CA1327154C - Compact disc storage container with non-scratching surface - Google Patents
Compact disc storage container with non-scratching surfaceInfo
- Publication number
- CA1327154C CA1327154C CA000598442A CA598442A CA1327154C CA 1327154 C CA1327154 C CA 1327154C CA 000598442 A CA000598442 A CA 000598442A CA 598442 A CA598442 A CA 598442A CA 1327154 C CA1327154 C CA 1327154C
- Authority
- CA
- Canada
- Prior art keywords
- sheet
- compact disc
- vinyl
- sleeve
- nonwoven fabric
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B42—BOOKBINDING; ALBUMS; FILES; SPECIAL PRINTED MATTER
- B42F—SHEETS TEMPORARILY ATTACHED TOGETHER; FILING APPLIANCES; FILE CARDS; INDEXING
- B42F5/00—Sheets and objects temporarily attached together; Means therefor; Albums
- B42F5/005—Albums for record carriers, e.g. for disc records
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B42—BOOKBINDING; ALBUMS; FILES; SPECIAL PRINTED MATTER
- B42F—SHEETS TEMPORARILY ATTACHED TOGETHER; FILING APPLIANCES; FILE CARDS; INDEXING
- B42F5/00—Sheets and objects temporarily attached together; Means therefor; Albums
- B42F5/02—Stamp or like filing arrangements in albums
- B42F5/04—Stamp or like filing arrangements in albums with transparent pockets
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B33/00—Constructional parts, details or accessories not provided for in the other groups of this subclass
- G11B33/02—Cabinets; Cases; Stands; Disposition of apparatus therein or thereon
- G11B33/04—Cabinets; Cases; Stands; Disposition of apparatus therein or thereon modified to store record carriers
- G11B33/0405—Cabinets; Cases; Stands; Disposition of apparatus therein or thereon modified to store record carriers for storing discs
- G11B33/0411—Single disc boxes
- G11B33/0422—Single disc boxes for discs without cartridge
Abstract
COMPACT DISC STORAGE CONTAINER
WITH NON-SCRATCHING SURFACE
Abstract of the Disclosure Storage devices (10, 50) for compact discs (14) are described which protect the optical surface (22) of the stored compact disc from scratches and dust accumulation. The devices are used to store discs singly and in groups of more than one, and provide maximum visibility for viewing the printed surface (20) of the compact disc as well as the accompanying graphics (12). The storage device (10) is comprised of a composite sheet (24), consisting of a nonwoven fabric (26) joined to a backing sheet (28).
A front sheet (30) is disposed over the nonwoven fabric (26) and joined along three peripheral edges (32) to define a pocket for retaining compact disc (14). A pocket forming sheet (40) is joined to the backing sheet (28) in a manner to allow storage of the graphics (12). Storage device (50) has a composite sheet (52) formed of nonwoven fabric (54) joined to backing sheet (56). A front sheet (58) is joined to composite sheet (52) over nonwoven fabric (54), and a reverse sheet (62) is joined to composite sheet (52) over the backing sheet (56).
WITH NON-SCRATCHING SURFACE
Abstract of the Disclosure Storage devices (10, 50) for compact discs (14) are described which protect the optical surface (22) of the stored compact disc from scratches and dust accumulation. The devices are used to store discs singly and in groups of more than one, and provide maximum visibility for viewing the printed surface (20) of the compact disc as well as the accompanying graphics (12). The storage device (10) is comprised of a composite sheet (24), consisting of a nonwoven fabric (26) joined to a backing sheet (28).
A front sheet (30) is disposed over the nonwoven fabric (26) and joined along three peripheral edges (32) to define a pocket for retaining compact disc (14). A pocket forming sheet (40) is joined to the backing sheet (28) in a manner to allow storage of the graphics (12). Storage device (50) has a composite sheet (52) formed of nonwoven fabric (54) joined to backing sheet (56). A front sheet (58) is joined to composite sheet (52) over nonwoven fabric (54), and a reverse sheet (62) is joined to composite sheet (52) over the backing sheet (56).
Description
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COMPACT DISC STORAGE CONTAINER
WITH NON-SCRATCHING SURFACE
Field of the Invention ::
The invention rela~es to devices for storing compact discs which achieve improved visibility of the ~-compact disc and accompanying graphics while 5 decreasing the risk of scratches and dust accumulation -on the surface of the disc.
Background of the Invention -The introduction of the compact digital ~--audio disc (CD) has resulted in a true advance in 10 audio program playback technology. The compact disc,;;
contains a digitally encoded rendering of the program audio signal transfexred onto a disc of polycaxbonate plastic by molding or stamping. The encoded surface i3 then uniformly coated with aluminum and coated with -a sealant such as lacquer. The aluminum sputtering on the stamped surface creates a reflective surface which i8 read ~y a laser beam through the opposite side of the polycarbonate~ disc. The laser reflection is converted to an audio ignal which is heard through 20 standard audio playback components. ---1-- .~,b ' -~ .
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COMPACT DISC STORAGE CONTAINER
WITH NON-SCRATCHING SURFACE
Field of the Invention ::
The invention rela~es to devices for storing compact discs which achieve improved visibility of the ~-compact disc and accompanying graphics while 5 decreasing the risk of scratches and dust accumulation -on the surface of the disc.
Background of the Invention -The introduction of the compact digital ~--audio disc (CD) has resulted in a true advance in 10 audio program playback technology. The compact disc,;;
contains a digitally encoded rendering of the program audio signal transfexred onto a disc of polycaxbonate plastic by molding or stamping. The encoded surface i3 then uniformly coated with aluminum and coated with -a sealant such as lacquer. The aluminum sputtering on the stamped surface creates a reflective surface which i8 read ~y a laser beam through the opposite side of the polycarbonate~ disc. The laser reflection is converted to an audio ignal which is heard through 20 standard audio playback components. ---1-- .~,b ' -~ .
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The compact disc is considered a substantial advance over the vinyl record album for several reasons. First, the CD is capable of storing consid-erably more audio program material per unit area than a vinyl album. This permits the use of a much smaller disc for the presentation of recorded music (hence the term "compact" disc). Next, the ability to retain an ;
audio program capable of being digitally decoded results in a substantial improvement in signal to 10 noise ratio and program fidelity when compared with a - ~ -vinyl record. Finally, the use of a laser beam as the - ;
transducer results in little if any degradation of the `~
compact disc playing surface during playback. The i~
playback properties of the compact disc will thus remain essentially unchanged, even after extensive use. However, there are factors which interfere with the reflection of the laser beam from the aluminum sputtered surface and adversely affect CD playback performance. iSeveral such factors are scratches, dust, and fingerprints.
Because of the need to protect the surface of the compact di c through which the laser reflects, i.e., the optical sl~rface, various compact disc storage devices have been developed. By far the most prevalent storage device is a package known as the jewel box. The jewel box consists of two pieces of molded polycarbonate which are hinged along a common `` 1327~
side to permit the opening of the box as one would open a book. Snap fit inside one of the polycarbonate pieces is a styrene tray with a center hub which engages the center aperture of the compact disc. The jewel box is slightly larger than the 4.7" diameter of the compact disc. Though the jewel box serves to protect the compact disc, the box itself suffers from certain disadvantages. The box is difficult to open, and it is difficult to remove the compact disc from the centered hub without bending the compact disc.
The jewel box is relatively fragile, resulting in ~ ~
breakage of the hinges or the polycarbonate pieces ~ -themselves when accidentally dropped. Finally, the jewel box is expensive to manufacture because of the -~
three piece construction and the need to manually assemble the parts. ~
One alternative to the jewel box for use in ~ -after market storage of the compact dis~ is a device known as the CD Jockee*produced by DataPax, Rennewick, Washington. The CD Jockee*is a compact disc carrying case which opens into an A-frame shape and has eight two sided, clear vinyl pockets that can carry up to 16 compact discs. The pockets are connected in an overlapping fashion, such that only a small portion of ~ -the discs underlying the top disc can be seen. The individual pockets have a clear vinyl front to permit viewing of the side of the compact disc containing ~3- -* Trade-mark ~.
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identifying printing, and a velour back which contacts the optical surface of the compact disc. The reverse side of each pocket can hold the printed graphics accompanying the compact disc stored on the front, or alternatively it may be used to store another compact disc. The CD Jockee* has the disadvantages that when the compact discs are displayed, the discs themselves are exposed to dust because of the open top access to the discs. Further when displayed, one must typically 0 flip through each pocket to find the desired compact disc because only a small portion of the printed surfaces are visible. Also, the velour surfaces -generate relatively large amounts of lint which can accumulate on the optical surfaces of the discs. -lS Summary of the Invention The invention relates to a flexible sleeve for storing both a compact disc and its accompanying graphics. The sleeve protects the optical surface of the compact disc from scratches and dust and permits easy removal of the disc from the protective sleeve.
