In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a three dimensional base comprising folding planar walls, accessory interface component, and accessory positioning component. An accessory having a body and a sliding interface component is installed upright within and connected with the three dimensional base forming a standing pop up structure.

A greeting card having mechanically actuated moving portions is provided. The greeting card may include a panel having one or more folds, one or more flexible drive shafts coupled to the panel and having a flipping or moving portion, and a decorative portion coupled to at least one of the panel and the flipping or moving portion. Each flexible drive shaft may be coupled to the panel such that a portion is positioned on a first side of the fold and a portion is positioned on a second side of the fold. When the greeting card is opened, a moment arm is created in the flexible drive shaft which causes the flipping or moving portion to move from a first position to a second position. The decorative portion may move in response to the flipping or moving portion moving from the first position to the second position.

A greeting card assembly for celebrating holidays includes a card. The card has a fold therein to define a first half that is hingedly coupled to a second half. A container is removably coupled to the card and the container is comprised of a translucent material. A plurality of objects is positioned in the container. The plurality of objects is selectively removable from the container when the container is removed from the card.

A greeting card generally comprising panels and a biasing member which stores a compressive force or a tensional force. The biasing member is coupled to the greeting card, such that the greeting card moves to an open configuration or a closed configuration, depending on the type of force held by the biasing member.

A method for producing a printed material includes forming a color image having an image area ratio of 20% or less on a peripheral edge portion of a recording medium by using a coloring material; providing pressure-induced phase transition particles to a region of the recording medium, the region including the peripheral edge portion; bonding the color image and the pressure-induced phase transition particles onto the recording medium; and folding the recording medium having the color image and the pressure-induced phase transition particles bonded thereon and pressure-bonding the folded recording medium, or pressure-bonding the recording medium having the color image and the pressure-induced phase transition particles bonded thereon and another recording medium placed on top of each other. The pressure-induced phase transition particles contain a styrene resin and a (meth)acrylic acid ester resin, the styrene resin contains styrene and a vinyl monomer other than styrene as polymerization components, the (meth)acrylic acid ester resin contains at least two (meth)acrylic acid esters as polymerization components, and a mass ratio of the (meth)acrylic acid esters is 90 mass % or more of a total of all polymerization components of the (meth)acrylic acid ester resin. The pressure-induced phase transition particles have at least two glass transition temperatures, and a difference between the lowest glass transition temperature and the highest glass transition temperature among the glass transition temperatures of the pressure-induced phase transition particles is 30? C. or more.

In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a plurality of wall panels connected with an internal base. A roof structure is provided and a roof interface component for attaching the roof to the structure. The assembly is moveable between a first position being substantially flat into a one dimensional structure and a second position enfolded into a three dimensional structure by manipulating the outer structure and the internal base. The roof interface component may swivel into place during the movement to the three dimensional structure, thereby positioning the roof structure over the upper portions of the first and second panel walls or, alternatively, a sliding feature is provided with a tab from the roof inserted into a slot at the top of one of the panel walls, thereby sliding the roof into position.

A three-dimensional informational or display card assembly manually moveable from a box-like configuration to a flat planar card configuration. The card assembly includes score lines for folding the card assembly. The ends of the card assembly are attached to each other by an adhesive or a mechanical means to form the box-like configuration. The sections of the card assembly are printable to receive printed indicia such that in the box-like configuration an onlooker can view the indicia both on the outside and on the inside of the card assembly. Also included is a sheet assembly that contains one or more of the card assemblies to allow a user to print indicia on the card assemblies and remove them from the sheet assembly for assembling into the final product. The card assembly may be dimensioned similar to a wallet-sized business card to provide a unique and interesting alternative to traditional business cards.

The present invention is a card that stands perpendicular to a horizontal surface. The card is made up of a single piece of material on which graphic images and letters have been printed and which has been specially shaped and pre-creased to enable a recipient to fold the base part of it so that the display part will rise up perpendicular to or at a raked angle from the horizontal surface on which it is placed. The single piece of material has no removed portions within an external outer edge of the material, capable of forming open apertures; The business/greeting/advertising display card stands upright to a horizontal surface within a line of sight of a viewer. Optionally the straight bottom may have an arcuate surface, capable of making the novelty card oscillate when manually pushed in a rocking side to side motion.

A gift card presenter for holding a gift card within a greeting card is provided. The presenter comprises a body for holding the gift card, and a coupling element for coupling the body to the greeting card. In one embodiment, the presenter may comprise a paper mechanic coupled to first and second interior faces of the greeting card, the paper mechanic configured to hold the greeting card and display it when the greeting card is opened. In another embodiment, the presenter comprises a body for holding the gift card, the body having a first half and a second half that each include interior and exterior faces. The presenter may be opened to display or partially display the greeting card. The presenter may be coupled to the inside and/or the outside of the greeting card, to provide a pleasing presentation of the gift card given with the greeting card.

A greeting card having a transparent and flexible pouch enclosing a deformable object is disclosed. The transparent and flexible pouch is vacuum sealed with the deformable object inside, such that the deformable object compresses. A transparent insert may be placed inside of the transparent and flexible pouch, in order to minimize disfiguration of the deformable object during the compression process.