Pressure member urging mechanism

In a camera, a pressure plate is urged against a film frame to hold the film frame in the focal plane of a picture-taking lens during exposure. A resiliently flexible strip, mounted on a loading door of the camera, is normally disposed in a storage plane. An actuating pin, which engages the flexible strip when the loading door is closed, connects the strip to camera mechanism, such as a shutter release. The actuating pin operates, in response to movement of the shutter release, to partially bow an intermediate portion of the strip from the storage plane by sliding a first portion of the strip in the storage plane toward a second, stationary portion of the strip. Bowing of the strip moves the intermediate portion toward the exposure plane to urge the pressure plate against the film frame before exposure and establishes a resilient force in the bowed portion for returning the strip to the storage plane after exposure.

CROSS REFERENCE TO RELATED APPLICATIONS 
Reference is made to commonly assigned, copending U.S. patent application 
Ser. No. 931,053, now U.S. Pat. No. 4,194,822 entitled PHOTOGRAPHIC FILM 
CARTRIDGE ASSEMBLY AND CAMERA, filed in the name of G. S. Sethi on Aug. 4, 
1978 and U.S. patent application Ser. No. 931,076, now U.S. Pat. No. 
4,202,614, entitled PHOTOGRAPHIC CAMERA, filed in the name of D. M. Harvey 
on Aug. 4, 1978. The Harvey application is a continuation of U.S. patent 
application Ser. No. 774,715 filed on Mar. 7, 1977, now abandoned. 
BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to photographic apparatus, in general, and 
more particularly to a mechanism for urging a pressure member against a 
photographic film to locate an exposure area of the film in an exposure 
plane. 
2. Description of the Prior Art 
It is well known in still picture cameras that when a film frame is moved 
during exposure or does not lie substantially flat in the focal plane of 
the picture-taking lens, the resulting picture will be blurred or 
distorted. For this reason, there is usually provided a pressure-applying 
assembly for securely holding the film frame in the focal plane of the 
lens during exposure. Such pressure-applying assemblies are known in a 
wide variety of constructions. However, the known constructions suffer 
from several disadvantages. For example, many pressure plates are mounted 
on a loading door or a removable rear wall of the camera, the pressure 
plate being urged by a compression or leaf spring to bear against the 
film, as in U.S. Pat. Nos. 3,311,037 and 3,707,904 and in the 
above-referenced Harvey patent applications (which are generally described 
in Publication No. 172,108 of Research Disclosure, Aug. 1978, Number 172.) 
Because in most constructions, the pressure plate and the spring protrude 
from the loading door, they are accessible to damage or deforming during 
the time the loading door is opened. Moreover, such an arrangement usually 
adds to the front-to-back dimension of the camera, which makes it 
difficult to design a camera that is relatively thin, such as a 
pocket-size or miniature camera. 
Another type of pressure-applying assembly, as in U.S. Pat. No. 1,829,332, 
includes a cam mechanism which is actuated by movement of a shutter 
operating mechanism to hold a pressure plate firmly against the film. 
Here, the cam urging of the pressure plate is not resilient, as in the 
example of the spring-urged pressure plate, and may require substantially 
more front-to-back spacing in the camera than the spring-operated version. 
A number of spring-operated and cam-operated pressure-applying assemblies 
have been devised in which a pressure member is relievable with respect to 
the film, as in the above-referenced Harvey patent applications and U.S. 
Pat. No. 1,829,332. That is, the pressure member is retracted from the 
filmstrip after exposure to permit film advance. Such relievable 
pressure-applying assemblies, in addition to suffering from the problems 
described above, are relatively more complex and expensive than the 
non-relievable types. 
SUMMARY OF THE INVENTION 
The above-described problems associated with prior art pressure-applying 
assemblies are believed solved by the present invention. Specifically, 
according to the present invention, a mechanism for urging a pressure 
member is provided which is relatively simple, economical to manufacture, 
and has a spring-like member that is stored in a substantially flat 
configuration. The substantially flat storage facilitates design of a 
camera which is relatively thin and minimizes the possibility of any 
damage to the spring-like member during the time that it is accessible, 
such as when a loading door of the camera is opened. 