The protective sleeve is not as ~ulky as the commonly available jewel boxes, the overall thickness being only slightly greater than that contributed by the ~ compact disc and graphics. The invention encompasses both a single disc storage sleeve sold with the compact disc and an after-market storage sheet typically comprising space for storing one, two, * Trade-mark : .. . :.- . ;. : : - , ~ -. ~: .. . . .
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four or other numbers of compact discs per sheet plus accompanying graphics. A feature of the invention is the use of a nonwoven fabric, preferably polyester, which is joined to a backing sheet to provide a non-scratching, non-linting surface which contacts the optical surface of the compact disc. The accompanying graphics are stored in contact with the backing sheet which has been joined, preferably by heat lamination, to the nonwoven fabric. The graphics include, but are 10 not limited to, song lyrics, information on the -~
performing artist, ordering information, and photo-graphs. The low friction integral backing sheet surface permits easy removal and insertion of the graphics and further serves to resist snagging or tearing from contact with metal staples or other sharp edges associated with the graphic6. In both the single disc sleeve and after-market storage isheet there are provided flaps which serve both to shiela at least a portion of the printed surface of the compact disc from dust and to maintain the optical surface of the compact disc in close relation to the nonwoven fabric, thus preventing dust from accumulating on that surface.
It is an object of this invention to provide a compact disc storage sleeve which protects the optical surface of the compa~t disc from dust, -; -scratche~ and lint. ~ ~
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It is a further object of this invention to provide a smooth sided storage pocket for the graphics accompanying the compact disc which is not susceptible to tearing or snagging.
- 5 It is yet a further object of the invention to provide a compact disc storage device which has a width only marginally greater than the combined thickness of the compact disc and accompanying graphics.
It is yet a further object to provide a compact disc storage device which permits viewing of the printed surface of the compact disc and the ~ -accompanying graphics through the device itself. -~
It is yet a further object to provide a - ~;~
15 compact disc storage device for protectively retaining `
a plurality of compact discs and accompanying graphics in a space efficient container.
These and other objects and advantages will become readily apparent from the following detailed 20 description of the invention and from the drawings in ;
which: -; Brief Description of the Drawings Fig. 1 is a front perspective view of the single compact disc storage sleeve depicting the storage positions of the compact disc and accompanying graphics.
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Fig. 2 is an exploded view of the con-struction of the laminated composite sheet.
Fig. 3 is a cross sectional view taken in lines 3,3, of Fig. 1 with the flap folded of the storage sleeve containing the compact disc and graph- ~ -, ics. :'''' Fig. 4 is a perspective view depicting the front surface of an after-market compact disc storage ~ -~
sheet for two compact discs and the back surface of a preceding sheet secured in a ring binder.
Fig. 5 is a cross-sectional view taken in . ~ - .
lines 5,5 of Fig. 4 of a multiple disc storage sheet.
Detailed DescriPtion of the Invention The invention in its broader aspects relates ¦ 15 to a flexible sleeve for storing both a single compact ¦ disc and accompanying graphics, and for protecting the optical surface of the compact disc ~rom dust and -~
scratches. The compact disc, having an aperture, an -~
I edge, a printed surface and an optical surface, is 20 stored in the sleeve comprised of a rectangular ~ -composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the -~;~
entire surface of the fabric, the nonwoven fabric `
capable of contacting the optical surface of the compact disc; a front sheet disposed over the nonwoven fabric of the composite sheet and joined by a bonding - operation along three peripheral edges of the . -, ~. .
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composite sheet to create a pocket accessible along the non-joined edge between the nonwoven fabric and the front sheet for retaining the compact disc: and a pocket forming sheet joined by a bonding operation along three peripheral edges of the backing sheet of the composite sheet to create a pocket acce-sible along the non-joined edge between the backing sheet and the pocket forming sheet for retaining the graphics, the pocket forming sheet extending beyond -~
the non-joined edge between the nonwoven fabric and the front sheet to form a flap. `
It is preferred that the backing sheet of ~ -the compo~ite sheet be produced from polyvinyl chloride, hereinafter referred to as vinyl. Polyvinyl -15 chloride (vinyl) is a thermoplastic polymer having an -~
average molecular weight in the range of about 60,000 ~
to about 150,000 g/mole. Vinyl is typically available ~ -as a white powder which can be converted into sheets or films. Vinyl i8 sold by various manufacturers -;
under a number of trademarks, such as "GEON" Resins by B. F. Goodrich Chemical Co. The vinyl employed in carrying out the teachings of this invention is of the ~ ~ type typically used to prepare fiIm~ and sheets.
-~ Generally, such vinyl has an inherent viscosity in the range of about 0.70 to about 1.30, as determined by ~
ASTM Method D-1243. To impart flexibility to the -~-~ vinyl, plasticizer is added. The amount of ` 8 : ~ :
13271~i . ~.
9 . -plasticizer added affects the tensile and elastic properties of the vinyl sheet, otherwise designated as the "hand" of the sheet. The hand of a sheet serves as a shorthand description of the textural qualities S of the sheet, and is represented by "S" and "H"
values. Larger "S" numbers indicate a more flexible or tacky sheet~ Larger "H" numbers indicate a stiffer sheet. The table below sets out typical hand values ~ ;
for vinyl sheet utilized according to this invention, with accompanying plasticizer levels and specific , : :
gravities of the oheets.
Table I
Hand 2S 3S 4S 2~ 3H
Specific Gravity 1.30 1.30 1.28 1.29 1.30 Parts plasticizer per 100 parts resin -Preferably the sleeve contains a front vinyl sheet which ls formed in such a manner as to permit simulta- ; -neous access to the edge and the aperture of the compact disc. The simultaneous access permits the ~ -user to grasp the compact disc using only the thumb ~
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-~ and a finger so that the optical surface of the disc receives no fingerprints or smudges which would interfere with the playback characteristics of the disc. It is preferred that the pocket forming Qheet ~-~ be produced from vinyl, and that the flap of the -~
- ~ pocket forming sheet overlies the pocket for retaining ~9~ ~ :.
-lo- 13271~
the compact disc. In this way the optical surface of the disc tends to remain in close relation to the nonwoven fabric of the composite sheet and reduces the accumulation of dust and other contaminants from outside the sleeve. Preferably, the flap overlies a substantial portion of the front sheet, thereby attaining an improved seal for rejecting dust and other contaminants. Vinyl is employed as the pre-ferred material because, among other properties, it can be used to produce either clear or color-containing sheets, it is durable and it is chemically inert to the compact disc. However, other polymeric materials also have these properties, and it is contemplated that other materials may be employed, such as certain polyesters for example.
The nonwoven fabric of the composite sheet is produced preferably from polyester fiber. A
specific example of the fiber anticipated for use in this invention is "SONTARA"*spunlaced fabric produced by E. I. DuPont de Nemours & Company, Inc. "SONTARA"
fabric is a bulky, soft, strong, conformable, light-weight sheet made of hydraulically interlaced fibers with no chemical or thermal bonding. The polyester fibers used to produce a "SONTARA" fabric sheet are softer than cellulosic fibers such as cotton or paper.
Thus, the optical surface of a compact disc is less likely to be scratched by the polyester nonwoven ~
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sheet. ~hough the polyester fabric is preferred, it is contemplated that other nonwoven fabrics joinable to a backing sheet may also be used.
It is preferred that the front sheet of the sleeve be transparent so as to achieve maximum visi-bility of the printed surface of the compact disc. It :
is preferred that the pocket forming sheet also be transparent to achieve maximum visibility of the graphics. The backing sheet may be produced as a ~ -clear sheet, a matte eheet, or a color-added ~heet. ~
Referring to the drawings, Fig. l depicts ~i the single pocket compact disc sleeve 10, into which is inserted graphics 12 and compact disc 14. The ~;-compact disc 14 has an aperture 16, an edge 18, a `
printed surface 20, and an optical surface 22~
The sleeve 10 is comprised of a composite sheet 24 which conslst~ of a nonwoven fabric 26 joined -to a backlng sheet 28, as shown in Fig. 2. The nonwoven fabric 26 is joined over its entire surface ~
to the backing sheet 28, preferably by a heat lamina `--tion process which partially melts the backing sheet -`
28 but does not affect the nonwoven fabric 26. Heat ~~
lamination fixes the fabric 26 onto the backing sheet 28, and decreases the possibility of snagging, tearing, or pulling the fabric 26. Heat for the heat --lamination operation described throughout this inven-tion is provided typically by thermal radiation; radio `~`
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frequency radiation, encompassing high frequency and electrostatic sealing methods; or ultrasonic radia-tion. The backing sheet is preferably vinyl having a sheet thickness of about 0.006 inch, a hand of "2S"
and a melting point in the range of about 250F to about 350F. The vinyl backing sheet 28 has an acceptable thickness in the range of about 0.003 inch to about 0.008 inch, preferably in the range of about 0.004 inch to about 0.006 inch. The vinyl backing ~ --sheet has an acceptable hand in the range of 2S to 4S.
