A foam finger, in particular as a palm enlargement, advertising space or to be carried during sports events, that is comprised of at least two side faces connected to each other. At least a portion of a side face comprises a printed lenticular foil and/or a lenticular foil with images stuck behind it.

A foam finger, in particular as a palm enlargement, advertising space or to be carried during sports events, that is comprised of at least two side faces connected to each other. At least a portion of a side face comprises a printed lenticular foil and/or a lenticular foil with images stuck behind it.

In an optical structure for displaying a stereoscopic frame image on a structure formation surface, a frame motif that displays a frame image in which reflection moves is formed on a structure formation surface, the frame motif is made up of a plurality of perforated reflecting segments, each including one or more first reflecting mirrors having a reflective layer uniformly tilted relative to the structure formation surface, the tilt angle of the first reflecting mirror is different between adjacent perforated reflecting segments so as to gradually change over a plurality of adjacent perforated reflecting segments, and at least one of the plurality of perforated reflecting segments surrounds an opening provided with no first reflecting mirror.

In an optical structure for displaying a stereoscopic frame image on a structure formation surface, a frame motif that displays a frame image in which reflection moves is formed on a structure formation surface, the frame motif is made up of a plurality of perforated reflecting segments, each including one or more first reflecting mirrors having a reflective layer uniformly tilted relative to the structure formation surface, the tilt angle of the first reflecting mirror is different between adjacent perforated reflecting segments so as to gradually change over a plurality of adjacent perforated reflecting segments, and at least one of the plurality of perforated reflecting segments surrounds an opening provided with no first reflecting mirror.

Apparatus and associated methods relate to modifying contextual images to portions of an image applied to a layer in a shadow box. In an illustrative example, contextual imagery may adjust a portion of an original complete two-dimensional image deconstructed and applied to any of a plurality of panel substrates. Each of the plurality of panel substrates may be spatially separated into, for example, parallel layers in the shadow box. The adjustment may be made, for example, as a static addition or subtraction to provide visual context. Some examples may include standoff contextual features on one or more of the layers. Various examples may visually enhance a dimensional parallax effect for a viewer from a wide range of viewing angles.

The present disclosure is directed to articles configured as panels of artwork, methods of manufacturing the same, and methods of permanently transferring a coloring media to such articles. More particularly, the exemplary articles and methods for forming the same are configured to accept many types of coloring media on a surface thereof through use of a color-receptive layer.

The present disclosure is directed to articles configured as panels of artwork, methods of manufacturing the same, and methods of permanently transferring a coloring media to such articles. More particularly, the exemplary articles and methods for forming the same are configured to accept many types of coloring media on a surface thereof through use of a color-receptive layer.

An animated 3D image multiplying light assembly includes a light source having a plurality of light-emitting diodes. A mask is disposed at a predetermined distance from the light source, and a plurality of holes are adapted to allow light to pass through the mask. The mask includes more holes than the number of light-emitting diodes. A first lenticular sheet is adjacent a second lenticular sheet for projecting light from the light source having passed through the mask. The first lenticular sheet is aligned perpendicular with the second lenticular sheet for homogenizing light in a first direction and a second direction, perpendicular to the first direction. An outer lens is positioned such that light projected from the first lenticular sheet and the second lenticular sheet appears as though positioned at different depths with respect to the outer lens, providing a 3D appearance. When viewed dynamically, the light projected appears to move.

A system for creating three-dimensional grass graphics can include a means for cutting grass with an adjustable cutting height, a chlorophyll-based agent for coloring grass, and at least one stencil. The chlorophyll-based agent can be non-detrimental to a health of the grass and can be available in multiple shades. The stencil can be securable to the grass and can define a graphic to be painted on the grass using the chlorophyll-based agent. The means for cutting the grass can be able to pass over and around the stencil without damaging the stencil. Application of different shades of the chlorophyll-based agent to varying heights of grass can produce a three-dimensional effect for the graphic when viewed.

A system for creating three-dimensional grass graphics can include a means for cutting grass with an adjustable cutting height, a chlorophyll-based agent for coloring grass, and at least one stencil. The chlorophyll-based agent can be non-detrimental to a health of the grass and can be available in multiple shades. The stencil can be securable to the grass and can define a graphic to be painted on the grass using the chlorophyll-based agent. The means for cutting the grass can be able to pass over and around the stencil without damaging the stencil. Application of different shades of the chlorophyll-based agent to varying heights of grass can produce a three-dimensional effect for the graphic when viewed.