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Claims  |
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I claim:
1. A hand-held apparatus for mounting and steadying a camera comprising:
a handle member having first and second vertically spaced hand grips,
camera mounting means for attaching a camera at an upper portion of the
handle member,
shoulder support means for engaging a user's shoulder, said support means
comprising a rearwardly extending arm removably mounted to the handle
member between the hand grips, adjustment means for selectively varying
the length of the arm and a shoulder brace member mounted on the arm and
adapted to abut the user's shoulder, and
trigger means for actuation of the camera mounted in the handle member
adjacent to a hand grip.
2. The apparatus of claim 1 wherein the camera mounting means comprises a
base mounted at an upper portion of a base support arm, attachment means
for connecting the base support arm to the handle, and height adjustment
means for selectively varying the height of the base above the handle.
3. The apparatus of claim 2 wherein the base support arm slideably engages
guide means in the handle member, and the apparatus also comprises stop
means for releasably locking the base support arm at various locations
along the guide means.
4. The apparatus of claim 1 wherein the shoulder brace member comprises an
arcuate member adapted to conform to a user's shoulder, and the shoulder
brace member is rotatably connected at a central portion of the brace
member to an end portion of the arm.
5. The apparatus of claim 1 wherein the arm of the shoulder support means
comprises a first portion adapted to slideably engage the handle member
and a second portion hingedly attached to the first portion, and fastening
means for selectively locking the hinge to preclude relative movement
between the first and second portions.
6. The apparatus of claim 4 wherein the arm has an end portion having a
rectangular cross-section and is adapted to slideably engage a transverse
opening in the handle member, and second fastening means for locking the
end portion in the opening at a selected position along the end portion.
7. The apparatus of claim 1 also comprises a hand-engaging support
extending rearwardly from the handle member intermediate the upper and
lower hand grips.
8. The apparatus of claim 7 wherein the hand-engaging support comprises a
downwardly curved finger having a lower surface adapted to engage a user's
hand between its thumb and index finger.
9. The apparatus of claim 1 wherein said trigger means comprises
finger-operated actuating means mounted in a central portion of the
handle, said actuating means including a forwardly projecting biased
member adapted to be actuated by a user's index finger and a cable
connected to the biased member.
10. A hand-held apparatus for mounting and steadying a camera comprising:
a handle member having first and second vertically spaced, contoured hand
grips,
camera mounting means including a plate extending substantially
perpendicularly from an upper portion of the handle member, and threaded
fastening means for connecting a camera to the plate, telescopically
adjustable mounting means attaching the plate to the handle member,
shoulder support means for engaging a user's shoulder comprising an arm
extending rearwardly from the handle member, said arm being slideably
mounted in an aperture in the handle member, fastening means for locking
the arm in position in the handle member, and shoulder-engaging means
comprising a rigid curved brace member rotatably mounted at an end portion
of the arm,
a hand-engaging support extending rearwardly from the handle intermediate
of the upper and lower hand grips comprising a downwardly curved finger
having a lower surface adapted to engage a user's hand, and
remote shutter actuation means comprising a cable attachable to a camera
mounted on the plate and a trigger mounted in the handle member adjacent
the lower hand grip for actuating the cable.
11. A method of mounting and steadying a camera comprises:
mounting a camera on a horizontal mounting plate attached to an upper
portion of a handle member having first and second vertical spaced grips
and also having a shoulder-engaging brace member extending rearwardly from
the handle member, said shoulder-engaging brace member comprising an arm
attachable to the handle member and a curved brace adapted to engage a
user's shoulder, said curved brace being rotatably mounted at an end
portion of the arm, said apparatus also comprising a cable release member
adjacent one of the grips,
placing the shoulder-engaging brace against a user's shoulder, grasping the
handle member with each hand being placed on a grip on the handle member,
drawing the user's elbows in toward the user's ribcage, urging the
apparatus toward the user's body by drawing the handle member toward the
user's shoulder, and actuating the cable release means. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
This invention relates to a portable hand-held mounting bracket for a
camera which interacts with a photographer's body to stabilize the camera.
More particularly, this device relates to a lightweight device that is
attached to a camera and held in the operator's hands while at the same
time abutting the operators shoulder.
