FR2943994A1 - Disc e.g. DVD, and disc booklet containing, delivering, transporting and storing device for use in e.g. office, has elastic ribbons, and clasp composed of tab parts, cutting part and circular recesses placed at ends of cutting lines - Google Patents

Abstract

The device has a structure composed of surfaces (a, b), an internal surface (c), a cover surfaces (f), a base (g), a thin surface (i), upstream folds (1, 4, 5, 6, 8, 9) and downstream folds (2, 3). The surfaces (a, b) of the structure form a receptacle for discs (21) and include recesses to form a set of cutting lines. The receptacle includes a set of reversed V-shaped slits (10) in which the discs are inserted. Elastic ribbons are positioned around a notch (13) and other notches. A clasp is composed of tab parts, a cutting part and circular recesses (20) placed at ends of the cutting lines. The structure is made of flat material sheet.

Description

The present invention relates to a collapsible package, comprising an automatic deployment system, for containing, presenting, transporting and storing disks such as data carriers (CD Rom, CD, DVD) and their booklets. The packaging market for data carriers is generally homogeneous, it offers about three standard products that have their drawbacks: - rigid plastic boxes usually containing a CD held by a central hub easily transportable to the unit but which is missing practicality when one wishes to carry several; and their variants used for DVD boxes for example that may contain several discs but are generally not environmentally friendly and in the long run take up a lot of space. book-shaped CD holders having a cloth cover and additive transparent plastic pouches can carry a lot of discs but are not practical to use especially during the selection, when looking for a disc. - the simple pouches resembling envelopes, without slices, which have the disadvantage of being flying so easily misplaced or that of not properly protect the disc and damage. The device according to the invention makes it possible to remedy these drawbacks and proposes advantages which are peculiar to it, in terms of its manufacture and its level of use. Indeed, it comprises a mono-material monobloc structure made of a single rectangular sheet 30 of flat material such as polypropylene or cardboard, has upward and downward folds to form surfaces and hinges and thus design an object. three dimensions consisting of a base, a receptacle for presenting the discs and two cover flaps. The base surface for receiving the receptacle containing the discs has a plurality of cut lines in which booklet angles can be slid. The receptacle, formed of two surfaces separated by an upstream bend, has a plurality of slots in which the discs can be inserted and notches in which elastic tapes can be held. The flaps positioned at both ends and in the extension of the receptacle connect the base to the receptacle by a double thickness of sheet of folded material: they -2- therefore consist of an inner face and a cover face each, having on one of the cover faces the clipping portion of the clasp and on the opposite internal face the tongue portion. The inner faces of the flaps are connected to the receptacle by down pleats and the cover faces are separated from the base by two thin surfaces having the width of the thickness of the object; the narrow bonding surface, generally contiguous to the cover face of a flap or the thickness surface of the object, allows an invisible assembly of the two ends of the pattern so that it forms, after the succession of folds, a section to the closed circuit. The manufacture of the structure is very simple, economic and ecological because the rectangular shape of the pattern and the tiny cuts reduce material losses and optimize each sheet, and the folding of the structure is very simple because it only requires folds upstream and downstream parallel. In addition, the structure being mono-material, it avoids the multiplication of the number of different materials, thus reducing the production chain. Finally, the manufacture of the structure does not require other processes than those commonly used in the field of packaging and packaging: cutting, folding and gluing assembly for the use of the cardboard or by heat-sealing for that of polypropylene by example. The device also consists of two elastic bands to automate the deployment of the structure caused by the opening of the flaps. They are held by notches cut into the disk receptacle such that they are taut when the device is closed and the receptacle is flat and they relax when the device is open and the receptacle forms an outgoing angle . The receptacle has slots in which the discs are inserted such that they are inclined, offset one behind the other and parallel to each other when the device is open, and arranged flat when the device is folded. The advantages of such a device are multiple: its relatively flat shape, its generally standard format (height of an A4 sheet to hold ten discs) and its small thickness, when folded, to optimize its transport in the containers, and for the end user, it is a nomad object, easily transportable by hand or in a bag, stores in a minimum of space, in the middle of the books on a library shelf for example or in a drawer Office. When deployed, the arrangement of the disks provides an overall view of the disks contained in the medium and facilitated selection; it can also be exposed on a flat surface such as a desk table, in two different positions: placed on its base or vertically, on the edge of the fold, thus taking up less space. In addition, its use is playful: its automatic deployment when opening the flaps gives a surprise effect and the gesture of smoothing the object to fold it illustrates the passage from three dimensions to two dimensions (the flat of the hand, press the receptacle to smooth the outgoing angle and stretch the elastics, then close the flaps one on the other). Finally, it is also convenient to protect, classify and store discs packaged in simple envelopes such as installation CDs and software accompanying a new computer for example, which are not used often but are essential and can be lost easily. The present device may contain a dozen discs but their number is not limiting.