In keeping with the teachings of the present invention, there is generally 
provided a mechanism for urging a pressure member against a photographic 
film to locate an exposure area of the film in an exposure plane, which 
mechanism comprises: 
a strip member having first and second portions spaced from each other and 
a flexible urging portion between said first and second portions, said 
strip member being adjustable to one configuration in which said first and 
second portions are separated by a given distance at which said urging 
portion is ineffective to urge the pressure member against the film and 
another configuration in which said first and second portions are 
separated by a lesser distance at which said urging portion is bowed 
toward the exposure plane to urge the pressure member against the film; 
and 
means for engaging said first portion and moving it with respect to said 
second portion to change the spacing between said portions for adjusting 
said strip member from one of its two configurations to the other. 
According to a preferred embodiment of the present invention, the strip 
member is substantially flat and constructed of a resiliently flexible 
material, such as "Mylar" which is a registered trademark of DuPont. The 
flat strip is mounted on a loading door of the camera and is normally 
disposed in a storage plane, defined by a recess in the loading door. Such 
an arrangement facilitates design of a camera which is relatively thin and 
makes the strip substantially inaccessible to damage when the loading door 
is opened. an actuating pin, which engages the strip when the loading door 
is closed, connects the strip to means for effecting a camera function, 
such as a shutter release member. The actuating pin operates, in response 
to initiation of shutter release, to partially bow an intermediate portion 
of the strip outwardly from the storage plane by moving a first portion of 
the strip in the storage plane toward a second, stationary portion of the 
strip. The bowed portion of the strip moves toward the exposure plane to 
urge the pressure member against the photographic film before film 
exposure and resiliently returns the strip to the storage plane after film 
exposure.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring now to the drawings and in particular to FIG. 1, there is shown a 
still-picture camera which is similar in certain respects to the camera 
disclosed in the above-referenced Sethi patent application. At the front 
of the camera 1 there is provided a picture-taking lens 3, a view-finder 
5, a shutter release button 7, movable along a straight slot 9, and a film 
advance tab 11, movable along an arcuate slot 13. A locking tab 15 at one 
side of the camera 1 is movable along a straight slot 17 to disengage, in 
FIG. 2, from an internal latch 19, located on a rear door 21 of the 
camera. This allows the rear door 21 to be opened for loading a film 
cartridge 23 into a receiving chamber 25 of the camera. The chamber 25 is 
sized and shaped to receive the cartridge 23 only in one specific 
orientation, as shown in FIG. 2. When the cartridge 23 is received in the 
chamber 25, a pin 27, coupled to the film advance tab 11 and extending 
from an arcuate slot 28, engages film drive means (not shown) in the 
cartridge. Moreover, a stationary post 29, projecting into the camera 
chamber 25, extends into a central opening 31 in a core portion 33 of the 
received cartridge. When the loading door 21 is closed, exposure numbers 
on the cartridge core 33 are individually viewable through a window 35 in 
the door and the cartridge core is received in a cavity 37 which overlaps 
the window. 
The film cartridge 23, as shown in FIG. 4, includes a rectangular exposure 
window 39 which is optically aligned with the picture-taking lens 3 upon 
receipt of the film cartridge in the camera chamber 25. A film disk 41 in 
the cartridge 23 can be rotated incrementally about the stationary post 29 
in the camera chamber 25, in FIG. 2. This moves successive exposure areas 
of the film disk 41 into alingment with the exposure window 39, as in FIG. 
4. The film disk 41 is rotated by pushing the film advance tab 11 along 
the arcuate slot 13, in FIG. 1. The pushed tab 11 moves the pin 27 along 
the arcuate slot 28, in FIG. 2, which operates film drive means (not 
shown) in the cartridge 23. 
