Storage tray for audio/video cassette and game cartridges

A storage tray for boxed or unboxed audio cassettes, video cassettes and game cartridges, and compact discs and floppy discs in which the cassette, cartridge or disc is frictionally engaged within one of a plurality of cassette-receiving compartments formed in the storage tray, the cassette, cartridge or disc being secured frictionally by means of a plurality of resilient engagement fingers formed in one wall of the storage tray, the resilient fingers engaging one end wall of the cassette, cartridge or disc, the opposing end wall being frictionally engaged by the opposing rear wall of the storage tray.

FIELD OF INVENTION 
This invention relates to a storage tray for securing audio and video 
cassette game cartridges; compact discs. 
BACKGROUND OF THE INVENTION 
The present invention is related to a storage tray which allows the storing 
of audio cassettes, video cassettes, game cartridges, and compact disc and 
floppy discss. The dimensions of the storage tray vary with respect to the 
type of cassette to be stored, however, the storage trays have a common, 
novel structural element in that they are capable of storing the 
particular cassette or cartridge in either its boxed or unboxed mode and 
the cassette or tape or disc is frictionally engaged within the storage 
tray of the cassette or disc, either boxed or unboxed on opposing end 
panels. 
There have been previous attempts to develop a storage tray adaptable to 
storing cassettes of multiple sizes in either their boxed or unboxed mode. 
These attempts include the following patents: U.S. Pat. No. 4,705,169 to 
Mastronardo; U.S. Pat. No. 4,411,481 to Berkman; U.S. Pat. No. 4,117,931 
to Berkman; U.S. Pat. No. 3,756,383 to Kryter; U.S. Pat. No. 4,231,473 to 
Aprahamian; U.S. Pat. No. 3,603,478 to Connau; and U.S. Pat. No. 4,960,205 
to Wang. 
All of the aforesaid patents, in one form or another, attempt to accomplish 
the storage of various size cassettes in either the boxed or unboxed mode 
and to secure the cassettes within the storage container tray such that 
they cannot be dislodged. However, the structures disclosed in the 
aforesaid patents have not been successful in maintaining the cassettes in 
a secure manner to prevent dislodgement. The tray structure disclosed in 
the prior art cannot lock in a cassette unless the tray is full and the 
prior art structure cannot accommodate cassettes of varying size. The 
securing means utilized in the prior art patents is subject to wear and 
tear such that it cannot maintain the cassettes in a secure manner over 
time and in most instances the securing means utilized in the prior art 
patents is a passive securing means whereas Applicant has developed a 
novel structure having an active securing means which acts positively on 
the cassettes, cartridge or disc in the boxed or unboxed mode in order to 
secure the cassette, cartridge or disc within the storage tray repeatedly 
and which will not deteriorate over time. The terms audio cassette, video 
cassette or cassette as used hereafter is meant to include game 
cartridges, compact discs and floppy discs except where specific 
structural limitations are identified. 
OBJECTS OF THE INVENTION 
It is a principal object of the present invention to provide for a novel 
storage tray for audio, video cassettes, game cartridges or discs in which 
the cassettes are actively secured within the tray. 
It is a further object of the present invention to provide for a novel 
storage tray for audio and video cassettes in which the cassette is 
secured on its opposing end panels. 
It is a still further object of the present invention to provide for a 
novel storage tray for audio and video cassettes which permits the 
cassettes to be secured within the tray in either a boxed or unboxed mode. 
It is a still further object of the present invention to provide for a 
novel storage tray for audio and video cassettes which permits the 
securing of cassettes of varying sizes within the storage tray. 
SUMMARY OF THE INVENTION 
The present invention is directed towards a novel storage tray for securing 
audio and video cassettes, the storage tray positionable within a carrying 
case such as an attache-style case or fabric carry-all, the storage tray 
having a plurality of internal rib dividers defining a plurality of cells 
within the storage tray for receipt of the audio or video cassettes in 
either a boxed or unboxed mode, the cassettes being secured by means of a 
plurality of flexible inwardly depending fingers which engage one end 
panel of the audio or video cassette, the other end panel of the audio 
video cassette being engaged by the opposing sidewall, the flexible finger 
being slightly displaced, exerts positive pressure on one end panel of the 
cassette, thus maintaining the cassette in a secure mode within the 
storage tray.

DETAILED DESCRIPTION OF THE DRAWINGS 
Referring to FIG. 1, there is illustrated a top view of storage tray 10. 
Storage tray 10 comprises a front wall 12, a rear wall 14, and sidewalls 
16 and 18 and a base 20. 
Extending inwardly from front wall 12 and rear wall 14 are a plurality of 
dividers 22. Dividers 22 extending inwardly from front wall 12 are in 
alignment with dividers 22 extending inwardly from rear wall 14 and thus 
define a plurality of cassette receiving cells 24A and 24B. As can be seen 
in FIG. 1, the distance between dividers along front wall 12 and along 
rear wall 14 may vary such that two different size cells 24A and 24B may 
be formed. The reasoning and practicality for having different size cells 
24A and 24B will be discussed hereafter. 
