MXPA98000850A - Exhibition systems with multiple display optics reference with request relationship - Google Patents

Abstract

A box system for displaying visual information, where this box system includes: means carrying information of a predetermined geometry and thickness, these carrying information have printed on a surface thereof a variety of interlaced images and have an edge that serves as a reference edge and is in a fixed angular orientation within a given tolerance with respect to the aforementioned interlaced images, a pair of flat walls spaced apart from each other and having at least one main dimension, a variety of shallow side walls interconnected between the aforementioned pair of flat walls spaced apart from each other and having dimensions substantially smaller than the aforementioned main dimension of the aforementioned pair of flat walls spaced apart from each other, at least one of the walls of the mentioned pair of flat walls spaced between yes and opposite possesses at least one section transparent transparently associated with it, this transparent lenticular section possesses an arrangement therein is a variety of longitudinally extending corpuscles which together define a focal plane and possess a given depth of focus, a plurality of shallow side walls and the said pair of flat walls spaced from each other and opposite provide an inner chamber for receiving the aforementioned means carrying the information, means located within the aforesaid inner chamber for elastically urging the mentioned carrying information means towards an alignment position with respect to the aforementioned transparent lenticular section, such that the aforementioned interlaced images are located within the aforesaid focus depth of the corpuscles and the said reference edge is at a fixed angular orientation within a predetermined fraction of the width of one of the aforementioned corpuscles over the length of the interlaced images mentioned with respect to the mentioned longitudinal axes of the corpuscles, in such a way that an observer of the transparent lenticular section is provided with different information when viewing the transparent lenticular section from different angular perspectives

Description

DISPLAY SYSTEMS WITH MULTIPLE VIEWING OPTICS REFERENCE WITH RELATED APPLICATION This application is a continuation request in part of the United States Patent Application Serial No. 08 / 222,632 filed on April 1, 1994, the Patent Application of the United States Serial No. 08 / 338,246 filed on November 14, 1994 and United States Patent Application Serial No. 08 / 367,091 filed December 30, 1994. BACKGROUND OF THE INVENTION 1 »Field of the Invention This invention generally refers to storage and display cases, display structures, and more particularly, to optical arrangements to provide improved display of textual, graphic and / or other symbolically encoded information, located in or within a storage box and / or display for merchandise such as compact discs, audio tapes, or the like. 2. Description of the Prior Art With the conrinuas improvements in recording technology and digital storage media, it is increasingly possible to store more and more information, in particular, information in images and audio, in a diminishing physical space. More recently, multimedia video and even digital video of feature film films have become a reality. As the physical size of these media is reduced, it has become a challenge to offer packaging and advertising materials of a more sensitive scale that allows a potential customer to know the content stored in the media and at the same time without taking up too much space. in anaquelee for retailers. An important digital medium for these storage applications is the compact disk, although magnetic media in the form of disks and tapes also constitute important storage media. CDs, which were first developed by Philips and Sony in the early 1980s, are now a well-established means of recording a variety of recoverable information. Its popularity and success are derived by its compact form, convenience, competitive cost and high storage capacity. Physically, these discs are thin, flat circular objects, approximately 12 centimeters in diameter by approximately 1.2 millimeters thick. They are supplied with a central hole of approximately 18 millimeters in diameter for purposes of mounting them for rotation in different devices capable of reading and writing information to and from them. Generally, audio, video or other data is recorded digitally on a surface of the dieco and the opiate side is free to carry information about the content of the recorded information. To activate the written and recorded information, a compact die (CD) includes a tranepant plactic layer on a reflecting aluminum surface. The data, of any kind, are stored in the binary code, the code of the code is either hollow or grooved in the plane's surface while it is not represented by the smooth plastic. At the touch of the die, a laser ray registers the surface of the die as it rotates and reflects regreeo only through the areas of 'zero *. The pulses of the reflected light are picked up by a photodetector that converts them into a digital electrical signal that can subsequently be processed for subsequent use in different reproduction devices suitable for the type of information recorded in the die. Despite being very popular for audio recording, CDs can also be used to store information in video and multimedia, which applies the same technology. These have advantages over magnetic tapes by virtue of eer máe fácilee of duplicating and randomly acceing. CDs are also used to store large amounts of computer information. Here, the CD ROM (compact dieco with only readable memory) is the most common format, but other formats are available that allow data to be written on the disc and also read. Recent applications for the use of CDs include the photo-CD, which also records images for viewing on a television screen or reproduction as a printed copy, and the multimedia CD, which stores audio, sound and textual information in a dieco and can reproduced through a television receiver and hi-fi equipment or properly configured computer systems. Although CDs are physically re-echoed because the information is digitally encoded and read optically, they are obviously not in harm's way and require protection from misuse and environmental effects that could destroy or compromise their information-carrying surfaces. some other way threaten their physical integrity. As a result, CDs are usually shipped, stored and marketed in corresponding flat boxes known as "jewelers." These boxes are usually made of a durable and transparent plastic such as polycarbonate or styrene and have been designed to occupy the minimum amount of space in relation to their protective function. As a result of this, and the fact that the CDe can include digitally coded information, the space available on the surface of the jeweler to provide information about its content is much sought after, especially since the practice of packaging CDs with boxes of 'spaghetti' It has been discontinued due to environmental pressures associated with accumulated waste from the sale of large volumes of CDe. Since the opening of the eepagueti box of the market, the current technique for informing the ueuario of CDs on the contents of information recorded on CD, is to offer the information in the form of thin paper booklets or sheets that are visible through the flat and transparent panels of a front cover or the base of the jewelers, or both. In addition, the hinge edge of a box is also used to present essential information about the title and the author or artist of the CD. However, the area of the limited outer surface of the conventional CD box, in turn, limits the amount of information that can be stored across any surface, which requires for this reason, that the relevant information is distributed among the euperficiee dieponiblee. This forces a prospective buyer to go over and flip the stack of CDs to secure the front cover in order to find the identity of a particular CD, usually by title and / or title, which may be of interest and may be turned over. the box to examine the back surface for information on the detailed content. The studios have shown that this results in the loss of multiple sales, and perhaps important, because this process is time consuming and frustrating for the client. Therefore, there is a need for a solution to the above problems, and one of the main objectives of this invention is to offer solutions through the use of optical devices that improve the viewing opportunities and the amount of information that can be detected visually by a CD prospect owner. Although optical approaches have been used in the past for the direct increase of the information contained in the inner part of the packaging, none has provided more access to more information in the same visualizable area or, more importantly, in different information. vieualizable through the outer surface of the box. For example, British Patent Number GB 2222143 entitled "BOX-SHAPED VESSEL" published on February 28, 1990, discloses the use of a positive cylindrical lens, convex plane, placed along the edge of the hinge of a tape. of cassette or compact disc box for purposes of offering the increase of information placed directly behind them. The Patent of the United States Number 4, 863.026 entitled "STORAGE BOXES FOR INFORMATION RECORDING DEVICES", issued on September 5, 1989, presents a Fresnel lens incorporated in the frame or in the front cover panel of a box for the purpose of expanding the information placed on the The surface of a program card that is not inserted in the box so that it is directly below the lens. Of the same form, U.S. Patent Number 4,044,889 entitled "COSMETIC BOX INCLUDING AN INTEGRATED LENS STRUCTURE", issued on August 30, 1977, also features a Freenel lens to enlarge the fundamental information in small print placed inside a box of coeméticoe. U.S. Patent No. 4,863,026 entitled "STORAGE BOXES FOR INFORMATION RECORDING DEVICES", issued on behalf of Thomas J. Parsons on September 5, 1989, features a Fresnel lens placed on the front cover of a storage box of magnetic tape, video tape or compact disc to expand the information located directly behind the front cover at a suitable distance. Similarly, the United States Patent Number 4,044,889 entitled "CONTAINER FOR COSMETICS INCLUDING AN INTEGRATED LENS STRUCTURE", issued to Seymour Orentreich et al. On August 30, 1997, describes the use of the Freenel lens structure to increase the information located on the inner surfaces of the coeméticoe boxes. U.S. Pat. No. 5,189,531 entitled "HOLOGRAM PRODUCTION", issued to Charles E. Palmer et al. On February 23, 1993, describes the techniques for forming holographic images on compact cover or compact video or audio discs, or eimilaree. In the known art, there continues to be a demonstrable need for more effective ways of providing significantly improved visual access to flat storage boxes and display cases for the purpose of informing the user of the prospectus about the contents of the boxes and so that its content is more attractive in order to induce increasing sales or, simply, for exhibitors, such as structures with images, which are capable of offering multiple images available from different perspectives. And, a main objective of this invention is to eatiefacer eeta neceeidad. Another objective of the present invention is to provide optical dielectricity by means of which the equivalently expandable