Patent Grant
11450239
Aspects herein are related to a foldable article having a sliceform actuated by a paper mechanic.
Adding a sliceform to a greeting card has required the sliceform to straddle a fold of the greeting card in order for the sliceform to pop up from a two-dimensional configuration to a three-dimensional configuration when the greeting card is moved from a closed position to an open position. As a result, greeting card designers have only been able to position sliceforms in a center region of the card. This configuration also resulted in the orientation of the sliceform elements being limited to perpendicular to the greeting card when the greeting card is in the open position.
At a high level, aspects herein are directed to a foldable article (e.g., a greeting card, book, magazine, etc.) having a fold separating a first panel from a second panel and a sliceform capable of popping up from a substantially two-dimensional configuration to a substantially three-dimensional configuration without the sliceform having to straddle the fold of the foldable article. The sliceform may be actuated between the substantially two-dimensional configuration and the substantially three-dimensional configuration by a paper mechanic. The paper mechanic extends across the fold of the foldable article and transfers the work of opening the foldable article to the sliceform. In some aspects, the paper mechanic may comprise a criss-cross lift, a box lift, or a collapsible lift. Utilizing a paper mechanic to actuate the sliceform provides many advantages. For example, the sliceform may be positioned at any location on either panel of the foldable article (e.g., entirely on the first panel or the second panel) and/or the sliceform may be uniquely oriented relative to the foldable article when in an expanded state (e.g., some of the planar elements of the sliceform extending parallel to the panels of the foldable article).
This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
Illustrative embodiments of the present invention are described in detail below with reference to the attached drawing figures, which are incorporated by reference herein and wherein:
The subject matter of the present invention is described with specificity herein to meet statutory requirements. However, the description itself is not intended to limit the scope of this disclosure. Rather, the inventors have contemplated that the claimed or disclosed subject matter might also be embodied in other ways, to include different steps or combinations of steps similar to the ones described in this document, in conjunction with other present or future technologies. Moreover, although the terms “step” and/or “block” might be used herein to connote different elements of methods employed, the terms should not be interpreted as implying any particular order among or between various steps herein disclosed unless and except when the order of individual steps is explicitly stated.
At a high level, aspects herein are directed to a foldable article (e.g., a greeting card, book, magazine, etc.) having a fold separating a first panel from a second panel and a sliceform capable of popping up from a substantially two-dimensional configuration to a substantially three-dimensional configuration without the sliceform having to straddle the fold of the foldable article. The sliceform may be actuated between the substantially two-dimensional configuration and the substantially three-dimensional configuration by a paper mechanic. The paper mechanic extends across the fold of the foldable article and transfers the work of opening the foldable article to the sliceform. In some aspects, the paper mechanic may comprise a criss-cross lift, a box lift, or a collapsible lift. Utilizing a paper mechanic to actuate the sliceform provides many advantages. For example, the sliceform may be positioned at any location on either panel of the foldable article (e.g., entirely on the first panel or the second panel) and/or the sliceform may be uniquely oriented relative to the foldable article when in an opened position (e.g., some of the planar elements of the sliceform extending parallel to the panels of the foldable article).
Some aspects may be described using relative location terminology. For example, the term “proximate” is intended to mean on, about, near, by, next to, at, and the like. Therefore, when a feature is proximate another feature, it is close in proximity but not necessarily exactly at the described location, in some aspects. The term “substantially” when used in relation to angular orientation means within ±5 degrees of a designated value. Thus, when an element is substantially parallel to another element, it may be nearly parallel but not exactly parallel. For example, when sliceforms are in a collapsed state, each of the planar elements may be oriented such that they extend in nearly parallel directions, but not necessarily in exact parallel alignment with one another or with a panel of the foldable article.
Terms such as “attached,” “secured,” “affixed,” and the like may mean elements that are releasably attached to one another using, for example, snap systems, slider systems, hook-and-loop closure systems, releasable adhesives, buttons, hooks, and the like. These terms may further mean elements that are permanently attached to one another using, for example, stitching, bonding, welding, taping, stapling, and the like. The term “releasable fastener” as used herein refers to a fastener system that can be repeatedly coupled and uncoupled to respectively secure or disengage components from each other.