Positioned in front wall 12 are a plurality of inwardly-depending 
engagement fingers 26. Each cassette cell 24A has one engagement finger 26 
associated with it and each cassette cell 24B has two engagement fingers 
26 associated with it. Engagement finger 26 is more readily discernible 
with reference to FIG. 2 which is a front view of the storage tray 10 and 
FIGS. 3, 4 and 5 which are partial cutaway views of the storage tray 10 
and a side view of engagement finger 26, respectively. 
FIG. 2 illustrates the positioning of engagement fingers 26 in front wall 
12 of storage tray 10 and their relative positioning on the front wall 12 
of storage tray 10 vis-a-vis the height of storage tray 10. There is an 
engagement finger 26 positioned between each divider with respect to 
cassette cells 24A and two engagement fingers 26 positioned between 
dividers with respect to cassette cells 24B. 
FIG. 3 is a partial cross sectional view of storage tray 10 along plane 
3--3 of FIG. 1 which illustrates cassette cell 24B. Engagement finger 26 
extends inwardly from front wall 12. Divider 22 extends inwardly from 
front wall 12 and is secured to front wall 12 and base 20. As illustrated 
in FIG. 3, divider 22 is triangular in shape. Adjacent to divider 22, 
interiorly positioned in cell 24B is a support divider 30 which is secured 
to front wall 12 and base 20. Since cassette cell 24B has two engagement 
fingers associated with it, a rib divider 32 secured to front wall 12 and 
base 20 is positioned between the two engagement fingers. The positioning 
of rib divider 32 may be better understood with reference to FIG. 1 
illustrating its equidistant positioning between dividers 22 of cassette 
cell 24B. 
FIG. 4 is a partial cross sectional view of storage tray 10 along plane 
4--4 of FIG. 1 which illustrates cassette cell 24A. Cell 24A has only one 
engagement finger 26 associated therewith. Again, there is a divider 22 
identical to that found in cell 24B. There is no support divider of a 
triangular shape associated with cell 24A. Rather, there is a rib support 
34 positioned in cell 24A which is located at the intersection of divider 
22, base 20 and front wall 12. There are two supports 34 associated with 
each cassette cell 24A as can be readily seen with reference back to FIG. 
1. 
FIG. 5 is a cross sectional view illustrating engagement finger 26. 
Engagement finger 26 is an integral part of front wall 12 and is formed in 
the molding process as will be discussed hereafter. Engagement finger 26 
extends inwardly into storage tray 10 and is resiliently flexible such 
that it can be displaced slightly outwardly from the interior of the 
storage tray 10 by positioning a cassette in a respective cassette cell. 
Arcuate end 27 of finger 26 is designed to engage the lateral sidewall of 
the cassette so as to frictionally maintain the cassette in a secure 
position within the storage tray 10. 
FIG. 6 is a rear view of the storage tray 10. This illustrates dividers 22 
which depend inwardly from rear wall 14. Positioned on the rear wall 14 of 
cassette cell 24A is a stepped support 36 which extends between dividers 
22 and is positioned at the intersection of rear wall 14 and base 20. A 
similar stepped support 36 is also positioned within cassette cells 24B 
and is positioned between support dividers 30. 
The storage and securing of a cassette within storage tray 10 may best be 
understood with reference to FIG. 1 and 1A which is a perspective view of 
a typical cassette having a front panel 50, rear panel 52, side panels 54 
and 56 and end panels 58 and 60. An unboxed cassette can be secured within 
storage tray 10 by positioning a cassette in cassette cell 24a with the 
open portion, side panels 54, of the cassette facing downwardly and 
pressing the cassette into cassette cell 24A between dividers 22. One end 
panel 60 of the cassette will engage rib support 36 and the other lateral 
edge of the cassette will engage engagement finger 26 and slightly 
displace finger 26 outwardly to allow the cassette to be positioned within 
cassette cell 24A such that side panel 54 is in proximate contact with 
base 20. A cassette is thus frictionally engaged on its end panels 58 and 
60 by support 36 and engagement finger 26. The unboxed cassette could 
similarly be positioned in cassette cell 24B, cassette cell 24B being 
capable of accommodating two unboxed cassettes. 
A boxed cassette would be positioned similarly as to an unboxed cassette; 
however, to accommodate slight variations in length, the boxed cassette 
may not engage base 20, but rather rest on supports 36 and 34. In this 
configuration, the end panels of the cassette are frictionally engaged by 
rear wall 14 and engagement finger 26 to ensure that the cassette does not 
become dislodged. Boxed cassettes would be stored primarily within 
cassette cell 24A of storage tray 10. 
Storage tray 10 as disclosed in FIGS. 1 through 6 would be appropriately 
dimensioned to accommodate either audio cassettes in a boxed or unboxed 
mode, video cassettes in a boxed or unboxed mode, or compact disks. FIGS. 