When taking photographs it is usually desirable to completely stabilize the
camera with a tripod or similar device. However, a photographer who is
afoot in the field and searching for candid shots must maintain mobility,
sometimes at the expense of steadiness. Likewise, after a long or
exhausting sojourn, a seemingly lightweight camera unit can suddenly
become burdensome and impossible to steady. In addition, special
circumstances arise, as when using a telephoto lens or shooting in low
light conditions that require long exposure times and hence a very steady
"hold."
The present invention provides a method of eliminating or reducing the
movement of a hand-held camera while shooting pictures and, at the same
time, giving the operator complete freedom of movement in the field. The
invention is a lightweight portable device for mounting and steadying a
camera having hand grips that allow an operator to grasp the bracket and
pull it toward his body, thereby supporting and steadying the camera. In
general, the invention consists of an elongated, rectangular frame member
that contains integral spaced grips shaped and a camera mounting base
attached at the upper end that is adjustable both vertically and axially.
In addition, a shoulder brace is attached to the rectangular frame member
between the grips and extends rearwardly and terminates in a C-shaped
support adopted to adapt either shoulder of the operator. A trigger for
activating the camera shutter is mounted in the frame member adjacent
either grip, preferably the lower grip. The bracket is used by the
photographer by grasping the hand grips with both hands, placing the
shoulder support in place, and pulling the bracket toward the body. This
triangulation effect between the photographer's arms and the shoulder
brace reduces or completely eliminates the undesired movement of a camera.
Past attempts to develop apparatus for steadying cameras have been confined
to tripods that rest on the ground such as the Kirby patent, U.S. Pat. No.
2,559,971 or devices that are held in one hand and contain an arm or arms
that abut some part of the operator's body such as Fernelius, U.S. Pat No.
3,105,430,; Tolcher, U.S. Pat. No. 2,753,778; Marchus, U.S. Pat. No.
4,177,967 and Adams, U.S. Pat. No. 4,306,790.
All of the devices with multiple braces or braces that rest on the ground
are not adapted to mobile operation since they cannot effectively adapt to
different orientations of the operator terrain without readjusting the
stabilizing or supporting arm or arms.
The present device is most effectively used by pulling the handle toward
the user's body and squeezing the elbows toward the rib cage of the
operator. This configuration effectively triangulates and stabilizes the
camera and substantially reduces or eliminates any undesired movement.
SUMMARY OF THE INVENTION
A device for steadying a camera comprising an elongate rectangular frame
member with integral hand grips at either end and a camera mounting base
at one end that is adjustable vertically and horizontally to communicate
with the operator's eye. A brace for abutting the shoulder is adjustably
mounted in the frame between the grips and is automatically pivotally
adjustable to accommodate changes in the tilt angle of the camera. A
trigger for activation of the camera shutter is located in the frame of
the lower grip.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of the support bracket of this invention
showing the shoulder brace positioned to abut the left shoulder of the
photographer;
FIG. 2 is a right side elevation of the bracket as shown in FIG. 1;
FIG. 3 is a plan view of the bracket;
FIG. 4 is a cross-sectional detail of the shoulder brace rod locking
mechanism (bottom) and the "T"-slide adjusting mechanism, (top);
FIG. 5 is a cross-sectional view of the folding shoulder brace locking
mechanism;
FIG. 6 is a bottom cross-sectional view of the camera mounting plate
assembly and locking mechanism;
FIG. 7 is a rear elevation of the camera mounting base plate asembly;
FIG. 8 is a right side elevation of the invention in the "flat-surface
mount" mode;
FIG. 9 is a partial side cutaway view of the shoulder mount; and
FIG. 10 is a front view of a photographer showing the manner in which the
bracket of the invention is used.
DETAILED DESCRIPTION OF THE INVENTION
Referring to FIG. 1, the mounting bracket of the invention consists
generally of frame or handle member 2 which comprises a base to which the
various components of the bracket are attached, camera mounting plate 20,
"T" slide 40 and brace 60. The components of the invention or "pod
assembly" work in combination to provide an adjustable, ambidextrous
system for holding a camera or other object in a "rock steady" manner as
might be required when taking action photographs.
Specifically, as shown in FIG. 1, brace 60 consists of rod 62, C-shaped
curved butt 72, link 74, and parallel spanners 76 and 78. Butt 72 is
square in cross-section and curved at a radius of approximately 43/4" to
provide a comfortable shoulder-engaging brace for the bracket. A plurality
of equally spaced bores 68, (eighteen in the embodiment shown) are equally
spaced, 9 at either end of the butt as shown in FIG. 1. The holes are
approximately 1/4" in diameter, are chamfered at both ends and are located
so that their axis is parallel to the surface that abuts the operator's
shoulder. These holes reduce the weight of the bracket and make it easier
to operate.
