Photographic camera for producing sterographic and mono photographs

A photographic camera for use in producing stereographic and mono photographic images. The camera is provided with a reflector system comprising reflectors, lenses and shutters for use in projecting two images onto a light sensitive recording medium in side-by-side relationship to produce a stereograph print, Means, such as obturators, are provided for rendering the reflector system inoperative when the camera is used for projecting a single image through a lens and shutter onto the light sensitive recording medium to produce a mono photograph.

BACKGROUND OF THE INVENTION 
This invention relates to a photographic camera for use in producing 
stereographic and mono photographs. 
A camera for use in producing stereographs has always been regarded as 
being a specialist camera suitable only for use by experienced 
photographers. 
It is known to provide a reflector device having two reflector systems 
which can be attached to a single lens photographic camera to convert the 
camera into one for producing stereographs. Such a device is often 
regarded as being more of a novelty item rather than a substitute for a 
stereo camera. This is because the angle of view is limited and the joint 
between the stereo pair of prints is either a dark band or a double 
exposed band whose width is affected by the size of the camera lens iris. 
SUMMARY OF THE INVENTION 
According to the present invention, there is provided a photographic camera 
for use in producing stereoscopic and mono photographic images, including 
as an integral part thereof a reflector system for use in projecting two 
images onto a light sensitive recording medium in side-by-side 
relationship to produce a stereograph. Means are provided for rendering 
the reflector system inoperative when the camera is used for projecting a 
single image onto the light sensitive recording medium to produce a mono 
photograph. 
In one embodiment, at least part of the reflector system is movable between 
an operative position in which it projects the two images through a lens 
system onto the recording medium and an inoperative position in which the 
two images are not reflected by the reflector system through the common 
lens. Instead, only a single image is projected through the common lens 
system or through another lens onto the recording film. 
In another embodiment, the reflector system may comprise a first series of 
reflectors and lens for reflecting a first image and a second series of 
reflectors and lens for reflecting a second image. Each system is provided 
with an obturator movable between an open position in which it allows the 
respective image to be projected onto the light sensitive recording medium 
and a position in which it prevents the respective image from being 
projected onto the light sensitive recording medium. A separate lens 
system is provided for use in projecting a single image onto the light 
sensitive recording medium. The separate lens system is provided with an 
obturator movable between an open position at times when the other 
obturators are closed to allow a single image to be projected through the 
separate lens system onto the light sensitive recording medium and a 
closed position at times when the other obturators are open to prevent the 
single image from being projected through said separate lens system. 
The accompanying drawings, which are incorporated in and constitute a part 
of the specification, illustrate one embodiment of the invention and 
together with the written description serve to explain the principles of 
the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
The camera shown in FIGS. 1 and 2 comprises a casing 10 provided internally 
with transverse partitions 11 and 12 to form a chamber 13. Provided at one 
end of the chamber 13 is a film support 14 which may be flat as shown or 
concave. Housed within the casing 10 is a reflector system 15 for use in 
reflecting two images in side-by-side relationship onto a light sensitive 
recording medium 16, such as photographic roll film, to produce a 
stereograph. The reflector system 15 comprises a first series of 
reflectors 17 and 18 which include a lens 19 and an iris-type shutter 20, 
and a second series of reflectors 21 and 22 which include a lens 23 and an 
iris-type shutter 24. The reflector 17 receives light from an aperture 10a 
and reflects the light onto the reflector 18 through an aperture 25 
provided in the partition 11 and the reflector 21 receives light from an 
aperture 10b and reflects the light onto the reflector 22 through an 
aperture 26 provided in the partition 12. The aperture 25 is controlled by 
an obturator 27 and the aperture 26 is controlled by an obturator 28. 
An end wall of the chamber 13 is provided with a lens 29 which receives 
light through an aperture 30 controlled by an obturator 31. An iris-type 
shutter 32 is provided. 
Movable into the chamber 13 is a transversely extending movable partition 
member 33. Partition member 33 is movable between the operative position 
shown in FIG. 1 and an inoperative position. When in the inoperative 
position, partition 33 can be folded down into the film chamber, or may be 
otherwise moved to a position where it does not interfere in any manner 
with the single image projected by lens 29 onto light sensitive recording 
medium 16. 
In the mode for producing a stereograph, as shown in FIG. 1, the obturator 
31 is moved to the position in which it closes the aperture 30 and the 
obturators 27 and 28 are moved to the position in which the respective 
apertures 25 and 26 are open. The partition member 33 is moved to its 
operative position which prevents light reflected by the respective 
reflectors 18 and 22 through the shutters 20, 24 and lenses 19, 23 from 
straying onto the adjacent image formed on the light sensitive recording 
medium 16 and produces a straight line between the images. The film 16 can 
be processed in a conventional manner, and the resulting stereograph 
viewed through a viewing device produces the stereographic effect. 