surfaces of flat containers or display structures can be exploited to offer views of different information or images obeying these surfaces from slightly different perspectives. Also, another objective of the present invention is to provide optical arrangements through which it can offer encoded information, final images and stereo pairs on a viewable surface. Also, another objective of the present invention is to provide optical retrieval diepoeicionee for compact die boxes that can be implemented with relatively minor modifications of the existing molds for manufacturing. Yet another objective of the present invention is to provide optical arrays by which it can supply peedodynamic information to an objector of a flat box or display structure. Another objective of the present invention is to provide an optical arrangement employing a structured lenticular surface to encompass the parallax effects at a distance from customary visualization. A further objective of the present invention is to offer raw material of information, such as booklets and similar materials, which can be inserted into the flat box using the exogenous equipment. A major object of the invention is to provide printing methods for manufacturing inserts that carry multiple interlaced images for use with the screen and lens. Other objectives of the invention will be apparent and will appear later in the following detailed statement to the reader in relation to the illustration. SUMMARY OF THE INVENTION Diepoeicionee ópticae is provided by means of which observers of flat containers or display cases, such as for example compact disc (CD) jewelers and display structures may be presented with different information in the form of multiple images either on the content of the box or simply different images when observing one of sue euperficiee deede differente perepectivae angularee. Paneled lenses are used horizontally and vertically in combination with interlaced images to show the views with different coding and no need to physically manipulate the boxes as in the past to observe the equivalent information. These arrangements improve the possibilities of displaying more and different types of information on an area of the given display surface or box compared to conventional approaches, and as such, improve the prospects for increasing the sales and start-up and multiple of CD products and exhibition structures for sports figures, members of the family, celebrities, animation, artistic work, eneajee and imágenee eimilaree or combinacionee de lae miemae. The interlaced images are preferably made in card inserts and in an optical region with a lenticularee surface, impregnated in the inner surface or outer surface of a box or front surface of a compact die, or some combination of all possibilities. Whatever the meaning for presenting the interlaced images on the lenticular surfaces used in the invention, it is important to align them within tolerable limits with the longitudinal axes and the focal plane of the reflective corpuscles to ensure the quality of the image and accurate separation , although for special effects such as for example morphine, this can be intentionally relaxed. In the preferred embodiment, the spatial frequency of the lenticular panels and the interlaced images are arranged with respect to each other to compensate for the effects of parallax which would otherwise be apparent when observing the flat paneels at the expense of customary updating. . Preferably, the spatial frequency of the interlaced images is adopted as fixed, and the spatial frequency of the reflective corpuscles becomes larger by approximately one factor in the ratio of the updating temperature to that of the reflective plane, adjusted for the refractive effect of the image. reflective corpuscle as required. Preferred interlaced images are made in inserts of multiple panels, impreeoe, which are bent to be elastic in such a way that, when inserted in a box, they are pushed flexibly to lie flat, within the tolerances, against the plane contains the eectioe of the focalee line of the reflecting corpuscle. Preferably, the panels of the inserts are adjusted in length so that when bending an arc is induced in the panel to provide a spring action when compressed or to assume a predetermined curve during the free position. In addition to the impractical inserts, there are also diepoeicionee which use flexible, mechanical means that lift the inserts printed on the focal plane of the reflective corpuscles and otherwise align a reference edge of the insert, printed against a reference line of the box for ensure the angular alignment of the interlaced images and the longitudinal axes of the reflective corpuscle. Panele lenticularee de ajuete eepecial or lejement for use with printed and similar graphics located at the outer surface of a box or similar. Here, the alignment is automatically carried out when the panel is exposed to the outer surface. Multiple displays of images are displayed, including sports figures or family members or similaree.

In these, the alignment with the reflective corpuscles is preferably achieved by virtue of the provision offered between the printed document and a compartment or channels adapted to receive the document. Alternatively, the bag may relax and the card imply to force mechanically into a regimental poem through the use of flexible mechanical fingers. The inserts inserted therein can be engraved selectively to provide elasticity characteristics that flexibly impel the insert in alignment with the focal plane and the longitudinal axes of the reflective corpuscle. DESCRIPTION OF THE ILLUSTRATIONS The structure and operation of the invention, together with other objectives and advantages thereof, can be better understood by reading the detailed description related to the illustrations in which unique reference numbers have been used throughout the text for each part and where: L Figure 1 is a schematic perspective view of a variety of conventional CD-shaped jeweler boxes stacked to illustrate the identification problem that is generally faced by the consumer during the purchase process; Figure 2 is a schematic perspective view of a box in the form of a conventional CD jeweler moetrated in its open cast together with a compact die; Figure 3 is a view in an enlarged schematic perspective of a box in the form of a conventional CD jeweler and different content including a CD, an ineerto program and an ineerto baee with bending side; Figure 4 is a schematic perspective vieta of a seven-pack of compact die of the invention having a lenticular frontal panel oriented vertically; FIG. 5 is a schematic perspective view of a system of compact disc boxes of the invention having a horizontally oriented lenticular front panel; Figure 6 is a schematic vertical elevated view of the view presented to an observer looking along a first observation path in the front of the seventh of the compact die box of Figure 4; Figure 7 shows a vertical elevated schematic view of the view presented to an observer looking along a second path of obertion, angularly spaced from the first in the horizontal plane, by observing the front part of the dielectric box case. of Figure 4; Figure 8 is a schematic side elevational view of a preferred booklet, with multiple and printed panels that can be used in the practice of the invention showing that, in its folded configuration in free position, the booklet is arc-shaped and flexible; Figure 9 shows a schematic view of the exposed plane of the booklet of Figure 8; Figure 10 is a schematic illustration showing how the multi-panel booklet of Figures 8 and 9 is folded to achieve the configuration of Figure 8; FIGS. 11 and 12 are diagrammatic views taken transverse to the longitudinal axis of the lenticular panels used in the case of the invention box marking the pathways that take different light rays when traveling at different eegment of the interlaced images formed in the cards that carry the information used in the seven ae of the box of the invention; Figure 13 is a schematic view illustrating the nature of parallax effects that are corrected for certain characteristics of the invention; Figure 14 is a schematic illustration showing in more detail how the parallax effects of Figure 13 are presented as a result of the difference in perspective angle. from which an observer "sees" the different elements of the intertwined images of the invention; Figure 15 is a schematic illustration showing the origins of a visual parallax effect that is without the corrective features of the invention.; Figure 16 is a schematic vieta of the plane illustrating the operation principle of the lenticularee eeptficiee of the invention; Figure 17 shows a schematic front raised view of the cassette system of Figures 4 and 5 shown with additional elements to illustrate the importance of aligning the informative material with the longitudinal axes of the lenticular surfaces of the invention; Figure 18 is a schematic perspective vieta of a portadiecoe eu inietrado with flexible finger to drive a printed insert, such as a booklet, in the record with the focal plane of a lenticular panel of the invention; Figure 19 is a schematic vieta of the plane of the portadiscoe of Figure 18; Figure 20 ee a schematic elevated vieta of the disc carrier of Figure 18; Figure 21 is a schematic sectional elevation of a portion of the carrier of Figure 19 taken generally along line 21-21 of the honeycomb; Fig. 22 is a schematic perspective view of a front cover of the box systems of Figs. 4 and 5, which move the flexible finger to impinge impurely against a reference line or a shallow side wall of a box for aligning the interlaced images of a printed insert with respect to the longitudinal axes of the reflective corpsicles of the invention; Figure 23 is a schematic view of the plane of the front cover of Figure 22; Figure 24 shows a schematic side elevation of the front cover of Figure 22; Figure 25 is a schematic sectional view of the front cover of Figure 23 taken generally along line 25-25 of the member; Figure 26 is a schematic sectional view of the front cover of Figure 25 taken generally along line 26-26 of the member; FIG. 27 is a schematic sectional view of the front cover of FIG. 25 taken generally along line 26-26 of the molered member in combination with a fragment of an impure implant; Figure 28 is a schematic sectional view of the front cover of Figure 25 taken generally along line 28-28 of the member; Figure 29 is a schematic sectional view of the front cover of Figure 25 taken generally along line 28-28 thereof shown in combination with a fragment of a printed insert; FIGURE 30 is a schematic perspective view of a novel implant of the invention, etched with features that make it selectively flexible for purposes of aligning it with the focal plane and / or the longitudinal axes of the reflective corpculoe of the invention; FIG. 31 is a schematic, tranevereal elevated vieta of a fragment of the engraved impree engraving of FIG. 30 shown in combination with a fragment of a front cover of the invention to illustrate the interaction between the engraved sections of the imprinted insert with the tabs of FIG. the front cover; Lae Figure 32 (a) to 32 (e) is a view of a perspective view of an alternative embodiment of the invention that illustrates how a flexible lenticular panel of the invention can be attached to a surface of a picture-carrying case. interlaced and impree in it; Figure 33 is a schematic vieta of the plane of the flexible lenticular panel of Figure 32, showing a disposition of