U.S. patent application number 13/271904 was filed with the patent office on 2012-04-12 for systems and methods of accessory mounting.
Invention is credited to RUSSELL W. LANG.
Application Number | 20120085331 13/271904 |
Document ID | / |
Family ID | 45924142 |
Filed Date | 2012-04-12 |
United States Patent
Application |
20120085331 |
Kind Code |
A1 |
LANG; RUSSELL W. |
April 12, 2012 |
SYSTEMS AND METHODS OF ACCESSORY MOUNTING
Abstract
Embodiments according to the present invention provide improved
systems and methods for mounting accessories, such as a
rangefinder, to supporting structure, such as an archery bow or
firearm. The improved accessory mount includes one or more brackets
adapted to interface to the accessory and to the supporting
structure. Preferred brackets provide universal adaptability
between and amongst a variety of supporting structures.
Inventors: |
LANG; RUSSELL W.;
(Mukwonago, WI) |
Family ID: |
45924142 |
Appl. No.: |
13/271904 |
Filed: |
October 12, 2011 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12229406 |
Aug 22, 2008 |
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13271904 |
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61404944 |
Oct 12, 2010 |
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Current U.S.
Class: |
124/88 |
Current CPC
Class: |
F41B 5/1484 20130101;
F41G 11/004 20130101; F41B 5/10 20130101; F41G 1/473 20130101; F41G
1/467 20130101 |
Class at
Publication: |
124/88 |
International
Class: |
F41B 5/14 20060101
F41B005/14 |
Claims
1. In combination with an archery bow having a riser body with a
grip disposed thereon, the riser body having a draw side and a
sight side, one or more standoffs coupled to, and extending
generally longitudinally outward from, the draw side above the
grip, an accessory bracket comprising: a support structure
interface including a first leg and a second leg, the first leg and
second leg being coupled by a hinge member; and a first standoff
notch provided on one of said first and second legs, the first
standoff notch configured to lie circumjacent to at least a portion
of one of the standoffs, wherein the accessory bracket is supported
by the one or more standoffs.
2. A combination according to claim 1 further comprising a second
standoff notch provided on the other of said first and second legs,
the second standoff notch configured to lie circumjacent to at
least a portion of one of the standoffs.
3. A combination according to claim 2 wherein the first standoff
notch and the second standoff notch cooperate to form a mounting
aperture.
4. A combination according to claim 3, wherein the mounting
aperture is formed when the legs are arranged in a substantially
parallel relationship to one another.
5. A combination according to claim 4, wherein the parallel
relationship is secured by a threaded fastener extending through
one of the legs and threadably engaging the other leg.
6. A combination according to claim 3, wherein the mounting
aperture has a cross-section mateable with one of the
standoffs.
7. A combination according to claim 1, further comprising a yoke
arm fixed to each leg, each yoke arm extending away from the hinge
member to a free yoke end.
8. A combination according to claim 7, wherein when the legs are
hingedly moved apart with respect to each other, the yoke arms are
moved toward each other.
9. A combination according to claim 7, each yoke free end including
a longitudinal slot disposed along a slot length.
10. A combination according to claim 9, said slots having a
C-shaped cross-section.
11. A combination according to claim 9, at least one slot being
terminated at one end.
12. A combination according to claim 9, wherein the slots are
parallel and disposed at a relative slot spacing.
13. A combination according to claim 12, further comprising: an
accessory supported by said accessory bracket, the accessory having
two parallel rails disposed thereon, the rails being disposed at a
relative rail spacing, wherein the rail spacing is substantially
equal to the slot spacing.
14. A combination according to claim 13, wherein the rails are
frictionally engaged with the slots.
15. A combination according to claim 14, wherein the accessory is
an electronic range finder.
16. A combination according to claim 1 further including an
accessory mounted in a spaced relationship from the riser body and
supported by the one or more standoffs.
17. A combination according to claim 15, wherein the accessory is a
sight mounting bracket.
18. A combination according to claim 15, wherein the accessory is a
quiver.
Description
RELATED APPLICATIONS
[0001] This application claims the benefit of co-pending U.S.
Provisional Patent Application Ser. No. 61/404,944, filed 12 Oct.
2010, and entitled "Systems and Methods of Accessory Mounting."
[0002] This application is also a continuation-in-part of
co-pending U.S. patent application Ser. No. 12/229,406, filed 22
Aug. 2008, and entitled "Archery Bow Accessory Mount," which is
incorporated herein by reference in its entirety.
BACKGROUND OF THE INVENTION
[0003] The present invention relates generally to the field of
supporting structures, such as brackets and the like, and more
particularly to the positioning and support of an accessory, such
as a rangefinder, in relation to a weapon, such as an archery bow
or a firearm, or other structure.
[0004] Generally, an archery bow comprises a riser body and a pair
of limbs extending from opposite ends of the riser body. Strung
between the limbs is a bowstring. An archery bow may be provided as
a compound bow or a long bow; a compound bow having cams provided
on the limbs around which the bowstring is threaded and a long bow
not having such cams. Regardless of whether a bow is compound or
long, a grip is provided on the riser body to be grasped by one
hand of a user while the bowstring is drawn with the other hand.
The grip defines a pivot point that is usually engaged by the
user's thumb and forefinger.
[0005] Many accessories have been developed for use with and
integration onto archery bows, such as sights, quivers, stabilizers
and silencers. However, other accessories that may be of value to a
user of an archery bow may not have been designed to be integrated
onto or supported by the bow. For instance, a handheld rangefinder,
camera, digital music player, microphone, or other accessory, may
be desirable to be used in conjunction with an archery bow, but is
likely not to have been designed with such a specific use in mind.
For convenience, since the operation or firing of an archery bow
requires two hands, it may be desirable to mount such an accessory
in a convenient location relative to various components of the
archery bow.
[0006] Furthermore, a firearm, such as a rifle, generally comprises
a stock extending proximally to a butt end. The stock generally
supports a barrel extending distally to a muzzle end. Also usually
supported by the stock is the firing mechanism, which may include a
trigger, a safety, an ammunition chamber, etc. The firing mechanism
is usually disposed distally of a hand grip that may be formed into
the stock. Situated usually even more distally than the firing
mechanism, there may be a means for mounting an accessory to the
barrel of the rifle, such as an optical scope or sight.
