Patent Application
20160070301
The present invention relates to cases for tablet computers and, in particular, to cases with lenticular lenses for stereoscopic viewing. The present invention also relates to cases for gaming devices, entertainment devices, web browsers, e-readers, smartphones, and automobile, boat and airplane decks and panels, and to any existing or future slate-type devices.
Lenticular lenses enable specially prepared content to be viewed in stereoscopic 3D, without use of special glasses. Such lenses may be embossed on printed material, and may be overlaid on viewing screens.
When used as overlays on a device viewing screen, lenticular lenslets must be in near-perfect alignment with the screen pixels and sub-pixels; otherwise, distortions are introduced into the 3D content. This requirement is a major technical problem for lenticular lenses that are removable overlays, as these lenses must be repeatedly placed over the screen with near-perfect alignment.
Further, when used as overlays on a device viewing screen, lenticular lenses must have even and tight retention over the screen so that there is not air gap between the lens and the screen; otherwise refraction of light through the air gap introduces distortions into the 3D content. This requirement is another major technical problem for lenticular lenses that are removable overlays.
Aspects of the present invention solve the above technical problems with removable lenticular lens overlays, by providing a lenticular lens case for a tablet computer that mechanically aligns and retains the lenticular lens over the screen of the tablet computer, within an accuracy of 0.01 mm, and eliminates an air gap between the lens and the screen.
The lenticular lens case is durable, and makes it easy for a user to accurately attach and remove the lenticular lens.
There is thus provided in accordance with an embodiment of the present invention a lenticular lens case assembly for a tablet computer, including first and second base plates that open to enable insertion of a tablet computer, and that close to firmly lock the tablet computer into place, first and second end caps connected to the first and second base plates, including tracks for sliding a frame inwards and outwards, and a lens frame for holding a lenticular lens, including extruding pins that slide along the tracks, such that when the pins reach the end of the tracks, the lens frame can be flipped approximately 180° over the base plates so as to tightly overlay a screen of the tablet computer, when the tablet computer is firmly locked in the base plates.
The present invention will be more fully understood and appreciated from the following detailed description, taken in conjunction with the drawings in which:
For reference to the figures, the following index of elements and their numerals is provided. Similarly numbered elements represent elements of the same type, but they need not be identical elements.
Aspects of the present invention relate to a lenticular lens case for a tablet computer that mechanically aligns and retains a lenticular lens array over the screen of the tablet computer, within an accuracy of 0.01 mm, and eliminates an air gap between the lens and the screen. The lenticular lens case is durable, and makes it easy for a user to accurately attach and remove the lenticular lens array.
Reference is made to
Case 100 includes two base plates 300 and 400, referred to herein respectively as base plate A and base plate B. Base plates A and B are connected to respective end caps 500 and 600, referred to herein respectively as end cap A and end cap B.
A tablet computer (shown in
When the tablet computer is locked into place it maintains the tablet securely, and enables access to the tablet's hardware device controls and interfaces. Inter alia, as shown in
Assembly 100 includes a lens frame 700, for holding a lenticular lens array (shown in
The pixel and sub-pixel structure is analyzed and based on the results, the lenslet width is determined. In the case of an IPAD®, the lenslets are attached to the screen at a 15° angle. As such, the lenslets do not cover each pixel completely, and a pattern like RGB, GBR, BRG, follows a lenslet.
Assembly 100 includes a cover 200, preferably made of a flexible protective material such as leather, which protectively covers the tablet computer. When flipped over the casing to the back of the tablet computer, cover 200 serves as a stand for supporting the tablet computer in a raised position. When used as a stand, cover 200 is in the correct landscape position for using a camera of the tablet computer, and allows for various viewing angles. Rubber grips 310 on base plate A provide grip support for the base plates when the tablet computer is standing in the raised position.
When lens frame is overlaid on the screen of the tablet computer, the lenticular lens is retained tightly over the screen, without an air gap between the lens and the screen. As such, if the screen of the tablet computer is touch-sensitive, then the lenticular lens array supports touch-through sensitivity; i.e., a tap or swipe at a location on the lenticular lens array is detected as a tap or swipe at the corresponding location on the screen of the tablet computer.
Reference is made to
Base plate A includes an indent 340 for holding corresponding registration tabs of lens frame 700, to secure lens frame 700 securely in proper alignment when lens frame is overlaid on the screen of the tablet computer. Base plate A includes a grip spaces 370, which are openings in the mold of the base plate into which rubber grips 310 are inserted. Base plate also includes a male boss 380 that fits into a corresponding indent dimple of end cap A, to avoid slippage of the end cap. Similarly, base plate B includes a male boss 480 that fits into a corresponding indent dimple of end cap B, to avoid slippage of the end cap.
Base plate B leaves an open edge space, for storage of lens frame 700 when the lenticular lens array is not in use, as shown below in
Reference is made to
End cap A includes a track 530, and end cap B includes a corresponding track 630. Pins of lens frame 700 slide along tracks 530 and 630 to enable lens frame to move inwards and outwards of case 100. End cap A includes an indent dimple 580 for holding male boss 380 of base plate A, and thereby align base plate A with end cap A. Similarly, end cap B includes an indent dimple 680 for holding male boss 480 of base plate B, and thereby align base plate B with end cap B. End cap A includes a perforation 540, so as to avoid obstructing sound generated by an audio speaker in the tablet computer.
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It will thus be appreciated by those skilled in the art that the lenticular lens case for a tablet computer described above overcomes the technical problems of alignment and retention explained above, and provides many other advantages. In particular:
It will be appreciated by those skilled in the art that the present invention has broad application to lenticular lens cases for many devices, in addition to tablet computers. Such devices include inter alia gaming devices, entertainment devices, web browsers, e-readers, mobile phones, and automobile, boat and airplane decks and panels.
In the foregoing specification, the invention has been described with reference to specific exemplary embodiments thereof. It will, however, be evident that various modifications and changes may be made to the specific exemplary embodiments without departing from the broader spirit and scope of the invention as set forth in the appended claims. Accordingly, the specification and drawings are to be regarded in an illustrative rather than a restrictive sense.