co-operation which cooperates with the orifice receiving in the box of Figure 32 to align the reflective corpuscle of the panel with the interlaced images and impreeae in box; Figure 34 is a schematic sectional view of one of the fasteners of the panel of Figure 33 taken generally along line 34-34 thereof; Figure 35 is a schematic perspective view of another embodiment of the invention showing a display frame of lenticular images in combination with an ineree impree of the lemmon; FIG. 36 is a schematic perspective view of another embodiment of the invention which shows a lenticular imaging frame only on one side in combination with an ineree impree of the lemmon; Figure 37 is a schematic sectional elevated view of Figure 35 taken generally along line 36-36 of the member; and Figure 38 ee a schematic front raised vieta of another embodiment of the invention illustrating that the reference locating surfaces of the displays, boxes and printed materials of the invention need not be parallel or perpendicular to the longitudinal axes of the inventories. Reflective corpuscles but must have a fixed orientation only with respect to them. BACKGROUND Reference is now made to Figure 1 which shows a stack of eiete ae of the flat storage and display case for diecoe corapactoe. The stack is usually denoted and includes a variety of individual boxes 12, 14, 16 and 18, which are all identical and of conventional design for storing and displaying 'diecoe compacte (CDe) as those used to record and reproduce information in audio. . However, it is understood that another form of information such as data, video, multimedia or graphics could also be recorded just as easily in the CDe mentioned. As it obeys better in Figures 2 and 3, each system of the compact disc box, considering the box 14 as an example, includes the following major component: a front cover 20, a rear base 22, a compact disk carrier or disk carrier 24, an informational booklet 26, which generally presents printed graphic and textual information describing the recorded contents of the box, a compact disc 28 carrying the recorded information, and a printed folded insert card 30, which usually presents a brief textual and graphic description of the content of the recorded information. The front cover 20, the bottom plate 22 and the port holder 24 are all molded by injection with a suitable plastic that has a wall groeor of approximately 1.2 millimeters. Overall, each box measures approximately 142 millimeters x 124 millimeters x 10.4 millimeters as illustrated in Figure 1 in its closed state. Generally, the front cover 20 and the rear base 22 are traneparent and molded with eetirene or polycarbonate, whereas the portard 24 may be made of plastics, whether traneparent or opaque, with color if desired. Referring now to Figure 3, it may be noted that the front cover 20 includes a front planar panel 32 which may be elevated above and below 34 and 36, respectively. The upper raised edge 34 has a pair of spaced tabs, 38 and 39, which extend outwardly from the frame while the lower raised edge 36 is expanded with a similar tab pair 42 and 44. The tabs 38-44 are attached. configured and arranged so as to have corresponding edges of the booklet 26 placed below the edges to retain it with its front surface against the rear surface of the transparent front cover panel 32. In this way, the information placed on the front page of the booklet 26, as the title and the name of the artist for an audio disc, can be clearly seen through the front surface of the front cover 20. The booklet 26 is automatically inserted into the space or "bag" formed between the rear surface of the front cover 20 and the surfaces positioned in an opulete manner to the tongue. This is achieved through the use of high-speed equipment specially designed for this purpose and widely available throughout the industry. Part of this invention, as it will obey, is to offer informative information, such as booklets, that are adapted for use with this high-speed equipment while possessing characteristics particularly suited for other purposes of the invention. The second wall 22 also has a tranevel flat panel, such as 46. Extending outward from the flat panel 46 is a variety of elevated edge sections 48, 50, 52 and 54. The raised edge 48 and 52 are euminated with The hole is circularly deep and cooperates with the short poetese configured in a complementary manner at the rear end of the upper and lower edge of the front cover 34 and 34 respectively, to provide a pivoting pair, 51 and 53 respectively. The pivots 51 and 53 allow the front cover 20 and the base 22 to be connected in a bieagra manner to each other for movement between the open and closed positions. The bent insert 30 includes a section of the flat panel 80 and does border the raised end 82 and 84, which may have printed textual or graphic information. In general, edges 82 and 84 carry only textual information. During the assembly of a storage and display of a typical box, the blank 30 is usually automatically placed in the rear panel 22 with an ejection that carries information 80 against the outer surface of the traneparent flat panel 46, so that can easily be perceived from the opulent surface by a client or CDe client. In this connection, the information provided in the raised edge 82 and 84 can be obeyed, respectively, through the left and right edges, 83 and 85, respectively, of the rear base 22. The left edge 83 in this case corresponds to the edge of the hinge of a seventh of a typical box. The compact portadiecoe 24 functions to hold the ineert card 30 flush with the downstream surface of the flat panel of the downstream stack 46 and to hold the compact disc in place. For these purposes, the portadiecoe 24 includes a circular saucer section 66 with a flexible center 64. Extending above the section of the circular saucer 66 there are four sections of the raised edge 68, 70, 72 and 74, located in the four eequinae of the portadiecoe 24 and configured to offer a contour to protect the peripheral edge of the compact die. Each section of the raised edge 68-72 includes raised endings (only ee mueetran doe) as shown in 69 and 71, adapted to be adjusted with the retention hole of the corresponding tab section 56-62, in the posterior wall 22. In this manner, the port 24 is moved and placed in the second compartment 22. The compact die 28 is received as a flat circular object with a front surface 86, a rear surface 90 and a central circular mounting hole 88. The front surface 86 carries the recorded information and the posterior surface 90 generally carries the information and preference that identifies the recorded content of the CD as the title and the artieta or eimilaree. The CD 28 is held in place with the aid of the tray 24 with its surface that carries the recorded information 86 against the front surface of the circular dish 66 to protect it against damage. To achieve this, a user simply aligns the flexible center 64 with the circular hole 88 and then pushes the compact die 28 which compresses the flexible finger of the center 64 inwardly. In addition, inward pressure causes the finger to flex for a decade and expand after certain portions clear the groeor of a CD to set the die 28 in place. The portadiecoe 24 also includes a raised platform of rectangular shape 78 which extends over the front cover 20 near the edge of the bieagra. The platform is usually supplied with serrations on the surface that extend along its longitudinal direction to offer a fastener and facilitate handling by the ueuario and during fabrication. In the case, it appears as the figure in the Figure 1, the surface that carry the information in the eietemae eetee of the storage box and extension of the compact die can usually oberve only by turning in the manner shown. Due to the diepoeicionee of the exhibits adopted by the minority, it is usually only possible to flip the boxes to look up the information appearing on the front covers and identify their contents. The alternative is to take the box and examine all sides for the information you need. It can not obey the information through the borderline either above or below the poem in which it is usually displayed, and the information that could be observed through the right edge of a box system is also obscured. in this exhibited position. As will be seen in the following description, the above problem with the conventional systems of storage boxes and / or CDe display or graphic frames, is solved with the new optical technologies and to offer a user or client more and different opportunities to observe from information about CD content and to improve the opportunity for more creative advertising approaches to commercialize CDs or to display other pictorial or graphic information in graphic and similar formats. DETAILED DESCRIPTION The present invention relates to the use of impure materials that carry images interlaced in combination with a lenticular lens provided in boxes and containers, particularly flat boxes, and exhibitors, for the purpose of offering different pictorial and graphic information when the exhibitors will receive from different angles and perspectives. Tridimeneional effects are also possible when viewed from a perspective or with special effects such as morphine. The different embodiments of the invention share common characteristics to accurately locate the impregnated image with respect to a reference edge or line on the subject matter, and with respect to the lenticular optics, when the printed materials are inserted into the boxes. or exhibidoree. This is incorporated into different configurations of the container and exhibitor and is intended to ensure that they do not re-restrict only the pre-selected. Also, it will be appreciated that certain characteristics presented in connection with one embodiment may be used in another embodiment when it is devised. The interlaced images are preferably formed by an impree in standard offeet or with advertising technology using advertising as a preemptive material for printing in high-resolution color, and half tone. First, the desired content of the different images is recorded and then electronically interleaved with the appropriate software. Deepuée, lae imágenee entrelazadae ee produced in electronic form in a standard format acceptable to the printing industry. This could be a file in a TIFF or PostScript format. This file then serves as an input to an ongoing printing technology in order to generate the materials that are subsequently cut into the proper fit and / or provided with alignment features that allow their exact insertion into a box or display structure in the way that ee will write. The alignment features use different approaches. Whether the fit is of the printed materials and the characterization of the alignment is eenetably done and the free space is taken up by the flexible elements that are elastically polishing the impression material to the variation variation necessary and the attitude within it. of the tolerances required, or the adjustment is controlled in such a way that any free space between the printed materials and the receiving structure does not allow misalignment beyond what is necessary. In some embodiments, they can be used amboe focus or they can be mixed in an energetic way. Variates of different embodiments that incorporate the invention include a box in the form of a jeweler for CD, which could easily be used as an independent display, a box for general merchandise and a display for sports figures, family members, graphics, animation, textual and / or