flash hider 162 therebetween.
Preferably, as best seen in FIGS. 3 and 5, forehand stock half-sections
152,154, and collar 164 of flash hider 162 captured thereby, are radially
spaced from barrel 62, which is to say that barrel 62 is free-floating
within the flash hider and forehand stock. This not only provides for free
rotation of the barrel and action assembly and buttstock 34 with respect
to trigger housing assembly 46 and forehand stock 150 affixed thereto by
screw 156, but also provides for enhanced cooling of barrel 62 during
operation. More particularly with respect to the latter feature, the force
of combustion gases exiting the free end of barrel 62 during firing
cooperates with the geometry of conical body 170 to draw cooling air by a
venturi-type action through apertures 160 into and through forehand stock
cavity 159 surrounding barrel 62 and through the passage 180 (FIG. 5)
between collar 164 and barrel 62.
Operating slide handle 24 is apertured so as to cooperate with a pair of
apertures 182 (FIGS. 1, 3 and 4) in buttstock section 34 on either side of
the rearward end of slot 44 for locking handle 24 in the rearward position
for maintenance or cleaning of the action. A padded shoulder-abutment cap
184 is received and held by snap-fit or by screws (not shown) over the
convex rearward end of buttstock 34 to hold the buttstock sections
together. It will be noted in the drawings that the barrel and action
assembly 20 is assembled into buttstock section 34 in upside-down
orientation, with the trigger mechanism 26 projecting upwardly. Thus, the
opposing edges of buttstock half-sections 36,38 are contoured to form an
upwardly opening magazine aperture 186 (FIGS. 2-4) and a downwardly
opening shell ejection aperture 188 (FIGS. 3-4). Front clamp 172 (FIGS.
1-3 and 5) may be replaced by a clamp having a ring depending therefrom,
which may cooperate with an aperture 190 (FIGS. 1, 3 and 4) at the lower
rearward end of buttstock section 34 for attachment of a shoulder strap or
the like.
Thus, in accordance with a first feature of the disclosure, an improved
stock assembly is provided for use in conjunction with a barrel and action
assembly of generic configuration, preferably a U.S. M1 carbine, to form a
new and improved rifle or carbine. The stock sections are configured so as
to place the action of the barrel and action assembly adjacent to the
rearward or shoulder-abutment end of the buttstock section, thereby
yielding an overall shorter rifle while maintaining original actual barrel
length. In the presently preferred implementation of the invention, it is
contemplated that the improved rifle stock will be provided in the form of
a kit for assembly to a pre-existing barrel and action assembly by the
user. Such kit would include the four stock half-sections 36, 38, 152,
154, flash hider 162, clamp 172, handle 24, releases 28,30, bar 52, cup
184 and grip section 120, together with mounting screws, etc. Slide 102,
bar 110 and spring 116 may be preassembled to buttstock half-section 36.
The trigger housing would be provided as a sub-assembly in the form
illustrated in FIG. 1 with grip section 122 affixed thereto to capture the
trigger therein, as described. Preferably, all stock and hand grip
sections are of light-weight impact-resistant molded plastic construction
for reducing weight of the overall assembly. The resulting assembly is not
only easier to carry than was the original carbine, but also possesses a
distinctive and pleasing appearance.
In accordance with another feature of the disclosure, the buttstock section
is rotatable about the axis of the barrel with respect to the trigger
housing and forehand stock sections. This is particularly advantageous
where the magazine projects upwardly from the buttstock since sighting
down the forehand stock and barrel is greatly facilitated. Moreover, the
ability to rotate the buttstock in either direction, particularly combined
with the upward rather than lateral projection of operating slide handle
24, makes the overall carbine assembly more comfortable to use for either
left-handed or right-handed operators. The carbine and improved stock
assembly of the disclosure provides enhanced cooling of the barrel by
circulation of cooling air therearound by a venturi-type action through
the flash hider, while providing a gripping surface and protecting the
user against direct contact with the barrel during operation. As
previously noted, the scope mounting platform 64 is accurately positioned
with respect to the axis of the barrel 62. The improved stock assembly
includes a minimum number of moving parts, and may be readily disassembled
for maintenance or repair.
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Description |
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