The preferred nonwoven fabric, "SONTARA" polyester, melts at about 490F. The "SONTARA" polyester fabric is available in a variety of usable styles, but the preferred fabric style is that designated as "8001 n, having as typical properties a unit weight of 1.0 ~-oz/yd2, a thickness of 0.011 inch, a Mullen Burst Value of 23 p~i, and a Frazier Air Permeability of 600 CFM/ft at 0.5 inch H2O. Alternatively, other methods -of joining the nonwoven fabric 26 to the backing sheet 28 may be utilized, such as by adhesives, chemical modification, or extrusion coating/laminating of the -~-mating surfaces.
The front sheet 30, which preferably is clear or transparent, is disposed over the nonwoven fabric 26 of the composite sheet 24 and is joined along three peripheral edges 32 to define a pocket into which the compact disc 14 is inserted.
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; -13-Preferably, the bond is created by heat lamination, though other means of bonding, such as adhesives, or chemical modification of the mating surfaces may be used. Where heat lamination is employed, the backing sheet 28 and front sheet 30 partially melt through the ... . .
nonwoven fabric 26 to form a seal which bonds the separate sheets together on cooling. The front sheet ' 30 is preferably vinyl having a sheet thickness of about 0.006 inches, a hand of 2H, and a melting point in the range of about 250F to about 350F. The vinyl front sheet 30 has an acceptable thickness in the range of about 0.004 inch to about 0.008 inch. The sheet has an acceptable hand in the range of 2H to 3H. -- -¦~ It is preferred that the optical surface 22 of the compact disc 14 lie in close relation to the nonwoven I fabrlc 26 to minimize the possibility of scratching or accumulation of dust. The pr$nted surface 20 is then visible through the front sheet 30, permitting ease of :
identification of the compact disc. The front sheet ; 20 is formed in a manner to permit improved access to the compact disc along non-joined edge 34, either before joining to the composite sheet 24, or alternatively simultaneously with or immediately after joining through use of a kiss cutting operation which i~ :`
capable of cutting the front sheet 30 without - -::
affecting the compo~ite sheet 24. The kiss cuttlng ~`
operation is a method for precision cutting a single 13271~
layer of a multi-layer unit while leaving the remaining layers unaffected. This forming step permits one to insert or remove the compact disc from the sleeve 10 by grasping the compact disc at the aperture 16 and the edge 13 between the thumb and finger.
The pocket forming sheet 40 is joined along three peripheral edges 32 to the backing sheet 28 of the composite sheet 24 preferably by partial melting of the respective sheets along the edges by a heat lamination operation. The pocket ~orming sheet 40 is preferably vinyl having a sheet thickness of about 0.006 inches, a hand of 2H, and a melting point in the range of about 250F to about 350F. The acceptable 15 ranges for the thickne~s and hand of the vinyl pocket ~
forming sheet 40 are about 0.004 inch to about 0.008 ~ -inch, and 2H to 3H, respectively. Along the non-joined edge 42 is an opening which permits placement of the graphics 12 into a pocket formed by the periph-eral edges 32. The pocket forming sheet 40 is pref-erably transparent to permit maximum visibility of the graphics 12 through the sheet itself. The pocket forming æheet 40 extending beyond the non-joined edges 34 and 42 is designated a~ the flap 44 which pref-erably overlies the front sheet 30.
The single pocket compact disc sleeve 10 with the flap 44 closed is depicted in the crosæ- ~-:.
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sectional view of Fig. 3. It should be noted that the preferred position for the non-joined edge 42 i8 one which is adjacent to that of non-joined edge 34.
However, it is not required that the non-joined edge~ -be adjacent.
The invention also encompasses an after-market flexible sheet for inclusion in a binding -device. The binding device is preferably one which -permits additional sheets to be added when necessary, lO such as can be accomplished using a ring binder. Such .
a sheet is designed for ~toring at least one compact disc, each having an aperture, an edge, a printed -~
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~; surface and an optical surface, and accompanying graphics. As with the single pocket compact disc sleeve, the after-market flexible sheet i9 used for protecting the optical surfaces of the compact disc~ ~
from dust and scratches and is further designed to -permit securement in a binding device. Broadly, the flexible sheet comprises a rectangular composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the entire surface of the fabric,- the nonwoven fabric capable of con-tacting the optical surface of the compact dlsc; a front sheet disposed over the nonwoven fabric of the composite sheet having at least one channel thereon for accepting each compact disc, the front sheet joined by a bonding operation onto the compo~ite sheet 1 5-- :::
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to form at least one discrete pocket accessible through each channel for storing each compact disc;
and a back sheet disposed over the backing sheet of the composite sheet having at lea9t one channel thereon for accepting graphics, the back sheet joined by a bonding operation onto the composite sheet to form at least one discrete pocket accessible through each channel for storing the graphic~. It is pre-ferred that each individual channel on the front sheet 10 be formed to permit simultaneous access to the edge -and aperture of each compact disc. As with the single pocket compact disc sleeve, for maximum visibility it is preferred that the front sheet be transparent, and also that the back sheet be transparent. The nonwoven ~--fabric used in the multiple pocket flexible sheet is preferably produced from polyester fiber, such as the Sontara material described above.
Referring to the drawings, Fig. 4 depicts multiple pocket flexible sheet~ 50 for storing two 20 compact discs 14 per sheet showing the back side of ~ -the sheet on the left and the front side on the right.
Alternatively, the invention encompasses a flexible -aheet for storing one compact disc per sheet, and for storing four compact discs per sheet in a format of two rows of discs, with two discs per row. It is preferred that the respect~ve sheetq be punchable to permit securement in a ring binder. The construction 16- `~
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of the respective flexible sheets differs only tn the ~ ~-size of the sheets and the number of joint lines employed. A composite sheet 52 i9 comprised of nonwoven fabric 54 joined over its entire surface to a ~`
backing sheet 56 preferably by a heat lamination process, though other bonding methods may be used. `
The backing sheet is preferably vinyl having a sheet thickness of about 0.006 inch, a hand of 2S and a melting point in the range of about 250F to about . . .
350F. The vinyl backing sheet 56 has an acceptable thickness in the range of about 0.003 inch to about 0.008 inch, preferably in the range of about 0.004 inch to about 0.006 inch. The vinyl backing sheet has ;
an acceptable hand in the range of 2S to 4S. The -preferred nonwoven fabric, "SONTARA" polyester, melts at abost 490F. The "SONTARA" polyester fabric i9 available in a variety of usable styles, but the preferred fabric style is that designated as n 8001 n 7 havlng as typical properties a unit weight of 1.0 oz/yd2, a thickness of 0.011 inch, a Mullen Burst ~;
Value of 23 psi, and a Frazier Air Permeability of 600 CFM/ft2 ~t 0.5 inch H O.
The front sheet 58, which preferably is -transparent, i5 joined to the composite sheet 52 along a plurality of joint lines 60. The front sheet 58 is ~- preferably vinyl having a sheet thickness of about 0.006 inch,~a hand of 2H, and a melting point in the ~ ~.
'~' , 132~
range of about 250F to about 350F. The vinyl front sheet 58 has an acceptable thickness in the range of about 0.004 inch to about 0.008 inch. The sheet has an acceptable hand in the range of 2H to 3H. Pref-erably the joint line is created by heat lamination,though other mean~ of bonding, such as adhesives, or chemical modification of the mating surfaces may be used. Where heat lamination is employed, the backing sheet 56 and front sheet 58 partially melt through the ~-nonwoven fabric 5~ to form a seal which bonds the separate sheets together on cooling. Where vinyl is employed in conjunction with nonwoven polyester fabric, such as the ~SONTARAN fabric in producing either the sleeve or the sheet, a temperature between lS the 250-3S0F melting range of the vinyl sheets and the 490F melt point of the "~ONTARA" fabric is employed to achieve bonding.
The reverse ~heet 62 is joined to the backing sheet 56 of composite sheet S2, also pref-erably by heat lamination, along joint lines 60. ~hereverse sheet 62 is preferably vinyl having a sheet thickness of about 0.006 inch, a hand of 2H, and a melting point in the range of about 250F to about 350F. As with the vinyl front sheet 58, the accept- -~
25 able ranges for the thickness and hand of the vinyl -~
reverse sheet 62 are about 0.004 inch to about 0.008 ~-inch, and 2H to 3H, respectively.
