The present invention is in the field of greeting cards and social expression products. More specifically, the invention is directed to a greeting card with sound and motorized movement.
In one embodiment, the greeting card of the present invention contains a motor and a mobile structure which can be folded and unfolded like a pop-up structure with the opening and closing of the greeting card. The mobile structure contains suspended die cut shapes which move in a circular motion upon opening the greeting card.
In another embodiment, the greeting card contains a swing structure which is extended from a rod and which is able to move or swing in a back-and-forth motion.
In still another embodiment, the greeting card contains a string which is attached to opposing sides of a two panel greeting card, the string being attached at one end to a motor concealed within the greeting card body. When the greeting card is opened, the motor is initiated, causing the string and die cut items suspended therefrom to move in a bouncing motion.
In a first embodiment, the greeting card of the present invention combines a traditional greeting card with a motorized mobile and audio playback. The motorized mobile contains one or more objects which are suspended from a disc which rotates upon activation of a motor module contained within the greeting card.
In a preferred embodiment, the greeting card body contains four greeting card panels 10A, 10B, 10C, 10D. Each greeting card panel 10A, 10B, 10C, 10D is substantially planar and contains a front surface and a back surface opposite the front surface. A first panel 10A is attached to a second panel 10B along a first fold line F1, the second panel 10B is attached to a third panel 10C along a second fold line F2, and the third panel 10C is attached to a fourth panel 10D along a third fold line F3. The first panel 10A is folded over the second panel 10B along the first fold line F1 and attached thereto creating a first closed pocket or cavity therebetween. Similarly, the fourth panel 10D is folded over the third panel 10C along the third fold line F3 and attached thereto creating a second closed pocket or cavity therebetween. The electronic components of the greeting card 100 are contained within the second pocket. However, the electronic components may be placed in the first pocket or in both the first and second pockets. The first panel 10A serves as the inside left panel of the greeting card 100, the second panel 10B serves as the front cover of the greeting card 100, the third panel 10C serves as the back or rear cover of the greeting card 100 and the fourth panel 10D serves as the inside right panel of the greeting card 100. The second fold line F2 serves as the bisecting line about which the greeting card 100 opens and closes. The first 10A and fourth 10D greeting card panels contain a slit or narrow opening S1, S2 thereon to accommodate insertion of and attachment to a portion of the mobile structure M. The slit S1 contained on the first panel 10A (inside left panel) is a partial slit which is contained on an upper right hand area of the panel 10A. The slit S2 contained on the fourth panel 10D (inside right panel) is a horizontal slit which extends across the horizontal width of the fourth panel 10D. Each of the greeting card panels 10A, 10B, 10C, 10D may contain photos, artwork, text sentiment, or other printed indicia thereon.
The mobile structure M contains a half-circular base structure MB and a rotating disc MD which is attached below the base structure MB and which contains various shapes or elements ME which are suspended therefrom. The half-circular base structure MB contains a main fold line thereon MF which separates the base structure MB into two integral unequal sides MB1, MB2. The first or smaller side MB1 is attached to the first greeting card panel 10A (inside left panel) by inserting a portion thereof into the slit S1 contained on the first panel 10A and being adhered thereto via glue or other attachment mechanism. The second or larger side of the base structure MB2 is attached to the fourth greeting card panel 10D (inside right panel) by inserting a portion thereof into the slit S2 contained on the fourth panel 10D and being adhered thereto via glue or other attachment mechanism. The second side of the base structure MB2 contains two overlapping panels which are attached along all perimeter edges forming a closed pocket or cavity therein. A motor module 12 is contained within this pocket which enables movement of the circular disc MD and suspended shapes or elements ME, as shown in
In addition to the motor module 12 which allows for movement of the mobile, the greeting card 100 may also contain a sound module for replaying audio. The sound module may contain any and all components necessary to store and produce or emit sound. The motor module 12 may contain any and all components necessary to create movement of the mobile object (MD, Me.). Some of the internal electronic components may include, but are not limited to: a circuit board 14; an integrated circuit chip; a power source 16; a speaker 18; a motor 12, a switch 19 and at least one pre-recorded digital audio clip. The electronic components of the greeting cards described herein are considered to be readily understood and appreciated by one of ordinary skill in the art and are therefore not discussed in detail herein.
In operation, a user would open the greeting card 100 by pivoting the front panel 10B outward about the bisecting fold line F2. The mobile structure M would move from the first, folded position to the second, unfolded position. A slide switch 19 may be contained across the bisecting fold line F2 of the greeting card 100 which causes the circular disc portion MD (and attached shapes ME) of the mobile M to move in a circular motion and also cause the playback of audio upon opening the greeting card 100. The audio and motion may continue for a predetermined period of time or they may continue until the user closes the greeting card 100.
As an alternative, the greeting card may be non-motorized so that the mobile structure M could be moveable by manual user interaction only. The greeting card may also be made without the sound module.
