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Therefore, in view of the foregoing, I claim:
1. A camera mount for taking panoramic pictures comprising
a tripod mounting plate having a top surface and a bottom surface, tripod
mounting means being disposed on the bottom surface of said tripod
mounting plate and a plurality of detents being disposed on the top
surface of said tripod mounting plate; and
a camera mounting plate having a top surface and a bottom surface, said
camera mounting plate being rotatably attached to the top surface of said
tripod mounting plate by rotatable mounting means to circumscribe an arc
of rotation, said camera mounting plate having a roller bearing fixedly
attached to the bottom surface of said camera mounting plate which
selectively engages the plurality of detents, camera attachment means
being disposed on the top surface of said camera mounting plate.
2. A camera mount as described in claim 1 wherein said tripod mounting
plate is formed having a forward edge convexly curved to correspond to the
arc of rotation circumscribed by said camera mounting plate.
3. A camera mount as described in claim 2 wherein the arc of rotation
circumscribed by said camera mounting plate equals 100 degrees.
4. A camera mount for taking panoramic pictures comprising
a tripod mounting plate having a top surface and a bottom surface, tripod
mounting means being disposed on the bottom surface of said tripod
mounting plate and a plurality of detents being disposed on the top
surface of said tripod mounting plate; and
a camera mounting plate having a top surface and a bottom surface, said
camera mounting plate being rotatably attached to the top surface of said
tripod mounting plate by rotatable mounting means to circumscribe an arc
of rotation, said camera mounting plate having a roller bearing fixedly
attached to the bottom surface of said camera mounting plate which
selectively engages the plurality of detents, camera attachment means
being disposed on the top surface of said camera mounting plate,
said plurality of detents being slidably adjustable along a line parallel
to the arc of rotation circumscribed by said camera mounting plate.
5. A camera mount for taking panoramic pictures comprising:
a tripod mounting plate having a top surface and a bottom surface, tripod
mounting means disposed on the bottom surface of said tripod mounting
plate and a plurality of detents disposed on the top surface of said
tripod mounting plate, and
a camera mounting plate having a top surface and a bottom surface, said
camera mounting plate being rotatably attached to the top surface of said
tripod mounting plate by rotatable mounting means to circumscribe an arch
of rotation, wherein said rotatable mounting means comprises a threaded
pivot stem integrally formed and co-extensive with said tripod mounting
means and extending upwardly from said tripod mounting plate, a first ring
plate and a second ring plate,
said first ring plate being rotatably disposed in the top surface of said
tripod mounting plate concentric to said pivot stem, said first ring plate
including a plurality of thrust bearings rotatably disposed along the
upper portion of said first ring plate;
said second ring plate being fixedly disposed in the bottom surface of the
camera mounting plate concentric to a pivot stem orifice which receives
the pivot stem in rotatable engagement, the first ring plate and the
second ring plate being brought into bearing engagement when the pivot
stem is disposed through the pivot stem orifice;
said pivot stem being fixedly engaged to rotatably attach said tripod
mounting plate and said camera mounting plate by a complimentarily
threaded pivot stem nut;
said camera mounting plate having a roller bearing fixedly attached to the
bottom surface of said camera mounting plate which selectively engages the
plurality of detents, camera attachment means being disposed on the top
surface of said camera mounting plate.
6. A camera mount as described in claim 5 wherein the pivot stem is
radially displaced 5" from a forward edge of said tripod mounting plate.
7. A camera mount as described in claim 5 wherein said first ring plate and
said second ring plate are formed from hardened steel.
8. A camera mount as described in claim 5 wherein said roller bearing
comprises a roller ball rotatably engaged by a roller ball cap, said
roller ball cap being fixedly attached to said camera mouting plate.