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-19- '' The compact disc 14 is stored by inserting ~-the disc through the front channel 66 so that the entire optical surface 22 is in contact with the nonwoven fabric 54. The front channel 66 is formed preferably by a kiss cutting operation simultaneously with or immediately after joining of the front sheet 5a to the composite sheet 52. Alternatively, the channel 66 is cut into the front sheet 5B prior to joining. The printed surface 20 can then be viewed through the front sheet 58 which preferably is trans- -parent to aid in identifying the particular compact disc. Graphics 12 are stored on the back side of the multiple pocket flexible sheet, depicted on the left of Fig. 4. The graphics are inserted through the back channel 68 created in reverse sheet 62 preferably by a kiss cutting operation simultaneously with or immedi-ately after joining of the reverse sheet 62 to backing ; sheet 56. Alternatively, the channel 68 is cut into the reverse sheet 62 prior to joining. The reverse sheet 62 is preferably transparent to permit maximum .::
visibility of the graphics. It is preferred that the ~-~
multiple pocket flexible sheet 50 be punchable to permit formation of binder holes 70 which allows securement in ring binder 72.
In the cross-sectional view of Fig. 5, the multiple pocket flexible sheet 50 is shown with a full complement of compact discs 14 and graphics 12. It is ~
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possible, of course, to create flexible sheets capable of storing even larger numbers of compact discs following the teachings of this invention.
The single pocket compact disc sleeve 10 is produced by first bonding the nonwoven fabric 26 to -~
the backing sheet 28 over the entire surface of the --nonwoven fabric, preferably by heat lamination. Where vinyl and "SONTARA" nonwoven polyester fabric is used, the heat laminating temperature will be greater than the 250-350F melt range of the vinyl and less than the 490F melt point of the "SONTARA" fabric. The nonwoven fabric 26 of the composite sheet 24 is then -brought in contact with material which will become front sheet 30 while the backing sheet 28 of composite sheet 24 is brought in contact with material which will become pocket forming sheet 40. The respective sheets are then joined along edges 32, preferably by heat lamination. The material becoming front sheet 30 is either formed to permit simultaneous access to the aperture 16 and edge 18 of compact disc 14 prior to joining of the edges 32, or preferably is formed simultaneously with or immediately after joining of the edges 32 by a kiss cutting operation. The flap 44 i8 preferably cxeased by application of pressure, heat, or both to lie in close relation to the front sheet 30 and improve the overall appearAnce of the single pocket CD sleeve 10.
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13271~4 The flexible sheet 50 is produced in a manner similar to that of the single pocket sleeve.
The composite sheet 52 is formed by contacting non-woven fabric 54 and backing sheet 56 and joining the -~
two over the entire surface of the nonwoven fabric 54 preferably by heat lamination, which partially melts the bacXing sheet 56 onto the nonwoven fabric 54. The nonwoven fabric 54 of the composite sheet 52 is then brought in contact with material which will become front sheet 58 while the backing sheet 56 of composite sheet 52 is brought in contact with material which will become reverse sheet 62. The respective sheets ;
are then joined along joint lines 60, preferably by heat lamination. The front channels 66 in front sheet 58 and the back channels 68 in reverse sheet 62 are formed prior to creation of the joint lines 60, or ¦~ preferably are formed simultaneously with or immedi-¦ ately after creation of the joined lines 60 by a kiss cutting operation. For sheets securable in a ring binder, preferably the punching operation to form the ~- ~ndividual binder holes 70 is performed at the same time as the joint lines 60 are formed. Alternatively, ~-the binder holes 70 are created after formation of the joint lines 60.
~ It is contemplated that the polymeric materials utilized in the invention may also have incorporated therein a variety of chemical additives 1~27~
such as anti-static compounds, ultra-violet radiation absorbers, plasticizers, and the like which improve the use characteristics of the storage sleeve or sheet without adversely affecting the compact disc or graphics.
The single pocket compact disc sleeve is intended for sale as an original storage package for a compact disc, to be sold with the compact disc and used as a replacement for the jewel box. The single pocket sleeve can be enclosed in the plastic packaging presently used to display the compact disc at record stores. Because the sleeve is thinner than the jewel box, packaging can be produced which will require less ~-space, permitting more selections to be displayed in a -~
unit area than is presently possible through uti-lization of the jewel box. The dimensions of a single ;
pocket sleeve for a standard 4.7 inch diameter disc ~ -are about 5.25 inches square from edge to edge. A
sleeve containing a compact disc and graphics is approximately 0~10 inch thick.
The single pocket sleeve is less susceptible to damage than the jewel box. The sleeve containing a CD and graphics can be accidentally dropped onto the floor typically without damage to the sleeve or the CD. The flexible components of the sleeve tend to absorb shock without transmitting it to the compact disc.
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The after-market flexible sheet is intended for after-the-sale storage of the compact discs. The use of the flexible sheet in combination with a ring binder provides a space-efficient method of safely storing large numbers of compact discs. The flexible sheet pockets for a standard 4.7 inch diameter disc ~-are approximately 5.25 inches square. The punchable ;
margin is about .75 inch. A sheet containing compact discs and accompanying graphics is approximately 0.10 inch thick.
Presently, compact discs contain recorded -material on only one side of the disc. It is contem-plated that advances in technology, coupled with an increased need to maximize storage density per unit -area of disc surface, will result in discs containing storage space on both sides of the disc. It can be ~ -appreciated that with minor modification, a sleeve or flexible sheet can be manufactured having nonwoven fabric disposed against both surfaces of the compact disc. The invention is also equally applicable for storage of discs having both larger and smaller diameters than the commonly available 4.7 inch diameter disc.
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audio program capable of being digitally decoded results in a substantial improvement in signal to 10 noise ratio and program fidelity when compared with a - ~ -vinyl record. Finally, the use of a laser beam as the - ;
transducer results in little if any degradation of the `~
compact disc playing surface during playback. The i~
playback properties of the compact disc will thus remain essentially unchanged, even after extensive use. However, there are factors which interfere with the reflection of the laser beam from the aluminum sputtered surface and adversely affect CD playback performance. iSeveral such factors are scratches, dust, and fingerprints.
Because of the need to protect the surface of the compact di c through which the laser reflects, i.e., the optical sl~rface, various compact disc storage devices have been developed. By far the most prevalent storage device is a package known as the jewel box. The jewel box consists of two pieces of molded polycarbonate which are hinged along a common `` 1327~
side to permit the opening of the box as one would open a book. Snap fit inside one of the polycarbonate pieces is a styrene tray with a center hub which engages the center aperture of the compact disc. The jewel box is slightly larger than the 4.7" diameter of the compact disc. Though the jewel box serves to protect the compact disc, the box itself suffers from certain disadvantages. The box is difficult to open, and it is difficult to remove the compact disc from the centered hub without bending the compact disc.
The jewel box is relatively fragile, resulting in ~ ~
breakage of the hinges or the polycarbonate pieces ~ -themselves when accidentally dropped. Finally, the jewel box is expensive to manufacture because of the -~
three piece construction and the need to manually assemble the parts. ~
One alternative to the jewel box for use in ~ -after market storage of the compact dis~ is a device known as the CD Jockee*produced by DataPax, Rennewick, Washington. The CD Jockee*is a compact disc carrying case which opens into an A-frame shape and has eight two sided, clear vinyl pockets that can carry up to 16 compact discs. The pockets are connected in an overlapping fashion, such that only a small portion of ~ -the discs underlying the top disc can be seen. The individual pockets have a clear vinyl front to permit viewing of the side of the compact disc containing ~3- -* Trade-mark ~.
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identifying printing, and a velour back which contacts the optical surface of the compact disc. The reverse side of each pocket can hold the printed graphics accompanying the compact disc stored on the front, or alternatively it may be used to store another compact disc. The CD Jockee* has the disadvantages that when the compact discs are displayed, the discs themselves are exposed to dust because of the open top access to the discs. Further when displayed, one must typically 0 flip through each pocket to find the desired compact disc because only a small portion of the printed surfaces are visible. Also, the velour surfaces -generate relatively large amounts of lint which can accumulate on the optical surfaces of the discs. -lS Summary of the Invention The invention relates to a flexible sleeve for storing both a compact disc and its accompanying graphics. The sleeve protects the optical surface of the compact disc from scratches and dust and permits easy removal of the disc from the protective sleeve.
The protective sleeve is not as ~ulky as the commonly available jewel boxes, the overall thickness being only slightly greater than that contributed by the ~ compact disc and graphics. The invention encompasses both a single disc storage sleeve sold with the compact disc and an after-market storage sheet typically comprising space for storing one, two, * Trade-mark : .. . :.- . ;. : : - , ~ -. ~: .. . . .