A rear wall 43 of the cartridge 23 has a rectangular opening 45, shown 
aligned with the exposure window 39 in FIG. 4. The opening 45 is covered 
by an opaque resiliently flexible membrane 47 which is bonded to the rear 
wall 43, as in FIGS. 2 and 4. A rigid pressure plate 49 is normally 
disposed within the wall opening 45, substantially parallel to and spaced 
from the film disk 41. The pressure plate 49 is fixed to the flexible 
membrane 47. Upon bowing of the flexible membrane 47 partially into the 
wall opening 45, as in FIG. 4, the pressure plate 49 is pushed by the 
flexible membrane partially out of the wall opening and is brought to bear 
against the film disk 41. The pressure plate 49, in bearing against the 
film disk 41, presses the film disk into contact with a rectangular rail 
51, projecting from the camera chamber 25 into the exposure window 39; 
whereupon, an exposure area of the film disk 41 is held substantially flat 
in an exposure plane coincident with the focal plane of the picture-taking 
lens 3. 
The preferred embodiment of the present invention, which is a mechanism for 
urging the pressure plate 49 against the film disk 41 by bowing the 
flexible membrane 47, is not clearly shown in FIG. 3. The loading door 21 
of the camera 1 includes a recess or relieved area 53 which defines a 
storage plane for a pressure plate urging member 55. The pressure plate 
urging member 55, preferably is in the form of a substantially flat strip, 
constructed of a resiliently flexible material, such as "Mylar", and 
includes a tongue 57. The tongue 57 has forward or leading end 59 which 
abuts against a stop 61, fixed to the loading door 21 in the recess 53. 
When the pressure plate urging member 55 is moved generally to the left, 
in FIG. 3, in the storage plane defined by the recess 53, the leading end 
59 of the tongue 57 is held stationary, which causes an intermediate 
portion 57' of the tongue to flex and bow out of the recess, as in FIG. 4. 
A slight hump 63 may be provided in the recess 53 beneath the intermediate 
or bowed portion 57' to facilitate such bowing of the tongue 57. When the 
pressure plate urging member 55 is moved generally to the right, in FIG. 3 
(or in FIG. 4, generally to the left) the bowed portion 57' of the tongue 
57 substantially straightens, moving back into the storage plane defined 
by the recess 53. Bowing of the tongue establishes a resilient or 
spring-like force in the bowed portion which may be used to return the 
pressure plate urging member generally to the right, in FIG. 3. The 
apparatus for moving the pressure plate urging member generally to the 
left, in FIG. 3, is described below and shown in FIG. 5. 
A constraining plate 65, having one opening 67 into which the stop 61 
protrudes and another opening 69 through which the bowed portion of the 
tongue 57 protrudes, is secured to the loading door 21, over the pressure 
plate urging member 55. When the pressure plate urging member 55 is moved 
generally to the left, in FIG. 3, in the storage plane defined by the 
recess 53, the constraining plate 65 maintains the pressure plate urging 
member in the storage plane, except for the bowed portion 57' of the 
tongue 57 which moves through the opening 69 in the constraining plate, as 
in FIG. 4. 
Viewing FIG. 4, the bowed portion 57' of the tongue 57 applies a resilient 
force to the flexible membrane 47, bonded to the rear wall 43 of the film 
cartridge 23. The resilient force moves the flexible membrane 47 partially 
into the wall opening 45, which moves the pressure plate 49, fixed to the 
flexible membrane, partially out of the wall opening. The moved plate 49 
is urged by the resilient force of the bowed portion 57' against the film 
disk 41 to press the film disk into contact with the camera rail 51, 
projecting into the exposure window 39 of the film cartridge 23; 
whereupon, the pressed disk 41 is held substantially flat in the focal 
plane of the picture-taking lens 3 for exposure. 
Referring now to FIG. 5, there is shown a shutter operating mechanism in 
the camera 1. When the shutter release button 7 is pushed downward, in 
FIG. 5, a slide 71, fixed to the button, is similarly moved against the 
reverse urging of a return spring 73. An extended edge 75 of the moved 
slide 71 pivots a restraining latch 77 in a counterclockwise direction 
against the reverse urging of a return spring 79. The pivoted latch 77 
releases a spring-urged striker 81 which moves to the right, in FIG, 5 to 
strike a rebound-type shutter blade 83, normally held against a stop 85 by 
a return spring 87. The shutter blade 83 pivots in a counterclockwise 
direction, first uncovering the exposure window 39 of the cartridge 23 to 
inititate an exposure interval and then rebounding off a stop 89 to 
terminate the exposure interval by again covering the exposure window. 
