a) is a side elevational view of a preferred embodiment hole punch with a single edge guide.
b) is a front elevational view of the hole punch from
c) is a cross-sectional view of the hole punch taken along line B-B of
d) is a cut-away perspective view of the hole punch where one side has been removed to expose the interior.
The present invention is directed to a paper guide for a hole punch, shown in
The preferred embodiment hole punch includes one or more punch elements with respective punch pins 7. As seen in the cross-sectional view of
To receive the papers, the hole punches 5, 10 depicted in FIGS. 1 and 3-5 have a slot 14 which in the preferred embodiment opens upward but at an angle slightly off the vertical. The lever 12 includes a grooved or indented pressing area 16 for improved grip of the user to better apply a driving force. The hole punch superstructure and internal mechanisms sit generally atop a stable platform or base 18.
As best seen in
First and second guide surfaces 26, 28 adjacent the slot opening 22 help the paper or sheet media feed into the slot 14. Preferably, the guide surfaces 26, 28 are a curved surfaces arranged in a confluence such that the gap therebetween narrows down to the gap defined by the slot height.
In the embodiment of
At least one edge guide 30, 32 projects from the side of the housing body 20 via an extension arm 34, 36. The extension arm 34, 36 slides into and out of the body 20 to adjust the distance between the opposing edge guides 30, 32. This in turn accommodates the hole punch 10 to accept different sized papers such as standard letter 8.5″×11″, A4, or 8.5″×14″ legal size, etc., or different orientation of papers. Regarding the latter orientation, an 8.5″×11″ paper can thus be placed inside the slot 14 with the narrow 8.5-inch side inside the slot or the 11-inch side inside the slot, and the edge guides 30, 32 can be slidably adjusted to match those sizes.
In one alternative embodiment, the two extension arms are ratcheted to a toothed, rotating pinion inside the housing (not shown) so the two extension arms can slide simultaneously in opposite directions. The edge guides 30, 32 once adjusted to the correct stack width help align the loose papers in the stack.
Each edge guide 30, 32 further includes optional lifter tabs 38, 40 that have a slight curvature. The lifter tabs 38, 40 counteracts gravity and the natural bowing in the paper or sheet media stack by gently lifting the unsupported outer edges of the paper stack. That is, the flat part of the paper stack at the outer periphery is supported by the lifter tabs 38, 40. Moreover, the optional slight curvature of the lifter tabs 38, 40 places a slight reverse bend to the bowed papers. To visualize this, in the top plan view of
Each extension arm 34, 36 optionally includes markings or indicia 42 that provide the numeric dimensions of the paper or sheet media (e.g., 8.5″, 11″, 14″, 210 mm, 297 mm, etc.) or alphabetic designations of the paper size (e.g., LTR, LGL, A4, etc.). The indicia 42 may be a sticker, inked, etched, cut, stamped, embossed into the arm, a raised contour on the arm, or the like. The arm 34, 36 may be metal, plastic, or the like so creation of the indica 42 on the arm 34, 36 is achieved through processes known in the art.
So that the user can see the indicia 42 in order to make the proper in/out adjustment of the edge guides 30, 32, a window 44 is provided in the guide surface 26. The window 44 may be covered by a transparent sheet of plastic to keep dust or paper chips from accidentally falling into the window and collecting inside.
In the preferred embodiment, the hole punch 10 includes multiple punch pins/punch elements, and the spacings between them are fixed. In an alternative embodiment, the distance between the punch pins may be adjustable by the user. Therefore, the holes to be cut may be set at pre-marked spacings. To allow the user to move the punch elements to the correct spacings, the punch elements slide on a bar (not shown) with the indicia described above and are screwed down or locked down to the bar at preset detents or notches. The indicia on the bar to adjust the punch element spacings may be likewise made visible through the window.
Moreover, in another alternative embodiment, the punch elements are linked to the edge guides so moving the edge guides moves the respective punch elements. Thus, the indicia seen through the windows informs the user of the hole spacing as well as the paper size.
Notably, the windows 44 are located above the slot 14 so that they are visible to the user even though the slot 14 is occupied by a stack of papers. The slight angle of the slot 14 and the weight of the paper stack curl the stack forward toward the user and downward toward the desktop, and away from covering the windows 44. Since the windows 44 and indica 42 inside are constantly visible to the user, he or she can rest assured that the paper stack is reliably and repeatedly aligned with the punch elements and that the edge guide has not inadvertently slipped out of alignment or out of its detent for a selected paper size.
From the foregoing detailed description, it should be evident that there are a number of changes, adaptations and modifications of the present invention that come within the province of those skilled in the art. However, it is intended that all such variations not departing from the spirit of the invention be considered as within the scope thereof as limited solely by the following claims.
This application claims priority from U.S. Provisional Application No. 60/761,503, filed on Jan. 23, 2006, the contents of which are hereby incorporated by reference in their entirety.
Number | Date | Country | |
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60761503 | Jan 2006 | US |