9. A camera mount for taking panoramic pictures comprising
a tripod mounting plate having a top surface and a bottom surface, tripod
mounting means disposed on the bottom surface of said tripod mounting
plate and a plurality of detents disposed on the top surface of said
tripod mounting plate, and
a camera mounting plate having a top surface and a bottom surface, said
camera mounting plate being rotatably attached to the top surface of said
tripod mounting plate by rotatable mounting means to circumscribe an arch
of rotation, said camera mounting plate having a roller bearing fixedly
attached to the bottom surface of said camera mounting plate which
selectively engages the plurality of detents, camera attachment means
being disposed on the top surface of said camera mounting plate, said
camera attachment means comprising a camera mounting block including a
plurality of longitudinal adjustment slots disposed in parallel alignment
with a datum line disposed on said camera mounting plate, a lateral slot
disposed perpendicular to said plurality of longitudinal adjustment slots,
and a camera mounting screw which slidably engages said lateral slot, said
camera mounting screw having a screw head that extends beyond the sides of
said camera mounting block and a screw stem that extends through said
lateral slot in slidable engagement, said camera mouting block being
selectively adjustable forwardly and rearwardly by means of mouting block
locking means disposed within said plurality of longitudinal adjustment
slots.
10. A camera mount as described in claim 9 further including a protractor
having protractor graduations disposed thereon along the arc of rotation
of said camera mounting plate at a forward edge of said tripod mounting
plate.
11. A camera mount as described in claim 10 wherein the plurality of
detents comprises a stationary detent disposed adjacent to the center of
said protractor and a plurality of adjustable detents disposed to each
side of said stationary detent, said adjustable detents being slidably
adjustable along a line parallel to the arc of rotation of said camera
mounting plate.
12. A camera mount as described in claim 9 wherein said camera mounting
plate comprises a camera mounting plate main body and a camera mounting
plate pointer integrally formed with said camera mounting plate main body
and extending forwardly therefrom, said rotatable mounting means engaging
the camera mounting plate main body, said camera mounting plate pointer
having an eyeglass fixedly attached to the distal end of said camera
mounting plate pointer
13. A camera mount as described in claim 12 wherein said eyeglass is
transparent having a datum line longitudinally disposed thereon.
14. A camera mount as described in claim 13 wherein said roller bearing is
attached adjacent to said eyeglass.
15. A camera mount as described in claim 9 further including a forward
camera brace attached to a forward side of said camera attachment means
and a rearward camera brace attached to a rearward side of said camera
attachment means.
16. A camera mount as described in claim, 15 wherein said forward camera
brace includes resilient support means for support of a camera.
17. A camera mount as described in claim 9 further including a bubble level
fixedly attached to said camera mounting plate.
18. A camera mount as described in claim 9 wherein said camera mounting
plate is formed from aluminum material.
19. A camera mount for taking panoramic pictures comprising
a tripod mounting plate having a top surface, a bottom surface, and a
convexly-curved forward edge, the bottom surface of said tripod mounting
plate having means for selective attachment of said tripod mounting plate
to a tripod, the top surface of said tripod mounting plate having a
protractor disposed adjacent to said forward edge and major position
markings disposed between said protractor and said forward edge at equal
angular increments, said tripod mounting plate having a stationary detent
disposed adjacent to the center of said protractor and a plurality of
adjustable detents disposed to each side of said stationary detent in
respective detent slots disposed parallel to said protractor, said
plurality of adjustable detents being slidably disposed and selectively
fixable within said respective detent slots, respective rotation stops
being disposed at outward ends of said detent slots; and
a camera mounting plate having a top surface and a bottom surface, said
camera mounting plate having a main body and a pointer, said pointer
extending from said main body and including a transparent eyeglass
disposed at the distal end thereof, said eyeglass being disposed above the
protractor and having a datum line disposed thereon, said camera mounting
plate having a roller bearing attached to the bottom surface of said
camera mounting plate which selectively engages the stationary detent and
said plurality of adjustable detents, said camera mounting plate being
rotatably attached to said tripod mounting plate by rotatable mounting
means disposed at a radial distance of 5" from said forward edge, said
camera mounting plate further including camera attachment means
selectively adjustable on said main body and having a forward camera brace
and a rearward camera brace attached to opposing sides of said camera
attachment means.
20. A camera mount as described in claim 19 further including a bubble
level disposed on the main body of said camera mounting plate. |
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Description |
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BACKGROUND OF THE INVENTION
The present invention generally relates to camera mounts and in particular
to camera mounts for taking panoramic pictures.