The accompanying drawings illustrate the invention: FIG. 1 represents the pattern, a plan view of the sections and folds of the invention. The black lines highlight the cut lines and the dark surfaces show the slight loss of material.

Figure 2 shows a perspective view of the slice of the invention when deployed. This point of view makes it possible to visualize the system of deployment of the object using the elastic tapes. Figure 3 shows a perspective view of the invention when deployed and placed horizontally. Figure 4 shows a perspective view of the invention deployed and placed vertically. Figure 5 shows a perspective view of the invention when the first flap is folded over and the device is flat. Figure 6 shows a perspective view of the invention when fully folded. FIG. 7 shows the pattern, a plan view of a variant of the invention making it possible to arrange the discs in two alignment. With reference to these drawings, the present invention comprises two elastics (22) and a structure composed of a base (g), surfaces (a) (b) forming a receptacle for disks (21), flaps having a double thickness of folded material 45 each composed of a cover face (e) (f) and an inner face (c) (d), two thin surfaces (h) and (i) having the width of the thickness of the final object, and -4- an assembly surface (j) for gluing the two ends of the pattern of the structure. It should be noted that the surface (j) is glued or welded (depending on the chosen material) under the other end surface (f) so that the assembly is invisible. According to one of the features of the invention, the structure of planar material is monobloc and mono-material and is formed only of upstream folds (1) (4) (5) (6) (7) (8) ( 9), down pleats (2) (3) and cutouts. The surface (a) and the surface (b) interconnected by an upstream fold (1) and forming the disc receptacle (21), have a total width greater than the diameter of a disc. The surfaces (c) and (d) representing the internal faces of the flaps, are connected to both ends of the receptacle and in its extension by down pleats (2) and (3). The surfaces (e) and (f) representing the cover faces of the flaps are respectively joined to their inner faces (c) and (d) by upstream folds (4) and (5) so that the flaps are composed of two layers of folded material sheet. The width of the internal faces and the width of the cover faces of the flaps are substantially equal. The surfaces (h) and (i) representing the thickness of the final object, connect the faces of the covers (f) and (e) of the flaps to the surface (g) representing the base of the structure, by upstream folds (8), (6) and (9), (7). The width of the base (g) is slightly greater than that of the receptacle. The successive steps of bending and assembly of the pattern of the structure make it possible to obtain a three-dimensional object that can be deployed when the flaps are successively open, thus allowing the surfaces (a) and (b) composing the receptacle to form a outgoing angle framed by the two inner faces (c) and (d) flaps which ensure the movement and balance, and the base (g) which ensures stability; and can fold and become relatively flat when these same surfaces merge to become parallel to the base and the flaps are successively folded over the receptacle. According to one of the important features of the invention, the receptacle has a plurality of inverted V-shaped slits (10) cut into the material, allowing the disc to be inserted and positioned therein so that the base of the V forming a generally right angle is positioned on the upstream fold (1). The slots (10) are generally parallel to each other and the cutting lines component are symmetrical if one refers to the axis formed by the upstream fold (1). When the support is folded, the surface (a) and the surface (b) composing the -5- receptacle, form a single relatively flat surface allowing the discs inserted into the slots to be flat, offset the on each other and parallel to each other. When the support is deployed, the surface (a) and the surface (b) form an outgoing angle, making it possible to deploy the device and lift the plurality of disks (21) inserted in the slots (10) so that they are generally inclined at an angle of forty-five degrees, offset one behind the other and parallel to each other. The slits are generally at least as thick as a disc at their ends, and widen towards their center (at the base of the V) towards the upstream fold (1), thus allowing to insert the discs easily.