~3271~ ~
four or other numbers of compact discs per sheet plus accompanying graphics. A feature of the invention is the use of a nonwoven fabric, preferably polyester, which is joined to a backing sheet to provide a non-scratching, non-linting surface which contacts the optical surface of the compact disc. The accompanying graphics are stored in contact with the backing sheet which has been joined, preferably by heat lamination, to the nonwoven fabric. The graphics include, but are 10 not limited to, song lyrics, information on the -~
performing artist, ordering information, and photo-graphs. The low friction integral backing sheet surface permits easy removal and insertion of the graphics and further serves to resist snagging or tearing from contact with metal staples or other sharp edges associated with the graphic6. In both the single disc sleeve and after-market storage isheet there are provided flaps which serve both to shiela at least a portion of the printed surface of the compact disc from dust and to maintain the optical surface of the compact disc in close relation to the nonwoven fabric, thus preventing dust from accumulating on that surface.
It is an object of this invention to provide a compact disc storage sleeve which protects the optical surface of the compa~t disc from dust, -; -scratche~ and lint. ~ ~
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It is a further object of this invention to provide a smooth sided storage pocket for the graphics accompanying the compact disc which is not susceptible to tearing or snagging.
- 5 It is yet a further object of the invention to provide a compact disc storage device which has a width only marginally greater than the combined thickness of the compact disc and accompanying graphics.
It is yet a further object to provide a compact disc storage device which permits viewing of the printed surface of the compact disc and the ~ -accompanying graphics through the device itself. -~
It is yet a further object to provide a - ~;~
15 compact disc storage device for protectively retaining `
a plurality of compact discs and accompanying graphics in a space efficient container.
These and other objects and advantages will become readily apparent from the following detailed 20 description of the invention and from the drawings in ;
which: -; Brief Description of the Drawings Fig. 1 is a front perspective view of the single compact disc storage sleeve depicting the storage positions of the compact disc and accompanying graphics.
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Fig. 2 is an exploded view of the con-struction of the laminated composite sheet.
Fig. 3 is a cross sectional view taken in lines 3,3, of Fig. 1 with the flap folded of the storage sleeve containing the compact disc and graph- ~ -, ics. :'''' Fig. 4 is a perspective view depicting the front surface of an after-market compact disc storage ~ -~
sheet for two compact discs and the back surface of a preceding sheet secured in a ring binder.
Fig. 5 is a cross-sectional view taken in . ~ - .
lines 5,5 of Fig. 4 of a multiple disc storage sheet.
Detailed DescriPtion of the Invention The invention in its broader aspects relates ¦ 15 to a flexible sleeve for storing both a single compact ¦ disc and accompanying graphics, and for protecting the optical surface of the compact disc ~rom dust and -~
scratches. The compact disc, having an aperture, an -~
I edge, a printed surface and an optical surface, is 20 stored in the sleeve comprised of a rectangular ~ -composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the -~;~
entire surface of the fabric, the nonwoven fabric `
capable of contacting the optical surface of the compact disc; a front sheet disposed over the nonwoven fabric of the composite sheet and joined by a bonding - operation along three peripheral edges of the . -, ~. .
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13271~ :
composite sheet to create a pocket accessible along the non-joined edge between the nonwoven fabric and the front sheet for retaining the compact disc: and a pocket forming sheet joined by a bonding operation along three peripheral edges of the backing sheet of the composite sheet to create a pocket acce-sible along the non-joined edge between the backing sheet and the pocket forming sheet for retaining the graphics, the pocket forming sheet extending beyond -~
the non-joined edge between the nonwoven fabric and the front sheet to form a flap. `
It is preferred that the backing sheet of ~ -the compo~ite sheet be produced from polyvinyl chloride, hereinafter referred to as vinyl. Polyvinyl -15 chloride (vinyl) is a thermoplastic polymer having an -~
average molecular weight in the range of about 60,000 ~
to about 150,000 g/mole. Vinyl is typically available ~ -as a white powder which can be converted into sheets or films. Vinyl i8 sold by various manufacturers -;
under a number of trademarks, such as "GEON" Resins by B. F. Goodrich Chemical Co. The vinyl employed in carrying out the teachings of this invention is of the ~ ~ type typically used to prepare fiIm~ and sheets.
-~ Generally, such vinyl has an inherent viscosity in the range of about 0.70 to about 1.30, as determined by ~
ASTM Method D-1243. To impart flexibility to the -~-~ vinyl, plasticizer is added. The amount of ` 8 : ~ :
13271~i . ~.
9 . -plasticizer added affects the tensile and elastic properties of the vinyl sheet, otherwise designated as the "hand" of the sheet. The hand of a sheet serves as a shorthand description of the textural qualities S of the sheet, and is represented by "S" and "H"
values. Larger "S" numbers indicate a more flexible or tacky sheet~ Larger "H" numbers indicate a stiffer sheet. The table below sets out typical hand values ~ ;
for vinyl sheet utilized according to this invention, with accompanying plasticizer levels and specific , : :
gravities of the oheets.
Table I
Hand 2S 3S 4S 2~ 3H
Specific Gravity 1.30 1.30 1.28 1.29 1.30 Parts plasticizer per 100 parts resin -Preferably the sleeve contains a front vinyl sheet which ls formed in such a manner as to permit simulta- ; -neous access to the edge and the aperture of the compact disc. The simultaneous access permits the ~ -user to grasp the compact disc using only the thumb ~
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-~ and a finger so that the optical surface of the disc receives no fingerprints or smudges which would interfere with the playback characteristics of the disc. It is preferred that the pocket forming Qheet ~-~ be produced from vinyl, and that the flap of the -~
- ~ pocket forming sheet overlies the pocket for retaining ~9~ ~ :.
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the compact disc. In this way the optical surface of the disc tends to remain in close relation to the nonwoven fabric of the composite sheet and reduces the accumulation of dust and other contaminants from outside the sleeve. Preferably, the flap overlies a substantial portion of the front sheet, thereby attaining an improved seal for rejecting dust and other contaminants. Vinyl is employed as the pre-ferred material because, among other properties, it can be used to produce either clear or color-containing sheets, it is durable and it is chemically inert to the compact disc. However, other polymeric materials also have these properties, and it is contemplated that other materials may be employed, such as certain polyesters for example.
The nonwoven fabric of the composite sheet is produced preferably from polyester fiber. A
specific example of the fiber anticipated for use in this invention is "SONTARA"*spunlaced fabric produced by E. I. DuPont de Nemours & Company, Inc. "SONTARA"
fabric is a bulky, soft, strong, conformable, light-weight sheet made of hydraulically interlaced fibers with no chemical or thermal bonding. The polyester fibers used to produce a "SONTARA" fabric sheet are softer than cellulosic fibers such as cotton or paper.
Thus, the optical surface of a compact disc is less likely to be scratched by the polyester nonwoven ~
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sheet. ~hough the polyester fabric is preferred, it is contemplated that other nonwoven fabrics joinable to a backing sheet may also be used.
It is preferred that the front sheet of the sleeve be transparent so as to achieve maximum visi-bility of the printed surface of the compact disc. It :
is preferred that the pocket forming sheet also be transparent to achieve maximum visibility of the graphics. The backing sheet may be produced as a ~ -clear sheet, a matte eheet, or a color-added ~heet. ~
Referring to the drawings, Fig. l depicts ~i the single pocket compact disc sleeve 10, into which is inserted graphics 12 and compact disc 14. The ~;-compact disc 14 has an aperture 16, an edge 18, a `
printed surface 20, and an optical surface 22~
The sleeve 10 is comprised of a composite sheet 24 which conslst~ of a nonwoven fabric 26 joined -to a backlng sheet 28, as shown in Fig. 2. The nonwoven fabric 26 is joined over its entire surface ~
to the backing sheet 28, preferably by a heat lamina `--tion process which partially melts the backing sheet -`
28 but does not affect the nonwoven fabric 26. Heat ~~
lamination fixes the fabric 26 onto the backing sheet 28, and decreases the possibility of snagging, tearing, or pulling the fabric 26. Heat for the heat --lamination operation described throughout this inven-tion is provided typically by thermal radiation; radio `~`
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13271~
frequency radiation, encompassing high frequency and electrostatic sealing methods; or ultrasonic radia-tion. The backing sheet is preferably vinyl having a sheet thickness of about 0.006 inch, a hand of "2S"
and a melting point in the range of about 250F to about 350F. The vinyl backing sheet 28 has an acceptable thickness in the range of about 0.003 inch to about 0.008 inch, preferably in the range of about 0.004 inch to about 0.006 inch. The vinyl backing ~ --sheet has an acceptable hand in the range of 2S to 4S.
