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The present invention is in the field of social expression products such as greeting cards or pop-up structures. More specifically, the present invention is directed to a lock mechanism which can be used with a pop-up structure to retain the pop-up structure in an unfolded or fully erect state.
In one embodiment, the present disclosure and related inventions is directed to a locking mechanism for a 3D pop-up structure comprising a base panel attached to a lower surface of a 3D pop-up structure, the base panel having an opening at the center thereof, a main panel which extends upward from and perpendicular to the base panel and into an internal cavity of the 3D pop-up structure, a locking tab which interlocks with the main panel such that the locking tab is partially movable with respect to the main panel, and one or more stopper mechanisms located with the internal cavity of the 3D pop-up structure and which are operative to limit the movement of the locking tab with respect to the main panel, wherein the locking tab is operative to move and retain the 3D pop-up into a fully erect position.
In another embodiment, the present disclosure and related inventions is directed to a pop-up greeting card with lock mechanism comprising a pop-up structure that is operable to move between a first position wherein the pop-up structure is in a substantially flat or two-dimensional configuration and a second position wherein the pop-up structure is in an erect three-dimensional configuration, a lock mechanism attached to a bottom surface of the pop-up structure, the lock mechanism comprising a base panel, a main panel which extends upward from the base panel, and a locking panel which attached to the main panel, wherein when the pop-up structure is in the first position, the locking tab is parallel with the main panel and when the pop-up structure is in the second position, the locking can be moved such that it is perpendicular to the main panel and therefore retain the pop-up structure in the first position.
In still another embodiment, the present disclosure and related inventions is directed to a pop-up greeting card comprising a pop-up structure, a lock mechanism contained within the pop-up structure, the lock mechanism comprising a base, and a main panel attached to the base and a lock tab which is in contact with the main panel, wherein the pop-up structure can move between a first position wherein it is folded and substantially flat and a second position wherein the pop-up structure is unfolded and fully erect, and wherein the lock tab can be moved from a first position wherein it lies flat within the pop-up structure and parallel with the main panel and a second position wherein it is perpendicular to the main panel and it retains the pop-up structure in the second position.
The turn lock mechanism 10 for a three-dimensional (3D) pop-up structure 12 of the present disclosure and related inventions provides means to easily hold or “lock” free-standing or stand-alone 3D pop-ups in an open or unfolded position for display.
A free-standing or stand-alone pop-up structure 12 may be used as a greeting card, advertisement, display, ornament, novelty keepsake or other such item. It may be constructed to form a 3D structure, such as, for example, as shown in the figures, a cylindrical structure, such as a tiered cake. The shape of the 3D pop-up structure 12 is optional and can be greatly varied according to theme, purpose, visual effect, etc. The 3D pop-up 12, as described herein, is operable to move from a first position, wherein the 3D pop-up 12 is in a folded or substantially flat, two-dimensional (2D) configuration (see
The turn lock mechanism 10 of the present disclosure and related invention, which is substantially concealed within the inner cavity of the 3D pop-up structure 12, includes a base panel 14, a main panel 16, a locking tab 18, and one or more stopper tabs or mechanisms 20. The base panel 14 serves as the base or platform for the entire 3D pop-up structure 12. The base panel 14 contains an upper surface and a lower surface opposite the upper surface. The lower surface is what comes into direct contact with the surface upon which the 3D pop-up structure 12 is placed. It also has an opening or aperture 22 at the direct center of the base 14. In the embodiment shown in the figures, the base 14 is circular shaped, with a circular opening 22 at the center thereof. However, in other embodiments, the base structure 14 may be shaped like a square, rectangle, or any other conceivable shape. The base 14 of the turn lock mechanism 10 also contains a fold line F which extends across an axis of symmetry of the base panel 14, creating two equal halves—a first half and a second half, of the base panel 14. The base panel 14 can be folded along this fold line F such that each half of the base panel is positioned with one half atop the other half with the upper surface of a first half facing the upper surface of the second half.
The main panel 16 of the turn lock mechanism 10 attaches to the base panel 14 via a support panel 24. The support panel 24 contains an upper surface and a lower surface opposite the upper surface. The lower surface of the support panel 24 is attached directly to the upper surface of the turn lock mechanism's base panel 14. The support panel 24 also contains an opening or aperture therein which corresponds with the location of the opening or aperture 22 in the base panel 14 of the turn lock mechanism 10. The support panel 24 extends upward along the fold line F on the lock mechanism base panel 14 to form the main panel 16 that extends into the opening or cavity formed by the 3D pop-up structure 12 (when in the second, unfolded position). The main panel 16 width extends from one side of the base 14 to the opposing side of the base 14 with an arched or arcuate shape therebetween, as shown in
A locking tab 18 works with the main panel 16 of the lock mechanism 10 to maintain the 3D pop-up 12 in an open or upright position (second position), as shown in
One or more stopper tabs 20 are located on the inside surface of the 3D pop-up structure 12, as shown in
In operation, the 3D pop-up structure 12 is in a first position, wherein it is collapsed, folded and in a substantially flat or 2D configuration, as shown in
The foregoing embodiments of the present invention have been presented for the purposes of illustration and description. These descriptions and embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above disclosure. The embodiments were chosen and described in order to best explain the principle of the invention and its practical applications to thereby enable others skilled in the art to best utilize the invention in its various embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the invention be defined by the following claims.
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Number | Date | Country | |
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20220122487 A1 | Apr 2022 | US |