pictorial messages or similar. Referring now to Figure 4, an embodiment of the system of the box of the invention designated generally by 100 is shown. The system of the box 100 includes a front cover 102 hinged to a bottom 104 on a pivotee pair. (one of those who died at 109). Within the box 100 there is a compact port holder of the new design (Refer to FIG. 18) and having a slotted platform 106 which can easily be enlarged to facilitate its handling. The front cover 102 is preferably molded into a durable plastic such as styrene or polycarbonate and includes a flat, trapezoidal lenticular panel 110 in which a plurality of vertically oriented adjacent individual reflective corpuscles and forming a disposition are formed in the front surface. or lenticular section. In view of the fact that the reflective corpuscles 112 are enlarged greatly, it will be appreciated that in practice they are small, and that they have spatial frequencies ranging, for example, from 1 to 10 reflective corpuscles per millimeter. The information in the form of interlaced impressed images is reproduced in a back plane of the lenticular panel of the front cover 110 which operates in the manner that it will be designed to offer a different image doe according to the angle at which the front cover 102 is observed. Due to the vertical orientation of the reflective corpuscles 112, the available apertures are separated at an angle in a horizontal plane perpendicular to the front cover 102. In FIG. 4, the arrows designated at 114 and 116 indicate the angular separation as an example. Between eetae vietas, and lae Figure 6 and 7 show examples of the different types of maneuvers that an observer can see along this path of obedience. As shown in Figure 6, an observer can be presented with a logo, title and / or information about the artifact related to the content of a CD while it is obeyed along the route designated as 114. A along the track 116, slightly to the right of the track 114, an observer can see the contents of the individual numbers on the CD, as in the case of an audio CD. To make sure that separate views have been drawn in connection with the description of the embodiment of Figure 4, it will be appreciated that the maximum feasibility of the data depends on the number of interlaced images provided, and that different information may also be provided. be presented to an observer who sees the flat wall of the rear cover 104 as well. It should also be appreciated that these vignettes can be repeated periodically as the angle of view changes only the surface of the lenticular surface. In Figure 5, an alternative embodiment of the invention is presented. Here, a system of the box 120 includes a front cover 122 embossed with a pivot to a subsequent wall 124 by means of a pair of pivot points (one shown at 125). The material of the box 120 also has a new port-dock (Figure 18) with a slotted platform 126 which opens out through a cut in the front cover 122. The platform 126 and one side of the front cover 128 have serrations or grooves as shown in FIG. indicated above to improve grip and handling. The front cover 122, as before, is injection molded with a transparent plastic in a well-known manner and includes a flat lenticular front panel 130 having a variety of parallel reflective corpuscles, side by side, oriented horizontally 132. The corpuscle 132 operate in the manner indicated above to provide informative doe vietae that, in this case, they are angularly separated vertically in a plane that is perpendicular to the longitudinal axis of the corpuscle 132. Here, lae vietae, which can be used to present different observable meanages, eetán deeignadae as 134 and 136, and its information. It may also be identical to the one shown in Figure 6 and 7 or it may also be something different. As you can appreciate, each corpuscle 112 operates in a well-known way (explained in detail later) as a cylindrical lens to form a line image in an azimuth corresponding to its longitudinally extending axis. In particular, it will be recognized that each corpuscle has a thick convex plane lens that obeys the well-known optical equations that apply to these lenses. For a refined optical design of the corpuscle beyond the application of the lens of the coarse lens, detailed beam analysis will generally be applied in a manner known per se. The information cards that are provided are located in such a way that their surface carrying the image is in or near the contact with the posterior surface of the panele lenticularee 110 or 130, as the case may be. As mentioned previously, this information card carries an interlaced image, that is, images of different views that will be presented to an observer divided into adjacent thin image strips, in which an image component alternately forms a vector and an image respectively. in the whole image. The interlaced images are placed behind the corpuscle 112 or 132 in such a way that different combinations of the eema may be observed along the different perspectives.; each corpculo 112 provides a vieta of part of the total image that is collectively perceived as a total and synthesized by the equiv- alent system of observation and noticing the corpuscles themselves due to their size in relation to the visual acuity of the eye. The insert of the information card may be placed laterally, vertically and rotationally through the unit of diets that will be described later. Suitable means such as elastic means are provided to keep the card from being pressed against or near the front plane of the corpuscle 112 or 132 to ensure that the printed matter on a card is located at the proper distance from the walls of the building. line focalee of the corpuscles 112 or 132 and to ensure a suitable rotational alignment between the interlaced images and the corpuscles. When it is desired to use a high-speed equipment, used throughout the industry to insert information materials, such as materialee, the seventh of the invention's box, it may advantageously be used differently from the region of the region as a whole. for the purpose of alignment, keeping in mind that these materials should be aligned within acceptable tolerances vis-à-vis the boundaries of the lenticular surface line, that is, they should be flat over the area of interest, and they should not rotate, or tilt, with respect to the longitudinal axis of the corpuscle. More particularly, informative ineertoe, such as for example notebooks, should be self-deployable, or in some other way should be flattened within the tolerance required when in poetry, and preferably be set in the space provided between the retaining tabs and the scanner. current and the flat surface that carries the lenticular screen in such a way that the usual molds do not need to be specially modified to accommodate the informational materials of the invention. The depth of space available between the retention tabs and the flat surface that carries the corpuscles is approximately 0.085 to 0.90 inch. With the typical paper grooving used for the booklet, for example, from about 0.005 to 0.006 inch, it is clear that, for the booklets formed by varioe panelee, a sub-quantity of space must be filled in order to keep any inefficient material in place. and so that I was properly aligned with the corpuscle, both axially and rotationally. In addition, as any informative tool, particularly that which is used on the front cover, has been erected over a large space between the opposing surface tongues, it must be rigid in the direction perpendicular to its direction and flexible in an opposite direction in such a way that it can flattening against corpuscles over the entire area of tolerance dictated by the depth of focus of optics. For a confluence circle of approximately 0.005"(visual acuity), a typical lenticular spatial frequency of 50 corpuscles per inch, and a thickness of approximately 0.060, this depth of focus is approximately 0.0008 inch or less. Different embodiments of the invention have been made for the uninformed informative in the first instance, different approaches have been found to realize these inserts with the necessary properties: Figure 8 shows a multiple panelee booklet, with double fold 182 that poeee tree panelee, 184, 186 and 188, with sharp bends between them, with the free edge of the panel bent inwards 188 entering the first fold formed between the panels 184 and 186. Here, the lengths of the panels are selected in such a way that, when folded, the edge of the last folded panel interferes with the first bend to make the last panel lean under the compression induced dispueeta de eeta form. EetoAt the same time, it creates the necessary compliance, and compliance can be determined as required by an easy length adjustment. For example, as shown in Figure 9, the last panel on the right (188) may be larger than the one on the left of the member (184 and 188) or alternatively, in a preferred embodiment, the External panels may be of the same length and the middle one may be shorter. Clearly, this approach is a reliable method to control the elastic properties by controlling the length rather than the characteristics of the double and the material properties on which this information is printed. As shown in Figure 9 below, the center panel 186 carries the interlaced images indicated generally at 186 and 185. The panel 186 is also important since it is euminietra with a reference line or edge 181 that interacts with the structure of the structure. the box in a manner that will be subsequently described to align the interlaced images 186 and 185 with the longitudinal length of the corpuscles such as 112. To ensure that the reference edge 181 is the only one serving for this function, the panels 184 and 188 are cut with a taper as indicated by the angles 187 and 189, respectively. When the panels are bent, they remain in line in such a way that only the reference edge 181 is noticeable from the bent booklet. Once the image is interspersed, 186 and 185 are formed in the manner described above, and it should be clear that they can be formed parallel to the reference edge 181 and perpendicular to it so that they can be created with the view, already horizontally or vertically of FIG. 4 or 5. In addition, the invention contemplates that the reference edge and the interlaced image could eetar at any necessary angle. What is essential is that the reference edge and the interlaced images are in predictable predetermined angular relation, which could easily be forty-five or sixty degrees or some other. Figure 10 shows the sequence for folded booklet 182. Panel 184 is first bent at the upper part of panel 186 with a sharp fold formed between it. Subsequently, panel 188 is folded over panel 186, between panel 184 and 186, so that it is in the middle thereof. Once again, a sharp crease is formed between estoe doe ultimae. It will be understood that the placement of the tongue can be adjusted as necessary to induce the appropriate inclination movements and cause the informative ineertoe to lie flat against the optic. However, changing the current positions of the tongue would be a very expensive proposition that could be avoided with the present invention. In addition to the need to have the information and plans that require optics, it must also be parallel to the longitudinal axis of the corpuscle within the limit or it could occur in the form of waves that appear through the surface of the displayed field. What has been found preferable is to keep the interlaced images parallel to the longitudinal axes of the corpuscles a or menoe wide of a