Link 74 is connected on one end to butt 72 by a flathead counter-sunk screw
(not shown) that extends through butt 72 and communicates with threads cut
into the end of link 74. Plastic friction washer 73 (see FIG. 9) is
inserted between butt 72 and link end 74 which allows butt 72 to rotate
when sufficient torque is applied; the amount of force required to rotate
butt 72 is dependent on the torque applied to the countersunk screw and if
desired, the butt can be prevented from rotating by completely tightening
the screw. The adjustability of the butt compensates for changes in the
angle between the camera and shoulder and contributes to both adaptability
and comfort.
This feature is also important when the invention is used as a mount for a
flat surface, (see FIG. 8) as when taking a self-portrait. In this mode,
brace 60 is positioned in frame 2 so that brace 60 extends downwardly and
rearwardly. Butt 72 is rotated. The screw that connects butt 72 and link
74 must be sufficiently tight to prevent the butt from easily rotating. In
this mode, the invention assumes a very stable, triangulated three-point
stance and can be effectively used for hands-off operation without fear of
overturning. Link 74 also contains eyelets 80 and 81 screwed into threads
located on opposite sides of link 74 as shown in FIGS. 1 and 2. The
eyelets can be utilized for attaching a carrying strap to prevent the
device and camera from being dropped.
The opposite end of link 74 is attached by roll pins 82 and 84 (see FIG. 3)
to spanners 76 and 78 and separates and maintains the spanners in
substantially parallel configuration (see FIGS. 1, 2 and 3). Roll pins are
used throughout the invention as fastening means. When two or more pieces
are to be joined permanently, they are aligned in the desired
configuration and a single continuous hole is formed, as by drilling,
through all pieces to be joined. The diameter of the hole formed is less
than the diameter of the roll pin to be used. The roll pin is then pressed
into the hole effecting an interference fit, the friction caused thereby
holding the pieces permanently in alignment.
Each spanner contains a plurality of equally spaced holes in substantially
parallel configuration with the holes offset towards link 74. The spanners
are approximately 1" wide and 1/8" thick and have a median length of
approximately 6-7/16".
Rod 62 and link 74 have a square cross section of approximately 3/8", are
located in substantially parallel configuration (see FIGS. 1 and 2) and
are approximately 41/4" apart.
Rod 62 slideably engages square opening 63 of frame 2 (see FIG. 4) thereby
allowing the entire brace 60 to be forwardly or rearwardly adjusted (see
FIG. 1 and FIG. 2). Once the desired positioning is found, thumbscrew 86
(which is screwed into threads 88 of frame 2) is tightened so that the end
of knob 86 jams against rod 62 and prevents rod 62 from moving (see FIG.
4). In addition, rod 62 can be completely removed from frame 2 and rotated
at 90.degree. intervals to adapt the invention to left-shoulder mode,
right-shoulder mode or flat-surface mount mode.
Another feature of brace 60 is its ability to be folded when not in use.
This foldable feature is located at the connection point between rod 62
and spanners 76 and 78 (see FIG. 5). Block 64 is located and permanently
fastened to spanners 76 and 78 by roll pins 66 and 67. Rod 62 is located
between spanners 76 and 78 but only by a single roll pin 68 thereby
allowing rod 62 to pivot relative to spanners 76 and 78. When thumbscrew
70 is screwed into threads 71 located in block 64, rod 62 is locked and
cannot pivot. By unscrewing knob 70, rod 62 is unlocked from spanner 76
and 78 and can be pivoted about the axis of roll pin 69. The broken lines
in FIG. 5 show rod 62 in a partially pivoted position.
Camera mounting plate assembly or base 20, shown in FIG. 1 consists of
plate 22 (see FIGS. 7 and 8) and block 24. Plate 22 is approximately
rectangular in shape (approximately 5" long, 2" wide and 1/8" thick) and
contains an "H"-pattern slot 26 formed through plate 22 (see FIG. 6).
