Backpacks are widely used by students and other wearers/users to store books, school supplies, travel supplies, etc. Such backpacks may include a pair of straps that extend over a wearer's shoulders when the backpack is worn. However, existing backpack configurations can cause discomfort and/or fatigue, particularly when the backpack is used to store bulky and/or heavy items.
In one embodiment, the present invention is a backpack including a backpack body having an inner cavity therein. The backpack body includes a releasable closure configured to provide access to the inner cavity and a back surface configured to be positioned adjacent a back of a wearer when the backpack is worn. The backpack further includes a shoulder strap assembly coupled to the backpack body and configured to be positioned about a shoulder of the wearer when the backpack is worn. The shoulder strap assembly is coupled to an upper portion of the backpack body only at an attachment location that is located on an opposite side of the releasable closure relative to the back surface.
The terms “front” and “back,” are used herein in relation to a backpack such that the region or face that is nearest the back of the wearer, when the backpack is worn, is referred to as the “back.” The region or face of the backpack that faces away from the wearer when the backpack is worn, and that usually faces toward a customer during display of the backpack for sale in a store, and which may carry a logo, is referred to as the “front.” The back may be flatter, more planar, and more uniform in appearance than the front, and the front may have or carry zippers, fasteners, openings/slits or other devices for providing access to a main cavity of the backpack.
With reference to
In the illustrated embodiment the backpack 10 is generally shaped as a rectangular prism with six generally well defined sides/surfaces. However, it should be understood that the backpack 10 may not necessarily have well defined surfaces or panels, and could instead have a more undefined, unstructured shape. In this case, however, the backpack can still be considered to have at least a back surface 16, positioned adjacent a wearer's back when the backpack 10 is worn, and a generally opposed front surface 50 not positioned adjacent a wearer's back.
The backpack 10 may include a shoulder strap assembly 25 including pair of shoulder straps 20 coupled to the body 12. Each shoulder strap 20 can extend from a top portion of the body 12/front panel 50 (e.g., in one case, the upper half of the body 12) to a position at or adjacent to the bottom of the body 12/back panel 16 (e.g. in one case the lower half of the body 12). In this manner each shoulder strap 20 forms a loop which can receive the wearer's arms therethrough. Alternately, if desired, rather than using two shoulder straps 20, the shoulder strap assembly 25 may include only a single shoulder strap 20 to provide a backpack 10 also known as a “sling.”
The lower end 20′ of each shoulder strap 20 may be made of a different material or may have a different shape (for instance, a narrower strap, or an unpadded strap) than the rest of shoulder strap 20, although if desired the shoulder strap 20 can have a relatively uniform size, shape and material along its length. Each shoulder strap 20 may include an adjustment mechanism, such as a buckle 23 or the like, such that the length of each strap 20 can be customized to fit different sized wearers, and accommodate different load weights.
The backpack 10 may include a releasable fastener/closure or a closable access opening 24 extending around the body 12 such that when the releasable closure 24 is opened, access is thereby provided to the major storage compartment 14. The releasable closure 24 can, in one embodiment, extend generally vertically (when the backpack 10 is worn) from one side panel 18, horizontally across the top panel 19, and vertically across the other side panel 18, to provide ease of use and full access to the storage compartment 14. The releasable closure 24 can take any of a variety of forms, including a zipper, a slide fastener, hook-and-loop fastening material (i.e. VELCRO®), snaps, magnets or the like. Although the backpack 10 may include a variety of storage compartments and releasable closures, in one case the inner cavity 14 has the greatest storage capacity of any pocket/compartment in the backpack 10 by volume, and/or the releasable closure 24 has the greatest length of any releasable closure of the backpack 10. The backpack 10 may include one or more outer pockets, such as a mesh pocket 70 (
The backpack 10 may include a carrying handle 22 (see
In the embodiment illustrated in
The straps 20 may be configured such that they are the only shoulder straps 20 of the backpack 10, and the backpack 10 lacks any other shoulder straps configured to fit around the shoulders of a wearer. The backpack 10 may lack any straps and/or shoulder straps directly coupled to the back panel 16, and lack any straps and/or shoulder straps coupled to the backpack 10 at any position in the inner half of the thickness of the body 12, particularly in the upper half thereof. In addition, the shoulder straps 20 may be configured to bear the entirely of the weight of the backpack 10 when the backpack 10 is worn (except possibly for frictional forces between a wearer's back and the back panel 16) or being donned or doffed, and configured that the entire shoulder strap 20 load is applied to the front panel 50 or front portions of the backpack 10, and none of the shoulder strap 20 load is directly applied to the back panel 16 or back portions of the backpack 10. In one case each shoulder strap 20 is coupled to the upper portion of the body 12 at no more one attachment location.