single simple interlaced image resident behind a corpculo on the length of the artistic work of interest. As a consequence, if the work of art is long, this tolerance is more demanding than if it were short. However, what is interesting is that artistic work can be perpendicular to amboe corpuscles without visual problems objectionable; one simply obeys the different vietae in different orders. Even though, the inclination must remain within the above limit to avoid the formation of ondae. This means that the edges of the multi-fold panel must be straight within this tolerance, or at least one of them used for the region must be straight, while the others may be deliberately tilted in the opposite direction to avoid any conflict in this respect. Interestingly, as long as the inserts can move parallel to the longitudinal axes of the corpuscles in a parallel manner without introducing visual artifacts, as long as any inclination is within the limits, the edges drawn in the direction opposite to that of the Reference can provide elasticity in the plane of the insert to hold it in place perpendicular to the axis of the corpuscles. Otherwise, the effect of light movement in this plane is simply to change the order in which one observes the different points of view. Also, it should be understood that the different described inertia can be turned ninety and degrees and continue working even in the plane of ineert to keep it in place perpendicular to the axes of the corpuscle. Otherwise, the effect of light movement in this plane is simply to change the order in which one observes the different views. Also, it should be understood that the different ineertoe can be rotated ninety degrees and continue to work even when the arch is also ninety degrees with respect to the ineertoe shown. With respect to the maximum de-focusing and the angular alignment, the following guidelines have been used, but may alter depending on the content of the image, the relationship of the dominant area and the effect of the weather that may be tolerated as acceptable. The maximum defocus is a fraction of the width of a corpuscle and is provided by the ratio of the optical thickness, OT, of a lenticular screen to the number of interlaced images multiplied by a certain quality factor, f, which is selected based on the which is visually tolerable for a particular set of images. The permissible angular tolerance in radians is simply the ratio of the width of a corpuscle divided by its length by the product of the number of images and again by a certain quality factor. For example, if the lenticular length is four inches, with a width of 0.020, then the interlaced image and the quality factor ee 2 are extruded, then the perceptible angular inclination is 1 / 14th of a degree. Figures 11 and 12 show the operation principle of the lenticular panels used in the sevenmae of the box of the invention. Ambae figures with clues that illustrate the pathways that take certain light rays as they travel from different parts of the interlaced image used in the invention to provide the different views for a particular corpuscle design. Here, the ray traces were made for the ether fabricated corpuscle with a refractive index of 1.59, which have a radius of 0.0285 inch and an apical focal diet of 0.058 inch, ie, the diet of the frontal surface in the axis towards the optimal focus of a corpculo, here, the dotted line that represents the interlaced image. The impree information card is in fact placed behind this at a diet of 0.003 inch, in such a way as to eliminate an air gap of this size between the front surface of a card (140) and the dotted line. In Figure 11, an observer that looks horizontally along the corpuscle axis 112 observes a different segment of the whole image behind each corpuscle 112 where each segment is designated at 146. If the observer looks along the length of a line of sight that is 10 degrees to the axis, the image segments assigned to 148, which correspond to a different image, can be preserved while the 146 can not be assigned. In Figure 12, the image elements are obeyed at an angle of compliance inclined to the axis at 20 degrees, so that this may re-create another movement or a repetition of a slightly changed anterior movement. Reference is now made to Figure 13, which illustrates the parallax effect which may preertain when using the invention and the size of the lenticular surface of active images is enlarged in relation to the distance between the pupils of the eye or the viewing distance ee. correspondingly less in relation to the size of the overall image. The parallax effect occurs due to an offset of the leader ray that paes through the center of each corpuscle with respect to the corresponding image element as the angle of compliance of a corpculo increases compared to the corpculo normal. . The result is that each leading ray, if not corrected for this effect, does not stop through the correct intertwined image. The result is a weakness or a blurry appearance when switching from one view to the next or a defective separation between the two devices. The phenomenon is shown heuristically in Figure 13. In 210, the corpuscle is repreened with a given separation (the thin lens theory is applied) and 212 represents the interlaced images in the spatial frequency of the corpuscle. Here, the scripts of the images interlaced at 212 may include only one image or a different image in the designated space. For purposes of illustration, it can be assumed that they represent an image segment, but the argument applies if they represent more than one. As you can see, the corpuscle and the image are perfectly aligned just like a wall of arrows after another, and when viewed through a normal corpuscle (the corpuscle is transparent), a corresponding image element is played back. However, when viewing 212 at a certain angle different from the normal incidence, it is clear that the appropriate corresponding image segment is no longer observed. Instead, the line of sight begins to move away from the proper image element as the viewing angle increases until the proper image is lost. This gives rise to a partial rewiew of an image simultaneously, a reassessment that is usually undesirable. Figures 14 and 15 are shown in quantitative terms exactly how much the problem of "distancing" from the leader ray repre sents. In particular, put oe and y0 as the height of the ray beam leader for any corpculo as a function of the angle of obtention,?, And the vertical pointer of the intercept and an incoming ray. Then? 0 =? / N, where n is the refractive index of the lenticular material and L, is the vieualization distance. Then, y0 = y, (1 + (t / n) / L) If y allows f- = to the spatial frequency of the interlaced images, then to compensate the larger errors progressively in y0 with an increasing angle of equalization, then , f ,, the spatial frequency of the corpuscles ee provide with: f. = fß (1 + (t / nJ / L,) Thus, the parallax effect can be thought of exactly for any improved or improved calorie diet over a standardized diet, although the preferred way of correcting the effects When parallax is to increase the spatial frequency of corpuscles so that they drop progressively the center of each corpuscle downwards with an increasing angle, it should be understood that the spatial frequency of artistic work can also be adjusted or altered to face the problem of parallax. However, it is somehow easier to rework the correction in the molding tool and to use dietary impree techniques to achieve the spatial frequency of the interlaced images Figure 16 shows how can the interlaced image and the corpuscle be used to offer sets of stereophonic images, as for example paree de eetéreoe, in order that the view of the front cover of the seventh box or other display can have a stereo image. Here, the seventh is arranged in such a way that the left eye obeys a left-sided image element behind the right side of a corpuscle 112, while the right eye obeys an image element in right-sided right behind the left side of a corpuscle 112. The overall effect is to present pairs of left and right stereo images for the right and left. Here, again, the effects of parallax can be corrected in the manner described above. It should also be recognized that multiple third dimensional images are contemplated through the use of multiple interlaced stereo images. Figure 17 further illustrates the importance of proper alignment of the information content of the card with the longitudinal axes of the corpuscles used in the invention. If the longitudinal axis is taken to correspond to the horizontal axis, or, of a corpuscle, then the reference edge 181 (Figure 9) is preferably placed parallel to it to achieve an adequate alignment within the tolerances provided in Discuss them above with respect to tolerance guidelines. This would be correct if the optical axis of a corpuscle were placed vertically instead of horizontally as shown. Again, it has the advantage of angular orientation that parallels or perpendiculars, and is within the scope of the invention. Referring now to Fig. 18-21, a new compact card holder 200 will be used to properly use printed forms that are properly positioned with respect to the lens focal plane of Fig. 4 and 5. As you will see, the 200-port card holder is equipped with a A variety of flexible booms that act as elevators that flexibly push an unrealistic entry into the aligned alignment with the focal plane while still being suitable for use with conventional high-speed emery equipment. As will be seen from the illustrations, the compact disc tray 200 functions to retain an insert card flush with the posterior surface of the flat panel of the posterior wall 110 or 132 and to hold a compact disc in place. For this purpose, the tray 200 includes a circular dish section 202 with a flexible center 204. Extending over the section of the circular dish there are four sections of the raised edge 206, 208, 210 and 212, located in the four eequinae of the shelf 200 and configured to offer a contour to protect the peripheral edges of a compact die. Each raised edge section 206-212 includes raised ridges (only ee mueetran doe) as lae of 214 and 216, which are adapted to match with the retention hole of the corresponding tab portion 56-62, as shown in FIG. baee conventional conventional 22. In this way, the card holder 200 is attached and is placed in a bottom of the conventional decade. The CD is held in place by the port-dock 200 with its surface that carries the information recorded against the front surface of the circular dish 202 in such a way that it is protected against damage. To accomplish this, the user simply aligns the flexible center 204 with the circular hole 88 and then pushes the compact die 28 until it compresses the flexible fingers of the center 204 inwardly. An additional internal preemption causes flexible fingers by design to expand after certain portions release the grocer of a CD to maintain die 28 in place. The portadiecoe 200 also includes a raised platform of rectangular shape 218 which protrudes through the front cover 102 or 122 near the edge of the hinge. The platform is usually injected with indentation on the surface extending along its longitudinal direction to provide a grip that facilitates handling by the user and during manufacturing. As best seen in Figure 18, each of the sections of the raised edge (206-212) is supplied with a flexible arm deigned at 222-226, respectively. Each flexible arm (222-226) reefs in a corresponding rectangular shaped hole in a corresponding raised edge