Corrugated rubber pad 28 is glued to, and is coextensive with, the upper
surface of plate 22 (see FIGS. 1, 7, and 8). As shown in FIG. 6, one end
of "H" pattern slot 26 contains threaded hole (SAE 1/4".times.20 ) 30. The
width of slot 26 is smaller than the major diameter of the threads on
thumbscrew 32 but larger than the diameter of the rest of the shaft which
has been turned down (see FIGS. 4 and 5 for a typical thumbscrew). As a
result, thumbscrew 32 can be fitted into slot 26 by insertion into hole 20
until all the threads of thumbscrew 32 have passed through the hole.
Thumbscrew 32 can then move laterally in slot 26 but cannot be removed
unless screwed back out of hole 30.
Plate 22 contains a tab or neck along one side that is fastened to block 24
by four counter-sunk, flathead screws (not shown), one at each corner of
block 24 screwed into threads located in block 24.
As shown in FIG. 6, journal 45 of block 44 is circular in crosssection and
contains "V"-groove 46 in the center of its length extending completely
around journal 45. The end of journal 45 contains a 10.times.32 SAE
threaded bore 52. Block 24 contains bore 47 and two 1/4.times.20 SAE
threaded holes 48 and 50 arranged at 90.degree. to bore 47 and 180.degree.
to each other.
Bore 47 of block 24 is slideably engaged over journal 45 and secured by
10.times.32 SAE screw 54 screwed into threads 52. When screw 54 is in
place block 42 can be rotated about journal 45 but cannot be axially
removed. Shoulder 43 acts as a stop to limit block 24 travel at the
opposite end. Locking thumbscrews 56 and 58 are screwed into threadholes
48 and 50 respectively and tightened into "V"-groove 46 locking base plate
assembly 20 at any desired angle. FIG. 7 shows base plate assembly 20 in
the horizontal position and (in phantom) in a position rotated 90.degree.
counter-clockwise.
As shown in FIG. 1, two T-slides 41 and 42 comprise a support arm for the
camera mounting base and are located on either side of block 44 and
fastened to block 44 by roll pins 18. As assembled, block 44 and T-slides
41 and 42 form a rigid 90.degree. connection that maintains both T-slides
in substantially parallel configuration. The T-slides are identically
shaped and approximately 4" long, 1" wide at the bottom, 2" wide at the
top and 1/8" thick. Each T-slide contains bores 51 approximately 5/8" in
diameter equally spaced along its side and threaded bore 49 (SAE
1/4".times.28) located approximately 1/2" from the bottom edge of the
T-slide as shown in FIG. 1. These holes contribute to both lightness and
aesthetic appeal. T-slides 41 and 42 are slideably fitted into guide means
or channels formed in handle member 2. The guide means are formed by
longitudinal runners or projections 100 and 102 which provide support
surfaces for the T-slides. T-slide assembly 40 can be fitted onto handle
member 2 so that base plate assembly 20 faces either forwardly or
rearwardly. Selection of either position depends on the weight and weight
distribution of the camera or other device to be mounted on base plate
assembly 20. A camera with a long, heavy telephoto lens having its own
mounting bore would probably require the forwardly position to adjust the
camera comfortably to the user's eye. For most applications, it would be
used in the rearward position. Each channel is just slightly wider and
longer than the width and length of T-slides 41 and 42. The depth of each
channel is the same as the thickness of the T-slides. When assembled onto
frame 2, T-slides 41 and 42 and handle 2 form an essentially homogeneous
outer surface. The T-slides, however, can be locked at any vertical
position by tightening thumbscrew 38 (shown in FIG. 2) screwed into
threaded hole 49 (shown in FIG. 1), causing the slides to frictionally
grip the runners 110 and 112. A detail of the tightening mechanism is
shown in FIG. 4 (upper).
As shown in FIG. 4, threads 34 of thumbscrew 38 are screwed into threaded
base 49 of T-slide 42. Upon tightening, T-slides 41 and 42 are squeezed
together by the action of shoulder 37 and threads 34. The squeezing action
locks T-slides 41 and 42 onto the channels of handle member 2 preventing
any relative movement. Elongated slot 39 is formed in frame 2 to provide
clearance for shaft 36 when shaft 36 is slideably adjusted up and down.
Slot 39 is approximately 11/16" wide and 23/4" long with the ends curved
on a radius of 11/32". Vertical adjustment is approximately 23/8".
