KR20080105704A - Stereoscopic image sheet structure and manufacturing method - Google Patents

Abstract

The present invention relates to a three-dimensional image sheet structure that can easily implement a three-dimensional image and a manufacturing method thereof, the three-dimensional image sheet structure is an optical convex lens sheet arranged in a radial, vertical, horizontal, circular, etc. in various forms ; Stereoscopic prints made using the Moiré pattern through which the block lens sheet is transmitted, and stereoscopic effect photos using binocular disparity, animation composed of multiple composite images, and the shooting angles are converted and zoomed when the camera is photographed. An image sheet for simultaneously arranging a compressed image including an image obtained by compressing a plurality of images in a frame unit obtained by a moving image due to the use of a moving image, a perspective image, a conversion of a photographing color, or the like; An adhesive layer for bonding the optical convex lens sheet to the image sheet; Since the convex lens sheet and the image sheet are composed of ink or adhesive coating layer by matching the image of the compressed and synthesized images to the focal length of the optical convex lens sheet, the stereoscopic image can be realized by using only the convex lens sheet. It is possible to produce a video work that has a maximum effect at a low cost.

Description

A-Dimensional Image Sheet Structure and Manufacturing Method Thereof}

1 is an exploded perspective view of a three-dimensional convex lens combined with a three-dimensional pattern such as a moiré pattern by combining the image compressed image and the convex lens sheet of several unit frames according to the principles of the present invention.

2 is a cross-sectional view showing a three-dimensional convex lens sheet according to the principles of the present invention.

Figure 3 is a plan view showing the lens element arrangement of the radial convex lens sheet according to the principles of the present invention.

Figure 4 is a cross-sectional view showing the configuration of a radial three-dimensional convex lens sheet according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: convex lens sheet 2: adhesive layer

3: image sheet 4: compressed image part

5: coating layer

The present invention relates to providing an image production capable of realizing a stereoscopic image, and in particular, to a stereoscopic image sheet structure which can easily implement a stereoscopic image that can easily implement a stereoscopic image using various convex lens sheets, and to manufacture the same. It is about a method.

As a representative conventional technique, a "radial convex lens three-dimensional printing sheet" is disclosed in Korean Utility Model Registration No. 20-311905, which discloses a three-dimensional image in which printed matter transmitted through a conventional radial convex lens sheet is felt by binocular disparity. However, it forms two printing patterns, that is, a non-focal length printing layer and a focal length printing layer, and the focal length printing layer is further constructed with a lens transparent layer to induce a moiré phenomenon of a repeated image pattern. It is composed. However, in this prior art, there was a non-limiting advantage in the direction of the top, bottom, left and right with respect to the image, but the convex lens itself has a natural color change or the zoom effect that the specific image is larger and smaller, the transition effect that the image was seen and disappeared, the complex There was no way to express a three-dimensional effect on a product image having a layered layer, and the effect of the three-dimensional image itself was very simple. As a result, the design was limited, and the pattern that could be effective also had a limitation of form (shape restrictions such as dots and shapes). As a result, the application range of the production was inadequate due to the lack of differentiation from the prints representing the existing images.

In addition, the effect of the printed matter passing through the existing vertical, horizontal lenticular sheet can be expressed in any shape in three dimensions while causing dizziness or bounded by the orientation and size of the horizontal or vertical.

Therefore, it would be very desirable to implement stereoscopic images that deviate from these limitations. On the other hand, in modern times, image production techniques are very developed, and in particular, it is possible to produce a video object using a computer, and not only a moire pattern imaging device, but also to produce a video by combining or arranging three-dimensional images thereof, In addition, high-resolution film output devices, high-precision printing machines, etc., which mass-produce output of such images have been developed.

Accordingly, the present invention has devised a method of applying a complex image effect, which was not conceivable in the past, to the radiation array convex lens sheet.

Accordingly, the present invention is a three-dimensional effect by integrating a three-dimensional print of a simple pattern using a moiré without direction, a compressed image of a multi-frame unit, a compressed image achieved by the interlacing technique of compression technology to a radial convex lens sheet. It is an object of the present invention to provide a stereoscopic image sheet structure and a method of manufacturing the same, which can easily realize a stereoscopic image made into a special stereoscopic printed material having a combination of zoom, animation, and conversion functions.

According to the present invention, a three-dimensional image sheet structure capable of simply implementing a three-dimensional image may include an optical convex lens sheet arranged radially in various forms such as cubic, vertical, horizontal, and circular; Part of the three-dimensional print using the moiré pattern, and the remaining part of the three-dimensional print, the stereoscopic effect photo using binocular disparity, the animation composed of multiple composite images, the shooting angle when the camera is taken, An image sheet for simultaneously arranging a compressed image which is a compressed image of several images in units of frames obtained by moving images, perspective images, conversion of photographing colors, etc .; An adhesive layer for bonding the optical convex lens sheet to the image sheet; It is composed of a coating layer in which the convex lens sheet and the image sheet are integrally assembled so as to match an image that is complexly compressed and synthesized with the focal length of the optical convex lens sheet.