The preferred nonwoven fabric, "SONTARA" polyester, melts at about 490F. The "SONTARA" polyester fabric is available in a variety of usable styles, but the preferred fabric style is that designated as "8001 n, having as typical properties a unit weight of 1.0 ~-oz/yd2, a thickness of 0.011 inch, a Mullen Burst Value of 23 p~i, and a Frazier Air Permeability of 600 CFM/ft at 0.5 inch H2O. Alternatively, other methods -of joining the nonwoven fabric 26 to the backing sheet 28 may be utilized, such as by adhesives, chemical modification, or extrusion coating/laminating of the -~-mating surfaces.
The front sheet 30, which preferably is clear or transparent, is disposed over the nonwoven fabric 26 of the composite sheet 24 and is joined along three peripheral edges 32 to define a pocket into which the compact disc 14 is inserted.
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; -13-Preferably, the bond is created by heat lamination, though other means of bonding, such as adhesives, or chemical modification of the mating surfaces may be used. Where heat lamination is employed, the backing sheet 28 and front sheet 30 partially melt through the ... . .
nonwoven fabric 26 to form a seal which bonds the separate sheets together on cooling. The front sheet ' 30 is preferably vinyl having a sheet thickness of about 0.006 inches, a hand of 2H, and a melting point in the range of about 250F to about 350F. The vinyl front sheet 30 has an acceptable thickness in the range of about 0.004 inch to about 0.008 inch. The sheet has an acceptable hand in the range of 2H to 3H. -- -¦~ It is preferred that the optical surface 22 of the compact disc 14 lie in close relation to the nonwoven I fabrlc 26 to minimize the possibility of scratching or accumulation of dust. The pr$nted surface 20 is then visible through the front sheet 30, permitting ease of :
identification of the compact disc. The front sheet ; 20 is formed in a manner to permit improved access to the compact disc along non-joined edge 34, either before joining to the composite sheet 24, or alternatively simultaneously with or immediately after joining through use of a kiss cutting operation which i~ :`
capable of cutting the front sheet 30 without - -::
affecting the compo~ite sheet 24. The kiss cuttlng ~`
operation is a method for precision cutting a single 13271~
layer of a multi-layer unit while leaving the remaining layers unaffected. This forming step permits one to insert or remove the compact disc from the sleeve 10 by grasping the compact disc at the aperture 16 and the edge 13 between the thumb and finger.
The pocket forming sheet 40 is joined along three peripheral edges 32 to the backing sheet 28 of the composite sheet 24 preferably by partial melting of the respective sheets along the edges by a heat lamination operation. The pocket ~orming sheet 40 is preferably vinyl having a sheet thickness of about 0.006 inches, a hand of 2H, and a melting point in the range of about 250F to about 350F. The acceptable 15 ranges for the thickne~s and hand of the vinyl pocket ~
forming sheet 40 are about 0.004 inch to about 0.008 ~ -inch, and 2H to 3H, respectively. Along the non-joined edge 42 is an opening which permits placement of the graphics 12 into a pocket formed by the periph-eral edges 32. The pocket forming sheet 40 is pref-erably transparent to permit maximum visibility of the graphics 12 through the sheet itself. The pocket forming æheet 40 extending beyond the non-joined edges 34 and 42 is designated a~ the flap 44 which pref-erably overlies the front sheet 30.
The single pocket compact disc sleeve 10 with the flap 44 closed is depicted in the crosæ- ~-:.
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13271~ :
sectional view of Fig. 3. It should be noted that the preferred position for the non-joined edge 42 i8 one which is adjacent to that of non-joined edge 34.
However, it is not required that the non-joined edge~ -be adjacent.
The invention also encompasses an after-market flexible sheet for inclusion in a binding -device. The binding device is preferably one which -permits additional sheets to be added when necessary, lO such as can be accomplished using a ring binder. Such .
a sheet is designed for ~toring at least one compact disc, each having an aperture, an edge, a printed -~
.. . .
~; surface and an optical surface, and accompanying graphics. As with the single pocket compact disc sleeve, the after-market flexible sheet i9 used for protecting the optical surfaces of the compact disc~ ~
from dust and scratches and is further designed to -permit securement in a binding device. Broadly, the flexible sheet comprises a rectangular composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the entire surface of the fabric,- the nonwoven fabric capable of con-tacting the optical surface of the compact dlsc; a front sheet disposed over the nonwoven fabric of the composite sheet having at least one channel thereon for accepting each compact disc, the front sheet joined by a bonding operation onto the compo~ite sheet 1 5-- :::
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13271~
to form at least one discrete pocket accessible through each channel for storing each compact disc;
and a back sheet disposed over the backing sheet of the composite sheet having at lea9t one channel thereon for accepting graphics, the back sheet joined by a bonding operation onto the composite sheet to form at least one discrete pocket accessible through each channel for storing the graphic~. It is pre-ferred that each individual channel on the front sheet 10 be formed to permit simultaneous access to the edge -and aperture of each compact disc. As with the single pocket compact disc sleeve, for maximum visibility it is preferred that the front sheet be transparent, and also that the back sheet be transparent. The nonwoven ~--fabric used in the multiple pocket flexible sheet is preferably produced from polyester fiber, such as the Sontara material described above.
Referring to the drawings, Fig. 4 depicts multiple pocket flexible sheet~ 50 for storing two 20 compact discs 14 per sheet showing the back side of ~ -the sheet on the left and the front side on the right.
Alternatively, the invention encompasses a flexible -aheet for storing one compact disc per sheet, and for storing four compact discs per sheet in a format of two rows of discs, with two discs per row. It is preferred that the respect~ve sheetq be punchable to permit securement in a ring binder. The construction 16- `~
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13271~ ~
of the respective flexible sheets differs only tn the ~ ~-size of the sheets and the number of joint lines employed. A composite sheet 52 i9 comprised of nonwoven fabric 54 joined over its entire surface to a ~`
backing sheet 56 preferably by a heat lamination process, though other bonding methods may be used. `
The backing sheet is preferably vinyl having a sheet thickness of about 0.006 inch, a hand of 2S and a melting point in the range of about 250F to about . . .
350F. The vinyl backing sheet 56 has an acceptable thickness in the range of about 0.003 inch to about 0.008 inch, preferably in the range of about 0.004 inch to about 0.006 inch. The vinyl backing sheet has ;
an acceptable hand in the range of 2S to 4S. The -preferred nonwoven fabric, "SONTARA" polyester, melts at abost 490F. The "SONTARA" polyester fabric i9 available in a variety of usable styles, but the preferred fabric style is that designated as n 8001 n 7 havlng as typical properties a unit weight of 1.0 oz/yd2, a thickness of 0.011 inch, a Mullen Burst ~;
Value of 23 psi, and a Frazier Air Permeability of 600 CFM/ft2 ~t 0.5 inch H O.
The front sheet 58, which preferably is -transparent, i5 joined to the composite sheet 52 along a plurality of joint lines 60. The front sheet 58 is ~- preferably vinyl having a sheet thickness of about 0.006 inch,~a hand of 2H, and a melting point in the ~ ~.
'~' , 132~
range of about 250F to about 350F. The vinyl front sheet 58 has an acceptable thickness in the range of about 0.004 inch to about 0.008 inch. The sheet has an acceptable hand in the range of 2H to 3H. Pref-erably the joint line is created by heat lamination,though other mean~ of bonding, such as adhesives, or chemical modification of the mating surfaces may be used. Where heat lamination is employed, the backing sheet 56 and front sheet 58 partially melt through the ~-nonwoven fabric 5~ to form a seal which bonds the separate sheets together on cooling. Where vinyl is employed in conjunction with nonwoven polyester fabric, such as the ~SONTARAN fabric in producing either the sleeve or the sheet, a temperature between lS the 250-3S0F melting range of the vinyl sheets and the 490F melt point of the "~ONTARA" fabric is employed to achieve bonding.
The reverse ~heet 62 is joined to the backing sheet 56 of composite sheet S2, also pref-erably by heat lamination, along joint lines 60. ~hereverse sheet 62 is preferably vinyl having a sheet thickness of about 0.006 inch, a hand of 2H, and a melting point in the range of about 250F to about 350F. As with the vinyl front sheet 58, the accept- -~
25 able ranges for the thickness and hand of the vinyl -~
reverse sheet 62 are about 0.004 inch to about 0.008 ~-inch, and 2H to 3H, respectively.