According to one of the important features of the invention, the lateral ends of the receptacle, formed of the surfaces (a) and (b), each include two notches aligned in pairs, respectively (11) (13) and (12) ( 14), each composed of a cutting line merging with the folds (2) and (3) separating the receptacle from the two inner faces of the flaps, and two cutting lines generally perpendicular to these folds so that they form three edges of a rectangle. Two elastic tapes (22) are held between the base of the structure (g) and the surfaces (a) and (b) forming the receptacle, each in two notches opposite one another, so that it are perpendicular to the folds. When the device is folded and that the surfaces of the receptacle are flat, the elastics (22) are tensioned and thus maintain successively closing the flaps and when the flaps are open, the elastics relax, automating the passage of the flat state the receptacle in its expanded state, forming an outgoing angle and presenting the disks. According to another important feature of the invention, the base (g) comprises a plurality of cutouts (17) for sliding the booklets of the disks contained in the device: simply drag at least two opposite corners of the booklets in the spaces provided for this purpose so that they are well maintained. The drawing of these cuts, shown in Figures 1 and 7, is composed of two patterns (17) (18) of three cut lines (17) each, which are more or less spaced from each other, generally parallel to each other and having a thickness that can vary. These patterns are repeated by symmetries and are positioned so that they form the hypotenuses of the triangles formed from the four vertices and the four edges of rectangles having the standard dimensions of the record books. The angle of a booklet can thus be slid into one of the three cut lines (17). It should be noted that the cuts thus formed and shown (Figure 1 and Figure 7) can be stacked about six books in two rows. It remains that the design of these cuts is not limited to the example described below and shown in Figures 1 and 7, but it encompasses all variants, according to the dimensions of the booklets and the aesthetics desired.

According to one of the important features of the present invention, the cutting lines composing the slots (10) and the notches (11) (12) (13) (14) of the receptacle, the cuts of the base (17), the tongue portion (16) and the cutting portion (15) forming the clasp on the flaps, have circular cutouts (20) with a punch at their ends so that the cutting force is neutralized and as they do not do not tear during multiple manipulations. According to a variant shown in FIG. 7, the slots (10) of the receptacle may take an asymmetrical shape with respect to the central axis represented by the median fold (1) of the receptacle, in order to incline the disc inserted in a lateral direction or in the other. The corners of the corners of the slots (10) are positioned on the median fold (1) of the receptacle and are parallel. Discs so positioned can identify them at a glance and facilitate choice. So that the device remains stable and does not lean on one side or the other, and for the sake of balancing the total weight, always with respect to this same axis, the number of disks inclined in one direction and equal to the number of discs inclined in the opposite direction. This variant requires expanding the format of the device, ie all the surfaces of the pattern except the surfaces representing the thickness of the final object and the assembly surface. According to a second variant not shown, the slots may have angles of different degrees: for example, the angle of the first slot may be acute and the angles of the following slots may become increasingly obtuse, the vertices of the angles always positioned on the median fold of the receptacle. Arranged in this way, the disc inserted in the first slot will be positioned vertically and the disc inserted in the last slot substantially horizontal, which allows to discover and visualize a larger surface of the discs and to identify them more. easily. According to non-illustrated variants, the clasp of the device may vary, for example by replacing it with elements such as two magnets, a scratch, a magnetized pressure which would accentuate the characteristic of the automatic deployment.