A foldable article may include any two panels that can move relative to one another about a fold from a folded state to an open state. For example, a foldable article may include a greeting card, a magazine, a book, and the like. The two panels may be connected to one another at a binding, in some aspects. In other aspects, the two panels may be integral to the foldable article and may comprise a unitary panel having a crease from one edge to an opposing edge. Other foldable articles may include more than two panels. For example, a unitary panel may be divided into three, four, or more subpanels that are each separated from adjacent subpanels by a crease. As used herein, the term “fold” refers to a segment about which two adjacent panels move relative to one another. For example, one of the panels may rotate about the fold.
As known to one skilled in the art, the term “paper mechanics” refers to a category of devices applied to foldable articles that cause motion upon opening of the foldable article. Although some paper mechanics are constructed from paper materials (e.g., paper strips), other paper mechanics are constructed from other materials (e.g., plastics, metal, wire, etc.). Several specific embodiments of paper mechanics will be discussed below with reference to the figures, however, it is envisioned that other types of paper mechanics known in the art may be useful for the present invention.
A “sliceform” may include a first plurality of planar elements coupled to a second plurality of planar elements, which are configured to move between a substantially two-dimensional, collapsed state and a substantially three-dimensional, expanded state. In some aspects, the first plurality of planar elements are coupled to the second plurality of planar elements via one or more slots. The term “slot” as used herein refers to an elongated opening formed through a portion of a planar element of a sliceform. In some aspects, a slot may include side edges that are immediately adjacent to one another (e.g., a slit). In other aspects, a slot may include side edges that are spaced apart from one another. Each of the planar elements may include one or more slots that receive a portion of another planar element. If the portion of the other planar element also includes a reciprocal slot, then the coupled planar elements may share a common profile at that position. Often, the planar elements comprise a two-dimensional panel in both the collapsed state and in the expanded state. In some aspects, however, some of the planar elements may comprise a three-dimensional panel in the expanded state. For example, these planar elements may comprise a two-dimensional panel having a fold and when the sliceform is in the expanded state these planar elements may only be partially unfolded.
Turning now to
Turning to
Also evident from
As best seen in
The second member 28 includes a third end 48 opposite a fourth end 50. The third end 48 includes a second coupling portion 52 and a third fold 54. A second leg 56 extends from the third fold 54 to a second coupling tab 58 of the fourth end 50. A second slot 60 is formed in the second leg 56 between the third fold 54 and the second coupling tab 58.
When the foldable article 10 is assembled, the first end 30 and the body 38 of the first member may be inserted through the second opening 24 and threaded back through the first opening 22 to slidably couple the first member 26 to the second panel 14. The first coupling portion 34 may be affixed to the first panel 12 in a desired position. In this way, the body 38 of the first member 26 may move relative to the second panel 14 as the foldable article 10 is moved between the open state and closed state. The second coupling portion may be affixed to the second panel 14 in a desired position. The first slot 46 and the second slot 60 may be aligned to receive a portion of the other member. The sliceform 20 may then be coupled to the first member 26 at the first coupling tab 44 and the second member 28 at the second coupling tab 58. In other words, the first coupling tab 44 is inserted through one of the slots of one of the first planar elements and the second coupling tab 58 is inserted through one of the slots of the second plurality of planar elements. Thus, the sliceform 20 may be removably coupled to the paper mechanic 18 by a slit-and-tab rather than by a non-removable coupling (e.g., bonding).
