Not Applicable
Currently there is no removable, adjustable and expandable clip that binds a stack of papers together at their corners. There is no clip device that has the utility of a paper staple but the non-damaging characteristics, adjustability and disposability of a paper clip. Currently available paper clips also have the problem of allowing for vertical and horizontal movement of the papers held together.
Presently available devices that hold together a stack of papers are staples, paper clips or binder clips. However, all of these devices suffer from inherent design flaws that reduce their usefulness. Current paper clips are not designed to hold a stack of papers together by its corner edges. Such clips are also not designed to expand to accommodate a variable size stack of papers. When a person wants to flip through a stack of papers bound by a paper clip it is difficult and often results in the paper clip slipping and becoming unfastened from its original position. When a large stack of paper requires binding, a traditional paper clip will become distorted in shape due to the small number of sheets it can hold together. An ordinary paper clip also cannot limit the lateral and horizontal movement of the papers it holds together so that the bound sheets are liable to slippage in a direction parallel to the plane of the sheets.
These problems are only partially addressed by metal binder clips. The problem with metal binder clips is that they are not disposable; they are relatively expensive and based on the number of paper sheets that need to be held together, many different sizes of metal binder clips must be bought. Binder clips can also cause creasing of the bound sheets and can obstruct the view of the reader due to their significant size. Also, the binder clips are sufficiently large to impede stacking multiple bound documents. While binder clips can be placed at the corner edge of a paper stack, they are not designed for such placement and often slip off when so placed. While staple readily fasten paper stacks by their corners, staples are not easily removable and must be used in conjunction with a cumbersome stapling device. If a person would like to remove a paper from a stapled stack, then the staple must first be removed leaving marks and holes in the paper—not to mention in the user's finger from trying to remove the staple. Additionally, staples often cause ripping of the fastened papers.
The claimed invention differs significantly from currently available clips. Current art paper clips have the problem of permitting vertical and horizontal movement of the clipped papers. They are also limited to clipping only a small range of paper stack thicknesses before the structure of the clip becomes deformed and is rendered non-functional. Although binder clips provide the ability to clip stacks with a greater range of thicknesses, binder clips are generally expensive, obtrusive and not meant to be disposable.
By utilizing the claimed invention, a variable number of papers are bound together at their corner edge in a manner that allows removal and addition of individual papers without the need to remove the clip. The device contacts the stack at two separate points to apply holding pressure, thereby achieving a more stable and firm means for holding papers. The device also limits lateral and vertical movement of the aggregated papers to stabilize the paper stack. The device is unobtrusive, economical, reusable, easily placed and removed from paper and yet small enough and simple enough to be disposable. The corner of the paper stack is bound in such a way as to facilitate reading each sheet with minimal visual obstruction while permitting the user to flip through the stack and remove sheets from the stack without disturbing the position of the other sheets in the stack or moving the device itself.
Unlike current paper clips, the device according to this invention holds papers together in place at the corner and allows removal and addition of papers without removing the device.
The device also is flexible to hold different numbers of paper sheets while still providing a strong grip. The device also prevents lateral and vertical movement of the papers it holds together.
The following description is provided to enable any person skilled in the art to make and use the invention and sets forth the best modes contemplated by the inventor of carrying out his invention. Various modifications, however, will remain readily apparent to those skilled in the art, since the general principles of the present invention have been defined herein specifically to provide a readily removable corner clip for a stack of papers.
Current devices used to hold together a stack of papers include staples, paper clips and binder clips. However, all of these devices suffer from inherent design flaws that reduce their usefulness. Ordinary paper clips are not able to hold paper stacks together at their corner edges in a manner that prevents papers from slipping out of the stack. They are also not designed to expand to accommodate a variable size stack of papers. When a person wants to flip through a stack of papers bound by a paper clip, it is difficult and often results in the paper clip slipping and becoming unfastened from its original position. When a large stack of paper requires binding, a traditional paper clip will become distorted in shape due to the small number of papers it can hold together and the narrow range of motion it has to accommodate large paper stacks. A paper clip also cannot limit the lateral movement of the papers it holds together. The problem with metal binder clips is that they are not disposable; they are relatively expensive and based on the number of papers that need to be held together, many different sizes of metal binder clips are needed. Binder clips can also cause creasing of the papers they hold and can obstruct the view of the reader. Staples are not easily removable and must be used in conjunction with a cumbersome stapling device. If a person would like to remove a paper from a stack bound together by a staple, the staple must first be removed leaving marks and holes in the paper. Additionally, staples can cause ripping of paper.