While the first embodiment has been described herein as having a slide switch located across a fold line, other types of switches may be used, such as a push button switch, a slide lever switch, a contact switch, a magnetic switch, a light-sensitive switch, a touch-sensitive switch, or any other conceivable switch mechanism. The greeting card has also been described herein and shown in the figures to have four shapes ME attached to the mobile M, however, other numbers of shapes have been contemplated such as one, two, three, five and greater than five. The shapes can be made of any type of material and can take on a variety of different physical shapes. The mobile M may also be located in areas of the greeting card different from the position shown in the figures. The greeting card may contain more or fewer panels and may take on a different configuration. One or more audio files may be contained on the sound module and a different audio clip may be replayed each time the greeting card is opened (up to the number of audio clips contained on the sound module) in random or in a particular order.
In a second embodiment of the present invention, shown in
In a preferred embodiment, the greeting card 200 contains a first panel 20A attached to a tab panel 20T along a first fold line F1, the tab panel 20T attached to a second panel 20B along a second fold line F2 and the second panel 20B attached to a third panel 20C along a third fold line F3. The second panel 20B contains a significant opening thereon. The second panel 20B is attached to the front surface of a foam structure 20F, the foam structure 20F having a front surface, rear surface and perimeter surface therebetween. The foam structure 20F may be, for example, approximately ¼-inch thick. The foam structure 20F also contains a large opening therein such that the foam is basically a frame having two vertical edges connected to two horizontal edges in a rectangular shape. The foam “frame” 20F contains various openings therein for the storage of electronic components of the greeting card 200 and for associated wiring connecting various components to a circuit board. A horizontal rod HR is contained horizontally in the upper horizontal portion of the foam frame 20F and is connected at one end to a small motor 12. Electronic components, such as those described above with respect to the first embodiment of the present invention, are contained in the lower horizontal portion of the foam “frame” 20F, but may be contained in any portion of the frame 20F or in another area of the greeting card. The second greeting card panel 20B is attached to a front surface of the foam structure 20F. A separate piece of planar sheet material may be attached to the rear surface of the foam structure, having an opening therein which matches that of the foam structure and second greeting card panel 20B. The vertical tab panel 20T is folded along the second fold line F2 to wrap around a side perimeter surface of the foam structure 20F wherein the first panel 20A is folded along the first fold line F1 to overlie the rear surface of the foam structure 20F or planar sheet material. The third panel 20C is then folded along the third fold line F3 to overlie the front surface of the foam structure 20F (covered by the second greeting card panel 20B). The first greeting card panel 20A serves as the front cover of the greeting card 200 and the third greeting card panel 20C serves as the back or rear cover of the greeting card 200. Since the card 200 is a traditional z-fold, the greeting card 200 is opened by pulling the front 20A and rear 20C greeting card covers in opposing outward directions, such as moving the front cover 20A to the left while moving the rear cover 20C to the right. Doing this reveals the front surface of all three greeting card panels 20A, 20B, 20C. The first 20A and third 20C panels may be slightly wider than the second greeting 20B card panel so that when the greeting card 200 is in the closed or folded position, the edge of the third greeting card panel (or rear cover of the greeting card) 20C can be seen (and gripped for opening the greeting card) from behind the first 20A and second 20B panels, as shown in
A swing structure SW is attached or suspended from a horizontal rod HR located across the upper horizontal portion of the foam frame 20F such that the swing structure SW is contained in the open space between the foam “frame” 20F (and the opening in the second panel 20B). The swing structure SW contains two vertical portions SWR, SWL, each of which is attached at one end to the horizontal rod HR and at the opposite end to a horizontal seat portion SWH of the “swing” SW. A die cut shape DC representing a character is attached to the seat SWH and vertical portions SWR, SWL of the “swing” SW to appear as though the character DC is sitting on a swing. When activated, the motor 12 sends an electrical pulse through the horizontal rod HR (from which the swing SW is suspended) to effect the back-and-forth movement of the swing SW. The electrical pulse is sent in an on-off pattern wherein there is a pause between each pulse, allowing the swing-like movement. A slide switch 19 may be contained across one of the fold lines of the greeting card 200 such that when the greeting card 200 is opened, the motor 12 is activated and a sound module initiates replay of pre-recorded audio.
In operation, when the greeting card 200 is opened by the method described above, the front surface of all three greeting card panels 20A, 20B, 20C are revealed as well as the swing structure SW. Opening the greeting card 200 triggers both the sound and motor modules such that pre-recorded audio is replayed and the motor 12 causes the pulsed movement of the horizontal rod HR, which in turn causes the swing structure SW to move in a back-and-forth or swinging motion within the opening between the foam structure 20F and second greeting card panel 20B. Closing the greeting card 200 turns the motor and sound modules off Alternately, the motor and audio may turn off after a pre-determined period of time.
In a variation of this embodiment, the motor module is removed, allowing the user to manually move the swing structure. Upon opening the greeting card, the swing structure is revealed and audio is replayed through the speaker. The user is then able to manually move the swing back-and-forth.
The second embodiment of the present invention has been described herein as having a z-fold configuration, however other greeting card folds and configurations have been contemplated and are considered to be within the scope of the present invention. While the switch used to initiate the sound and/or motor modules has been described herein and shown in the figures as being a slide switch, other switches may be used such as a push button switch, a slide lever switch, a contact switch, a magnetic switch, a light-sensitive switch, a touch-sensitive switch, or any other conceivable switch mechanism. Part of the greeting card has also been described as being made of foam, however other materials can be used instead and are considered to be within the scope of the invention.