It remains that the present invention is not limited to the examples described and shown above, but encompasses all variants. It can also find applications in other areas. The present invention finds a particular but not exhaustive application in the field of packaging and disk packaging and in the field of office supplies and storage.

Claims (10)

CLAIMS1) Device for containing, presenting, transporting and storing discs (21) and their booklets characterized in that it comprises a structure made of a sheet of flat material and two elastic bands (22), said structure being a folding composed of surfaces (a) (b) (c) (d) (e) (f) (g) (h) (i) (j) and hinges (folds) (1) (2) (3) (4) ) (5) (6) (7) (8) (9), forming a three-dimensional object, comprising a base (g), a receptacle (a) (b) for disks and two cover flaps (c) ( e) (d) (f), said surfaces having cut-outs to form, according to the location, a plurality of cutting lines (17) in which the booklets can be slid, a plurality of slots (10) in which the discs ( 21) can be inserted, notches (11) (12) (13) (14) around which the two elastic tapes (22) are positioned, a clasp composed of two elements (15) (16), a plurality of cuts ( 20) placed at the extremes all the cut lines. 2) Device according to claim 1 characterized in that the structure formed by folding and gluing comprises a base surface (g) contiguous to two thin surfaces (h) (i) representing the thickness of the final object, located by and other and in the extension of said base (g), two joined surfaces (a) (b) by an upstream fold (1) forming the disc receptacle, said receptacle (a) (b) and said base (g ) being connected at both ends by flaps formed by two folded surfaces each, so that they comprise an inner face (c) (d) and a cover face (e) (f). 3) Device according to claim 1 and claim 2 characterized in that the receptacle having a plurality of slots (10) and notches (11) (12) (13) (14) comprises two surfaces (a) (b). ) forming an outgoing angle when the device is open and the same continuous surface and relatively flat on the base (g) when the device is folded. 4) Device according to claim 1 and claim 3 characterized in that the slots (10) are cutouts allowing the disks contained in said device to be presented in three dimensions when the device is open, and to be flat when the device is folded.-9- 5) Device according to claim 1 and claim 3 characterized in that the surfaces (a) (b) constituting the disk receptacle also include notches (11) (12) (13) (14) for positioning therein resilient (22) so that when the device is open, said elastics expand so that said surfaces form an outgoing angle thereby automatically deploying the device and present the disks contained in said receptacle in three dimensions, when the device is closed , said elastics are stretched so that said surfaces become flat forming a same continuous surface allowing the disks contained in said receptacle to be flat and the device to be relatively flat. 6) Device according to claims 1, 3 and 5 characterized in that two notches (11) (12) or (13) (14) allow to maintain an elastic tape transverse folds. 7) Device according to claim 1 and claim 2 characterized in that at least one surface of the structure of said device has a plurality of cutting lines (17) for sliding disc books and keep them on said flat structure. 8) Device according to claim 1 and claim 2 characterized in that the two flaps formed of two thicknesses of material and therefore an inner face (c) (d) and a cover face (e) (f) each, joining the base and the receptacle, comprise on the cover face (e) of one of the flaps one of the elements (15) forming the clasp and on the inner face (d) of the opposite flap the other element (16), so that the device remains closed when folded. 9) Device according to any one of the preceding claims characterized in that the cutting lines composing the slots (10) and the notches (11) (12) (13) (14) of the receptacle, the cuts of the base (17). ), the elements (15) (16) forming the clasp on the flaps, have circular cutouts (20) at their ends so that the cutting force is neutralized. 10) Device according to any one of the preceding claims characterized in that the structure thus folded and glued, the cutouts thus formed and the elastics thus positioned, allow to deploy automatically under the expansion of the elastics (22) said device by successively opening the two flaps, folding said device by laying a hand flat on the receptacle (a) (b) containing the discs and pressing on it until said receptacle become flat, resting on the base (g) stretching the elastics (22), and closing the two flaps successively, to lay the present device horizontally or vertically.