An isometric view of the sliceform 20 in an expanded state is shown in
Each of the planar elements 62, 64, 66, 68, 72, 74, 76, 78 and 80 may include one or more slots, as illustrated in
Referring to
Turning to
In
Thus, as with the embodiment described above, it is no longer necessary for the sliceform 20 to be positioned such that it straddles the fold 16. Rather, it may be positioned at any location on either of the first panel 12 or the second panel 14. Further, the sliceform 20 need not even be affixed to the first panel 12 or the second panel 14 and may be affixed only to the paper mechanic 18. In so doing, the sliceform 20 may have a unique orientation such that the passageways defined by the planar elements 62, 64, 66, 68, 72, 74, 76, 78 and 80 when in the expanded configuration need not extend normal to the first panel 12 or the second panel 14 when the foldable article 10 is in the fully open state. All of the planar elements of prior art sliceforms attached to greeting cards were oriented with the passageways extending normal to the greeting card in a fully open state, which only provided a design profile to be viewed from the side. Greeting cards, and other foldable articles, are often opened and viewed from the top, thus the present invention permits the designer options to provide a design profile that may be viewed from the top rather than the side.
Indeed, using a criss-cross lift for the paper mechanic 18 further provides the option to set the planar elements 62, 64, 66, 68, 72, 74, 76, 78 and 80 at an angle to the first panel 12 and the second panel 14 when the foldable article 10 is in the fully open state. For example, the first plurality of planar elements 62, 64, 66, and 68 may be held at an angle 45 degrees from the second panel 14 when the foldable article 10 is in the fully open state. Likewise, the second plurality of planar elements 72, 74, 76, and 78 may be held at an angle of 135 degrees from the second panel 14. These angles relative to the first panel 12 and the second panel 14 or relative to one another may be modified by changing the distance the second fold 40 travels or the lengths of the first leg 42 and the second leg 56.
Turning now to
In this embodiment, the paper mechanic 118 comprises a collapsible lift (sometimes referred to as a “sno-cone lift”). The paper mechanic 118 is shown unassembled in
When assembled, one of the base portions 126 is affixed to the first panel 112 and the other of the base portions 126 is affixed to the second panel 114 such that the first fold 122 is in parallel alignment with the fold 116. Each of the header portions 134 is affixed to a sliceform base member 146 on opposite sides of a sliceform fold 149. The strut 124 extends from the fourth fold 138 to the fifth fold 142 and the coupling portion 144 is affixed to one or more of the sliceform base member 146 or one of the headers 134.
The sliceform 120 includes a plurality of planar elements 148, 150, 152, 154, and 156 and a plurality of angular elements 146, 158, 160, 162, and 164.
The plurality of angular elements 146, 158, 160, 162, and 164 are similar to the planar elements described herein, except that they each include the sliceform fold 149. Thus, when the sliceform 120 is in the two-dimensional, collapsed state, the plurality of angular elements 146, 158, 160, 162, and 164 are each folded over to a substantially two-dimensional position. When the sliceform 120 is in the three-dimensional, expanded state, the plurality of angular elements 146, 158, 160, 162, and 164 are at least partially unfolded. In the illustrated aspect, the sliceform fold 149 is in linear alignment with each of the first fold 122 and the fold 116.
Similar to the embodiment discussed above, the foldable article 110 moves between a closed state and a fully open state (shown in
When the foldable article 110 is in the fully open state, the paper mechanic 118 and the sliceform 120 are in a substantially three-dimensional, expanded state. In this expanded state, the two bodies 130 of the paper mechanic 118 have unfolded about the first fold 122 and have unfolded rearwardly about the two second folds 128. In other words, when viewed from the side elevation the paper mechanic 118 and thereby the sliceform 120 pivot rearwardly in the direction of the fold 116 when the foldable article 110 is moved from the closed state to the fully open state. The strut 124 also unfolds rearwardly about the fourth fold 138, in this state. The plurality of planar elements 148, 150, 152, 154, and 156 are in a raised position, but have not changed orientation, in this state. The plurality of angular elements 146, 158, 160, 162, and 164 have unfolded about the sliceform fold 149 to extend at an angle to the plurality of planar elements 148, 150, 152, 154, and 156. In other aspects, the plurality of angular elements 146, 158, 160, 162, and 164 may extend normal to the plurality of planar elements 148, 150, 152, 154, and 156. Also in this state, the header portions 134 have unfolded about the third folds 132 and followed the unfolding of the sliceform base member 146.