In the mode for producing mono photographs, as shown in FIG. 2, the 
obturator 31 is moved into the position in which the aperture 30 is open 
and the obturators 27 and 28 are moved to the position in which the 
respective apertures 25 and 26 are closed. The partition member 33 is 
retracted. Thus, light is able to be passed through the aperture 30 to the 
lens 29 and projected through the iris-type shutter 32 onto the film 16 to 
produce a mono photograph. 
It will be appreciated that the camera has to be rotated through 180 
degrees when changing from one mode to the other and will be provided with 
either two view finders or a single view finder which can be rotated 
between two operative positions. 
FIG. 3 illustrates a camera similar to the one described with reference to 
FIGS. 1 and 2. Similar reference numerals have been used on FIG. 3 to 
indicate the parts which correspond to those described with reference to 
FIGS. 1 and 2. In this modified form of camera, the film 16 is housed in a 
casing part 34 which projects outwardly and rearwardly from the casing 10 
between the protective pieces of glass 60 and 64. The casing part 34 may 
be integral with the casing 10 or it may be detachably mounted on the 
casing 10 and may form a cassette for the film 16. The casing part 34 
prevents stray light rays, as indicated by the arrows 35, from outside the 
viewing range of the reflectors 17, 21 from being projected onto the 
reflectors 18, 22 and onto the film 16. If such stray light rays 35 were 
allowed to be reflected into the camera they would produce unwanted ghost 
images on the photograph. 
FIG. 4 illustrates another embodiment of a camera according to the present 
invention. The camera casing is not shown. Housed within the casing is a 
reflector system 36 for use in reflecting two images in side-by-side 
relationship on a light sensitive recording medium, such as a film 37, to 
produce a stereograph. The reflector system 36 comprises a first series of 
reflectors 38 and 39 which include a lens 40, and a second series of 
reflectors 41 and 42 which include a lens 43. The lens 40, 43 and 
reflectors 38, 41 are fixed. The reflectors 39 and 42 are mounted on a 
member 44 having a front wall provided with a lens 45 and side walls 46. 
The member 44 is movable between the position shown in FIG. 4 which is the 
stereo mode and a position for use in mono mode. In the stereo mode, the 
reflectors 39 and 42 reflect light from the respective lens 40, 43 onto 
the film 37. In order to place the camera in the mono mode, the member 44 
is moved upwardly so that the reflectors 39 and 42 are not aligned with 
their respective lens 40, 43 and the lens 45 projects light onto the film 
37 to produce a mono photograph. In this position, the side walls 46 block 
off the lenses 40 and 43. Alternatively, member 44 can be designed to be 
rotated, instead of having a sliding motion. 
FIGS. 5 and 6 illustrate yet another embodiment of a camera according to 
the present invention. The camera casing is not shown. Housed within the 
casing is a reflector system 47 for use in reflecting two images in 
side-by-side relationship onto a light sensitive recording medium, such as 
a film provided on a curved film support 48, to produce a stereograph. 
The reflector system comprises a first series of reflectors 49 and 50 and a 
second series of reflectors 51 and 52. The reflectors 50 and 52 project 
through a common lens 53 and an iris-type shutter 54. The reflectors 50 
and 52 are mounted on a slidable member 55 and at the intersection of the 
reflectors there is provided a partition mask 56. 
In the stereo mode shown in FIG. 5, reflectors 49, 50 and 51, 52 project 
respective images through the lens 53 when the shutter 54 is open. The 
partition mask 56 serves the same purpose as the partition member 33 of 
FIGS. 1 and 2. The curved film support 48 minimizes pin-cushion distortion 
produced by the lens 53 and produces a more acceptable matched pair of 
stereo images. 
In the mono mode shown in FIG. 6, the slidable member 55 is slid to a 
position in which the reflectors 50 and 52 cannot reflect light onto the 
film and fully exposes the lens 53 to the subject being photographed and 
thus produces a mono photograph. In the mono mode, light enters the camera 
through a central aperature (not shown) in the direction indicated by 
arrow 62 in FIG. 6. When in the stereo mode, slidable member 55 acts to 
close off the central aperature. 
Preferably, in all of the embodiments, the iris-type shutters 20, 24, 32, 
54 are of fixed width, but variable in depth. The present invention can 
also be fitted with a focal plane shutter. Such a shutter protects the 
film from exposure while switching between the mono and stereo modes. 
In all of the embodiments, the reflector system and lens system are 
arranged such that the camera can produce stereo pairs of photographs or 
mono photographs at the flick of a switch which changes the camera from 
one mode to another. It will be apparent to those skilled in the art that 
various modifications and variations can be made in the camera of the 
present invention without departing from the scope or spirit of the 
present invention. Thus, it is intended that the present invention cover 
the modifications and variations of the invention which come within the 
scope of the appended claims or their equivalents.