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.

A grating painting device based on fixed viewing angle is disclosed, which includes a painting board, a grating board, a support frame and a reciprocating moving mechanism, the grating board is arranged above the painting board, the support frame is fixed at the bottom of the painting board, the support frame is arranged perpendicular to the painting board, and the reciprocating movement mechanism is arranged on the support frame. The reciprocating mechanism is used to drive the support frame to move, and then the painting board is driven to move left and right, and the moving distance is guaranteed to be a multiple of more than 1/N (N is the number of lines of the grating board) inches. Under the condition that the observation position is unchanged, multiple pictures can be seen to appear continuously, and a animation or video can be visually experienced to be repeatedly displayed on the pictures.

A grating painting device based on fixed viewing angle is disclosed, which includes a painting board, a grating board, a support frame and a reciprocating moving mechanism, the grating board is arranged above the painting board, the support frame is fixed at the bottom of the painting board, the support frame is arranged perpendicular to the painting board, and the reciprocating movement mechanism is arranged on the support frame. The reciprocating mechanism is used to drive the support frame to move, and then the painting board is driven to move left and right, and the moving distance is guaranteed to be a multiple of more than 1/N (N is the number of lines of the grating board) inches. Under the condition that the observation position is unchanged, multiple pictures can be seen to appear continuously, and a animation or video can be visually experienced to be repeatedly displayed on the pictures.

The present disclosure relates to a composite membrane and a packaging structure. The composite membrane comprises: a carrier layer; and an information layer, wherein the information layer is disposed on one side of the carrier layer along thickness direction of the composite membrane, and the information layer further comprises a light-transmitting layer, a first pattern layer, and a second pattern layer, which are disposed along the thickness direction of the composite membrane, wherein: the first pattern layer is disposed close to the carrier layer; the light-transmitting layer is disposed on one side of the first pattern facing layer away from the carrier layer; the second pattern layer is disposed on one side of the light-transmitting layer facing away from the carrier layer, and the second pattern layer and the first pattern layer present different visual information of one multi-dimensional object.

A thermal transfer sheet includes a substrate and a transfer layer, in which the transfer layer after transfer has a reduced peak height (Spk) of 0.6 μm or more. A method for producing a printed material using a thermal transfer sheet including a particle layer disposed on a substrate and an image-receiving sheet including a thermal protrusion-and/or-recess forming layer and a receiving layer stacked in that order on a second substrate, the receiving layer including an image that has been formed, includes the steps of heating the image-receiving sheet to form a protrusion and/or a recess at the image-receiving sheet, and heating the thermal transfer sheet to transfer the particle layer to at least part of the protrusion of the image-receiving sheet.

The present invention generally relates to display structures, and more particularly to a shadow box device for displaying items of artwork to create an impression that a piece of artwork is three-dimensional. The device may include light and sound modules which may be configured to interact with the surroundings of the device.

Techniques for controlling optical behavior of a multi-view display apparatus comprising a first layer comprising first optical elements and a second layer comprising second optical elements. The techniques include obtaining a plurality of scene views; obtaining information specifying a model of the multi-view display apparatus; obtaining information specifying at least one blurring transformation; and generating actuation signals for controlling the multi-view display apparatus to concurrently display a plurality of display views corresponding to the plurality of scene views, the actuation signals comprising first actuation signals for controlling the first optical elements and second actuation signals for controlling the second optical elements, the generating comprising: generating the first actuation signals and the second actuation signals based, at least in part, on the plurality of scene views, the information specifying the model of the multi-view display apparatus, and the information specifying the at least one blurring transformation.

Printed matter that includes a light-transmissive substrate, a laminated clear layer, and a light adjustment layer. The laminated clear layer is disposed above a main surface of the substrate, and is composed of clear element layers that are light-transmissive. The light adjustment layer has a function of adjusting an amount of light transmitted therethrough and is disposed on the laminated clear layer and/or interposed between a plurality of the clear element layers. The adjustment layer includes light reflective particles and covers a portion of a surface of a layer thereunder. Each of the light reflective particles is granular and has a light reflective surface. The light adjustment layer, in terms of surface area ratio in plan view, covers from 2% to 50% of the surface of the layer thereunder.

Printed matter that includes a light-transmissive substrate, a laminated clear layer, and a light adjustment layer. The laminated clear layer is disposed above a main surface of the substrate, and is composed of clear element layers that are light-transmissive. The light adjustment layer has a function of adjusting an amount of light transmitted therethrough and is disposed on the laminated clear layer and/or interposed between a plurality of the clear element layers. The adjustment layer includes light reflective particles and covers a portion of a surface of a layer thereunder. Each of the light reflective particles is granular and has a light reflective surface. The light adjustment layer, in terms of surface area ratio in plan view, covers from 2% to 50% of the surface of the layer thereunder.