[0007] While limited mounting locations may be provided on a rifle,
other locations, and perhaps other accessories, that may be of
value to a shooter may not have been designed to be integrated onto
or supported by the rifle. For instance, a handheld rangefinder,
camera, digital music player, microphone, or other accessory, may
be desirable to be used in conjunction with a rifle, but is likely
not to have been designed with such a specific use in mind. For
convenience, since the operation or firing of a firearm, and
especially a rifle, may require two hands, it may be desirable to
mount such an accessory in a convenient location relative to
various components of the firearm.
[0008] While devices and methods have been developed for supporting
accessories on weapons and other structures, such developments may
not have appreciated relative positioning of accessories in
relation to the weapon, as well as desired interchangeability
between mounting the same accessory on first an archery bow and
then on a firearm, or vice versa. Therefore, the art of supporting
accessories on or near an archery bow would benefit from an
improved apparatus for positioning an accessory in relation to a
support structure and to allow for uniform mounting structure to be
provided on various weapons to allow for ease of transfer of an
accessory from one weapon or support structure to another.
SUMMARY OF THE INVENTION
[0009] An apparatus according to the present invention provides an
improved apparatus for positioning an accessory in relation to a
support structure and to allow for uniform mounting structure to be
provided on various weapons to allow for ease of transfer of an
accessory from one weapon or support structure to another.
[0010] In one embodiment of a combination according to the present
invention, an archery bow has a riser body with a grip disposed
thereon. The riser body has a draw side and a sight side. One or
more standoffs may be coupled to, and extend generally
longitudinally outward from, the draw side above the grip. An
accessory bracket may be supported by one or more of the standoffs.
The accessory bracket includes a support structure interface
including a first leg and a second leg, which are coupled by a
hinge member. A first standoff notch is provided on one of the
legs, the notch being configured to lie circumjacent to at least a
portion of one of the standoffs.
[0011] According to an aspect of an embodiment according to the
present invention, a second standoff notch may be provided on the
other of the legs, where the second standoff notch is configured to
lie circumjacent to at least a portion of one of the standoffs. The
first standoff notch and the second standoff notch may cooperate to
form a mounting aperture, which may be formed when the legs are
arranged in a substantially parallel relationship to one another.
The mounting aperture may have a cross-sectional shape that is
mateable with one of the standoffs. The legs may be arranged in a
parallel relationship and secured by a threaded fastener extending
through one of the legs and threadably engaging the other leg.
[0012] According to another aspect of an embodiment according to
the present invention, to each leg there may be attached or formed
integrally therewith a yoke arm extending from the hinge member to
a free yoke end. The yoke arms may move simultaneously with the
legs and when the legs are hingedly moved apart with respect to
each other, the yoke arms may be moved toward each other. Each yoke
free end preferably includes a longitudinal slot disposed along a
slot length. The slots may have a C-shaped, such as a squared-off
C-shaped, cross-section. One or both of the slots may be terminated
at one end, and the slots are preferably spaced from each other at
a relative slot spacing.
[0013] According to still another aspect according to the present
invention, an accessory may be supported by the accessory bracket.
The accessory preferably has two at least substantially parallel
rails disposed thereon at a relative rail spacing with respect to
each other. The rail spacing may be at least substantially equal to
the slot spacing. The rails preferably have a T-shape or I-shape
cross-section adapted to frictionally engage the slots provided on
the yoke arms. In one embodiment, the accessory is an electronic
range finder.
[0014] According to yet another aspect according to the present
invention, an accessory may be directly mounted to and supported by
one of the standoffs in a spaced relationship from the riser body.
Such accessory may be a sight mounting bracket or an arrow quiver,
for example.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIG. 1 is a left elevation view of a first embodiment of a
bracket according to the present invention mounted to an
accessory.
[0016] FIG. 2 is a bottom perspective view of the embodiment of
FIG. 1.
[0017] FIG. 3 is a right elevation view of a first archery setup
including a sight bracket installed on an archery bow.
[0018] FIG. 4A is a front left perspective view of the archery
setup of FIG. 3.
[0019] FIG. 4B is a rear right perspective view of a portion of a
second archery setup.
[0020] FIG. 5A is a perspective view of a sight bracket with a
first embodiment of mounting standoffs according to the present
invention.
[0021] FIG. 5B is a perspective view of a sight bracket with a
second embodiment of mounting standoffs according to the present
invention.
[0022] FIG. 5C is a perspective view of a sight bracket with a
third embodiment of mounting standoffs according to the present
invention.
[0023] FIG. 5D is a perspective view of a sight bracket with a
fourth embodiment of mounting standoffs according to the present
invention.
[0024] FIG. 6A is a first perspective view of a first embodiment of
a support bracket according to the present invention.
[0025] FIG. 6B is a second perspective view of the embodiment of
FIG. 6A.
[0026] FIG. 6C is a rear elevation view of the embodiment of FIG.
6A.
[0027] FIG. 7A is a side elevation view of a portion of a second
embodiment of a support bracket according to the present
invention.
[0028] FIG. 7B is a side elevation view of a portion of a third
embodiment of a support bracket according to the present
invention.
[0029] FIG. 7C is a side elevation view of a portion of a fourth
embodiment of a support bracket according to the present
invention.
[0030] FIG. 8 is a first rear right perspective view of an
accessory bracket interfacing with a support bracket.
[0031] FIG. 9A is a second rear right perspective view of the
accessory bracket of FIG. 8 interfacing with the support bracket of
FIG. 8.
[0032] FIG. 9B is the view of FIG. 9A, further including a remote
triggering structure.
[0033] FIG. 10 is a left side perspective view of a rifle including
an optical scope mounted thereto.
[0034] FIG. 11 is a perspective view of an embodiment of a
supplemental accessory bracket according to the present
invention.
[0035] FIG. 12 is a perspective view of the embodiment of FIG. 11
interfacing with the first embodiment of an accessory interface
according to the present invention.
[0036] FIG. 13 is the view of FIG. 10 further including a first
embodiment of a tubular support bracket according to the present
invention.
[0037] FIG. 14A is a top plan view of an embodiment of an
adjustable bracket according to the present invention in a first
position.
[0038] FIG. 14B is a top plan view of the embodiment of FIG. 14A in
a second, extended position.
[0039] FIG. 15 is a perspective view of the adjustable bracket of
FIG. 14A interfacing with the first embodiment of a tubular support
bracket according to the present invention.
[0040] FIG. 16 is a top perspective view of the structure shown in
FIG. 12 interfacing with the structure shown in FIG. 15.
