School and office products, such as filers, notebooks, folders, portfolios, pockets and the like are often utilized to store papers and other loose items. In many cases, it is desired to prop the device up for ease of use, access and/or display.
The present invention is directed to a device with a stand that can be used to prop the device up for ease of use, access and/or display. More particularly, in one embodiment the invention is a device with a retractable stand including a device body and a stand panel slidably coupled to the device body. The stand panel is slidably movable between a retracted configuration, wherein the stand panel is generally flat and planar, and an extended configuration wherein the stand panel is not generally flat and planar. When said stand panel is in the extended configuration the stand panel forms a stand to support the device body in an upright position.
With reference to
The illustrated filer 10 includes a pair of opposed side panels 20 extending between and coupled to the front 14 and back 16 panels. The front panel 14, back panel 16, bottom panel 18 and side panels 20 define a storage cavity 22 therebetween, and a plurality of dividers 24 may be positioned in the storage cavity 22 to aid in filing and organization of items stored therein. In the illustrated embodiment, the side panels 20 are made of an expandable/collapsible accordion-style material, which can allow some expansion/collapsing of the storage cavity 22, although the side panels 20 can also be made of non-expandable material if desired.
The filer 10/device body 12 may include a width w shown in
In one embodiment, the device 10 includes a pair of stand panels 26 coupled to the device body 12, and more particularly to an outer panel (the front 14 and/or back panels 16 in the illustrated embodiment). As best shown in
Each stand panel 26 may also include a pair of fold lines or crease lines 34, which can be pre-folded areas of the stand panel 26, or areas/lines of weakness along which the stand panel 26 is pre-disposed to bend when bending forces are applied. In the illustrated embodiment, the stand panel 26 includes a pair of opposed, converging fold lines 34 (with respect to a direction toward a bottom of the stand panel 26), wherein each fold line 34 intersects, in one case, the associated outer edge of the stand panel 26 at an upper end thereof. The fold lines 34 (or an extension thereof) may converge and meet near, but be spaced away from, a bottom edge of the stand panel 26.
Each stand panel 26 can include an upper handle opening 35 and a lower grip opening 36 formed therethrough. Each stand panel 26 may also include a locking flap 38 defined by a generally arcuate cut or slit in the stand panel 26. Each stand panel 26 can take the form of a generally flat, planar component (at least when no external forces are applied thereto and/or when in its retracted position), and can be made of a variety of materials, such as polymers (including plastic), cardboard, polymer-coated cardboard, fabric-covered cardboard or polymer, etc.
The outer panel of the device body 12 (i.e. the front 14 and/or back 16 panels in the illustrated embodiment) can include a pair of generally parallel primary slits or cutouts 40 formed therein and extending laterally thereacross defining a band 42 therebetween. The outer panel 14/16 may also include a pair of guide slits or cutouts 46 formed therein, wherein the slits 46 converge towards each other as they approach the lower edge of the device body 12. Each slit 46 may be generally parallel with an associated fold line 34 in the stand panel 26 when the stand panel 26 is in the retracted position as shown in
With reference to
As the stand panel 26 is slid from its retracted position to its extended position, the protrusions 28 cooperate with the slits 46 (during the entire sliding motion) to guide the sliding motion and cause the stand panel 26 to bow outwardly in a direction generally perpendicular to the outer panel 14/16. In particular, as the stand panel 26 is slid to its extended position, the slits 46 apply an inwardly-directed force to the notches 30 of the stand panel 26 positioned below the protrusions 28, due to the narrowing width presented by the converging slit 46. The inwardly-directed force causes the stand panel 26 to bow outwardly along the fold lines 34. The stand panel 26 thereby forms a generally “ramp” shape protrusion 50 as shown in
In one embodiment, the lower edge 52 of each protrusion 50 is aligned with the lower edge of the stand body 12/bottom panel 18/outer panel 14, 16 and extends, in a direction perpendicular to the outer panel 14/16, a distance equal to at least about one-quarter of the width w of the device body 12, or in another case, at least about one-half of the width w, and in another case, at least about equal to the width w, to provide sufficient support to the device 10. Conversely, when the stand panel 26 is moved to its upper or retracted position, the lower edge or lower surface 52 of the stand panel 26 may be positioned above the bottom panel 18/lower surface of the device body 12, and may extend, in a direction perpendicular to the outer panel 14/16, a distance less than about one-quarter of the width w of the device body 12, or in another case less than about one tenth of the width w of the device body 12 (i.e. in an amount equal to the thickness of the stand panel 26 in one case). Moreover, the stand panel 26 may extend, in the direction perpendicular to the outer panel 14/16, at least about 5 times or at least about 10 times more when the stand panel 26 is its extended position compared to when the stand panel 26 is in its retracted position.