The aberrations and distortions that occur at the extremes of a photograph
of a panoramic view and the problems of properly aligning film strips to
produce a panoramic picture are well known in the prior art. The existing
methods of creating panoramic pictures for multi-screen audio-visual slide
shows also produce pictures of low quality. The generally-used method of
producing slide panoramas involves taking a single slide and enlarging 8
mm by 36 mm sections of the slide onto five slides and thereafter
projecting the five slides onto three screens. Since the five slides are
second-generation copies of a very small section of an original slide, the
resulting quality of the panoramic picture is often poor. Furthermore, if
the original slide contains wide-angle distortion, that distortion will
also be reproduced in the resulting slide panorama.
The generally-used method of enlarging small sections of a single slide to
create a panoramic picture remains valid for many cases, for example, when
creating a panoramic picture from an existing slide, from stock file
slides, or when using slides shot with long (telephoto) lenses. The camera
mount of the present invention however discloses an additional tool for
the photographer useful for creating film strips known at the time of
shooting to be used to create panoramic pictures.
A panoramic camera is disclosed in U.S. Pat. No. 2,111,854 to Gasso et al.
including adjustable lenses to vary the focal length of the lenses in
mathematical proportions to the varying distances of objects in the
panoramic view. In U.S. Pat. No. 3,183,810 to Campbell et al. a
motor-driven panoramic camera is disclosed having automatic means for
stopping the angular sweep of the camera and adjustments for changing the
angle of sweep and for making the sweep symmetrical or unsymmetrical.
U.S. Pat. No. 1,282,177 to Blankenhorn discloses a method and apparatus for
making panoramic pictures comprising marking the film as the film is
advanced and the camera rotated. A camera mount useful for taking
stereoscopic or panoramic pictures is disclosed in U.S. Pat. No. 2,782,700
to Ianuzzi. In the most closely-related prior art known to the Applicant
shown in U.S. Pat. No. 1,503,437 to James, a motor-driven camera
attachment for taking panoramic pictures is disclosed which moves camera
film in relation to the angular rotation of the camera attachment.
However, the apparatus of the James invention does not provide the
advantages of the present disclosure relating to simplicity of
construction and flexibility in operation.
SUMMARY OF THE INVENTION
The camera mount of the present invention includes a stationary tripod
mounting plate having a plurality of detent means, and a camera mounting
plate rotatably attached to the tripod mounting plate that includes a
roller bearing that engages the detent means. Thereby, the attached camera
can be rotated through an arc of rotation to shoot the panoramic view
without the necessity of visually observing the angular distance traversed
by the camera. In a preferred embodiment of the camera mount of the
present disclosure a plurality of adjustable detents are disposed to each
side of a centrally-disposed stationary detent to provide means for
adjustments necessary for varying uses and equipment.
An object of the present invention is to provide a camera mount for taking
panoramic pictures.
Another object of the present invention is to provide a
manually-controllable camera mount for taking accurate panoramic pictures.
A further object of this invention is to provide a camera mount that can be
used with a plurality of types of cameras.
Another object of this invention is to provide means to create wide-field
panoramas absent the limitations of wide-angle photography, such as the
stretching of round objects into ovals near the corners thereof.
It is also an object of this invention to provide means to create panoramic
pictures of higher quality than available utilizing present methods.
Another object of this invention is to provide means for production of
creative panoramas.
It is also an object of this invention to provide effective means of
photographing groups of people with improved resolution.
Another object of the present invention is to provide a camera mount that
can create slide panoramas that retain full x-synchronization.
A still further object of the present invention is to provide a camera
mount for taking panoramic pictures having detent means for a rotating
camera mount to eliminate having to visually check the position of a
camera at each shot.
It is also an object of this invention to provide adjustable detent means
in a camera mount.
These and other objects and advantages of the camera mount of the present
disclosure will be readily understood by those skilled in the art from the
following description of a preferred embodiment, claims and appended
drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a top perspective view of the camera mount of the present
invention.
FIG. 2 is an exploded perspective view of the adjustable detent of the
invention and the detent mounting means.
FIG. 3 is a bottom perspective view of the camera mount of the present
invention.
FIG. 4 is an exploded perspective view illustrating the means for rotatable
attachment of the tripod mounting plate and the camera mounting plate.