[0041] FIG. 17A is a first bottom perspective view of the structure
shown in FIG. 16.
[0042] FIG. 17B is the view of FIG. 17A, further including a remote
triggering structure and exemplary placement locations.
[0043] FIG. 18 is a second bottom perspective view of the structure
shown in FIG. 16.
[0044] FIG. 19 is a perspective view of a second embodiment of a
tubular support bracket according to the present invention.
[0045] FIG. 20 is a rear elevation view depicting the embodiment of
FIG. 19 installed about a tubular support structure.
[0046] FIG. 21 is a perspective view of a third embodiment of a
tubular support bracket according to the present invention.
[0047] FIG. 22 is a perspective view of a fourth embodiment of a
tubular support bracket according to the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT
[0048] Although the disclosure hereof is detailed and exact to
enable those skilled in the art to practice the invention, the
physical embodiments herein disclosed merely exemplify the
invention which may be embodied in other specific structures. While
the preferred embodiment has been described, the details may be
changed without departing from the invention, which is defined by
the claims.
[0049] Turning now to the figures, FIG. 1 and FIG. 2 provide a
first embodiment 100 of an accessory bracket according to the
present invention. The bracket 100 is shown coupled to an accessory
900, which in this case is an embodiment of an optical rangefinder.
Generally, the accessory 900 extends from a proximal end 902 to a
distal end 904. A rangefinder eyepiece portion 906 may extend
distally from the proximal end 902, and may be supported by a
portion 908 of an accessory housing 910. Another portion 912 of the
housing 910, where the portion 912 may extend proximally from the
distal end 904, may contain electronic processing means and a power
supply (not shown) for operation of the rangefinder 900. The
eyepiece 906 may be operatively coupled to the electronic
processing means by way of, e.g., electrical wires (not shown)
disposed in a conduit portion 914 of the housing 910.
[0050] The accessory bracket 100 preferably provides an accessory
interface 110. The accessory interface 110 preferably includes a
structure that may be readily mated to a support interface provided
on a support bracket according to the present invention. For
instance, the accessory interface 110 may include one or more
engagement structures, such as snaps, clips, hook and loop
fasteners, etc. A preferred engagement structure is one or more
rail members 112. The preferred rail members 112 are preferably
provided as a pair of at least substantially parallel rails
provided along a rail length 114 and spaced by a rail spacing 116.
Preferred rails 112 have a generally T-shaped or I-shaped
cross-section. The accessory bracket 100 may further include a
mounting plate 120 to which the accessory interface 110 may be
mounted. Alternatively, the accessory interface 110 may be disposed
directly on the accessory 900. If used, the mounting plate 120 has
a top surface 122 preferably adapted to mate with a portion of an
accessory 900, and a bottom surface 124, which is disposed
substantially opposite the top surface 122. The mounting plate 120
may be secured to the accessory 900 by any conventional means, such
as by adhesive and/or fastening members 126. The accessory
interface 110 may be secured to the bottom surface 124 of the
mounting plate 120. Preferred materials for the mounting plate 120
include a thermoformed plastic or a light metal material, such as
aluminum or brass, and preferred materials for the rails 112
include same. It is to be appreciated that the rails 112 may be
formed integrally with or attached to the mounting plate 120 which
may be formed integrally with or attached to the accessory housing
910.
[0051] With reference to FIGS. 3-5D, various views and embodiments
of support structures may be seen, to which it may be desirable to
mount an accessory 900. For instance, FIG. 3 depicts a portion of
an archery bow 800. The archery bow 800 includes a riser body 802
having an upper riser portion 804 and a lower riser portion 806.
Depending at least partially rearwardly from the upper portion 804
of the riser body 802 is an upper limb 808. Depending at least
partially rearwardly from the lower portion 806 of the riser body
802 is a lower limb (not shown). Coupled to, or formed as a part of
the riser body 802, between the upper portion 804 and the lower
portion 806, or at the intersection thereof, is a grip 812, which
establishes a pivot point 814. When the grip 812 is grasped by a
hand of a user, the pivot point 814 normally engages at least the
proximal phalanges of the user's thumb and forefinger.
[0052] Coupled to the riser body 802 is a bow sight 816. This sight
816 happens to include a sight mounting bracket 818 mounted to the
riser body 802 with a pair of threaded fasteners 820. As is
conventional, there are many bow accessories that are configured to
be mounted to the riser body 802 of a bow by the use of threaded
fasteners 820. Usually, as can be seen in FIG. 4A, accessories such
as the sight mounting bracket 818 may be spaced by one or more
spacers or standoffs 822 situated between the riser body 802 and
the accessory 818, through which the threaded fasteners 820 may
pass. Thus, a gap 823 is provided between the riser body 802 and
the sight mounting bracket 818. Additionally or alternatively,
standoff extensions 824 may be provided, extending away from the
riser body 802, as opposed to being situated between the riser body
802 and a mounted accessory 818. Such standoff extensions 824 are
preferably formed from a rigid material, such as metal (aluminum or
steel) or plastic of sufficient strength, and they may be provided
in a variety of configured cross-sections, examples of which can be
seen in FIGS. 4B-5D. Such standoff extensions 824 may be provided
as separate and distinct extensions 824, for instance having
circular 824, triangular 824', rectangular 824'', or oval 824'''
cross-sections. Alternatively, both standoff extensions 824 may be
provided as a unitary member 825 configured to span a standard
distance provided between the threaded fasteners 820. The standoffs
824 may be provided with smooth or threaded apertures 824a through
which the threaded fasteners 820 may be fed and then engaged with
the riser body 802 of a bow so as to secure the standoff extensions
824 thereto. While the various cross-sections of standoffs are
shown with respect to the standoff extensions 824, it is to be
understood that such cross-section configurations may be applied to
the standoffs 822 that may be disposed between a mounted accessory
818 and the riser body 802.
