[0001] The invention relates generally to the field of packaging, and in particular to packaging
for long rolls of photosensitive web material. More specifically, the invention relates
to a light-tight packaging container, which includes features for keeping the container
securely closed to ensure light-tightness during shipping and storage.
[0002] Typically, long rolls of photosensitive web material, e.g., photographic film used
for surveillance, social/portrait, and commercial imaging are commonly packaged in
containers ensuring light-tightness from the manufacturer to the film processor. The
rolls of photographic film are wound onto cores with or without flanges. The light-tight
containers generally have a film compartment and a closure adapted to fit rather snugly
about the film compartment. The containers are often fabricated of metal or plastic.
[0003] It is well known that the closure for such film containers must be securely attached
to the film compartment to ensure light-tightness during shipping and handling. An
existing practice for securing the closure to the film compartment is by wrapping
some sort of opaque or partially opaque adhesive material, such as tape, around the
circumference covering the seam between the closure and film compartment. Generally,
the manufacturer of photographic film product would apply the adhesive material or
tape to the seam between the film compartment and the closure in a dark environment
to ensure light-tightness of the product in the package during shipping and handling
from the factory to the photographer. When the product is ready to be used, the photographer
removes the tape from the seam and disposes of it in the environmental waste stream.
The photographer then holds the packaging container in a light-tight closed condition
until it has been inserted into a dark film-changing bag or enters a dark room. While
in the dark environment, the photographer then opens the packaging container, removes
the film and installs it in the camera. After exposing the film, the photographer
uses a dark film-changing bag or darkroom to remove the film from the camera and places
the exposed film back into the light-tight packaging container. The photographer then
secures the packaging container with the closure in a light-tight closed position
about the film compartment and then wraps a tape about the seam to ensure light-tightness
during shipping and handling from the photographer to the photo-finishing laboratory.
The film processor or photo-finishing laboratory would then have to remove and dispose
of the tape securing the seam between the closure and the film compartment in order
to access the film.
[0004] It should be appreciated that existing packaging containers for photosensitive film
product have numerous shortcomings. For instance, the adhesive material or tape introduces
added labor cost (in the form of additional operators) to the film manufacture process.
Operators performing this function would then be exposed to the possibility of injuries
when cutting the tape in a dark environment suitable for handling photosensitive film.
Moreover, the tape introduces an undesirable cost burden to the film manufacturer
who applies the tape to the container to protect the photosensitive product. Further,
the tape is a waste burden to the photographer who removes the tape and ultimately
disposes of it. Still further, the tape is a cost burden to the photographer who re-tapes
the film container before shipment to the processing lab. Finally, the tape is a waste
burden to the processing lab that removes the tape to access the exposed film. Thus,
at some point the removed tape is disposed of by the processing lab.
[0005] Illustrative of existing containers having threaded and lockable closure elements
primarily for safety and health is described in U.S. Patent 5,816,422, October 6,
1998, titled, "Package With Safety Lid and Seal," by Roig. According to the '422 patent
the container has projections 5, 6 in the closure that mate with recesses 9 and 10
on the body. The integrity of the locking mechanism in the aforementioned patent does
not conform to the requirements of light-tightness as does the present invention.
[0006] Therefore, a need persists for a packaging container for photosensitive film product
that replaces the need for tape to ensure light-tight protection of the film product,
which is simple to use and cost effective to produce.
[0007] It is, therefore, an object of the invention to provide a light-tight packaging container
for photosensitive film product that is easy to access in a dark environment.
[0008] Another object of the invention is to provide a light-tight packaging container that
can be easily resealed in a dark environment without the need for additional materials.
[0009] Yet another object of the invention is to provide a light-tight packaging container
for photosensitive film that resolves the problem of adding product to the environmental
waste stream.
[0010] It is a feature of the invention that a first detent feature formed on a flange of
the film compartment interlocks with a cooperating second detent feature formed in
the closure to secure the film compartment from the penetration of light.
[0011] To solve these and other objects, features and advantages of the invention, there
is provided, in one aspect of the invention, a light-tight packaging container comprising:
A light-tight packaging container, comprising a generally cylindrical container compartment
having a base, sidewalls surrounding said base, and an central opening opposite said
base, said sidewalls having a flange extending at least partially therearound, and
wherein said flange includes a first detent feature extending axially therefrom; and,
a generally cylindrical closure configured for fitting over at least a portion of
said sidewalls thereby closing said opening, said closure having a second detent feature
formed in a peripheral end edge for interlocking with said first detent feature in
said flange thereby securing said closure from axial movement along said flange.
[0012] The present invention has numerous advantageous effects over current developments.
First, it eliminates the need for an adhesive tape to secure the seam between the
closure and product compartment to ensure a light-tight condition inside the product
compartment. Next, it eliminates the cost and waste associated with the adhesive tape.
Further, it is simple and cost effective to manufacture. And, the packaging container
of the invention is easy to use.
[0013] The above and other objects, features, and advantages of the present invention will
become more apparent when taken in conjunction with the following description and
drawings, wherein identical reference numerals have been used, where possible, to
designate identical features that are common to the figures, and wherein:
Figure 1 is an isometric view of the closed packaging container of the invention;
Figure 2 is an isometric view of the closure showing the detention feature;
Figure 3 is an isometric view of the article compartment showing the detention feature;
Figure 4 is an enlarged view of the film compartment and closure detention feature
interface;
Figure 5 is an isometric view of an alternative light-tight packaging container closure
showing the detention and thread features; and,
Figure 6 is an isometric view of an alternative article compartment showing the detention
and thread features.
