To make a displayed image clear. A display device emits image light reflected by a plurality of prisms (141) provided in a light guide plate (14) from a light exit surface (14c). The prism (141) has a reflective surface (141a) that reflects and emits the image light. The reflective surface (141a) is formed in a curved shape in a thickness direction of the light guide plate (14).

A lenticular animation device for animating coded images. A viewing device has a base structure and a pivotally coupled cover structure. A lenticular plate defines a viewing area, and a manually-operated actuation mechanism, such as a crank system, produces longitudinal, reciprocating relative movement between the platen and the lenticular plate. Lateral edge guides maintain alignment. Corresponding alignment formations retained adjacent to the platen and alignment formations in the coded image member cooperate to maintain alignment of the coded image member. Coded images can include user-completed portions, potentially in combination with non-coded images sharing a unified theme, for being colored by a user. Coded images can be exposed by removing an obscuring overlay or applying a reagent or assembled as puzzle pieces to permit user participation in the creation and animation of coded images. Opposed alignment pegs and holes can lock the cover structure against displacement relative to the base structure.

A lenticular animation device for animating coded images. A viewing device has a base structure and a pivotally coupled cover structure. A lenticular plate defines a viewing area, and a manually-operated actuation mechanism, such as a crank system, produces longitudinal, reciprocating relative movement between the platen and the lenticular plate. Lateral edge guides maintain alignment. Corresponding alignment formations retained adjacent to the platen and alignment formations in the coded image member cooperate to maintain alignment of the coded image member. Coded images can include user-completed portions, potentially in combination with non-coded images sharing a unified theme, for being colored by a user. Coded images can be exposed by removing an obscuring overlay or applying a reagent or assembled as puzzle pieces to permit user participation in the creation and animation of coded images. Opposed alignment pegs and holes can lock the cover structure against displacement relative to the base structure.

The present invention relates to display systems that use materials made from various arrangements of lenses and other optical materials. Careful design and use of these materials can be used to achieve display systems with many desirable visual effects having applicability in image and video displays, virtual reality, immersive environments, as well as in architecture, art, entertainment, and interactive systems.

A method for producing a security element formed as a lenticular flip, including a micro-optical layer, a carrier substrate and an image layer, wherein the image layer includes n images for n=1 to i which are visible from an n-th observation angle allocated to the n-th image, and wherein n is at least 1. The images are imaged on a photoresist with parallel light in contact print or by means of projection. After the photoresist is developed, an image layer which includes the i images is present.

A method for producing a security element formed as a lenticular flip, including a micro-optical layer, a carrier substrate and an image layer, wherein the image layer includes n images for n=1 to i which are visible from an n-th observation angle allocated to the n-th image, and wherein n is at least 1. The images are imaged on a photoresist with parallel light in contact print or by means of projection. After the photoresist is developed, an image layer which includes the i images is present.

Provided is a lenticular display including a lenticular lens including a plurality of columnar convex lenses that each have a semicylindrical surface and are arrayed in parallel and a lenticular image disposed on an opposite side of the convex lenses from the semicylindrical surface. The lenticular image includes an image strip group in which a plurality of image strips for displaying a plurality of display images respectively are arranged in positions for causing the image strips to be displayed through the plurality of convex lenses respectively in a state where a longitudinal direction of the image strips is parallel to a longitudinal direction of the plurality of convex lenses, and in the image strip groups, and a total width of image strips for displaying at least one display image among the plurality of display images is larger than a total width of image strips for displaying another display image.

Provided is a lenticular display including a lenticular lens including a plurality of columnar convex lenses that each have a semicylindrical surface and are arrayed in parallel and a lenticular image disposed on an opposite side of the convex lenses from the semicylindrical surface. The lenticular image includes an image strip group in which a plurality of image strips for displaying a plurality of display images respectively are arranged in positions for causing the image strips to be displayed through the plurality of convex lenses respectively in a state where a longitudinal direction of the image strips is parallel to a longitudinal direction of the plurality of convex lenses, and in the image strip groups, and a total width of image strips for displaying at least one display image among the plurality of display images is larger than a total width of image strips for displaying another display image.

A general purpose image and visual effects display apparatus, with associated methods, which is comprised of an array of independently angled reflective or refractive elements wherein the varying angle pattern of each element across said array is designed to reflect or refract specifically designed as well as fortuitously located existing colors, in precisely determined patterns, to make apparent to specific viewing or receiving locations a wide range of complex emergent visual and other effects. In some embodiments very high resolution and high color fidelity image display is possible. In other embodiments moving images akin to video can be displayed, using no electronics or moving parts. In other embodiments true binocular 3D images can be displayed directly to viewers, without the need for special 3D viewing glasses. Many of the embodiments and methods are applicable to non-visible light and other reflectable wave-based phenomena.

A general purpose image and visual effects display apparatus, with associated methods, which is comprised of an array of independently angled reflective or refractive elements wherein the varying angle pattern of each element across said array is designed to reflect or refract specifically designed as well as fortuitously located existing colors, in precisely determined patterns, to make apparent to specific viewing or receiving locations a wide range of complex emergent visual and other effects. In some embodiments very high resolution and high color fidelity image display is possible. In other embodiments moving images akin to video can be displayed, using no electronics or moving parts. In other embodiments true binocular 3D images can be displayed directly to viewers, without the need for special 3D viewing glasses. Many of the embodiments and methods are applicable to non-visible light and other reflectable wave-based phenomena.