Handle assembly 2, shown in FIG. 1 and FIG. 2, is comprised of an upper
hand-grip portion 4 and a vertically spaced lower hand-grip portion 5,
joined by rollpins 16. Handle member 2 is approximately 91/2" long and
5/8" thick with sides 6 and 7 flat and substantially parallel. As shown in
FIG. 2, the top, middle and bottom widths of the frame are approximately
2". The width between the top and middle and between the middle and bottom
is represented by smooth, continuous curves that provide comfortable grips
for the user's hands. The minimum width is approximately 15/16". All
contours are rounded and brushed to provide a comfortable feel for the
operator.
When assembled, square hole 63 is formed in the center of handle 2 at the
juncture of the upper and lower grip portions into which rod 62 of brace
60 is inserted (see FIGS. 1 and 4). Lug or flange 8, which serves as a
hand-orienting guide and as a lever arm to maneuver handle 2 is fitted
into slot 14 (see FIG. 2) formed in lower handle 5 and fixed into place by
a flat-head, counter-sunk allen head screw (not shown) screwed into
threads formed in lower handle 5. The shape of flange 8 is smooth and
curved and approximates the shape of the top of the hand between the thumb
and index finger. In operation the flange serves to distribute the weight
of the bracket and camera onto the top of the hand and to provide
additional steadying means for the invention.
Cable shutter release 90 or trigger means for remotely actuating the
camera, shown in FIGS. 1 and 2, is mounted in a bore (not shown) in handle
member 2 and is positioned so that when gripped by the hand, the index
finger comfortably engages the trigger end (see FIG. 2). If desired, the
trigger may be mounted adjacent the upper hand grip rather than the lower
grip as shown in the drawings, but is preferably mounted adjacent the
lower grip. The other end of cable shutter release 90 extends rearwardly
above flange 8 and makes an angle of approximately 30.degree. with the
axis of handle 2, attaching to the shutter release button on the camera.
The shutter release cable is conventional. Bottom surface 12 (see FIG. 8)
of frame 2 is flat so that in the tripod or "table mount" configuration
bottom surface 12 is in continuous contact with a table or other flat
supporting surface. Bottom surface 12 also contains a threaded hole
1/4.times.20 SAE (not shown) for attachment of any "special effect"
apparatus. Top surface 13, see FIG. 8, is flat and substantially parallel
with bottom surface 12. Transverse bores 10 are arranged in parallel
configuration in lower handle 5 and are approximately 5/8" in diameter for
weight reduction and aesthetic appeal (see FIG. 1).
Use of the bracket is best seen in FIG. 10, which shows a photographer
taking a photograph using the bracket of the invention. The photographer
100 has mounted a camera 102 on the bracket as previously described and
has connected cable shutter release 90 to the camera. The bracket is held
by grasping the upper grip 4 with his left hand and the lower grip 5 with
his right hand, and placing the shoulder brace 60 against his right
shoulder. If the left shoulder is preferred, brace 60 is inserted
180.degree. from that shown in FIG. 1. In either case, brace 60 will abut
the operator's shoulder when in use. The vertical height of base plate 20
is then adjusted by slideably positioning T-slide 40 up or down and
locking into position by tightening thumbscrew 38. FIG. 2 shows base plate
20 in the lowermost position and in the uppermost position (in phantom).
After the camera is properly positioned, the photographer's elbows of both
arms are drawn in toward his rib cage as shown by FIG. 10. By pulling the
handle inwardly toward his shoulder and pressing the arms in toward his
sides, a photographer achieves a rigid, steady base for taking pictures
without undesired camera movement.
In the preferred embodiment the bracket can range in height from
approximately 101/4" to approximately 123/4" depending on the height
adjustment of base plate assembly 20. All roll pins, all eyelets, screws
and threaded portions of thumbscrews are stainless steel. All knobs of
thumbscrews are plastic except thumbscrew 86, which is aluminum;
corrugated pad 28 is rubber. Every other component of the invention in the
preferred embodiment is 6061-T6 aluminum and has a lightly brushed finish.
The entire unit weighs approximately 1 pound. Other embodiments including
anodizing, exotic wood handle inserts and custom engraving are envisioned.
Accordingly, the invention should not be limited by the description of the
foregoing specific embodiments thereof, since many variations and
adaptations thereof will be apparent to those skilled in the art, but
should be limited only by the following claims.
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Description |
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