[0053] Accordingly, it may be desirable to mount an accessory 900,
which may be in addition to a previously mounted accessory, such as
the sight mounting bracket 818, to an archery bow. Referring now to
FIGS. 6A-7C, various views and embodiments of support brackets may
be seen, which are preferably configured to interface with an
accessory interface 110 provided on an accessory bracket 100
according to the present invention. Generally, a support bracket
200 according to the present invention may provide a bracket
interface 210 and a support structure interface 250. The bracket
interface 210 is configured to mate with and/or cooperate with the
accessory interface 110 provided on or coupled to the accessory
900. For instance, if the accessory interface 110 includes a pair
of parallel rails 112, the bracket interface 210 preferably
includes a pair of parallel slots 212 disposed along a slot length
214 and, when the bracket 200 is in a desired installed
orientation, such as that shown in FIG. 6B, disposed at a slot
spacing 216. The slot length 214 and the slot spacing 216 are
preferably substantially the same as the rail length 214 and the
rail length 114 and the rail spacing 116. The slots 212, which may
have a generally C-shaped cross-section adapted to interface with
the T-shaped or I-shaped cross-section of the rails 112, may be
disposed on a yoke structure 220 including a first arm 222 and a
second arm 224. The slots 212 may be terminated at one end or
another to provide a seat for the mating rails 112, but more
preferably, the slots 212 are open on each end thereof to allow
multilateral insertion of the rails 112.
[0054] The support structure interface 250 generally preferably
includes a first leg 252 and a second leg 254 which are movable
with respect to one another, such as by being coupled to a hinge
member 240. The hinge member 240 is configured to allow generally
planar separation of the legs 252,254 so as to create a mounting
gap 256 therebetween, as shown in FIG. 6A. Also provided on one or
both legs 252,254 are one or more standoff notches 258. If the
standoff notches 258 are provided on each leg 252,254, then for
each standoff notch 258 provided on the first leg 252, there is
preferably a mating standoff notch 258 provided on the second leg
254. Alternatively, each notch 258 may be formed entirely into one
leg 252 or the other 254. When the mounting gap 256 is closed or at
least decreased, the mounting notches 258 preferably cooperate to
form mounting apertures 260 configured to interface with a
predetermined or unknown arrangement of standoffs 824, previously
described. To maintain the legs 252,254 in a closed or secured
position, a thumb screw 262 may be provided, preferably configured
to be threadably engaged through the first leg 252 and into the
second leg 254. The mounting apertures 860 may be of any shape
mateable or cooperable with such standoffs 824. As shown in FIG.
6B, the apertures 860 are provided as generally circular to
interface with standoffs 824 having a generally circular
cross-section. In FIG. 7A, the mounting apertures 860' have a
generally triangular shape to interface with standoffs 824' having
a generally triangular cross-section. Additionally or
alternatively, one or more mounting channels 864 may be provided on
the support structure interface 250. For instance, in FIG. 7B, a
mounting channel 864 is configured to interface with a unitary
member standoff 825. While shown with the hinge member 240, such
support structure interface 250'' may be provided as a stationary
interface with the legs 252,254 disposed at a predetermined channel
gap 266 from each other. In this way, the legs 252,254 may be
positioned in a downward mounting direction 268 to straddle the
standoff 825. Such an arrangement is particularly useful if
obstructions are provided in relatively close proximity on both
sides of the standoff 825. Where an obstruction is provided only on
a single side of the standoff(s), it may be desirable to provide
mounting capability in a lateral proximal (not shown) or distal
direction 270. Such capability may be provided by the support
structure interface 250''' provided in FIG. 7C, in which one or
more laterally accessible mounting channels 272 are provided to
cooperate with standoffs 824. A mounting pin 274, which may be
secured to the support structure interface 250'' with a threaded
thumbscrew 263, may be used to close off the channels 272 once the
channels 272 have been cooperated with the standoffs 824.
[0055] The yoke arms 222,224 on which the slots 212 are preferably
supported may be fixedly arranged with respect to one another, but
more preferably, each arm extends into or is coupled to one of the
legs 252,254 of the support structure interface 250. As shown, when
the legs 252,254 are separated to form the mounting gap 256, the
yoke arms 222,224 move towards each other. An alternative scissor
arrangement (not shown) may be desirable for some applications, in
which when the legs 252,254 are separated to form the mounting gap
256, the yoke arms 222,224 move away from each other. In such
scissor arrangement, the first arm 222 would extend into or be
coupled to the second leg 254, and the second arm 224 would extend
into or be coupled to the first leg 252. The yoke arms 222,224 may
include a plurality of holes 226 formed therethrough to lighten the
weight of the bracket 200. Additionally, the yoke arms 222,224
extend preferably from a left lateral surface 227 to a right
lateral surface 228. At least one of the lateral surfaces may be
extensively coplanar with a side of the legs 252,254 so as to aid
mounting the bracket up against, for example, a bow riser 802.
Alternatively, the lateral surfaces may be formed substantially
symmetrically, such as by the left lateral surface 227 flaring
outwardly similar to the right lateral surface 228. The legs
252,254 preferably have a thickness 259 sized and configured to be
disposed in a desired mounting location, such as the mounting gap
823.
[0056] FIG. 8 depicts a support bracket 200 that has been installed
on an archery bow 800. Such installation involved cooperating the
support structure interface 250 of the bracket 200 with standoffs
824 disposed between the sight bracket 818 and the bow riser body
802. An accessory 900 is to be coupled to the bow 800. Fitted to or
formed integrally with the accessory 900, or disposed between the
accessory 900 and the support bracket 200, is an accessory bracket
100. Since the rail spacing 116 of the accessory bracket 100 is
operatively configured to interface with the slot spacing 216 of
the slots 212 on the support bracket 200, it is possible to slide
the rails 112 into the slots 212, frictionally engaging same
therewith, in a mounting direction 830. The various components of
the support bracket 200 are preferably formed from aluminum, though
other materials may be used.
[0057] FIG. 9A depicts the accessory 900 having been situated at a
desired position. In this position, although not necessary, it is
preferred that all or substantially all of the rails 112 are
situated within the slots 212 provided on the support bracket 200.
This arrangement tends to minimize corruption of accessory/bracket
interface, such as by dirt getting disposed within the slots 212 or
upon the rails 112. FIG. 9B is the same view as FIG. 9A, further
including a remote triggering mechanism 930, which may be a
normally open or normally closed push-button switch 932 that may be
used to activate the accessory 900. The switch 932 is in electrical
communications with an electrical circuit (not shown) in the
accessory housing 910. Such electrical communications may be
provided via wireless means, but is preferably provided with one or
more electrical conductors 934 disposed between the accessory
housing 910 and the switch 932. The conductors 934 may be adhered
or otherwise coupled to the bow riser body 802, such as by being
strapped or clipped thereto, to ensure that they preferably will
not interfere with use of the sights 816. In this manner, the
accessory 900 may be activated, powered-on, and/or controlled from
a physical location separate and apart from the accessory housing
910. The switch 932 may be supported by the bow riser body 802,
such as by being adhered thereto. However, the switch is preferably
removably coupled to the bow riser body 802, opposite the grip 812,
for easy operation with the fingers of a user's hand. The removable
coupling is preferably a magnetic arrangement including a magnet or
magnetic material (not shown) securely disposed on the switch 932
and a magnet or magnetic material, or a magnet, respectively, (not
shown) disposed on the bow riser body 802. The magnet or magnetic
material disposed on the bow riser body 802 may be secured thereto
relatively permanently, such as by welding or adhesive, or
relatively selectively removably, such as by a strap or clip
disposed substantially around the riser body 802 or by a hook and
loop type fastener. The magnet or magnetic material disposed on the
switch 932 is preferably adhered thereto.