FIG. 5 is a fragmentary side elevational view of the camera attachment
means.
DESCRIPTION OF A PREFERRED EMBODIMENT
FIG. 1 illustrates in a top perspective view the panoramic camera mount 1
of the present invention. Camera mount 1 generally comprises a tripod
mounting plate 10 and a camera mounting plate 20, the camera mounting
plate 20 being rotatably attached to the top surface 10a of the tripod
mounting plate 10.
Tripod mounting plate 10, preferably formed from dense plastic material to
limit the weight of camera mount 1, is formed having a convexly-curved
forward edge 10b. Adjacent to the forward edge 10b of the tripod mounting
plate 10 a protractor 11 is disposed on the top surface 10a of the tripod
mounting plate 10, said protractor 11 having a lateral curvature
corresponding to the curvature of the forward edge 10b of the tripod
mounting plate 10. Protractor graduations 11a are marked on said
protractor 11 to provide means to measure angular positioning of the
camera mounting plate 20 as hereinafter described in greater detail. In
the preferred embodiment of the camera mount 1 shown in FIG. 1, the
protractor 11 extends from approximately fifty degrees to the right of a
central detent 17 and fifty degrees to the left of the central detent 17
providing an arc of rotation of approximately one hundred degrees.
However, the sweep of the camera mounting plate 20 and the related
protractor 11 may encompass three hundred sixty degrees without departing
from the spirit and scope of the present invention. Camera mounting plate
stops 12 are disposed on the top surface 10a to each side of the tripod
mounting plate 10 to provide means to limit the angular rotation of the
camera mounting plate 20. In the preferred embodiment the stops 12 are
threadedly attached to stop screw holes 13 (FIG. 3) which extend
vertically through the body of said tripod mounting plate 10. Major
position markings 14 are disposed on the top surface 10a of the tripod
mounting plate 10 between the protractor 11 and the forward edge 10 of the
tripod mounting plate 10. The major position markings 14 are shown in FIG.
1 to be disposed adjacent the 40-degree graduation 11a on the protractor
11 and at ten-degree increments thereafter.
To the opposite side of the protractor 11 and adjacent thereto, paired
detent slots 15 are formed having a lateral curvature corresponding to the
lateral curvature of the protractor 11. Detent slots 15 receive a
plurality of adjustable camera mounting plate detents 16 in sliding
engagement. A central, stationary camera mounting plate detent 17 is
disposed in the top surface 10a of a brace portion 10c of the tripod
mounting plate 10 between said detent slots 15 adjacent to the 90-degree
graduation 11a of the protractor 11 along a curve defining the lateral
disposition of the plurality of adjustable detents 16. The brace portion
10c not only serves to receive the stationary detent 17 but also serves to
facilitate prevention of warping and mis-alignment of the protractor 11
and the forward edge 10b of the tripod mounting plate 10 relative to said
camera mounting plate 20.
The adjustable detents 16 are preferably formed from hardened steel and as
can be best seen in FIG. 2 include a detent body 16a having a body
extension 16b co-extensive with a threaded stem 16c disposed from the
lower surface of said body extension 16b, and a raised detent head 16d
disposed on the upper surface of said detent body 16a. Detent body 16a
slidably engages the detent slots 15 of said tripod mounting plate 10 and
can be fixedly positioned at various points along the detent slots 15 by
means of a detent washer 18 which, as can be seen in FIG. 3, bears against
the bottom surface 10d of the tripod mounting plate 10 and by threaded
engagement of a detent wing nut 19 to the threaded stem 16c of said
adjustable detent 16. Thereby the adjustable detents 16 can be easily
positioned and secured without the use of tools other than the hands.
The raised detent head 16d includes a detent head hole 16e centrally
disposed in said detent head 16d which receives a roller bearing 26
disposed in the bottom surface 20a (FIG. 4) of the camera mounting plate
20 as hereinafter described in greater detail The stationary detent 17 is
substantially a detent head 16d fixedly attached to the top surface 10a of
the brace portion 10c of the tripod mounting plate 10.