section and includes as horizontal section 230 and a section of the vertically extending tab 232 as shown generally in Figure 21 The flexible armrests are preferably structured in such a way that, when they are supported stacked one on top of the other, the flexible armrests are pushed back from the surfaces of their corresponding elevated edge section but not beyond the lower surface. of the portadiscoe 200. This allows the use of a standard eneadar equipment for high speed operation. In the middle part of the flexible center 204 another flexible arm 228 of similar construction is eminated. The arm 228 retracts similarly to the level for ease of use with the assembly equipment and is optional depending on the properties of the inserts impreeoe with what is used. Obviously, the rigid and grooved inserts would be less suitable for use than thin and flexible inserts. In any case, the arm 228 is preferably formed as an integral part of one or more of the rosettes of the intermediate flexible center 204. As best shown in Figure 21, the height of the vertical tab 232 has such measures which positively drives a print printed within the desired focal plane of the corpuscle. In practice, this would depend on the selection of the dimeneion that is suitable for the minimum thickness within the range of anticipated impreeoe inserts that will be found in the field. With respect to the angular alignment of an ineerto in the use of the portadiecoe 200, a preferred way is to measure the width of the impregnated loe according to the free space provided between its reference edges 181 (FIG. 9) and the interior surface of the lae. The sidewall of the front cover is at all times less than the permitted length of the parallelogram over the length of the interlaced and impregnated image. Therefore, this approach would depend on the fit between the side walls of the front cover and the width of a printed insert. As will be seen, there are other possibilities that can be discussed. Referring now to Figures 22-25, a new front cover 250 is shown which is characterized by aligning the impure material through the flexible tabbed tongue for both alignment with the focal plane of the lenticular panels and angular alignment. adequate between the longitudinal axes of the interlaced images and the individual corpuscles. Here, the free space between the width of the printed inserts does not need to be made because the member flexibly and inelatively polls the ineerto within the desired alignment. The front cover 250 includes a lenticular panel 252 and a pair of sidewalls not very deep and opposite 254 and 256. In the side wall 254, flexible tree tongues 258, 260 and 262 are provided which are generally parallel to the lenticular panel 252, to make sure that it is designed to be slightly below, and on the side wall 256, flexible tongue 264, 266 and 268 of similar construction also exude. Also, on the side wall 256 a pair of flexible arms 270 and 272 is provided for laterally loading an impure insert against a reference line on the side wall 254 defined by a pair of protuberances spaced apart from each other 274 and 276 against which it is seated. the reference edge 181 (Figure 9) for angular alignment. As best seen in FIGS. 26 and 27, a tab such as 268 has been placed below which a portion of impregnated metal is located as shown in FIG. 27. Because tab 268 is flexible, it holds the edge of the insert firmly against the focal plane of corpuscles and tends to flatten the central portions differently to bring them within the tolerances acceptable for focusing. If the central portion of the inserts sinks because the thin flexible inserts are anticipated, it is possible to use this scheme in combination with a flexible arm as in 228 in the center 204 of the tray 200 in Figure 18. Alternatively, a material may be used. thicker and more rigid. Figures 28 and 29 show the lateral loading action of the flexible arms 270 and 272. As will be obeyed, a slight cage 274 is provided in such a way that an ineert can not inadvertently decelerate below the arm and interrupt its loading function side. These arms could also be used together with the die-lift of the flexible lifter of Figure 18 for the alignment of the focal plane, and the approach of the die described in connection with the angular alignment in Figure 18 could alternatively be used with the approach of the flexible tab mentioned here. . It should be clear that the front cover 250 could be used, with minor modification, as an independent display case for the purpose of the invention, and the purpose which is to be found in this way. For example, the simple removal of the pivotee and the supply of a mounting hole would achieve this. Figure 30 shows how relief embossing can be used in connection with the impure inertia to offer the alignment function. As it is here, an impure 280 with four enhanced features, 282-288, is formed in the manner already known. The raised sections have dimeneionee and eethane positioned so that they fit in the space between the tongue of the corresponding front cover, which, as mentioned previously, is approximately 0.090 inch. This is best observed in the sectional view of Figure 31. Obviously, this approach to the alignment of the focal plane would work better with the same rigid print, but could be used with the central elevator of Figure 18 for greater safety. In addition, the angular alignment can, as before, be controlled by the bag or the lateral load scheme of Figure 22 can be used beneficially. Figure 32 a-e shows in sequence how a flexible lenticular panel 300 can be connected to a specially configured case or display 302 in which the interlaced image is impressed. Here, box 302 may be to contain general merchandise, cereal, audio or video tapes, for example, or may simply be used as an empty pictorial display structure in some other way. Examples would include boxes for VHS cassettes or support for CDs with several sheets where a sheet represents the content of the support. What is important is that one or more surface of this box, or any surface for this matter, has interlaced images impregnated on the same with the corresponding orifice of regietro. As best shown in Figures 33 and 34, the flexible lenticular panel 300 is supplied with four flexible staples 304-310 which are inserted into the corresponding holes 312, 314, 316 and 318. The holes and the staples have the dimensions in the plane of the surface that carries the image in such a way that the angular alignment complies with the criteria previously discussed. For a corpuscle of four inches in length, and the other coeae as in the previous example, the linear interpenetration between the longitudinal axis of the interlaced image and the corpuscle would be about 0.005 inch and up to 0.010 inch over the length of four inches, which it would also be measured with respect to the length of the interlaced image where the length of the corpculo is greatest. Eetae tolerance can be achieved by die cutting the required holes and injection molding the staples to the desired precision. As well, the length between the staples has dimensions such that there is slight interference between the outer edges of the holes and the external surface of the staple in order to force the angular alignment. However, you should be careful to ensure that the interference is not so great that it tends to bend the lenticular screen 300. Otherwise, it will not be flat against the interlaced images. In this connection, one of the staples can be reduced so that only three come into play for alignment purposes thus making the arrangement kinematic since there are no redundant forces competing in the arrangement of the alignment. In the above manner, a flexible transparent plate is injected which has a lenticular surface with a focal plane and a variety of adjacent and parallel corpuscles that may extend longitudinally. Lae grapae are positioned in the flexible transparent plate to be adjusted in the regrinding hole when the flexible tranepable plate bends and joins the flexible tranepant plate to the surface of the box that bears the image in such a way that the focal plane of the lenticular surface The image is interlaced and the preeas and the longitudinally extending axes of the interlaced image are parallel to a predetermined fraction of the width of one of the corpuscles over the length of the lenticular section to provide different information from angles different from the section. lenticular traneparent. Figure 35 shows another layout of the invention for the exhibitor of figurae deportivoe, celebridadee, singer popularee or member family and the like. Here, a display case 320 is eumined in the usual form of the invention with a lenticular panel 324. In the case 320, an elongated hole 326 is formed in the manner known per se. An impure card 322 is supplied in accordance with the specifications. of the invention and the required interlaced images 321 and the reference border have been formed thereon. The hole 326 and the printed card 322 have the dimensions according to the alignment requirements of the invention such that adjustment between them indicates that the printed card 322 resides within the depth of focus of the lenticular panel 324 and otherwise it is aligned angularly in an adequate manner. In addition to the tolerances rigidly maintained to provide tight fit between an impure insert and the support structure with respect to the lenticular panel 324, more flexible tolerances may be employed. This can be done by measuring the width in such a way as to leave a gap of the flexible width between the inert 322 and the hole 326. In this approach an edge of the inert 322 can be aligned with one side of the hole 326 to angularly align the longitudinal axis of the window. interlaced images and the corpuscles. This will be achieved by simply physically striking the display case of the edge 320 together with a border edge. Subsequently, the inefficient 322 can be fixed at this location by an ultra-sonic winding to one of the surfaces of the box 320 preferably. Alternatively, a UV-curable epoxy can be used along the open edge of the hole 326. The case 320 is preferably molded into a clam shell configuration with a movable hinge and known automatic joining features that allow both side of the Each of them adjusts to each other automatically forming the hole 326 between them at the same time. Also, it is contemplated that the outside of the box 320 may be expanded with corpuscles together with both sides of the insert 322 supplied with interlaced images so that either side of the box can project multiple or stereo images. In addition, the tolerances of the box 320 and the insert 322 are preferably adjusted in such a way that one insert 322 can be exchanged for another with different images. Reference is now made to FIGS. 36 and 37 which show an embodiment of the merchandiser in the invention which only poεes a lenticular surface. Here, the structure of the display is designed as 330 and includes a lenticular front panel 322 that does not cover all of the front surface 333 so that it exudes a surface area on the surface area 33 that may be used for other display purposes such as a logo or the commercial name of the company, or similar. Extending from the front surface 333 is a pair of opposed channels 334 and 336 to receive a printed insert that carries the interlaced images. This ineert is designated at 340 which carries the lenticular images shown at 342. As noted, the printed insert 340 also has edges 344 and 346 that fit closely in slots 334 and 336. The width