[0058] Where a remote switch 932 is used, there may be times when
it is desirable for the accessory 900 to be used separate and apart
from any mounting structure, such as by being supported by or in
the hand of a user. In such cases, it may be desirable to mount the
switch 932 to one of one or more docking locations 940 provided on
the accessory housing 910. A docking location 940 may include a
magnet or magnetic material that is disposed on, inset into, or
disposed within the accessory housing 910 configured to cooperate
with the magnet or magnetic material provided on the switch 932 to
temporarily secure the switch 932 preferably directly adjacent the
housing 910 when desired. A plurality of docking locations 940 may
be provided on the accessory housing 910, such as one on each side
of the left and right (shown) sides of the accessory 900 to
facilitate a variety of manipulations.
[0059] Turning now to FIGS. 10-22, an alternate support structure
and support structure interface may be described. Another example,
aside from an archery bow as previously described, in which it may
be desirable to mount an accessory 900 is in the event of a tubular
or other support structure. Presented in FIG. 10 is a generic
representation of an embodiment of a firearm 850, in this instance
a rifle or shotgun. As described above, the firearm 850 may include
a stock 852. Supported by the stock 852, or molded integrally
therewith, may be a grip 854 that is formed generally proximal from
a trigger 856. Extending distally, and mounted to or supported by
the stock 852, is a barrel 858. Coupled on top of or to either the
stock 852 or the barrel 858 may be an optical sight 860, such as an
optical scope. The scope 860 extends from a proximal end 862 to a
distal end 864, along a longitudinal sight axis 866, which may be
disposed generally parallel to a longitudinal barrel axis 859 about
which the barrel 858 is formed. The proximal end 862 of the scope
860 is the end into which a user peers with his or her eye to aim
the firearm 850. The scope 860 in this instance is mounted to the
firearm 850 by a plurality of scope mounting clips 870. The scope
mounting clips 870 interface with a cooperative structure on top of
the barrel 858 or the stock 852 to maintain the scope 860 in a
stationary position relative thereto. The clips 870 generally
extend about a central tubular portion 868 of the scope 860. The
central tubular portion 868 is disposed on either side of a scope
adjustment mechanism 872 as is standard in the art. The scope
mounting clips 870 are shown spaced from the scope adjustment
mechanism 872 so as to provide vacant tubular mounting space 874.
Alternatively, one or both of the mounting clips 870 may be
disposed immediately adjacent to the scope adjustment mechanism
872, thereby creating or providing vacant tubular mounting space
874 proximal or distal to either scope mounting clip 870. In
general, it is to be understood that the tubular support structure
868 could be any tubular support structure. For example, the
structure could be a railing, or a handle or support on a vehicle.
The present invention provides embodiments that are adaptable to
both continuous tubular structures, as well as to tubular
structures that have a discontinuous, interrupted or incongruous
outer surface portion.
[0060] Having generally described a support structure to which an
accessory 900 is to be mounted, we turn now to a structure and
method of mounting such accessory 900. FIG. 11 shows an
intermediate or supplemental accessory bracket 300 which may be
coupled to the accessory bracket 100 previously described.
Generally, the supplemental accessory bracket 300 extends between a
top interface 310 and a bottom interface 330. The top interface 310
comprises a mating interface to the accessory interface 110
provided on the accessory bracket 100. In one embodiment, as
described above, the accessory interface 110 includes a plurality
of substantially parallel rails 112. Thus, the supplemental bracket
300 includes a plurality of substantially parallel slots 312, which
may be substantially the same as or similar to the slots 212
provided on the previously described mounting bracket 200. The
slots 312 are preferably provided along a slot length 314 and are
disposed at a slot spacing 316 from each other. The slots 312 may
be formed into or provided by slot members 320. The slot members
320 may be reinforced by one or more reinforcement struts 322
coupled thereto. Preferably, a plurality of reinforcement struts
322 is provided, each of which is secured to each slot member
320.
[0061] Also, provided on the bottom interface 330 is a
substantially tubular support member 332, which may have a
desirable cross-section shape. Example of cross-section shapes may
be circular or rectangular. The tubular member 332 is preferably
formed along a pivot axis 334 for a length 336 that is preferably
greater than the supplemental bracket slot spacing 316. The tubular
member 332 is preferably hollow throughout its length 336.
Extending through a wall of the tubular member 332 is an optional
securing member 340 which interfaces to a tubular support structure
bracket, such as the bracket 400 described below, to preferably
stabilize the supplemental bracket 300. Thus, where a securing
member 340 is used, it may be desirable to use a tubular member 332
having a rectangular cross-section so as to provide at least one
flat external surface to work with. The securing member 340 may
include a threaded set screw or thumb screw 342 which is configured
to at least partially extend into the tubular member 332. The screw
342 is configured to threadably engage either the wall 338 of the
tubular member 332 or an intermediate collar 344 that may be
securely disposed on the tubular member 332. As can be seen in FIG.
12, the supplemental bracket 300 is configured to interface and
cooperate with the accessory bracket 100, such as with the
plurality of rails 112 being slid into and frictionally engaged
with the plurality of slots 312. The various components of the
supplemental bracket 300 are formed from aluminum, or some other
lightweight, sufficiently strong material. Other materials such as
brass, plastic or even steel may be employed, the latter being
perhaps less desirable due to oxidation, unless sufficient
stainless treatment has been provided thereto. FIG. 12 shows that
the supplemental bracket 300 has been coupled to an accessory 900
at through an accessory bracket 100. Alternatively, the bottom
interface 330 of the supplemental bracket 300 may comprise or be
included on the accessory bracket 100.