Referring to the bottom perspective view of the camera mount 1 shown in
FIG. 3, it can be seen that tripod mounting means 30 including a threaded
orifice 30a for receipt of the tripod screw (not shown) is disposed in the
bottom surface 10d of the tripod mounting plate 10 for attachment of the
camera mount 1 to a tripod (not shown).
In FIG. 1, the camera mounting plate 20 can be seen to be formed having a
camera mounting plate main body 21 and a camera mounting plate pointer 22
integrally formed with said main body 21 and extending forwardly
therefrom. An eyeglass 23, preferably transparent, is fixedly attached to
the distal end of the plate pointer 22 disposed above the protractor
graduations 11a, said eyeglass 23 having a datum line 24 longitudinally
disposed thereon. Camera mounting plate 20 is preferably formed from
aluminum to prevent deformation of said camera mounting plate 20 during
operation of the camera mount 1 in cold temperatures.
Camera mounting plate 20 is rotatably attached to the tripod mounting plate
10 by rotatable mounting means 40 which engage the main body 21 of said
camera mounting plate 20. As can be seen in FIG. 4 rotatable mounting
means 40 includes a threaded pivot stem 41 which is integrally formed and
co-extensive with a tripod mounting means extension 30b which extends
upwardly through the tripod mounting plate 10 from said tripod mounting
means 30. Pivot stem 41 is preferably disposed five inches from the
forward edge 10b of the tripod mounting plate 10. A first ring plate 42,
preferably formed from hardened steel, is rotatably disposed in the top
surface 10a of said tripod mounting plate 10 concentric to said pivot stem
41. The first ring plate 42 includes a plurality of thrust bearings 43
rotatably disposed along its upper portion. A second ring plate 44,
preferably formed from hardened steel, is fixedly disposed in the bottom
surface 20a of the camera mounting plate 20 concentric to a pivot stem
orifice 45 which receives the pivot stem 41 in rotatable engagement. When
the tripod mounting plate 10 and camera mounting plate 20 are attached the
first ring plate 42 and second ring plate 44 are brought in bearing
engagement and said camera mounting plate 20 can be rotated relative to
said tripod mounting plate 10 by the sliding movement of said second ring
plate 44 against the thrust bearings 43 of said first ring plate 42. A
pivot stem washer inset (not shown) is formed in the top surface 21a of
the main body 21 and receives a pivot stem washer 45. A pivot stem nut 46
threadedly engages the pivot stem 41 to attach the tripod mounting plate
10 and camera mounting plate 20 (FIG. 1).
The roller bearing 26 selectively received by the detent head holes 16e of
said adjustable detents 16 and said stationary detent 17 as heretofore
mentioned, is fixedly attached to the bottom surface 20a of the camera
mounting plate pointer 22 adjacent the eyeglass 23. Roller bearing 26
comprises a roller ball 26a rotatably engaged by a roller ball cap 26b.
Roller ball cap 26b provides the fixed support of the roller ball 26a in
the bottom surface 20 of the camera mounting plate 20.
Referring again to FIG. 1 it can be seen that roller bearing 26 is fixedly
attached to the camera mounting plate pointer 22 by means of a roller
bearing nut 26c which threadedly engages a roller ball cap stem 26d
extending through the plate pointer 22 from said roller ball cap 26b. FIG.
1 further illustrates camera attachment means 50 disposed on the main body
21 of the camera mounting plate 20. Camera attachment means 50 includes a
camera mounting block 51 having a plurality of longitudinal adjustment
slots 51a disposed in parallel alignment with the datum line 24 in said
eyeglass 23. Mounting block locking means 52, preferably Allen head
screws, are disposed within said longitudinal adjustment slots 51a to
provide means to selectively adjust the camera mounting block 51 forwardly
and rearwardly upon the camera mounting plate 20. A lateral slot 51b is
disposed perpendicular to said longitudinal adjustment slots 51a and
therebetween for receipt of a camera mounting screw 53 in lateral sliding
engagement. Camera mounting screw 53 includes a screw head 53a that
extends beyond the sides of said camera mounting block 51 and a screw stem
53b that extends through said lateral slot 51b and engages the threaded
orifice (not shown) as generally provided in the bottom wall of
professional cameras. The lateral adjustability of an attached camera
provided by the lateral slot 51b in combination with the camera mounting
screw 53 permits various types of cameras to be utilized with the camera
mount 1 of the present invention.