My new device addresses the deficiencies of existing paper stack binding devices. It is reusable and yet inexpensive enough to be disposable; it can accommodate a large range of paper stack sizes, is flexible and expandable in its holding capacity and will not become distorted in shape when used on a large stack of paper. This clip invention is easily placed and removed by the user, and allows a person to view all information on a standard formatted page with little to no obstruction of the information printed on the paper because the clip covers only the corner of the stacked papers. This clip also allows a user to flip though a stack of papers and easily remove individual papers from the stack or insert additional pages without disturbing the other papers and without the need to remove or adjust the position of the clip. This type of clip does not result in creasing or tearing of the papers it holds together. This clip also prevents horizontal and vertical movement of the stacked papers.
Although primarily directed to stacks of paper, the inventive design lends itself to any application that requires multiple flat sheets to be held bound together in stacks. Larger and stronger versions of this device can be used to hold heavy flat surface objects such as sheets of cardboard, metal or plywood. This design can be used in lifting and transporting by temporarily fastening hooks to the corners of stacks. The design of this device may also be used as a bookmarker and place holder. This design could even be used to secure loose items to one's clothing. When combined with a wall mount or magnet, this design can also be used to hold papers and other materials securely to a surface (e.g. a refrigerator door).
The clip of the present invention can either be formed by bending resilient wire (e.g. spring wire) like a traditional metal paper clip or molded in one piece from a resilient plastic polymeric material or a resilient metal alloy. The device might also have a composite structure where one material provides resiliency or “springiness” to certain regions of the device and another material is used to form the rigid parts of the device. Both the wire embodiment and the polymeric embodiment share the same basic structural features, but the various embodiments necessarily have differences occasioned by the characteristics of the material and manufacturing methods. Rather than attempting to provide a detailed structural description without background, the device will be broken down into a number of structural-functional domains which will allow ready understanding of the device.
Stack Frame.
When a stack of papers is bound by sliding the clip over one of the corners or the stack, stack alignment is maintained by a “stack frame.” The stack frame is formed by two framing segments 10 that are oriented approximately at right angles to the surface of the sheet (that is, parallel to the height of the stack), and the other parts of the clip that hold the framing segments at a fixed distance apart. When the clip is slid onto the corner of a stack (sliding from the corner towards the center of the sheet) the framing segments act as “stops” by intersecting the side edges of the stack. This prevents sliding the clip farther towards the center of the stack. More importantly, the framing segments act as guides to stabilize the clipped sheets against horizontal and vertical motion. The corner of a paper stack with the clip in place can be visualized as a right triangle 20 (see
In a preferred embodiment the axis of each framing segment is approximately at right angles to the height of the clipped paper stack. The framing segments 10 form the side boundaries to the stack frame and are connected at either end to portions of the clip that control the upper and lower surfaces of the stack.
Pressure Members.
It will be understood that any paper clip operates by applying pressure to the surface of the paper or papers clipped together. The pressure causes friction between the sheets and the clip, and between adjacent sheets to immobilize the entire arrangement. A classic paper clip presents two overlapped wire ellipses. When inserted on to a paper almost the entire length of the ellipses apply pressure to the paper. With a binder clip the straight jaws of the clip apply the pressure. In both these cases it is primarily the applied pressure which immobilizes the bound sheets. With the inventive device the framing segments 10 limit the edges of the stack and keep the stacked sheets straight and limit movement of the papers without actually supplying immobilizing pressure. Instead, the upper surface segments 32 and the lower surface segments 34 of the clip provide contact regions—upper and lower pressure members 36, 38, respectively—to press the lower and upper sheets of the stack towards one another to hold the sheets in place frictionally. The resilient nature of the material used to construct the clip (e.g. springy wire) provides the force as the inserted sheets move the pressure members apart. Because the features explained above can be realized with a number of different materials and fabrication methods, a variety of embodiments exist.