[0062] Although as herein described, the top interface 310 of the
supplemental bracket 300 is configured to interface with the
accessory interface 110 of the accessory bracket 100, it is to be
appreciated and understood that the rails 112 and the slots 312
could be done away with altogether, and the bottom interface 330 of
the supplemental bracket 300 could be disposed directly onto or
formed integrally with the accessory 900 or the accessory bracket
100.
[0063] Turning now to FIG. 13, a first embodiment of a tubular
support bracket 400 is shown. In this case, it is to be understood
that the term "tubular support bracket" does not necessarily mean
that the bracket, itself, is tubular, but rather that the bracket
400 is configured to interface with a tubular support structure.
The tubular support structure may be round, rectangular, etc., but
the tubular support bracket 400 may be generally in the form of a
band that is configured to lay substantially circumjacent a tubular
support structure. It is also to be appreciated that a tubular
support structure may be of any cross-sectional shape, and it is
not required to be hollow or formed in a substantially linear
orientation. It is to be understood that the tubular support
structures to which the tubular support bracket 400 is configured
to interface according to the present invention include a
structural portion adapted to be wrapped substantially completely
circumferentially with a band, for example. In this case, the
tubular support bracket 400 includes at least one, but preferably a
plurality of tubular support bands or clips 402. The bands 402 are
sized and configured to wrap substantially completely around vacant
tubular support structure 874, such as that previously described
that may be located adjacent to the mounting clips 870 of an
optical scope 860 mounted on a firearm 850. These support bands 402
may be fastened in a plurality of ways. In the first embodiment
shown in FIG. 13, the bands 402 have been secured by threaded
fastening members 406, so as to frictionally engage the tubular
support structure 874 with the bands 402. The bands 402 may be
formed of a substantially rigid material, such as metal (e.g.,
aluminum, steel, etc.), an elastically deformable material (e.g.
rubber, spring steel, etc.), or plastically deformable material
(e.g., sheet steel, etc.).
[0064] Extending substantially radially outwardly from the support
bands 402, which may be substantially perpendicular to a tangent of
the tubular support structure 868, or substantially perpendicular
to the tubular support axis 866, is at least one, but preferably a
plurality of mounting studs 412. The mounting studs 412 preferably
extend for a mounting stud length 414 away from the mounting bands
402, along a longitudinal axis 408 that is, as mentioned,
preferably perpendicular to the longitudinal axis 866 of the
tubular support structure 868. These mounting stud lengths 414 may
be a matter of preference or they may be a function of the size of
the accessory 900 to be mounted. In other words, sufficient space
should be provided to allow for desired positioning of the
accessory 900 relative to the tubular support structure 868. These
mounting studs 412 may be formed or disposed in a plurality of
configurations, but they are provided at a preferred stud spacing
416, which is measured preferably substantially parallel to the
barrel axis 859, or an axis 866 about which the tubular support
structure 868 is formed. Where a plurality of mounting studs 412 is
provided, it is preferred that these studs 412 are formed or
arranged relatively parallel to each other and accessible from a
free end 410, the free end 410 extending out into space away from
the mounting bands 402. The mounting studs 412 are preferably
formed from plastic or aluminum, but other materials may be
used.
[0065] Shown in FIGS. 14A and 14B is an adjustable accessory
bracket 500. This adjustable accessory bracket 500 is adapted to
interface to the one or more mounting studs 412 provided coupled to
the tubular mounting band or bands 402. Preferably, the adjustable
bracket 500 is provided with a plurality of receivers 512, each
receiver 512 being disposed along a receiver length 514, and spaced
from each other receiver 512 by an adjustable receiver spacing 516.
The receiver spacing 516 is adjustable so as to accommodate various
mounting stud spacing 416 arrangements that may be provided, which
may depend on the tubular support structure 868 provided. In other
words, depending on the arrangement of a predetermined or provided
tubular support structure 868 and the availability of vacant
tubular structure mounting space 874, the mounting stud spacing 416
may vary. For instance, with reference to the optical scope 860
shown in FIG. 13, the scope 860 includes a scope adjustment
mechanism 872, as is common in the art. However, the scope
adjustment mechanism 872 interrupts, interferes with, or creates a
discontinuity along the outer surface of the tubular support
structure 868. Other tubular support structures 868 may not have
such interruption or discontinuity, so that a plurality of mounting
bands 402 may be positioned immediately adjacent each other, thus
decreasing the mounting stud spacing 416. Alternatively, a scope
mount location on a firearm 850 may require that the scope mounting
clips 870 be positioned immediately adjacent to the scope
adjustment mechanism 872. In such case, vacant tubular mounting
space 874 would be provided proximal to one of the bands 402 and
distal to the other band 402, thus increasing the mounting stud
spacing 416. Additionally, the adjustability of the receiver
spacing 516 is advantageous so as to allow for variations in the
mounting stud spacing 416 that may arise due to minimally
inaccurate installation of the bands 402 and/or studs 412. Thus,
stud spacing 416 may vary between a plurality of tubular support
brackets 400, each of which may be disposed on a distinct tubular
support structure 868, but interfaced with the same adjustable
bracket 500. The adjustable bracket 500 also has a mounting spur
520. When mounted to a tubular support structure 868, the mounting
spur 520 extends preferably substantially parallel to the
longitudinal axis 866 of the tubular support structure 868 and/or
substantially perpendicular to at least one of the receivers 512.
The spur 520 extends along a spur length 522, which may be any
desirable length, but is preferred to be at least a majority of the
tubular member length 333. The mounting spur 520 preferably has a
round cross-section, although various configurations are
envisioned. If the cross-section is round, the supplemental
accessory bracket 300 may be disposed on the spur 520 and
continuously rotatable therearound. The various components of the
adjustable bracket 500 are preferably formed from a relatively
rigid material, such as plastic, aluminum or brass.
[0066] As can be seen in FIG. 14A, there is an adjustable receiver
spacing, disposed at a minimum 516', which may be adjustable
through the use of, for example, a trombone type slide adjustment
mechanism 530. The slide adjustment 530 includes a plurality of
larger diameter hollow tubular members 532 into which the same
plurality of smaller diameter solid or hollow tubular members 534
may be inserted. This sliding, mating relationship allows the
receiver spacing 516 to be adjusted between a predetermined minimum
spacing, which may be a function of a length of the larger diameter
hollow members 532, and a predetermined maximum spacing, which also
may be a function of the length of the larger diameter members 532,
or a function of both the length of the larger diameter members 532
and the smaller diameter members 534. FIG. 14B depicts the
adjustable bracket 500 in a second position having a second
receiver spacing 516'', which is larger than the minimum spacing
516' in FIG. 14A. Preferably, the length 522 of the mounting spur
520 remains constant, regardless of the receiver spacing 516
selected. Alternatively, the spur length 522 may vary, such as if
one or more of the receivers 512 is slidably mounted thereon.