A forward camera brace 54 is attached to a forward side of said camera
mounting block 51 and a rearward camera brace 55 is attached to a rearward
side of said camera mounting block 51. The rearward camera brace 55 is
substantially a plate washer fixedly attached to said camera mounting
block 51. Forward camera brace 54 includes a resilient camera support 54a
which extends above said camera mounting block 51. A plate washer 54b is
disposed adjacent to the forward face of resilient support 54a. Plate
washer 54b includes a longitudinal washer slot 54b' which selective
receives a washer screw 54c having an integrally formed screw head ring
54c'. Plate washer 54b can thereby be adjusted vertically and laterally
about washer screw 54c. Forward camera brace 54 can first be set to mount
a particular camera. To adjust forward camera brace 54 to mount a
different camera, loosen washer screw 54c. Then fixedly attach plate
washer 54b at a new position adjacent to the forward face of camera 100
(FIG. 5) by tightening washer screw 54c with the screw head ring 54c'
bearing against the forward face of plate washer 54b. Strips of friction
tape 56 are attached to said mounting block 51 to each side of the lateral
slot 51b to facilitate the prevention of sliding movement of the attached
camera when positioned as desired. A bubble level 60 is fixedly attached
to the top surface 21a of the main body 21 of the camera mounting plate 20
to provide means for aligning the camera mount 1 to assure confluence of a
horizon in the various film strips of the panoramic picture.
The camera mount 1 of the present invention allows a photographer to create
panoramas for multi-screen slide presentations. In conjunction with a
professional pin-registered 35 mm camera and lens combination, and
soft-edge masks and slide mounts, as manufactured by Wess Plastics Inc.,
Farmingdale, New York, for example, three-screen, 50% overlap panoramas
(five slides projected onto three screens) and all similar panoramas, for
example, two-screen, 50% overlap panoramas may be created. Butt slide
panoramas may also be created with the camera mount 1 of the present
invention. It is preferred that a pin-registered Nikkon F3 35 mm camera,
as modified by Double-M Industries of Austin, Tex., be utilized with the
camera mount 1 of the present invention. Pin-registered cameras create
panoramas with the most accuracy and are more suitable for making
duplicates. Utilizing the camera mount 1 disclosed herein for three-screen
slide presentations, 112-degree wide-field panoramas can be created with
only the distortion of a 50 mm lens. An 85 mm lens creates 70.degree.
panoramas; a 35 mm lens creates 152.degree. panoramas. Print panoramas
having a 3:1 or 4.5:1 aspect ratio can also be created. Camera mount 1 of
the present invention may be utilized with color or black/white film.
The following discussion illustrates operation of the camera mount 1 to
create slides for panoramic presentations. The camera mount 1 is first
attached to a tripod by attaching the tripod to the threaded orifice 30a
of the tripod mounting means 30. The camera and lens to be utilized are
then fastened to the camera mounting screw 53 of the camera mounting block
51 by engaging the screw stem 53b within the bottom of the camera
(professional cameras include a threaded opening in the bottom of the
camera for mounting the camera to a tripod and the like) and tightening
the camera mounting screw 53 thereto by rotating the screw head 53a. The
camera should be laterally adjusted on the mounting block 51 prior to
tightening the camera mounting screw 53 by sliding the camera mounting
screw 53 with the camera attached within the lateral slot 51b of said
mounting block 51 so that the center of the iris diaphragm of the camera
is aligned with the pivot stem 41 of the rotatable mounting means 40. When
this step is completed the respective detent wing nuts 19 are loosened
from the adjustable detents 16. Seat the roller ball 26b of the roller
bearing 26 into the respective detent head holes 16e of the respective
adjustable detents 16 and the stationary detent 17 in turn. Utilizing a 50
mm 1.8 AIS Nikkon lens, the adjustable detents 16 are respectively set at
19 degrees and 38 degrees (a 38/19 setting) to each side of the
centrally-disposed stationary detent 17 as a starting detent setting. For
50% overlap panoramic slides, whatever wider setting is used, the narrower
detent setting should be exactly one-half of the wider setting. The
respective detent wing nuts 19 should be gently tightened against the
respective detent washers 18 as each adjustable detent 16 is set.