Subsequent operation of the film advance tab 11, in FIG. 1, serves to 
recock the striker 81 for the next actuation of the shutter blade 83. 
Conventional double exposure prevention means, although not shown, are 
provided to insure that the shutter release button 7 cannot be pushed 
downward in FIG. 5, following exposure termination, until film advance is 
completed. The slide 71, in FIG. 5, is connected to a pivotally mounted 
arm 91 by a coupling spring 93. The arm 91 is normally held against a stop 
95 by a return spring 97 which is weaker than the coupling spring 93. When 
the slide 71 is initially moved downward, in FIG. 5, for effecting shutter 
actuation, the arm 91 is pivoted in a counterclockwise direction until 
halted by a stop 99. An actuating pin 101, located on the pivoted arm 91, 
projects, as shown in FIGS. 3 and 4, loosely through an elongate opening 
103 in the pressure plate urging member 55 and into a channel 105 in the 
recess 53 in the loading door 21. As a result, the actuating pin 101 on 
the pivoted arm 91 operates to move the pressure plate urging member 55 
generally to the left, in FIG. 3 (or in FIG. 4, generally to the right) to 
bow the tongue 57 through the opening 69 in the constraining plate 65. The 
bowed portion 57' of the tongue 57, in FIG. 4, urges the pressure plate 49 
against the film disk 41 to hold the film disk substantially flat in the 
focal plan of the picture-taking lens 3 before the exposure interval 
begins. After termination of the exposure interval and return of the slide 
71, as in FIG. 5, the arm 91 is pivoted in a clockwise direction by the 
return spring 97 from the stop 99 to the stop 95. The actuating pin 101 on 
the pivoted arm 91 moves generally to the left, in FIG. 4, along the 
elongate opening 103 in the pressure plate urging member 55. This releases 
the pressure plate urging member 55 for movement generally to the left, in 
FIG. 4, by the resilient force established in the bowed portion 57' of the 
tongue 57; whereupon, the tongue 57 substantially flattens in the recess 
53, freeing the flexible membrane 47. The flexible membrane 47 returns 
from the bowed configuration to a substantially straight configuration, 
drawing the pressure plate 49 away from the film disk 41 to allow the film 
disk to be advanced across the exposure window 39 for the next exposure. 
Although the actuating pin 101 is shown in FIGS. 3 and 4 as fitting loosely 
through the elongate opening 103 in the pressure plate urging member 55, 
it will be appreciated that a tight fit could be devised; in which 
instance, the actuating pin (rather than the resilient force established 
in the bowed portion of the tongue 57) would be used to move the pressure 
plate urging member to substantially flatten it in the recess 53. 
When the loading door 21 is opened to remove the film cartridge 23 from the 
camera chamber 25, the channel 105 in the loading door and the opening 103 
in the pressure plate urging member 55 are separated from the actuating 
pin 101. Closing the loading door 21 again couples the actuating pin 101 
and the pressure plate urging member 55. 
The present invention has been described in detail with particular 
reference to the preferred embodiment thereof, but it will be understood 
that variations and modifications can be effected within the spirit and 
scope of the invention. For example, the pressure plate urging member 55 
could be located in the film cartridge 23 instead of in the loading door 
21 of the camera 1. Alternatively, the pressure plate 49 could be located 
in the camera instead of in the wall opening 45 of the film cartridge. 
According to another example, the tongue 57 of the pressure plate urging 
member 55 could normally be in the bowed configuration instead of in the 
substantially flat configuration; in which instance, the tongue would be 
substantially flattened only in anticipation of film advance and 
immediately after film advance (but before film exposure) would return to 
its normal bowed configuration.