One can attain an appreciation for the geometry of the device by describing it in relation to a clipped stack of papers. Extensions of surface segments 36, 38, on each surface of the stack, intersect the framing segments 10 approximately at right angles (thus, they are approximately parallel to the surface of the paper). The surface segments extend away from the edge contacted by the associated framing segment and extend towards the opposite edge of the sheet. In one embodiment of the device the segments from the two framing segments would intersect the diagonal line 50 at approximately right angles (if extended) (see
On the opposite surface of the stack, surface segments 34 extend inward from the framing segments 10 to the second pressure member(s) 38. Depending on the material construction of a given embodiment one may have a single or two (or more) second surface pressure members. For example, when the clip is fabricated from bent wire the ends of the wire extending from the framing segment can advantageously end in a curved “U” shaped pressure point that parallels the surface of and applies pressure to the sheet along a considerable length of the member. The wire leading from the framing segment 10 advantageously forms an angle with the sheet surface to bias the second pressure members towards the first surface pressure member. In one embodiment the second surface pressure members apply force to the sheet on either side of the first surface pressure member and farther way from the corner of the sheet than the first surface pressure member (see
The side view in
When the clip is molded from plastic as in the clip of
The framing segments 10 accommodate and define the edges of the confined stack. The biased pressure members 36, 38 press the top sheet and the bottom sheet together to frictionally bind the stack. The precise position at which the pressure members apply their force can be adjusted by changing the configuration and length of the segments that attach the pressure members to the framing segments. While it is possible to have the first surface pressure member and the second surface pressure member apply pressure to regions that are vertically coincident in a stack, it has been found that such a configuration makes it somewhat more difficult to insert a stack of paper into the clip. This is because with the pressure members biased together, coincident pressure members will necessarily contact each other—much like one's thumb and first finger when making the “okay” sign. To insert a stack of sheets in such a case, it is necessarily to somehow grasp and separate the pressure members, which motion turns out to be somewhat clumsy and a bit difficult. However, when the contact regions for the pressure members are offset with the pressure member(s) on one surface contacting closer to the sheet corner than the pressure member(s) on the other surface, it is possible readily to thread the clip over the sheet corner with the sheets themselves applying the force to separate the pressure members. Also, in embodiments having a single first surface pressure member it is possible to use the first surface pressure member which contacts the sheet nearest the stack corner as a handle to hold and manipulate the clip.
It is useful to describe the insertion of a stack of papers into a generic clip (e.g.
Although the present clip is optimized for insertion over the corner of a stack of papers to bind them rather like a corner staple, the clip can also be inserted onto the side of a stack. In that case the framing segments will both intersect the same edge of the stack (as opposed to two edges on either side of a corner). This configuration does not supply the same dimensional stability as a two edge contact mode; however, the framing segments do limit sheet slippage and ensure edge alignment, and if two clips are inserted, spaced apart, along the long edge of a stack, a good facsimile of an edge (book style) binding can be achieved.
The following claims are thus to be understood to include what is specifically illustrated and described above, what is conceptually equivalent, what can be obviously substituted and also what incorporates the essential features of the invention. Those skilled in the art will appreciate that various adaptations and modifications of the just-described preferred embodiments can be configured without departing from the scope of the invention. The illustrated embodiment has been set forth only for the purposes of example and that should not be taken as limiting the invention. Within the scope of the appended claims, the invention may be practiced other than as specifically described above.
The present application claims benefit and priority from U.S. Provisional Patent Application 61/541,179, filed 30 Sep. 2011, and 61/598,737, filed 14 Feb. 2012 which applications are incorporated herein by reference to the extent permitted by governing law and regulation.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2012/058053 | 9/28/2012 | WO | 00 | 3/28/2014 |
Number | Date | Country | |
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61541179 | Sep 2011 | US | |
61598737 | Feb 2012 | US |