It is very important that the tripod does not pivot or shift during the
panning operation of the camera mount 1 since accidental pivoting of the
tripod will flaw the panoramic picture. Therefore, practice rotations of
the camera mount 1 should be made by grasping the camera mounting block 51
and rotating the camera mounting plate 20 through the arc of rotation
stopping at each detent 16, 17. Also, since 50 mm lenses from different
manufacturers have a slightly different focal length, a test roll of film
should be shot at 40/20, 39/19.5, 38/19, 37/18.5 and 36/18 settings to
determine the appropriate detent settings for a particular lens.
Furthermore, when a horizon or rectilinear architecture is to be included
in the panoramic picture, the camera mount 1 should be aligned with the
horizon or line of the architecture by utilizing the bubble level 60 so
that the horizon or line of the architecture will meet smoothly in the
projected slides. Once the appropriate detent settings have been
determined and set, the photographer need only set exposure, compose the
picture, and focus the camera for each shot. To tell which detent setting
is best for a particular group of slide projectors, the slides for various
detent settings must be projected onto a screen where it can be readily
seen which panoramic pictures properly overlap. Although differences in
projector alignment are generally small, the adjustability of the camera
mount 1 of the present invention permits the creation of more accurate
panoramic slides, since neighboring slides can be fine-tuned and adjusted
to a particular projector alignment and camera lens since the adjustable
detents 16 can be adjusted to within one-tenth of one degree on the
five-inch radius of the camera mount 1. The forward and rearward
adjustment of the camera mounting block 51 available by means of the
longitudinal adjustment slots 51a permits compensation for variations in
focal distance while maintaining the iris diaphragm aligned with the pivot
stem 41.
With the preliminary detent settings and adjustments of the camera mounting
block 51 completed, the pictures for the panoramic slides are now ready to
be taken. To enable quick recognition of the film strips as panoramic
pictures instead of a series of separate, single images, the sequence of
pictures should be shot from the left side of the panoramic view to its
right side. Starting at the left side, the camera should be focused, the
exposure set manually (auto-exposure programs should not be used), and the
frame shot. The camera mounting plate 20 should be rotated to the right
until the next detent 16 is engaged and the above steps are repeated.
Sequentially, the camera mounting plate 20 is rotated through each of the
detents 16, 17 to create the full panoramic picture. After the full view
is shot, the scene should be shot again using a half-stop bracket. For a
three-screen, 50% overlap panoramic picture, a frame should be shot at all
five detent settings. For a two-screen, 50% overlap panoramic picture,
frames should be shot only at the narrower adjustable detent settings and
at the centrally-disposed, stationary detent 17.
When it is not practical to shoot sequential frames at successive detent
settings, the camera mount 1 of the present invention permits accurate
retention of the panoramic view.
The five slides produced for a three-screen, 50% overlap panoramic picture
are then mounted in slide mounts, for example, Wess 002 SP slide mounts,
with the appropriate Wess soft-edge masks. The slides may thereafter be
projected on the screens to "re-assemble" them into a panoramic picture.
For print panoramic pictures, shots are taken only at the stationary detent
17 and at the wider adjustable detents 16, for example, at the stationary
detent 17 and at the 38-degree detent setting to each side of the
stationary detent 17. When printing with full-frame-filled negative
carriers the detent settings are the same as for slide films. Prints shot
with color negative film and processed in a one-hour processing laboratory
however must be shot at adjusted detent settings, for example at 34-degree
detent settings to each side of the stationary detent 17 for a 50 mm lens,
to compensate for cropping done at the processing laboratory.
While some familiarity with the principals and guidelines of multi-screen
panoramic projection is necessary for successful panoramic photography,
the camera mount 1 of the present invention greatly simplifies the
alignment of the various frames which make up the panoramic picture.
Various changes and modifications to the preferred embodiment of the camera
mount 1 of the present invention may be made without departing from the
spirit and scope of the present disclosure. Such changes and modifications
within the coverage of the language of the claims hereinafter recited are
intended to be included as part of the present disclosure.
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