In a third embodiment (similar to the second embodiment described directly above), the greeting card contains a swing mechanism that can have motorized or manual movement thereof. The greeting card 300 of this embodiment takes on a different shape from the z-fold as in the second embodiment described herein. This third embodiment, shown in
A swing structure SW is attached or suspended from the horizontal rod HR located across the upper horizontal portion of the frame 30F such that it is contained in the open space between the foam “frame” 30F (and the opening in the second panel 30B), as shown in
In operation, the greeting card is originally in a closed position, as shown in
In a fourth embodiment, the greeting card of the present invention includes a greeting card having four panels 40A, 40B, 40C, 40D which are folded to create two internal pockets or cavities and a two panel greeting card having a line or string S with one or more attachments DE attached thereto extended between the two panels, as shown in
When the greeting card 400 is opened, an inner panel is revealed which resembles a picket fence PF attached to the outer edges of the right 40A and left 40D inside panels of the greeting card 400. The inner panel PF is shorter than the main greeting card panels 40A, 40B, 40C, 40D. It contains various cutouts thereon with a non-linear upper edges formed in a scalloped or zig-zag pattern so that the inner panel PF resembles a picket fence having various boards attached in a lateral or side-by-side manner. The inner fence-like panel PF contains a main fold line PFL which bifurcates the panel PF enabling it to be folded within the inner panels 40A, 40D of the greeting card 400 when the greeting card 400 is in the closed position. When the greeting card 400 is in a closed position, the inner panel PF is folded between the right 40D and left 40A side inner panels of the greeting card 400 such that the left side of the inner panel PF lies atop the right side of the inner panel PF. When the greeting card 400 is opened, the inner panel PF is unfolded and extends between the outer edges of the greeting card 400 creating a triangular configuration between the right 40D and left 40A inside panels and the inner fence-like panel PF, as shown in
A string S is attached at one end to the left inside panel 40A of the greeting card 400 and at the opposite end to the right inside panel 40D of the greeting card 400. The string S is attached across an upper portion of the greeting card 400 above the inner fence-like panel PF. When the greeting card 400 is in a closed position the sting S contains slack and lies between the two inner panels 40A, 40D of the greeting card 400 and when the greeting card 400 is opened, the string S is pulled taut across the inner surface of the greeting card 400, as shown in
Electronic components, including a small motor 12 are contained within the second pocket or cavity between the third 40C and fourth 40D greeting card panels. The motor 12 may be of the type having a rotating gear mechanism that when activated turns a circular gear. A connecting rod is located between and connects the gear to one end of the string S described above (through an opening in the inside left inside panel 40D of the greeting card 400). As the gear is rotated by the gear mechanism, it in turn causes the string S to move in a back-and-forth or up-and-down reciprocating motion. This motion causes the die cut shapes DE which are suspended from the string S to appear as though they are moving or blowing in the wind. As the right side end of the string enters through the right inside panel 40D of the greeting card 400 it is wound about a circular spool SP and then attached to the connecting rod of the motor 12. A sound module operative to store and replay at least one audio file and other electronic components which may be contained within the greeting card 400 include, but are not limited to: a circuit board 14; an integrated circuit chip; a power source 16; a speaker 18; and a switch 19. The electronic components of the greeting card 400 described herein are considered to be readily understood and appreciated by one of ordinary skill in the art and are therefore not discussed in detail herein.
In operation, when the greeting card 400 is opened the inner fence-like panel PF is unfolded and the string S is pulled taut across the inside of the greeting card 400. A slide switch 19 located across the main fold line F2 initiates the sound and motor modules causes replay of audio through the speaker 18 and activation of the motor module 12 which causes the string S to move in a bouncing-like motion causing the die cut shapes or elements DE suspended therefrom to appear as though they are swaying in the wind.
While the fourth embodiment of the present invention has been described herein and shown in the figures as having a particular fold and number of panels, other greeting card folds, configurations and number of panels have been contemplated and are considered to be a part of the present invention.
While all of the greeting card embodiments described herein have been described and shown in the figures as having specific sizes, shapes, with particular electronic components and locations thereof, other options such as different sizes, shapes, types of motors, types of switches and such have been considered and are intended to fall within the scope of the present invention. The examples set forth and described herein are intended for illustrative purposes only and are not meant to limit the invention in any way.
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.
This application is a divisional of and claims priority to U.S. patent application Ser. No. 14/922,236, filed on Oct. 26, 2015, which is a non-provisional of and claims priority to U.S. Provisional Patent Application No. 62/069,364, filed on Oct. 28, 2014. Each of the above-referenced patent applications is incorporated herein by reference in its entirety.
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Number | Date | Country | |
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20170120660 A1 | May 2017 | US |
Number | Date | Country | |
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62069364 | Oct 2014 | US |
Number | Date | Country | |
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Parent | 14922236 | Oct 2015 | US |
Child | 15357610 | US |