[0014] Turning now to the drawings, and in particular to Figs. 1 - 4, a packaging container
10 and or components thereof suitable for storing and shipping, under light-tight
conditions, an article, e.g., a roll of photosensitive film, is illustrated. In Figs.
1 and 4, the closed packaging container 10 of the invention is depicted having a container
compartment 12 and a closure 22 (described below) fitted snugly about the container
compartment 12 in a manner that prevents the penetration of light. According to Fig.
2, packaging container 10 has a container compartment 12 having a generally cylindrical
shape. As shown in Fig. 2, container compartment 12 has a substantially circular base
14, sidewalls 16 surrounding the base 14 and an opening 17 opposite the base 14 for
accessing the container compartment 12. In a preferred embodiment, the sidewalls 16
have a flange 18 that extends at least partially around the circumference of the container
compartment 12. Importantly, the flange 18 includes a first detent feature, preferably
a protuberance 20, which extends axially from the flange 18.
[0015] Referring to Fig. 3, a generally cylindrical closure 22 for closing the opening 17
(Fig. 2) of the container compartment 12 is depicted. Closure 22 has at least one
second detent feature 24, preferably two spaced notches, configured for interlocking
with the first detent feature 20 in the flange 18 of container compartment 12. Second
detent feature 24 is preferably at least one notch formed in a peripheral end edge
26 for capturing the protuberance 20 in the flange 18 thereby securing the closure
22 from movement along the flange 18.
[0016] Referring to Figs. 5 and 6, an alternative embodiment of the packaging container
10 (Fig. 1) of the invention is illustrated. According to Fig. 5, sidewalls 30 surrounding
base 14 have a flange 18 and a first thread 36 extending helically at least partially
around the sidewalls 16. As in the previous embodiment, the flange 18 includes a first
detent feature 38 extending axially therefrom.
[0017] Referring to Fig. 6, a generally cylindrical closure 40 is configured for closing
the opening 17. Closure 40 has an inside second thread 42 extending helically about
an inner wall 43 of closure 40 for cooperatively engaging the outside first thread
36 of container compartment 12. A peripheral edge 44 of the closure 40 includes a
second detent feature 46 for engaging the first detent feature 38 in the flange 18
thereby securing the closure 40 from axial movement along the flange 18.
[0018] In this embodiment, closure 40 can tightly close upon container compartment 12 by
threadably screwing the first thread 36 into the second thread 42 so that the first
detent feature 38 aligns with and then interlocks the second detent feature 46. This
prevents light penetration into the container compartment 12 and unintended unscrewing
of the closure 40 after the closure 40 has been coupled through axial pressure with
the container compartment 12. Closure 40 may have a plurality of ribs 52 along its
periphery for ease of engaging and disengaging the second thread 42 from the first
thread 36.
[0019] As indicated above, the first detent feature 38 is preferably a protuberance having
a generally arcuate shape. Skilled artisans will appreciate that the protuberance
and the notch may have practically any shape such as a generally square shape, a generally
V-shape or a generally C-shape. Depicted in Fig. 5, on either end of the generally
arcuate shape protuberance 38 is a first land 54 and an opposed second land 56. The
first and second lands 54, 56 guide the protuberance 38 between an interlocking position
and a free position relative to the second detent feature or notch 46.
[0020] In another embodiment of the invention, a method of forming a light-tight packaging
container 10 for photosensitive film product includes the step of providing a packaging
container 10 and a removable closure 22 configured to fit snugly about the container
compartment 12, each as described above. A first detent feature 20 is formed in the
container compartment 12 by, for instance molding, and a second detent feature 24
configured for interlocking with the first detent feature 20 in a light-tight position
is formed in the interior of the closure 22. Once the detents 20, 24 are formed, the
removable closure 22 is fitted on the container compartment 12 so that the first detent
feature 20 interlocks with the second detent feature 24 in a light-tight relations.
[0021] Packaging containers 10, including the container compartment 12 and closure 22, are
preferably made of a rigid thermoplastic material, such as high density polyethylene.
Those skilled in the art, however, will appreciate that other material compositions
may be used, such as polystyrene or polypropylene.
1. A light-tight packaging container, comprising:
a generally cylindrical container compartment having a base, sidewalls surrounding
said base, and a central opening opposite said base, said sidewalls having a flange
extending at least partially therearound, and wherein said flange includes a first
detent feature extending axially therefrom; and,
a generally cylindrical closure configured for fitting over at least a portion of
said sidewalls thereby closing said opening, said closure having a second detent feature
formed in a peripheral end edge for interlocking with said first detent feature in
said flange thereby securing said closure from axial movement along said flange.
2. The packaging container recited in claim 1 wherein said first detent feature is a
protuberance having a generally arcuate shape; and, said second detent feature is
a notch.
3. The packaging container recited in claim 2 wherein said notch has a generally arcuate
shape having a first land on one side and a second land on an opposite side for guiding
said protuberance between an interlocking position and a free position relative to
said notch.
4. The packaging container recited in claim 1 wherein said closure and said generally
cylindrical container compartment are formed of a high density polyethylene material.