Binding mechanisms can be used to bind loose leaf papers and the like to pockets, notebook, portfolios, binders, etc. One type of binding mechanism takes the form of relatively thin, deflectable metal prongs which can extend through the hole of the sheet item, and then be bent or deflected to retain the sheet item in place. However, the metal prongs can fatigue with repeated use, causing them to weaken or break off. In addition, such prong-style binding mechanisms typically hold the bound sheets tight to the underlying cover, and therefore the sheets do not lie flat when folded back over the binding mechanism, which makes it difficult to view underlying sheets. Finally, the metal prongs can be relatively short, thereby limiting the capacity of the associated binding device.
In one embodiment the present invention is a binding mechanism including a body portion having a flange opening extending therethrough. The body portion further includes or at least partially defines a body portion opening positioned adjacent a base end of the flange. The binding mechanism has a manually deflectable flange coupled to the body portion. At least part of the flange is insertable through the flange opening from a first side of the body portion to at least partially form a loop on the first side of the body portion. The at least part of the flange is alternatively insertable through the flange opening from a second side of the body portion opposite the first side to at least partially form a loop on the second side of the body portion. The body portion opening is configured to receive the flange therethrough to enable the flange to be positioned on either the first side or the second side of the body portion.
With reference to
In one embodiment the body 12 includes binding mechanism hinge line 18 extending therealong, dividing the body 12 into a first or free portion 20, and a second or attachment portion 22. However, in some cases the binding mechanism hinge line 18 is optional, or may not necessarily be pre-formed in the binding mechanism 10 but can in some cases be formed during natural use of the binding mechanism 10, as will be described in greater detail below. The body 12 can also optionally include a crease line 19 (shown in
Each flange 16 can be coupled to the body 12 and/or free portion 20. Each flange 16 includes a base or connecting portion 24, a tip portion 26 at or adjacent to a distal end thereof, and a stem portion 28 positioned between the tip portion 26 and the base portion 24. Each tip portion 26 can have a greater width than the associated stem portion 28 (in a direction perpendicular to a length of the stem portion 28, and in a plane of the body 12), and can have a maximum width 30. A base end of each tip portion 26 can include and/or be defined by a stop surface or surfaces 32 extending generally perpendicular to the length of the stem portion 28.
Each stem portion 28 has a generally uniform width in the illustrated embodiment, but can have a variable width if desired. The base portion 24 of each flange 16 can in some cases have a greater width than the stem portion 28, or flare out at its end, to enable the flange 16 to be securely coupled to the free portion 20/base 12.
The body 12 can include or at least partially define a set of notches, body openings or cut-outs 34 positioned adjacent the base portion 24 and/or stem 28 of each flange 16 to provide clearance on either side of the flange 16, enabling free movement of the flange 16. In the illustrated embodiment each notch 34 is positioned in both the attachment portion 22 and the free portion 20, and each notch 34 is therefore positioned or extends on both sides of the binding mechanism hinge line 18. The body 12 can also include a set of longitudinal slots 36 formed therethrough and extending along a length thereof to provide material savings and/or improve flexibility of the body 12 along the hinge line 18. In some cases the longitudinal slots 36 can be considered to be part of the hinge line 18.
The body 12 and/or free portion 20 can include the set of openings 14 formed therethrough. In one embodiment each opening 14 is aligned with a corresponding flange 16 in a direction along a length of the flange 16. Each opening 14 can be eccentric or non-circular having a maximum width portion 38 extending thereacross and a minimum width portion 40 extending thereacross. The maximum width portion 38 of each opening 14 can have a width about equal to or larger than the maximum width 30 of the associated tip portion 26, and the minimum width portion 40 of each opening 14 can be smaller than the maximum width 30 of the associated tip portion 26.
In one embodiment the binding mechanism 10 can be coupled to or form part of a storage device 42, such as a storage pocket shown in
In this case, the attachment portion 22 is coupled to the storage device 42, and the free portion 20 is not coupled to the storage device 42 and is free to pivot away from/relative to the storage device 42, including away from the front 44 and rear 46 covers and the attachment portion 22, as shown for example in
The binding mechanism 10 can be coupled to the storage device 42 such that the binding mechanism hinge line 18 is parallel or generally parallel with and/or aligned or generally aligned with the storage device hinge line 48. In particular, the hinge lines 18, 48 may be aligned, or if offset, then offset by no more than about 5% in one case, or 10% in another case, of a width of one of the front 44 or rear 46 covers (i.e. in a direction perpendicular to the hinge lines 18, 48). This arrangement helps to enable any sheet items bound by the binding mechanism 10 are effectively stored in and protected by the storage device 42.
In the embodiment of
In order to utilizing the binding mechanism 10, a sheet item or items, such as sheets of paper 52 (
As outlined above, the tip portion 26 of each flange 16 may have a maximum width 30 that is greater than a minimum width portion 40 of the associated opening 14. Each flange 16 may lie in its flat position as shown in
Once each tip portion 26 is entirely received or passed through an opening 14, the flange 16 can be released. The flange 16/tip portion 26 may then automatically untwist and return to its normal flat, or near flat position, as shown in
When it is desired to decouple the sheet items 52 and/or release the flanges 16, each flange 16/tip portion 26 can be twisted until the tip portion 26 can be retracted through the associated opening 14 and then released. Each flange 16 will then return to a flat or near-flat configuration as shown in
As shown in
When sheet items 52 are bound by the closed loops, the sheet items 52 may be pivotable about the loops and be able to be positioned adjacent to and lie flat against either the front 44 and rear 46 covers (
The reversible nature of the flanges 16 provides significantly enhanced utility to the binding mechanism 10, enabling items to be bound on either side of the binding mechanism 10. For example, the flanges/loops can be formed on a first side of the hinge lines 18/48 or a second side thereof; or can be positioned adjacent either the front cover 44 or rear cover 46. In addition, if desired some flanges 16 can be positioned on one side of the binding mechanism 10, and other flanges 16 positioned on the other side at the same time, so that items can be simultaneously bound to the binding mechanism 10 on both sides thereof.
In the embodiments shown and described herein the storage device 42 takes the form of the storage pocket. However, the storage device 42 can take any of a wide variety of other forms or formats, such as binders, notebooks, portfolios, paper pads, report covers, filers, etc. In addition, although the storage pocket 42 is shown as including both a front cover 44 and a rear cover 46, in some cases the storage device/storage pocket 42 may include only a single cover/panel, and the binding mechanism 10 is coupled to the single cover/panel. Further alternatively, if desired the binding mechanism 10 can be used as a stand-alone component as shown for example in
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 invention.
This application is a continuation of U.S. patent application Ser. No. 15/192,100, filed on Jun. 24, 2016, now issued as U.S. Pat. No. 10,500,890, which claims priority to U.S. Provisional patent application Ser. No. 62/186,840 filed on Jun. 30, 2015, the entire contents of which are hereby incorporated by reference.
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Entry |
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International Search Report and Written Opinion for PCT/US2016/039168 dated Oct. 12, 2016. |
Kokuyo Binder (Jan. 2005). |
Number | Date | Country | |
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20200180348 A1 | Jun 2020 | US |
Number | Date | Country | |
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62186840 | Jun 2015 | US |
Number | Date | Country | |
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Parent | 15192100 | Jun 2016 | US |
Child | 16707704 | US |