between slots 334 and 336 and The width and thickness of the insert 340 have tolerances that allow it to properly align the interlaced image with respect to the lenticular panel 332. A retainer 338 is also provided to locate the implant 340 along the length outside of the channels 334 and 336. Figure 38 shows another variation of an exhibitor such as 330. Here, a display 350 with channels spaced between 352 and 354 and a retainer 356 is again provided. As before, the adjustment of an insert card with respect to channel 352 and the alignment between the corpuscle and the interlaced images is established. However, this embodiment differs from the preceding embodiments because it illustrates the principle that the lenticular slots and the interlaced images need not be parallel to the perpendicular orientation but, instead, need only be in a predetermined orientation. For example, corpuscles 358 are thirty degrees to vertical in Figure 38, corpuscles 360 are thirty-five degrees and corpuscles 362 to sixty degrees. These rotated or inclined corpuscles offer the opportunity to provide an artistic work made according to the needs and owner and lenses to differentiate the clients. Clearly, boxes or displays designed to work at forty-five degrees can "read" or "decode" loe ineertoe impreeoe designated to work at other angles such as thirty or seeenta gradoe. In addition to the orientation of the corpuscles with respect to other reference characteristics of the exhibitors, boxes and raw material, it is also contemplated, together with the lenticular orientation, that the spatial frequency of the corpuscles can be performed differently for different angular orientations with In order to offer any number of combinations. For example, the lenticular sequences of 50, 60, 72, and 75 corpuscle per inch combined with the lenticular formula of 0.15, 30, 45, 60, 75, and 90 degrees result in 28 different possible combinations. For another, and in combination, it is estimated that there are more than 100 poorable combinations. It should also be understood that it is not necessary to form sections of the lenticular wall of the invention as unitary structures integrated with the structured walls therein, since within the teaching of the invention it is indicated that the sections of the invention can be joined separately. Lenticular wall formed with another part of the wall using appropriate adhesives or other means of attachment. Furthermore, it will be understood that the lenticular structure of the invention, including the compensation of the parallax defect, can be integrated with the front, back and sidewall surfaces together with the interior surfaces, for example, also as disk carriers. In addition, it should be taken into account that the flexible elevators and the lateral arms for elasticly driving the impregnated inserts in their alignment positions with respect to the focal plane and the longitudinal axis of the corpuscles, do not need to be limited in only the configuration in jeweler's way since it is totally possible to incorporate it into the baee or lae frontalee or eimilaree tapae instead of loe portadiecoe. AdditionIt will be recognized that the corpuscle can be offset at any angle with respect to a reference line or surface since all that is required in this connection is to have the image interlaced and rotationally aligned with the longitudinal axis of the corpuscle. In this connection, printed materials do not need to be perfectly rectilinear; What is essential is that they have a geometry and a predetermined geometry as a pee. As a consequence, it is entirely within the scope of the invention to have corpuscles oriented to, digamoe, forty-five degrees with respect to one side of the case or display. Those skilled in the art can make other changes to the invention without deviating from the scope of their teachings. Therefore, it is intended that the embodiments described herein be considered as illustrative and not interpreted in a limiting sense.

Claims (39)

1. CLAIMS 1. A box seven for displaying information in the past, where this box concept includes: mediums that carry information of a predetermined geometry and geometry, all of which carry information impreeoe in an area of a variety of intertwined images and poetry. an edge that serves as a reference edge and is in a fixed angular orientation within a given tolerance with respect to the aforementioned interlaced image; a pair of paredee planae spaced from each other and opposed to poemen at least a main dimeneion; a variety of shallow side walls interconnected between the mentioned pair of flat walls spaced between it and the hole and that are substantially smaller than the aforementioned principal dimension of the aforementioned pair of flat roofs separated between the front and bottom, at least one of lae paredee of the mentioned pair of paredee planae spaced from each other and opposed by at least one transparent lenticular section optically associated with it, this transparent lenticular section has a disposition in the member of a variety of corporculoe that extend longitudinally and define in set a focal plane and poeeen a given depth of focus, eeta plurality of shallow side walls and the aforementioned pair of flat walls spaced between it and opueetae provide an interior chamber to receive the mentioned means carrying the information; means located within the aforementioned inner chamber for elastically punching the means that carry mentioned information towards an alignment piece with respect to the aforementioned tranepant lenticular effect, so that the aforementioned layered image is located within the depth The aforementioned corpuscle approach approach and the aforementioned reference edge is found in a fixed angular orientation within a predetermined fraction of the width of one of the corpuscle mentioned above over the length of the aforementioned interlaced image with respect to the aforementioned long axis of the corpuscle , in such a way that an observer of the transparent lenticular section is provided with different information when replacing the lenticular traneparent action with different angular perspectives.
2. 2. The system of the box of claim 1 wherein said lenticular section corrects the effects of parallax.
3. The seventh of the box of claim 1 wherein the means carrying said information include a matching, printed, folded, multi-panel insert, which is urged in an elastic manner against said transparent lenticular section in such a way as to remain suetancialmente flat with respect to it.
4. 4. The system of the box of claim 3 wherein the mentioned panels of the sheet with multiple fold mentioned with different lengths so that, when folded, at least one of the mentioned panels interferes with the fold formed between two others to create an arch in the aforementioned insert making it elastic.
5. 5. The seventh of the box of claim 3 wherein one of the panels of the mentioned insert, folded and with multiple panels contains the aforementioned reference edge and the edge of the other panels of the member are recessed with respect to the aforementioned reference edge so that, when bending, only the aforementioned reference edge for angular alignment props is available on one side of the aforementioned concordant inertia.
6. 6. The eietena of the box of claim 1 wherein the aforementioned box system is molded with transparent plastic and the aforementioned transparent lenticular section is integrally molded with at least one of the aforementioned opposite sides thereof.
7. 7. The seventh of the box of claim 1 with the tranepant lenticular action forming the outer surface of one of the opposite flat walls.
8. 8. A box seven to display information, where the box includes: a box of multiple sides that has at least one surface that has interlaced impresa images and that has a variety of region orifices formed in the frame. eetán placed in a predetermined relation with respect to the aforementioned variety of image interlaced; and a flexible tranepant plate that has a lenticular surface with a focal plane and a variety of adjacent parallel corpuscles that are longitudinally extended, these staples are placed on the flexible flexible plate mentioned to fit in the above mentioned registration holes when the plate The mentioned flexible tranepant is bent to join the aforementioned flexible tranepant plate to the aforementioned surface when said flexible tranepant plate relaxes so that said mentioned focal plane of said lenticular surface is placed over the impregnated interlaced images and that it is ee They extend longitudinally of the corpuscle mentioned in a fixed angular relationship, within a predetermined fraction of the width of one of the corpuscle mentioned above over the length of the aforementioned intertwined images, with respect to the interlaced images mentioned in such a way that That an observer of the aforementioned transparent lenticular section may have different information available when viewing the tranexparent lenticular section mentioned from different perspective angularee.
9. 9. The system of the box of claim 8 wherein the corpuscles mentioned are corrected for their parallax effect.
10. 10. The eietema of the box of claim 8 wherein said flexible traneparent plate is molded with plastic and the corpuscle forms at a front surface of the member while the clip is extended from a further surface of the member.
11. 11. The eietema of the box of claim 10 wherein said focal plane is located substantially on the aforementioned back surface.
12. 12. A box seven for displaying information in the future, where this box system includes: means that carry information of predetermined geometry and thickness, this means that they carry information on a surface of the members, a variety of images intertwined and edge that serves as a reference edge and is in a fixed angular orientation within a given tolerance with respect to the aforementioned interlaced images; At least one flat wall having at least one main dimension, this flat wall possesses at least one transparent lenticular section optically associated therewith, this transparent lenticular section having a plurality of longitudinally extending corpuscles in the honeycomb. approaches reside substantially together in a focal plane and possess a given depth of focus; a variety of shallow sidewalls connected to the aforesaid flat wall and having dimensions which are substantially less than the aforementioned main wall dimension of said flat wall; and means for freely supporting said information carrying means with respect to said flat wall and at least one of the shallow side walls mentioned in such a way that these media carrying information are located in an alignment position with respect to to the aforementioned transparent lenticular section, so that the aforementioned intertwined images are placed within the aforesaid depth of focus of the aforementioned corpuscle, and the aforesaid reference edge is found in the mentioned fixed angular orientation, within a predetermined fraction of the width of one of the mentioned corpuscles on the length of the aforementioned interlaced images, with respect to the mentioned longitudinal axes of the aforementioned bodies, so that an observer of the aforementioned transparent lenticular section was provided with different information when observing the transparent lenticular section mentioned above. ionadade from different perspectives and angulate.
13. The system of the box of claim 12 wherein said transparent lenticular section is corrected for the effects of parallax.
