The present disclosure and related inventions pertain to greeting cards and more specifically to telescoping greeting cards with sound-producing and multi-media functions.
Conventional paper greeting cards are widely used for celebratory occasions such as birthdays, graduations, weddings, and for other communication and social expression purposes. Traditional text information is generally found on paper greeting cards. More recently, sound has been added to traditional paper greeting cards, in the form of electrically powered compact circuits with pre-recorded messages and music to increase the entertainment value of cards by delivering an audio message that is electronically embodied in circuitry that is carried by or contained within the greeting card, such as between panels or pages of the card. The ability to use sound in combination with printed matter such as with conventional printed greeting cards significantly enhances the entertainment and communicative value of social and relational greetings. The use of popular music and media has made sound-generating greeting cards increasingly popular. Conventional style greeting cards are most commonly “gate-folded” in the manner of a book, with a front panel connected along a fold line to a back panel, each panel having a front and back side.
In one aspect of the present invention, a telescoping greeting card is described having a first pocket, a second pocket configured to be contained within and slidably attached to the first pocket, a third pocket configured to be contained within and slidably attached to the second pocket, a first panel configured to be contained within and slidably attached to the third pocket, a sound module operative to store at least one pre-recorded audio file and playback said at least one pre-recorded audio file, the sound module being contained and concealed within the first pocket, and a switch contained within the second pocket. The greeting card is operative to telescope between a closed position in which the second and third pockets and first panel are each contained within the first pocket and an open position wherein the second and third pocket and first panel are fully extended outside of the first pocket. The switch is triggered by removing the second pocket from the first pocket, initiating playback of the at least one pre-recorded audio file contained within the sound module.
In another aspect of the invention, a telescoping greeting card is described as having a greeting card body comprising a panel slidably engaged with and nested within a third pocket, the third pocket slidably engaged with and nested within a second pocket, the second pocket slidably engaged with and nested within a first pocket, a sound module comprising a circuit board, an integrated circuit, a power source, a memory chip, a speaker and at least one pre-recorded audio file contained on the memory chip, and a light sensitive switch. To open the greeting card from a closed position, the panel is removed from the third pocket, the third pocket is removed from the second pocket and the second pocket is removed from the first pocket. The light sensitive switch and sound module are contained within the greeting card body and the light sensitive switch triggers the sound module to play the at least one pre-recorded audio file when it is exposed to a change in the amount of light detected by the switch.
In still another aspect of the invention, a telescoping greeting card is described having a main pocket with a front panel, a back panel and three side panels that extend between the front and back panels, the main greeting card being open along one side of the pocket, a second pocket having a front panel, a back panel, the front and back panels being connected along three sides and a fourth side being open, a third pocket having a front panel, a back panel, the front and back panels being connected along three sides and a fourth side being open, and a panel having a front side and a back side. The main pocket is directly engaged with the second pocket, the second pocket is directly engaged with the third pocket, and the third pocket is directly engaged with the panel. The second panel fits within the main pocket with a substantial portion of the second pocket capable of being slidably removed form the main pocket. The third pocket fits within the second pocket with a substantial portion of the third pocket capable of being slidably removed from the second pocket. The panel fits within the third pocket with a substantial portion of the panel capable of being slidably removed from the third pocket. The greeting card is operative to play at least one pre-recorded audio file upon the removal of the second pocket from the main pocket.
The telescoping greeting cards 100 of the present disclosure and related inventions have sound, light, vibration, electronic media or other functions, including sound-generating circuitry and mechanisms which are activated in various ways related to the structure of the greeting card, and using either mechanical, light or magnetically activated or switched circuits.
The greeting card body includes a plurality of telescoping pockets or panels which telescope in an inward and outward direction with respect to one another. The first or main pocket or receptacle 10 serves as the outer surface of the greeting card and is therefore the largest of the pockets or panels of the greeting card. All of the remaining pockets or panels are sized to fit within the first or main pocket 10. After the first or main pocket 10, each successive pocket or panel is slightly smaller in size than the previous pocket or panel such that each successive pocket or panel fits within the previous pocket.
The construct of the first or main pocket 10, as shown in
Electronics and related circuitry, described in further detail below, are attached to the back or inside surface of panel B. Once the appropriate electronics have been attached, adhesively or otherwise, to the back or inside surface of panel B, panel C is folded along fold line 18 to overlie or face panel B, thereby concealing the electronic components between panels B and C. Panel C may be attached to panel B using adhesive or any other attachment mechanism. Side panels D and F are folded along fold lines 12 and 16 respectively and again along fold lines 20 and 22 respectively, such that the slide tab panels G, H are in a perpendicular arrangement with respect to side tabs D and F and a parallel arrangement with panel B. The slide tab panels G, H are spaced apart from panel B in an amount equal to the width of side panels D and E. Side panel E and panel A remain Lin folded until all of the remaining greeting card pockets or panels are engaged with each other, beginning with the main pocket 10.
A representative die cut of the second 21 and third pockets 31 is shown in
A representative die cut of a fourth panel 41 of the greeting card is shown in
The main pocket 10 of the greeting card contains and conceals electronic components of a sound module 23 such as a speaker 44, circuit board 50, an integrated circuit 48, a processor, power source 46 and related circuitry, as shown in
Although a light sensitive activation switch is described herein, other types of sensor may be used such as: a mechanical contact arm switch located within the main panel of the greeting card that triggers audio once the last or second pocket has been removed from within the contact arm; or a magnetic switch wherein a small magnet is contained within two of the greeting card pockets such that when the panels are moved away from each other, the magnets break contact thereby triggering the playing of the audio files. Other such switch mechanisms, known to one skilled in the art, are considered to be within the scope of this invention. Also, the switch mechanism may be contained in any of the described pockets of the greeting card.
In another embodiment, the greeting card may additionally contain components for recording and playback capability. One of the panels or pockets of the greeting card may contain a push button switch which would initiate a sound recording session by which a user would record a personalized message to be saved in memory. The user-recorded message would then be played when the trigger mechanism activates the sound module 23. A combination of pre-recorded sound files and user-recorded sound files may be used as well.
In addition to activating sound, the greeting card may also trigger other features in addition to or in place of sound, including lights, vibration or electronic media. One or more LED lights may be placed within small openings located in various pockets or panels of the greeting card so that when the trigger mechanism is activated, the lights are turned on. Various other mechanical mechanisms in combination with moveable components of the greeting card may be initiated by the trigger mechanism to vibrate, oscillate, rotate, or move in a lateral up and down motion.
It will be appreciated by persons skilled in the art that numerous variations and/or modifications may be made to the invention as shown in the specific embodiments without departing from the spirit or scope of the invention as broadly described. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive. Other features and aspects of this invention will be appreciated by those skilled in the art upon reading and comprehending this disclosure. Such features, aspects, and expected variations and modifications of the reported results and examples are clearly within the scope of the invention where the invention is limited solely by the scope of the following claims.
This application claims priority to U.S. Provisional Patent Application No. 61/288,960 filed on Dec. 22, 2009, which is incorporated herein by reference in its entirety.
Number | Date | Country | |
---|---|---|---|
61288960 | Dec 2009 | US |