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1327l ~
-19- '' The compact disc 14 is stored by inserting ~-the disc through the front channel 66 so that the entire optical surface 22 is in contact with the nonwoven fabric 54. The front channel 66 is formed preferably by a kiss cutting operation simultaneously with or immediately after joining of the front sheet 5a to the composite sheet 52. Alternatively, the channel 66 is cut into the front sheet 5B prior to joining. The printed surface 20 can then be viewed through the front sheet 58 which preferably is trans- -parent to aid in identifying the particular compact disc. Graphics 12 are stored on the back side of the multiple pocket flexible sheet, depicted on the left of Fig. 4. The graphics are inserted through the back channel 68 created in reverse sheet 62 preferably by a kiss cutting operation simultaneously with or immedi-ately after joining of the reverse sheet 62 to backing ; sheet 56. Alternatively, the channel 68 is cut into the reverse sheet 62 prior to joining. The reverse sheet 62 is preferably transparent to permit maximum .::
visibility of the graphics. It is preferred that the ~-~
multiple pocket flexible sheet 50 be punchable to permit formation of binder holes 70 which allows securement in ring binder 72.
In the cross-sectional view of Fig. 5, the multiple pocket flexible sheet 50 is shown with a full complement of compact discs 14 and graphics 12. It is ~
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possible, of course, to create flexible sheets capable of storing even larger numbers of compact discs following the teachings of this invention.
The single pocket compact disc sleeve 10 is produced by first bonding the nonwoven fabric 26 to -~
the backing sheet 28 over the entire surface of the --nonwoven fabric, preferably by heat lamination. Where vinyl and "SONTARA" nonwoven polyester fabric is used, the heat laminating temperature will be greater than the 250-350F melt range of the vinyl and less than the 490F melt point of the "SONTARA" fabric. The nonwoven fabric 26 of the composite sheet 24 is then -brought in contact with material which will become front sheet 30 while the backing sheet 28 of composite sheet 24 is brought in contact with material which will become pocket forming sheet 40. The respective sheets are then joined along edges 32, preferably by heat lamination. The material becoming front sheet 30 is either formed to permit simultaneous access to the aperture 16 and edge 18 of compact disc 14 prior to joining of the edges 32, or preferably is formed simultaneously with or immediately after joining of the edges 32 by a kiss cutting operation. The flap 44 i8 preferably cxeased by application of pressure, heat, or both to lie in close relation to the front sheet 30 and improve the overall appearAnce of the single pocket CD sleeve 10.
-20~
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13271~4 The flexible sheet 50 is produced in a manner similar to that of the single pocket sleeve.
The composite sheet 52 is formed by contacting non-woven fabric 54 and backing sheet 56 and joining the -~
two over the entire surface of the nonwoven fabric 54 preferably by heat lamination, which partially melts the bacXing sheet 56 onto the nonwoven fabric 54. The nonwoven fabric 54 of the composite sheet 52 is then brought in contact with material which will become front sheet 58 while the backing sheet 56 of composite sheet 52 is brought in contact with material which will become reverse sheet 62. The respective sheets ;
are then joined along joint lines 60, preferably by heat lamination. The front channels 66 in front sheet 58 and the back channels 68 in reverse sheet 62 are formed prior to creation of the joint lines 60, or ¦~ preferably are formed simultaneously with or immedi-¦ ately after creation of the joined lines 60 by a kiss cutting operation. For sheets securable in a ring binder, preferably the punching operation to form the ~- ~ndividual binder holes 70 is performed at the same time as the joint lines 60 are formed. Alternatively, ~-the binder holes 70 are created after formation of the joint lines 60.
~ It is contemplated that the polymeric materials utilized in the invention may also have incorporated therein a variety of chemical additives 1~27~
such as anti-static compounds, ultra-violet radiation absorbers, plasticizers, and the like which improve the use characteristics of the storage sleeve or sheet without adversely affecting the compact disc or graphics.
The single pocket compact disc sleeve is intended for sale as an original storage package for a compact disc, to be sold with the compact disc and used as a replacement for the jewel box. The single pocket sleeve can be enclosed in the plastic packaging presently used to display the compact disc at record stores. Because the sleeve is thinner than the jewel box, packaging can be produced which will require less ~-space, permitting more selections to be displayed in a -~
unit area than is presently possible through uti-lization of the jewel box. The dimensions of a single ;
pocket sleeve for a standard 4.7 inch diameter disc ~ -are about 5.25 inches square from edge to edge. A
sleeve containing a compact disc and graphics is approximately 0~10 inch thick.
The single pocket sleeve is less susceptible to damage than the jewel box. The sleeve containing a CD and graphics can be accidentally dropped onto the floor typically without damage to the sleeve or the CD. The flexible components of the sleeve tend to absorb shock without transmitting it to the compact disc.
; ~ ''''' ~ -22---~ 13271~4 ~
-23- -;
The after-market flexible sheet is intended for after-the-sale storage of the compact discs. The use of the flexible sheet in combination with a ring binder provides a space-efficient method of safely storing large numbers of compact discs. The flexible sheet pockets for a standard 4.7 inch diameter disc ~-are approximately 5.25 inches square. The punchable ;
margin is about .75 inch. A sheet containing compact discs and accompanying graphics is approximately 0.10 inch thick.
Presently, compact discs contain recorded -material on only one side of the disc. It is contem-plated that advances in technology, coupled with an increased need to maximize storage density per unit -area of disc surface, will result in discs containing storage space on both sides of the disc. It can be ~ -appreciated that with minor modification, a sleeve or flexible sheet can be manufactured having nonwoven fabric disposed against both surfaces of the compact disc. The invention is also equally applicable for storage of discs having both larger and smaller diameters than the commonly available 4.7 inch diameter disc.
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Claims (27)
1. A flexible sleeve for storing both a single compact disc having an aperture, an edge, a printed surface and an optical surface, and accompanying graphics, and for protecting the optical surface of said compact disc from dust and scratches comprising:
a rectangular composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the entire surface of said fabric, said nonwoven fabric capable of contacting said optical surface of said compact disc;
a front sheet disposed over said nonwoven fabric of said composite sheet and joined by a bonding operation along three peripheral edges of said compos-ite sheet to create a pocket accessible along the non-joined edge between said nonwoven fabric and said front sheet for retaining said compact disc; and a pocket forming sheet joined by a bonding operation along three peripheral edges of said backing sheet of said composite sheet to create a pocket accessible along the non-joined edge between said backing sheet and said pocket forming sheet for retaining said graphics, said pocket forming sheet extending beyond said non-joined edge between said nonwoven fabric and said front sheet to form a flap.
a rectangular composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the entire surface of said fabric, said nonwoven fabric capable of contacting said optical surface of said compact disc;
a front sheet disposed over said nonwoven fabric of said composite sheet and joined by a bonding operation along three peripheral edges of said compos-ite sheet to create a pocket accessible along the non-joined edge between said nonwoven fabric and said front sheet for retaining said compact disc; and a pocket forming sheet joined by a bonding operation along three peripheral edges of said backing sheet of said composite sheet to create a pocket accessible along the non-joined edge between said backing sheet and said pocket forming sheet for retaining said graphics, said pocket forming sheet extending beyond said non-joined edge between said nonwoven fabric and said front sheet to form a flap.
2. The sleeve of claim 1 wherein a portion of said front sheet is formed in a manner to permit simultaneous access to said edge and said aperture of said compact disc.
3. The sleeve of claim 2 wherein said portion of said front sheet is removed by kiss cutting.
4. The sleeve of claim 1 wherein said flap of said pocket forming sheet overlies said pocket for retaining said compact disc.
5. The sleeve of claim 4 wherein said flap overlies a substantial portion of said front sheet.
6. The sleeve of claim 1 wherein said nonwoven fabric is produced from polyester fiber.
7. The sleeve of claim 1 wherein said backing sheet, said front sheet, and said pocket forming sheet are produced from vinyl.
8. The sleeve of claim 7 wherein said backing sheet bonded to said nonwoven fabric has a thickness in the range of about 0.003 to about 0.008 inch.
9. The sleeve of claim 7 wherein said vinyl of said backing sheet, said front sheet and said pocket forming sheet have a melting point in the range of about 250°F to about 350°F.
10. The sleeve of claim 9 wherein said bonding operation involves application of heat to achieve at least partial melting of said vinyl.
11. The sleeve of claim 1 wherein said front sheet is transparent.
12. The sleeve of claim 1 wherein said pocket forming sheet is transparent.
13. The sleeve of claim 1 wherein said non-joined edge between said nonwoven fabric and said front sheet is adjacent to said non-joined edge between said backing sheet of said composite sheet and said pocket forming sheet.
14. The sleeve of claim 1 wherein said flap of said pocket forming sheet is creased adjacent to said non-joined edge between said nonwoven fabric and said front sheet.