7 through 10 illustrate a second embodiment of a storage tray designed to 
accommodate game cartridges or floppy computer disks of the common 31/2 
inch sizes. 
FIG. 7 is a top view of a second embodiment of a storage tray 100 having a 
front wall 112, a rear wall 114, end walls 116 and 118, and a base 120. 
Storage tray 100 is comprised of a series of cassette cells 124 which are 
defined by a plurality of dividers 122 which extend from front wall 112 to 
rear wall 114. In this configuration of storage tray 100, all of the 
cassette cells 124 are of equal size. Again, positioned on front wall 112, 
are a plurality of engagement fingers 126 which depends inwardly from 
front wall 112 into cassette cell 124. There is one engagement finger 126 
associated with each cassette cell 124. 
Referring to FIG. 8, there is illustrated a front view of storage tray 100. 
FIG. 8 illustrates that every third divider 122 is somewhat higher than 
the previous two dividers so as to group cassette cells 124 into groups of 
three (3). This is primarily done in order to maintain the structural 
integrity of the storage tray 100 which would be made of one-piece molded 
plastic material and the choice of every third divider 122 for enlargement 
is one of choice and not necessity. 
Base 120 of storage tray 100 has formed therein, in each of cassette cells 
124, a depending slot 128 which extends a prescribed distance from front 
wall 112 towards rear wall 114 in base 120. The prescribed distance of 
slot 128 is one of choice depending upon what type and size of disc one 
wishes to store in the manufactured tray. 
As an example, the distance between front wall 112 and rear wall 114 of 
storage tray 100 could be dimensioned such that video game cassettes could 
be stored in each cassette cell 124 by positioning the cassette in 
cassette cell 124 and pressing downwardly such that the end panels of the 
cassette were frictionally engaged with the interior of rear wall 114 and 
engaging finger 126 in the front wall 112 of storage tray 100. 
Simultaneously, a smaller cassette or disc such as a 31/2 inch floppy disc 
for a computer could be stored in storage tray 100 by positioning the 31/2 
inch cassette in depending slot 128 of a particular cassette cell 124 and 
pressing downwardly. The disc would be engaged by engagement finger 126 
and corner 130 of depending slot 128 formed by the intersection of slot 
128 and base 120. Corner 130 would engage one end panel corner of the disc 
so as to maintain the disc in a secured position within storage tray 100. 
FIG. 9 is an end view of storage tray 100 showing the relationship of 
depending slot 128 to base 120 and thus defining corner 130 for engagement 
with cassettes or floppy discs of the 31/2 inch variety. FIG. 10 is a rear 
view of storage tray 100 again showing the relationship of depending slots 
128 to base 120. 
The first embodiment of the storage tray as disclosed in FIGS. 1 through 6 
and the second embodiment of the storage tray as disclosed in FIGS. 7 
through 10 would normally be manufactured of one-piece molded plastic. As 
previously stated, the size and dimension of the storage tray would be 
varied in accordance with the dimensions of the audio cassette, video 
cassette, game cartridge, compact disc or floppy disc which the user 
wished to store. As an example, the embodiment disclosed in FIG. 1 could 
be dimensioned for boxed or unboxed audio cassettes. The length of 
sidewalls 16 and 18 and the width of cassette cells 24A and 24B could be 
increased so as to provide for storage tray which would accommodate boxed 
or unboxed video cassettes. Similarly, these dimensions could be modified 
to accommodate game cartridges or compact discs. The second embodiment of 
the storage tray as illustrated in FIG. 7 accommodates 31/2 inch floppy 
discs in combination with compact discs. 
In either embodiment, the essential feature is that the cassette, no matter 
which type, is actively engaged in a secure position by frictional 
engagement on a portion of the end panels of the cassette, the frictional 
engagement being accomplished by resilient finger 26 or 126 as found in 
the front wall of the two embodiments in combination with the rear wall or 
support adjacent the rear wall of either embodiment. The resiliency of 
fingers 26 and 126 is such that once the cassette is engaged in the 
particular cassette cell, the storage tray itself can be rotated 
360.degree. without any dislodgement or loosening of the cassette from the 
storage tray. 
Typically, storage trays of the type disclosed and illustrated herein are 
made of one-piece molded plastic and then positioned within a carrying 
case, the carrying case being typically a zippered bag constructed of 
nylon or canvas. The user is desirous of ensuring that the cassettes which 
he or she has engaged in the storage tray will not become dislodged 
through the handling of the carrying case. Applicant's novel incorporation 
of the resilient fingering in cooperation with the rear wall structure of 
his storage cases ensures that the cassette is frictionally engaged under 
positive force on the cassette's end panels to ensure that the cassette is 
not dislodged from the storage tray. 
While the invention has been described with reference to the preferred 
embodiment thereof, it will appreciated by those of ordinary skill in the 
art that various changes can be made without departing from the basic 
spirit and scope of the invention.