Each of the fold lines 34 may form an angle (i.e. non perpendicular and non-parallel angle) with the sliding direction D, as may the slits 46. As noted above, the fold lines 34 and slits 46 may be generally parallel such that the bending forces applied to the notch 30 are evenly transmitted to the fold lines 34 to cause the stand panel 26 to bulge outwardly and form the protrusion shape 50 outlined above. Each fold line 34 at least partially defines an adjacent outer flap portion 54, and the stand panel 26 is foldable about the fold lines 34 such that each flap portion 54 forms an angle (i.e. non perpendicular and non-parallel angle) with a main portion of the stand panel 26 when the stand panel 26 is in its extended position. Each flap portion 54 may also be positioned at an angle (i.e. non perpendicular and non-parallel angle) relative to the outer panel 14/16 when the stand panel 26 is in its extended position, and be generally parallel with the outer panel 14/16 when the stand panel 26 is in its retracted position. However, in one case, the stand panel 26 may lack the fold lines 34, and the stand panel 26 may be made of sufficiently flexible material that the stand panel 26 naturally bulges/deforms to form the protrusion shape 50 when the stand panel 26 is moved to its lower/extended position.
When the stand panel 26 is in its extended position, the retaining flap 38 can be positioned in front of the band 42 (see
When it is desired to return the stand panel 26 to its upper or retracted position, the retaining flap 38 (if utilized) is positioned behind the band 42, and the stand panel 26 is moved upwardly utilizing, if desired, the hand opening 35 and/or grip opening 36. The sliding interaction between the slots 46 and protrusions 28 causes the stand panel 26 to return to its planar position, as urged by its material properties (e.g. a natural inclination to return to a flat shape) and/or the slot 46/protrusion 28 configuration.
The illustrated embodiment shows the filer 10 with a stand panel 26 coupled to either side 14, 16 thereof. However, in one embodiment, only a single stand panel 26 can be coupled to the filer 10. Moreover, in the illustrated embodiment the stand panel 26 includes a pair of opposed protrusions 28, each of which is received in a corresponding slit 46. However, it may also be possible to utilize only a single protrusion 28 which slides within a single slit 46 to cause the stand panel 26 to move to its extended position. In addition, the disclosed position of the protrusions 28 and slits 46 may be reversed. In particular, one or more protrusions 28 can be positioned on the device body 12/outer panel 14/16, and one or more slits 46 can be positioned on the stand body 26.
If desired, certain areas of the outer panel 14/16 adjacent to the slits 46 can be reinforced. For example, in one case a reinforcing material (not shown) is coupled to an inner surface of the outer panel 14/16 to strengthen areas of the outer panel 14/16 surrounding the slits 46.
Thus, the device 10 disclosed herein can utilize the sliding stand panels 26 which are relatively easy to manufacture and assemble, are easy and intuitive to operate, and provide a stabilizing feature when deployed without any buttons, snaps, hook-and-loop fastening material or other mechanical components in one embodiment.
Having described the invention in detail and by reference to the various embodiments, it should be understood that modifications and variations thereof are possible without departing from the scope of the claims of the present application.
This application claims priority to U.S. Provisional Patent Application Ser. No. 61/863,570, filed on Aug. 8, 2013 and entitled DEVICE WITH SLIDABLE RETRACTABLE STAND, the entire contents of which are hereby incorporated by reference. The present invention is directed to a device with retractable stand, and more particularly, to a device with a stand apparatus which can support the device in an upright position.
Number | Date | Country | |
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61863570 | Aug 2013 | US |