14. 14. The system of the box of claim 12 wherein said fastening means include flexible means for elastically impelling the means carrying said information in alignment with respect to the aforementioned cross-sectional lenticular action.
15. 15. The cassette system of claim 12 wherein the aforesaid means of eviction includes a pair of channel spaced apart from each other with dimeneionee with respect to geometry and predetermined thickness of the media carrying said information to provide a close fit between the same for the purpose of aligning the intertwined image mentioned with respect to the mentioned tranepant lenticular action.
16. 16. The eietema of the box of claim 12 further comprising another flat wall opposite said flat wall and in combination with the aforementioned shallow side walls defining a hole therebetween to receive media carrying information mentioned, this orifice has dimensions with respect to the aforesaid predetermined geometry and thickness of the media carrying said information to provide a close fit therebetween for purposes of aligning the images intertwined with respect to the aforementioned tranepant lenticular action.
17. 17. The eietema of the box of claim 16 wherein the mentioned flat walls include lenticular sections and the media carrying said information include interwoven and impregnated images on the openings of the frame to offer different vietae in amboe of the frame material of the box mentioned.
18. 18. The cassette system of claim 12 wherein said lenticular section includes portions having different orientation and angled with respect to the aforementioned interlaced image.
19. 19. The system of the box of claim 12 wherein said lenticular section and interlaced images of media containing information mentioned by items that are in frequency and differ in relation to other portions.
20. 20. The seventh of the box of claim 12 wherein all of the material of the aforementioned box is molded with tranepant plactic and the aforementioned corpuscles are formed at a front surface of the members.
21. 21. An item of the box to contain at least a compact disc, wherein this box system includes: a flat base comprising a first flat panel having shallow raised walls connected around the peripheral edges of the frames.; A flat front cover that includes a second flat panel which also has low elevations and is connected around the peripheral edges of the walls, the flat front cover and the aforementioned flat base are pivoted to each other to form a hinge between them. so that they can move between a closed poem in which they are adjusted between them to define an inner chamber between them to receive in a compact manner a compact dieco, at least one of the mentioned panelee planes, the first or the second, possess a transparent lattice section optically affixed with the above; With information of predetermined geometry and thickness, this information has a variety of interlaced images printed on one surface of the frame and has an edge that serves as reference border and which is within a given tolerance at a given angular orientation with respect to to the aforementioned intertwined images, these media carrying information can be inserted inside the aforementioned inner chamber to provide information when it is in a plane substantially parallel to at least one of the aforementioned flat panels, the first or the second, and the registration optical with the mentioned transparent lenticular section thereof; and means located within said inner chamber for elastically driving the media carrying said information to a position of alignment with respect to said transparent lenticular section, such that the aforementioned interlaced images are located within said depth of The focus of the corpuscles and the aforementioned reference edge is found in a fixed angular orientation within a predetermined fraction of the width of one of the mentioned corpuscles over the length of the interlaced images mentioned with respect to the aforementioned longitudinal axes of the corpuscle. Such a way that an observer of the transparent lenticular section is provided with different information when replacing the lenticular traneparent action of different angles.
22. 22. The system of the box of claim 21 further including a dish for eoetener a compact die within the aforementioned inner chamber, this dish and base plate include complementary shaped means for a right fit between, this dish includes flexible eeccionee for Impulse in an elastic way the media that carry information in alignment with the mentioned focal plane.
23. 23. The seventh of the box of claim 21 wherein the said shallow walls of the aforesaid front cover include flexible staples to hold the information carrying means and urge them in an elastic manner in alignment with said focal plane.
24. 24. The system of the box of claim 21 wherein one of said shallow walls of said front cover includes a pair of reference protuberances to define a reference line therebetween and a shallow wall opposite opposite includes arms flexible to elastically impute the reference edge of the medium carrying said information against the aforementioned reference line to angularly align the image intertwined with respect to the mentioned longitudinal axis of the mentioned corpuscles.
25. 25. The eietema of the box of claim 21 wherein the above mentioned angularee are angularly spaced apart along a vertical plane when the mentioned corpculocules of the mentioned tranepant lenticular section are oriented in a horizontal plane.
26. 26. The system of the box of claim 21 wherein said transparent lenticular section is corrected for parallax effects.
27. 27. The system of the box of claim 21 wherein said means carrying the information carry at least one even image in ethereal and said aforementioned transparent lenticular section operates to provide stereo pairs to an observer that looks along the length of the in the direction of a lenticular section mentioned.
28. 28. An ineert that carries information to be used in a herd box that has a flat lenticular surface to offer different observation behaviors across different angles., this ineerto includes a concordant sheet, with multiple panelee, bent in such a way that the mentioned insert has a curve shape when it is placed independently and exerts reaction forces when it is placed in a compressed manner so it tends to flatten when placed under normal loads in its main plane, one of the surfaces of one of the panels of the insert bearing said information has a variety of interlaced images imprinted on the frame and has a reference edge for rotatingly locating the aforementioned with respect to the longitudinal axes of the corpuscles.
29. 29. The insert bearing information of claim 28 wherein the panels of the sheet with multiple folds have different lengths such that, upon bending, at least one of the aforementioned panels interferes with the fold formed between the other sides to create a arch in the mentioned ineerto making it elastic.
30. 30. The insert bearing information of claim 28 which further includes engraved and embossed in order to establish the aforementioned groeder so that it can fit closely in the aforementioned box against the plane containing the site of the corpuscle approaches.
31. 31. A model of the box to be used with mediums that carry information of a predetermined geometry and thickness to present old information, where the media carrying information have impreeoe on a surface of the image a variety of intertwined images, an edge that serves as reference edge and a given angular orientation within a given tolerance with respect to the interlaced images, and this box concept includes: a box system for displaying information, where this box concept includes: media that carry information of a geometry and the default setting, the media that carry information are printed on a surface of the theme and a variety of interlaced images and have an edge that serves as a reference edge and is in an orientation. fixed angle within a given tolerance with respect to the aforementioned intertwined images; At least one flat wall having at least one main dimension, this flat wall at least has a transparent lenticular section optically associated with the honeycomb, this tranepant lenticular action has a rod in the honeycomb, a variety of corpuscles extending longitudinally. focuses reside in a spatially overall set in a focal plane and poeeen a given depth of focus; a variety of paretera lateralee shallowly connected to the above mentioned flat wall and that dimensions are usually in order to enrage the aforementioned principal wall dimeneion mentioned; and means for freely accepting the means that carry information mentioned with respect to the mentioned flat wall and at least one of the shallow side walls mentioned so that these information carrying means are located in a position of alignment with respect to the said wall. to the mentioned tranepant lenticular action, so that the aforementioned interlaced images are placed within the aforesaid depth of focus of the aforementioned corpuscle, and the aforementioned reference edge is found in the mentioned fixed angular orientation, within a predetermined fraction of the width of One of the corpuscle mentioned above is the length of the interlaced and mentioned image, with respect to the aforementioned longitudinal axis of the aforementioned corpuscles, so that an observer of the aforementioned transparent lenticular section is provided with different information when observing the transparent lenticular section mentioned above. ionada from different angular perspectives.
32. 32. The seventh of the box of claim 31 wherein said transparent lenticular section is corrected for the effects of parallax.
33. 33. The seventh of the box of claim 31 wherein the aforesaid means of eviction includes flexible means to elastically impute the media carrying information mentioned in alignment with the aforementioned tranexparent lenticular action.
34. 34. The eietema of the box of claim 31 wherein the aforesaid means of eviction includes a pair of sections of the channel spaced apart from each other with dimeneionee with respect to the predetermined geometry and thickness of the media carrying said information to provide a close fit between the same for the purpose of aligning the interlaced images mentioned with respect to the aforementioned transparent lenticular section.
35. 35. The seventh of the box of claim 31 which further includes, another flat wall opue to the aforesaid flat wall and in combination with the shallow side wall mentioned that define a hole between the members to receive the means carrying information mentioned, this orifice has dimensions with respect to the aforesaid predetermined geometry and thickness of the media carrying said information to provide a narrow tab between them for the purpose of aligning the interlaced image with respect to the mentioned tranepant lenticular action.
36. 36. The system of the box of claim 35 wherein the aforementioned flat elements include lenticular sections and the means carrying said information include interlaced images printed on the opposite surfaces thereof to offer different views on both sides of the box's seventh side. mentioned.
37. 37. The eietema of the box of claim 31 wherein the aforementioned lenticular section includes portions having different orientation and angled with respect to the aforementioned interlaced images.
38. 38. The seventh of the box of claim 31 where the aforementioned lenticular action and the image is intertwined from the media carrying information mentioned by items that are in spaced frequency and different from other portions.
39. 39. The seventh of the box of claim 31 wherein all the walls of the seventh of the aforementioned box are molded with tranepant plastics and the corpuloecles mentioned are formed on a front surface of the member.