[0067] Turning now to FIG. 15, the adjustable bracket 500 can be
seen being mounted onto the tubular support bracket 400. That is,
after or while the receiver spacing 516 is adjusted, the receivers
512 may be interfaced with the mounting studs 412, such as by
pushing or sliding the receivers 512 in a substantially linear
direction 550 to frictionally engage the mounting studs 412. Though
frictional engagement is preferred, other retaining means may be
provided to maintain the adjustable bracket 500 in a relatively
stationary position with respect to the tubular support bracket
400, such as a thumb screw or a spring bias ball lock (not shown).
After or before interfacing the adjustable bracket 500 with the
tubular support bracket 400, the supplemental bracket 300 may be
interfaced with the adjustable bracket 500, as seen in FIG. 16. For
instance, the mounting spur 520 is preferably inserted into the
tubular member 332 provided on the supplemental bracket 300, which
may have been previously coupled to the accessory 900. The
supplemental bracket 300 may be moved in a linear direction 350, so
as to interface the spur 520 with the tubular member 332. The
tubular member 332 may then be longitudinally and/or rotationally
secured relative to the mounting spur 520, such as by tightening
the thumb screw 342 against the spur 520.
[0068] FIG. 17A provides a perspective view of the accessory 900
having been generally secured to the tubular support structure (in
this case a scope 860) in a first position. The position of the
accessory 900 may be adjustable. For instance, the accessory 900
may be rotated about the mounting spur 520. The thumb screw 342 may
be loosened, which allows the accessory 900 to rotate about the
spur 520, so long as sufficient clearance is provided between the
spur 520 and the tubular support member 332. As shown in FIG. 18,
the accessory 900 may be rotated in rotational adjustment direction
920, which may be substantially circumferential about an axis that
is parallel to the tubular support structure axis 866 and/or the
barrel axis 859.
[0069] Returning to FIG. 17B, FIG. 17B is the same view as FIG.
17A, further including a remote triggering mechanism 930, which may
be a normally open or normally closed push-button switch 932 that
may be used to activate the accessory 900. The switch 932 is in
electrical communications with an electrical circuit (not shown) in
the accessory housing 910. Such electrical communications may be
provided via wireless means, but is preferably provided with one or
more electrical conductors 934 disposed between the accessory
housing 910 and the switch 932. The conductors 934 may be adhered
or otherwise coupled to the firearm stock 852, such as by being
strapped or clipped thereto, to ensure that they preferably will
not interfere with use of the scope 860. In this manner, the
accessory 900 may be activated, powered-on, and/or controlled from
a physical location separate and apart from the accessory housing
910. The switch 932 may be supported by the firearm 850, such as by
being adhered thereto at a variety of positions. However, the
switch is preferably removably coupled to firearm 850, for easy
operation with the fingers of a user's hand. The removable coupling
is preferably a magnetic arrangement including a magnet or magnetic
material (not shown) securely disposed on the switch 932 and a
magnet or magnetic material, or a magnet, respectively, (not shown)
disposed on or comprising the firearm 850. The magnet or magnetic
material disposed on the firearm 850 may be secured thereto
relatively permanently, such as by welding or adhesive, or
relatively selectively removably, such as by a strap or clip
disposed substantially around the stock 852 or grip 854 or by a
hook and loop type fastener. The magnet or magnetic material
disposed on the switch 932 is preferably adhered thereto. As
mentioned, the switch 932 may be placed in a variety of positions
on a bow 800 or firearm 850. A first position 951L may be the left
side of the stock 852, thereby providing convenient activating
position for the left thumb of a right-handed user or one or more
right fingers of a left-handed user. Another position 951R may be
the right side of the stock 852, thereby providing convenient
activating position for one or more left fingers of a right-handed
user or the right thumb of a left-handed user. The switch 932 may
be positioned for use with the trigger hand. For instance the
switch 932 may be disposed for operation with the trigger finger of
a user, such as at a third position 952L on the left hand side of
the action of the firearm 850 for use by a left hand trigger
finger, or at a fourth position 952R on the right hand side of the
action for use by a right hand trigger finger. Other mounting
locations for the switch 932 may be on the left side 953L or right
side 953R, top side 954t or bottom side 954b of the grip 854b. Of
course, the relative positions are exemplary and any use by any
other digit of a user's hand is not excluded by the preferred uses
described.
[0070] As mentioned above, where a remote switch 932 is used, there
may be times when it is desirable for the accessory 900 to be used
separate and apart from any mounting structure, such as by being
supported by or in the hand of a user. In such cases, it may be
desirable to mount the switch 932 to one of one or more docking
locations 940 provided on the accessory housing 910. A docking
location 940 may include a magnet or magnetic material that is
disposed on, inset into, or disposed within the accessory housing
910 configured to cooperate with the magnet or magnetic material
provided on the switch 932 to temporarily secure the switch 932
preferably directly adjacent the housing 910 when desired. A
plurality of docking locations 940 may be provided on the accessory
housing 910, such as one on each side of the left (shown) and right
sides of the accessory 900 to facilitate a variety of
manipulations.
[0071] FIGS. 19-22 depict alternate embodiments of tubular support
brackets 400, or components thereof. A first alternate embodiment
602 of a tubular support band is shown in FIGS. 19 and 20. The band
602 generally includes a first section 610 and a second section
630, wherein when the first section 610 and the second section 630
are interfaced, they generally form a circumferential structure to
be placed about a tubular support member 868. The first section 610
may include a generally C-shaped, or convex portion 612, which may
be flanked by one or more smaller radius concave portions 614. It
is to be understood that the convex portion 612 may be of other
shapes to correspond with other tubular support members 868.
Extending radially outwardly from the first section 610 is
preferably one or more mounting studs 616, which are the same as or
similar to the mounting studs 412 previously described. On or in a
bottom concave portion 614b, one or more hinge notches 618 may be
provided. The notches 618 are preferably formed through the
entirety of the bottom concave portion 614b at discrete
longitudinal positions. On or in a top concave portion 614t, one or
more latch notches or apertures 620 may be provided. The notches or
apertures 620 are preferably formed through the top concave portion
614t at one or more discrete longitudinal positions. Where a notch
is used, it is preferably formed through the entirety of the top
concave portion 614t.
