This invention relates generally to cases for laptops and other mobile computing devices and, in particular, to a case having an integral tilt stand.
This invention is directed to a protective sleeve and carrying case for a laptop or tablet which converts into an adjustable lapdesk or podium-like stand. This raises the height of the computer screen closer to the eye level of the user for a more natural viewing angle when working mobile such as in airports or on a desktop. The invention decreases the amount of neck bending when looking down to a laptop screen, thereby providing a better angle for multiple work situations, including webcam viewing.
A computer case according to the invention comprises opposing top and bottom panels with inner and outer surfaces forming an enclosure with front, rear and opposing side edges. The edges of the top and bottom panels may be curved or angled toward one another such that the panels form a clamshell-type case, with one or more zippers along the side and rear edges of the case. A carrying handle may extend from the rear edge(s).
The front edges of the panels are hinged, enabling a user to open and close the case so as to gain access to an interior of the case, which is configured to receive the computer. The case includes a fold-out support member having a first portion hinged to the inner surface of the top panel. A structure on the inner surface of the bottom panel is configured to receive the second portion of the support member, such that when the second portion of the support member is received by the structure, the top and bottom panels are in a partially open condition forming an angle with respect to one another. As such, with the outer surface of the bottom panel positioned on a support surface, the outer surface of the top panel is adapted to receive the computer for use at the angle relative to the support surface.
In the preferred embodiment, the structure on the inner surface of the bottom panel includes different regions to receive the second portion of the support member so as to establish different angles between the top and bottom panels. The angle between the top and bottom panels may be adjustable between 15 to 45 degrees or, more preferably, between 25 to 35 degrees. The outer surface of the top panel may include a non-skid surface, and the case may further include a computer-retaining lip proximate to the front edge of the outer surface of the top panel.
The support member preferably folds out toward the rear portion of the case, and support member is preferably a rigid or semi-rigid panel. The second portion of the support member may include a plurality of feet, with the structure on the inner surface of the bottom panel being configured to receive the feet. In the preferred embodiment, the bottom panel is formed such that the structure on the inner surface of the bottom panel is reproduced on the outer surface of the bottom panel. Thus, the bottom panel may be molded to form the structure on the inner surface thereof.
Now making reference to the accompanying drawing,
The case may be constructed of any durable, formable materials, including molded plastics, stamped metal, etc. In preferred embodiments, the case is constructed from ethylene-vinyl acetate (EVA) molded foam, and preferably includes relief patterns to provide decoration and/or strength. For example, the top and/or bottom of the case may include raised structures such as 112. Computer support surface 108 may be realized with a rigid or semi-rigid panel, either integrally molded or affixed to the top surface of the case. The inner and/or outer surfaces of the case itself may be smooth or textured. The front edges of the top and bottom portions of the case are hinged with a flexible material, with one or two zippers being used for a peripheral closure.
It should be understood that the invention is not limited in terms of the computer accommodated by the case, which may come from any manufacturer and in any size (i.e., 12″, 14″, 16″ and so forth). Further, while the invention is intended for laptop or notebook computers of the type which include a hinged, clamshell configuration, the case may also be used with pad-type units or any mobile computing device.
Removal of the computer better reveals internal structures facilitating tilt functionality. In particular, the inside of the top of the case includes a fold-out pivoting leg structure 206 with opposing side “feet” 208, 210.
The fold-out leg structure 206 and hinges are preferably molded plastic parts, though other lightweight rigid or semi-rigid materials may be used such as metal, wood, carbon fiber, etc. In the preferred embodiments, the foot-retaining structure does not required additional parts; rather, the molding of the bottom of the case serves the multiple purposes of decoration, strength, anti-slip, and foot-receiving regions.
While the drawings show a preferred fold-out leg structure 206 and foot-retaining features 212, the invention is by no means limited to these particular designs. The fold-out leg structure 206 may have more or fewer feet, and foot-retaining structure 212 may assume a different physical configuration. Thus, while the fold-out leg structure is depicted as being an open member with two “feet,” the structure may be a solid panel with a generally straight bottom edge retained by elongated ridges the bottom panel, or the bottom portion of the fold-out structure may have more than two “feet” retained by multiple recesses in the bottom panel.
Indeed, it may be possible to reverse the positions of the fold-out and retaining structures. Overall, the invention anticipates and structure internal to the case that enables the top and bottom of the case to be maintained at an angle as described herein, more preferably at an adjustable angle. Thus, a purely frictional leg positioning, hook-and-loop surfaces, or any other arrangement or mechanism may be used that provides for temporary angular adjustment of the top and bottom portions of the case.
Any device, surface or mechanism may be used to keep the computer from sliding down on the top surface when the computer is in position for use on the tilted top surface of the case. The preferred embodiment incorporates a flip-up lip structure. As shown in
Lip 402 is preferably a plastic part having a relatively short width positioned in the lower portion of the top of the case. However, the lip may be wider, up to the entire width of the case or, alternatively, multiple fold-up lips may be used. Regardless, whatever the retaining structure, the outer surface of the top of the case (i.e., the surface of 108), may include a non-skid surface to assist with secure positioning of the computer 102). While the lip 402 may be spring-biased outwardly, in preferred embodiments the lip is implemented with a simple hinged ledge that snaps into position when not in use.
This application claims priority to and the benefit of U.S. Provisional Patent Application Ser. No. 63/163,147, filed Mar. 19, 2021, the entire content of which is incorporated herein by reference.
Number | Date | Country | |
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63163147 | Mar 2021 | US |