The positioning of the upper portion of the strap 20 as disclosed herein helps to ensure that pulling/tension loads, during wearing of the backpack 10, are largely or entirely applied to the front surface/front panel 50 of the backpack 10. This arrangement pulls the full weight of the backpack 10 up against the wearer's back, moving the weight closer to the wearer's center of gravity where it is more easily borne and less likely to cause imbalance. In addition, this arrangement distributes the load more evenly across the wearer's back. In particular, the shoulder strap arrangement disclosed herein enables the backpack's load to be automatically pressed or constrained more evenly against the entirety of the wearer's back. In contrast, if the upper portions of the straps 20 were to be attached to the back panel 16, or in the back portion of the backpack, such backpacks tend to adopt a curved or “C” like shape in side view, moving away from the middle of the wearer's back and causing most of the weight to be carried on the hips or lower back of the wearer. Moreover, in many cases in such conventional backpacks the load becomes cantilevered away from the wearer's back causing additional stress and discomfort to the wearer.
Each strap 20 can be made of a relatively flexible/pliable material, and coupled to the body 12 at only a single location, such that the straps 20 are pivotally attached at the upper attachment locations 20A and can be freely pivoted about the side panels 18 and generally be positioned on the front side of the backpack 10, as can be seen in
As shown in the embodiment of
As illustrated in
From the position 28, the releasable closure 24 has a second portion 24b that extends generally upwardly and inwardly towards the back panel 16 to an intermediate position 30 generally adjacent to the back panel 16 and/or one of the shoulder straps 20. The releasable closure 24 has a third portion 24c that extends upwardly and over the top of the body 12 at a distance generally uniformly spaced from the back panel 16 to the opposite side 18 of the body 12. The releasable closure 24 then may continue on the opposite side 18 in the same pattern, or in a symmetrical or mirror image pattern, to that shown in
In this manner, the releasable closure 24 has a generally “S”-shape (or “reverse S” shape) in end view on both sides 18 of the body 12. Alternately, one or both sides of the releasable closure 24 may have a different shape than that shown in
The serpentine shape of the releasable closure 24 allows for easy side access to the major storage compartment 14. In particular, when the releasable closure 24 is unfastened from the end location 26 to the intermediate position 30, a generally triangular side flap 32 is defined in the body 12. The side flap 32 can be pulled away from the rest of the body 12 to provide a side access opening. In this manner, access is provided to the major storage compartment 14 by only partially releasing/opening the releasable closure 24. Moreover, the “S”-shape of the releasable closure 24 provides the side flap 32 which can be pivoted/folded away from the body 12 to define an opening. This can be contrasted with a simple “slit” opening provided by a linear releasable closure which does not provide the side flap or associated access and visibility.
When full access is desired to the major storage compartment 14, the releasable closure 24 can be completely opened, thereby allowing access to the major storage 14 compartment via the top of the body 12/backpack 10. Thus, the releasable closure 24 provides the option of side access to the major storage compartment 14 on either side 18 of the body 12/backpack 10, and also provides the option of full/top-access to the major storage compartment 14.
The releasable closure 24 in the embodiment of
The releasable closure 24 on the side panel 18 may form a substantially, but not entirely, closed loop to prevent the side flap 32 from being completely separated from the backpack 10. Although only a single side flap 32 is visible in
As shown in
The upper 20A and lower 20B attachment points can be varied as desired. For example,
Instead of being located exactly at the junction of the back panel 16 and bottom panel 17 as shown in
As shown in
As shown in
In one embodiment the lower attachment points 20B are positioned in the rear half of the width of the XO of the backpack 10, and entirely spaced away from the front panel 50. This connection location helps to provide symmetry and stability to the backpack 10, particularly when the upper attachment point 20A is positioned in the front half of the width of the backpack 10. In addition, in one embodiment each shoulder strap 20 is attached to the backpack 10, at the bottom half thereof, at only a single attachment point 20B, and the backpack 10 lacks any other straps or strap portions that extend between the shoulder strap 20 and the bottom half of body 12 of the backpack. In addition in one embodiment the backpack 10 lacks any straps that are coupled to lower half of the front panel 50 and/or that extend along or over the bottom panel(s) 17.
As outlined above, the shoulder strap attachment points 20A, 20B having the configuration/arrangement outlined above can be configured to pull the backpack load closer to the wearer's back, automatically compensating for different sized wearers and/or load weights. Each shoulder strap 20 may include an adjustment mechanism, such as a buckle 23 or the like, so that the length of each strap 20 can be customized to fit different sized wearers, and accommodate different load weights. The use of an adjustable length strap 20 can help to ensure that the weight-distribution benefits outlined above are fully realized, as an ill-fitting backpack 10 may not be able to fully provide such benefits to all wearers.
Having described the invention in detail and by reference to the various embodiments, it will be apparent that modifications and variations thereof are possible without departing from the scope of the invention.
This application claims priority to U.S. Provisional Patent Application Ser. No. 61/510,976 filed on Jul. 22, 2011 and U.S. Provisional Patent Application Ser. No. 61/638,787, filed on Apr. 26, 2012. The entire contents of both these application are incorporated herein by reference.
Number | Date | Country | |
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61510976 | Jul 2011 | US | |
61638787 | Apr 2012 | US |