[0072] The second section 630 may include a generally C-shaped, or
convex portion 632, which may be flanked by one or more smaller
radius concave portions 634. It is to be understood that the convex
portion 632 may be of other shapes to correspond with other tubular
support members 868. Extending from a bottom edge 636 of the convex
portion 632 may be one or more hinge toggles 638 may be provided.
The toggles 638 are preferably formed as T-shaped toggles having
rounded heads 638a, and the toggles 638 are preferably disposed at
discrete longitudinal positions. Preferably, the same number of
hinge toggles 638 on the second section 630 is provided as hinge
notches 618 on the first section 610. On or in a top concave
portion 634t, one or more latch notches or apertures 640 may be
provided. The notches or apertures 640 are preferably formed
through the top concave portion 634t at one or more discrete
longitudinal positions. Where a notch is used, it is preferably
formed through the entirety of the top concave portion 634t.
Preferably, the same number of latch notches or apertures 640 on
the second section 630 is provided as latch notches or apertures
620 on the first section 610. The first section 610 and second
section 630 are preferably each members of unitary structure that
may be formed from desirable materials, such as plastic, aluminum,
brass, steel, etc. The sections 610,630 may be cast, machined or
otherwise constructed.
[0073] A latching mechanism 650 is provided to secure the first
section 610 and the second section 630 in a band configuration. The
latching mechanism 650 generally preferably includes a latch arm
652, a shank 654, and a latch toggle 656. The latch arm 652 extends
from a head portion 652a to a free tail portion 652b. The head
portion 652a is preferably formed as having an oblong camming
orientation. The shank 654 is preferably a threaded rod that is at
least planarly pivotally attached to the latch arm head portion
652a. The latch arm 652 may be formed with a curve provided between
the head 652a and the tail 652b, where such curve may have a radius
that is substantially similar to a radius of the first section 610
and/or the second section 630. The latch toggle 656 has a threaded
aperture 658 formed therein, perhaps therethrough, where the
aperture 658 is adapted to cooperate with the shank 654. The latch
toggle 656 is preferably provided as a substantially cylindrical
body that may rest in the top concave portion 614t of the first
section 610. To utilize the embodiment 602, the hinge toggles 638
may cooperate with the hinge notches 618 so as to form a rotational
hinge mechanism 639, thus allowing the first section 610 and the
second section 630 to operate like a clam shell to be disposed
about a tubular support member 868. The latch shank 654 may be
inserted into the latch aperture 640, and the latch toggle 656 may
be threaded onto the shank 654. After wrapping the band 602 about a
tubular support structure 868, the shank 654 may be situated in the
latch notch 620 and the latch toggle 656 may be situated in the top
concave portion 614t. The latch arm 652 may be turned so as to
thread the shank 654 through the toggle aperture 658 to cause the
top concave portions 614t,634t to approach each other, and perhaps
to lie immediately adjacent to each other in a secured
relationship. The latch arm 652 may then be forced towards a convex
portion 632 to allow the oblong camming head 652a of the latch arm
652 to further tighten the engagement. The latch arm 652 may then
lie substantially adjacent to a portion of the convex portion 632.
The various components of the latching mechanism 650 may be formed
from a variety of materials, such as aluminum, brass and/or steel,
for instance.
[0074] FIG. 21 depicts an alternate embodiment 702 of a tubular
support band, where like numbers refer to like structures in the
prior embodiment 602. However, in this embodiment, the first
section 710 and the second section 730 have been formed with a
wraparound feature 770. The wraparound feature 770 may be formed in
one or both of the sections 710,730 to accommodate for interruptive
or disruptive features that may be provided on a tubular support
member 868, such as the scope adjustment mechanism 872. Thus, while
the prior embodiment featured a substantially circumferential band
602 provided along the entire length of the sections 610,630, this
embodiment 710 may be used where the circumference of the tubular
support member 868 is not continuous, but may be interrupted with
other structures. Thus, the wraparound feature 770 may generally be
formed as a notch or aperture formed into or through one or both of
the sections 710,730. The first section 710 and second section 730
are preferably each members of unitary structure that may be formed
from desirable materials, such as plastic, aluminum, brass, steel,
etc. The sections 710,730 may be cast, machined or otherwise
constructed.
[0075] FIG. 22 shows an alternate embodiment 602' of a mounting
band according to the present invention, where the same numbers
refer to the same structure as described in the previously
described embodiment 602. This embodiment, however, uses an elastic
latching structure 680 instead of the latching mechanism 650
described above. The elastic latching structure 680 generally
includes two toggles 682 disposed on an elastic member 684 either
immediately adjacent to each other or at a predetermined distance
from one another. The toggles 682 are configured to rest in the top
concave portions 614t,634t of the first section 610 and second
section 630, respectively, while the elastic member 684 is
configured to stretch between the toggles 682 and extend through
the latch notch 620 on the first section 610 and the latch notch
640 on the second section 630. Also disposed on the elastic member
684, or on one of the toggles 682, is a handle member 686, which is
configured to be grasped by the fingers of an adult human so as to
cause the toggles 682 to separate when one of the toggles 682 is
stationarily disposed, as can be seen in the phantom extension
figure. The toggles 682 may be formed from any material able to
perform the latching function, such as plastic, aluminum, brass,
steel, wood, etc, as may the handle 686.
[0076] The foregoing is considered as illustrative only of the
principles of the invention. Furthermore, since numerous
modifications and changes will readily occur to those skilled in
the art, it is not desired to limit the invention to the exact
construction and operation shown and described. For instance,
though the accessory 900 is shown as being installed on what would
normally be referred to as the left side of the firearm 850 in
FIGS. 16-18, it is to be appreciated that the positioning about the
tubular support structure 868 is not limited to a specific
orientation, and the same embodiments of the invention may be
advantageously used in various configurations to adapt to
right-handed, as well as left-handed weapons users. As another
example, it is to be appreciated that various adjustability of the
preferred embodiments may be done away with to simplify some of the
mounting structures, such as by providing fixed rail spacing 116
and/or fixed stud spacing 416. Additionally, it will be appreciated
that various components of the devices described herein, and
combinations thereof, may be provided in a kit form, such as in the
same packaging. While the preferred embodiment has been described,
the details may be changed without departing from the invention,
which is defined by the claims.
* * * * *