The angle from which the plurality of angular elements 146, 158, 160, 162, and 164 extend relative to the plurality of planar elements 148, 150, 152, 154, and 156 and the amount the paper mechanic 118 and thus the sliceform 120 pivot in the direction of the fold 116 may be controlled in various ways. For example, the expanded state may be modified by changing the length of the bodies 130, the length of the leg 140 of the strut 124, the angle at which the second folds 128 extend from the fold 116, or the angle at which the third folds 132 extend relative to the fold 116.
Thus, as with the embodiment described above, it is no longer necessary for the sliceform 120 to be affixed to the first panel 112 or the second panel 114 and may be affixed only to the paper mechanic 118. In so doing, the sliceform 120 may have a unique orientation such that the passageways defined by the plurality of planar elements 148, 150, 152, 154, and 156 and the plurality of angular elements 146, 158, 160, 162, and 164 when in the expanded state need not extend normal to the first panel 112 or the second panel 114 when the foldable article 110 is in the fully open state. All of the planar elements of prior art sliceforms attached to greeting cards were oriented with the passageways extending normal to the greeting card in a fully open state, which only provided a design profile to be viewed from the side. Greeting cards, and other foldable articles, are often opened and viewed from the top, thus the present invention permits the designer options to provide a design profile that may be viewed from the top rather than the side.
Turning now to
In this embodiment, the paper mechanic 218 comprises a box lift. In
In this illustrated aspect, the paper mechanic 218 was formed by incising two parallel slits that extend from the first panel 212 to the second panel 214 normal to the fold 216 and popping out the first leg 236 and the second leg 238 away from the first panel 212 and the second panel 214. In other aspects, however, the first leg 234 may be affixed to the first panel 212, the second leg 236 may be affixed to the second panel 214, and/or the first leg 234 may be affixed to the second leg 236.
Referring now to
When the foldable article 210 is assembled, the first tab 264 extends beneath the sliceform 220 and is affixed to the second panel 214. Similarly, the second tab 266 extends laterally from the sliceform 220 and is affixed to the paper mechanic 218. In other aspects, the first tab 264 and the second tab 266 may not be integral to the sliceform 220 and instead may be separate portions affixed to the sliceform 220.
Similar to the embodiments discussed above, the foldable article 210 moves between a closed state and a fully open state (shown in
Thus, as with the embodiments described above, it is no longer necessary for the sliceform 220 to be positioned such that it straddles the fold 216. Rather, it may be positioned at any location on either of the first panel 212 or the second panel 214. Further, the sliceform 220 may be affixed to the paper mechanic 218, and need not be affixed to either of the first panel 212 or the second panel 214. In so doing, the sliceform 220 may have a unique orientation such that the passageways defined by the planar elements 244, 246, 248, 250, 252, 254, 256, 258, 260, and 262 when in the expanded state need not extend normal to the first panel 212 or the second panel 214 when the foldable article 210 is in the fully open state. Moreover, one of the pluralities of planar elements may be oriented in planes parallel to at least one of the first panel 212 and the second panel 214 when the foldable article is in the fully open state. Greeting cards, and other foldable articles, are often opened and viewed from the top, thus the present invention permits the designer options to provide a design profile that may be viewed from the top rather than merely from the side.
Additionally, although some exemplary implementations of the embodiments described herein are shown in the accompanying figures, these implementations are not intended to be limiting. Rather, it should be understood that the various embodiments and aspects described herein may be implemented upon any foldable article have a paper mechanic that acutates a sliceform between a substantially two-dimensional, collapsed state and a substantially three-dimensional, expanded state.
Many different arrangements of the various components depicted, as well as components not shown, are possible without departing from the spirit and scope of the present invention. Embodiments of the present invention have been described with the intent to be illustrative rather than restrictive. Alternative embodiments will become apparent to those skilled in the art that do not depart from its scope. A skilled artisan may develop alternative means of implementing the aforementioned improvements without departing from the scope of the present invention.
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