15. The sleeve of claim 1 wherein said bonding operation is heat lamination.
16. A flexible sheet for storing at least one compact disc, each said disc having an aperture, an edge, a printed surface and an optical surface, and accompanying graphics, and for protecting the optical surface of each said compact disc from dust and scratches, wherein said sheet is securable in a binding device, comprising:
a rectangular composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the entire surface of said fabric, said nonwoven fabric capable of contacting said optical surfaces of said compact disc;
a front sheet disposed over said nonwoven fabric of said composite sheet having at least one channel thereon for accepting each said compact disc, said front sheet joined by a bonding operation onto said composite sheet to form at least one discrete pocket accessible through each said channel for storing each said compact disc; and a reverse sheet disposed over said backing sheet of said composite sheet having at least one channel thereon for accepting said graphics, said reverse sheet joined by a bonding operation onto said composite sheet to form discrete pockets accessible through each said channel for storing said graphics.
a rectangular composite sheet comprised of a nonwoven fabric joined by a bonding operation to a backing sheet over the entire surface of said fabric, said nonwoven fabric capable of contacting said optical surfaces of said compact disc;
a front sheet disposed over said nonwoven fabric of said composite sheet having at least one channel thereon for accepting each said compact disc, said front sheet joined by a bonding operation onto said composite sheet to form at least one discrete pocket accessible through each said channel for storing each said compact disc; and a reverse sheet disposed over said backing sheet of said composite sheet having at least one channel thereon for accepting said graphics, said reverse sheet joined by a bonding operation onto said composite sheet to form discrete pockets accessible through each said channel for storing said graphics.
17. The flexible sheet of claim 16 wherein said binding device is a ring binder.
18. The flexible sheet of claim 16 wherein each said channel of said front sheet is formed to permit simultaneous access to the edge and aperture of each said compact disc.
19. The flexible sheet of claim 16 wherein said nonwoven fabric is produced from polyester fiber.
20. The flexible sheet of claim 16 wherein said backing sheet, said front sheet, and said reverse sheet are produced from vinyl.
21. The flexible sheet of claim 20 wherein said vinyl of said backing sheet, said front sheet and said reverse sheet has a melting point in the range of about 250°F to about 350°F.
22. The flexible sheet of claim 21 wherein said bonding operation involves application of heat to achieve at least partial melting of said vinyl.
23. The flexible sheet of claim 16 wherein said front sheet is transparent.
24. The flexible sheet of claim 16 wherein said reverse sheet is transparent.
25. The flexible sheet of claim 16 in com-bination with a ring binder.
26. A flexible sleeve for storing both a single compact disc having an aperture, an edge, a printed surface and an optical surface, and accompanying graphics, and for protecting the optical surface of said compact disc from dust and scratches comprising:
a rectangular composite sheet comprised of a nonwoven polyester fabric heat laminated to clear vinyl over the entire surface of said fabric, said nonwoven polyester fabric capable of contacting said optical surface of said compact disc;
a front clear sheet disposed over said nonwoven polyester fabric of said composite sheet and formed in a manner to permit simultaneous access to said edge and said aperture of said compact disc, said front vinyl sheet heat laminated to said composite sheet along three peripheral edges to create a pocket accessible along the non-laminated edge between said nonwoven fabric and said front vinyl sheet for retaining said compact disc; and a pocket forming clear vinyl sheet heat laminated along three peripheral edges of said vinyl of said composite sheet to create a pocket accessible along the non-laminated edge between said vinyl of said composite sheet and said pocket forming sheet for retaining said graphics, said pocket forming sheet extending beyond said non-laminated edge between said nonwoven fabric and said front sheet to form a flap, said flap overlying said pocket for retaining said compact disc.
a rectangular composite sheet comprised of a nonwoven polyester fabric heat laminated to clear vinyl over the entire surface of said fabric, said nonwoven polyester fabric capable of contacting said optical surface of said compact disc;
a front clear sheet disposed over said nonwoven polyester fabric of said composite sheet and formed in a manner to permit simultaneous access to said edge and said aperture of said compact disc, said front vinyl sheet heat laminated to said composite sheet along three peripheral edges to create a pocket accessible along the non-laminated edge between said nonwoven fabric and said front vinyl sheet for retaining said compact disc; and a pocket forming clear vinyl sheet heat laminated along three peripheral edges of said vinyl of said composite sheet to create a pocket accessible along the non-laminated edge between said vinyl of said composite sheet and said pocket forming sheet for retaining said graphics, said pocket forming sheet extending beyond said non-laminated edge between said nonwoven fabric and said front sheet to form a flap, said flap overlying said pocket for retaining said compact disc.
27. A flexible sheet for storing at least one compact disc, each said disc having an aperture, an edge, a printed surface and an optical surface, and accompanying graphics, and for protecting the optical surface of each said compact disc from dust and scratches, wherein said sheet is punchable to permit securement in a ring binder, comprising:
a rectangular composite sheet comprised of a nonwoven polyester fabric heat laminated to a clear vinyl backing sheet over the entire surface of said fabric, said nonwoven polyester fabric capable of contacting said optical surface of each said compact disc;
a front clear vinyl sheet disposed over said nonwoven polyester fabric of said composite sheet having at least one channel thereon for accepting each said compact disc and formed to permit simultaneous access to the edge and aperture of each said compact disc, said front vinyl sheet heat laminated to said composite sheet to form at least one discrete pocket accessible through each said channel for storing each said compact disc; and a reverse clear vinyl sheet disposed over said vinyl backing sheet of said composite sheet having at least one channel thereon for accepting said graphics, said reverse sheet heat laminated to said composite sheet to form at least one discrete pocket accessible through each said channel for storing said graphics.
a rectangular composite sheet comprised of a nonwoven polyester fabric heat laminated to a clear vinyl backing sheet over the entire surface of said fabric, said nonwoven polyester fabric capable of contacting said optical surface of each said compact disc;
a front clear vinyl sheet disposed over said nonwoven polyester fabric of said composite sheet having at least one channel thereon for accepting each said compact disc and formed to permit simultaneous access to the edge and aperture of each said compact disc, said front vinyl sheet heat laminated to said composite sheet to form at least one discrete pocket accessible through each said channel for storing each said compact disc; and a reverse clear vinyl sheet disposed over said vinyl backing sheet of said composite sheet having at least one channel thereon for accepting said graphics, said reverse sheet heat laminated to said composite sheet to form at least one discrete pocket accessible through each said channel for storing said graphics.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US190,889 | 1988-05-06 | ||
US07/190,889 US4850731A (en) | 1988-05-06 | 1988-05-06 | Compact disc storage container with non-scratching surface |
Publications (1)
Publication Number | Publication Date |
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CA1327154C true CA1327154C (en) | 1994-02-22 |
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Application Number | Title | Priority Date | Filing Date |
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CA000598442A Expired - Lifetime CA1327154C (en) | 1988-05-06 | 1989-05-02 | Compact disc storage container with non-scratching surface |
Country Status (7)
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US (1) | US4850731A (en) |
EP (1) | EP0416009B1 (en) |
JP (1) | JPH072511B2 (en) |
AU (1) | AU3698989A (en) |
CA (1) | CA1327154C (en) |
DE (1) | DE68912587T2 (en) |
WO (1) | WO1989010882A1 (en) |
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JPH0135354Y2 (en) * | 1984-11-20 | 1989-10-27 | ||
US4620630A (en) * | 1985-10-18 | 1986-11-04 | Moss Ira L | Compact disc in convertible enclosure |
US4623062A (en) * | 1985-11-12 | 1986-11-18 | Shape Inc. | Antitheft container for a recording medium and method for manufacturing same |
US4709812A (en) * | 1986-07-11 | 1987-12-01 | Agi Incorporated | Compact disc package and a method of making same |
-
1988
- 1988-05-06 US US07/190,889 patent/US4850731A/en not_active Expired - Lifetime
-
1989
- 1989-05-01 AU AU36989/89A patent/AU3698989A/en not_active Abandoned
- 1989-05-01 DE DE89906510T patent/DE68912587T2/en not_active Expired - Lifetime
- 1989-05-01 WO PCT/US1989/001838 patent/WO1989010882A1/en active IP Right Grant
- 1989-05-01 JP JP1505940A patent/JPH072511B2/en not_active Expired - Fee Related
- 1989-05-01 EP EP89906510A patent/EP0416009B1/en not_active Expired - Lifetime
- 1989-05-02 CA CA000598442A patent/CA1327154C/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JPH04500945A (en) | 1992-02-20 |
US4850731A (en) | 1989-07-25 |
DE68912587T2 (en) | 1994-05-05 |
WO1989010882A1 (en) | 1989-11-16 |
EP0416009B1 (en) | 1994-01-19 |
JPH072511B2 (en) | 1995-01-18 |
AU3698989A (en) | 1989-11-29 |
DE68912587D1 (en) | 1994-03-03 |
EP0416009A1 (en) | 1991-03-13 |
EP0416009A4 (en) | 1991-03-27 |
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Legal Events
Date | Code | Title | Description |
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MKEX | Expiry |
Effective date: 20110222 |