According to the present invention, there is provided a method of manufacturing a three-dimensional image sheet structure which can easily realize a three-dimensional image, by manufacturing an optical convex lens sheet arranged radially in various forms such as cubic, vertical, horizontal and circular; A part of the three-dimensional print is produced using a moire pattern, and the remaining part of the three-dimensional print is a three-dimensional effect photo using binocular disparity, an animation composed of multiple composite images, and a shooting angle is converted when using the camera and zooming is used. Producing an image sheet in which a compressed image consisting of a compressed image, which is a compressed image consisting of a plurality of images in units of frames obtained by moving images, perspective images, conversion of photographing colors, etc .; An adhesive layer is positioned between the optical convex lens sheet and the image sheet; The convex lens sheet and the image sheet are integrally assembled by matching the image that is compressed and synthesized to the focal length of the optical convex lens sheet by the printed layer.

Therefore, the present invention can be implemented as a convex lens sheet and a special image printing layer, it is possible to implement a three-dimensional image by using only the convex lens sheet, it is possible to produce an image work having a maximum effect at a low cost.

The present invention will be described in detail with reference to the accompanying drawings as follows.

As shown in the drawings, the present invention is a radially arrayed convex lens sheet (1) having a cubic, vertical, horizontal, circular, etc. that can have a complex effect by improving the limited limitations and insignificant effects already mentioned. It is possible to produce a special three-dimensional image using.

That is, the image sheet 3 which is located at the focal length with respect to the convex lens sheet 1 is first produced. In this case, the image sheet is a portion printed with a desired image image and is produced as described below. This image sheet (3) is produced separately according to the characteristics of the image to be expressed by various techniques, part of the three-dimensional print (7) using the moire pattern is formed, and the remaining part of the stereoscopic effect photo using binocular disparity, multiple composite Compressed images (6), which are an image that is an image or a compressed image (6) that converts a shooting angle at the time of camera shooting and that is a moving image due to the use of a zoom, or a compressed image of several images in a frame unit obtained by a perspective image, a conversion of a shooting color, etc. It is produced to have a predetermined arrangement. The three-dimensional print may be composed of a moire pattern.

In order to produce such an image sheet 3, the coating layer 5 is generally 4 degrees on the rear side of the radiation array convex lens sheet 1, for example, cyan, magenta, magenta, and yellow. ), High resolution direct and indirect printing through the addition of black primary color process ink or spot color ink, resulting in a composite special printing sheet.

Therefore, the image sheet 3 is arranged such that its compressed image 6 and stereoscopic stereoscopic printed material 7 are matched on the lower focal length plane 9 of the lens 11 with a uniformly spaced arrangement as shown in FIG. 2. It is combined with the convex lens sheet 1 printed directly or indirectly. A three-dimensional stereoscopic image produced by the optical convex lens sheet produced by the fabrication technique through such assembly is produced.

The compressed image 6 prints the compressed image in the unit of frame in the primary color 4 degrees (C, M, Y, K) process or spot color, and then prints in spot color or multiple spot colors for printing to form a three-dimensional moire pattern. Possible with composite video.

The lenses 11 formed on the convex lens sheet 1 may be repeatedly formed in a predetermined array vertically and horizontally in a circular and / or rectangular shape so as to have an array of 90 degrees or 45 degrees.

As shown in FIG. 4, an upper portion of the convex lens sheet 1 may have a separate printing unit 13 and a separate emboss 14.

On the other hand, the present invention is a method of manufacturing a three-dimensional image sheet structure that can easily implement a three-dimensional image to produce an optical convex lens sheet (1) in a radial arrangement in various forms, such as cubic, vertical, horizontal, circular.

Then, the image sheet (3) is produced, a part of the image sheet (3) without the need for lighting equipment or special glasses, the three-dimensional projection of the image when viewed from the front of the sheet, zoom of a specific image, conversion of a specific portion, etc. The three-dimensional printed material 7 is formed using a moiré pattern having no orientation and irrelevant to the movement of the vertical and horizontal lines.

The compressed image 6 formed on the remaining portion of the image sheet 3 may adopt various image expression techniques, and may have the same effect as the image compression technique represented by the lenticular lens. The image must be compressed in the same direction as each convex lens arranged on the sheet (FIG. 3). For example, in the case of zooming, a video or converted image is appropriately arranged with a large number of images in a frame unit in a desired portion, and then the interlacing of left and right forms and the interlacing of top and bottom forms are performed. It is manufactured to match the printing dot with the convex lens so that it can be observed.

In addition, in the case of moiré-induced three-dimensional representation, the size, interval, and type of the pattern are selected and designed, and then patterned with the same or similar angle and the number of line dots as the convex lens in the portion except the compressed portion of the image. Put it in. In this case, the moiré induction pattern is a pattern to output one by one of the printing network dots existing in film output, so high resolution printing and high precision printing of 300 to 400 lines or more is essential.

The adhesive layer 2 is positioned between the optical convex lens sheet 1 and the image sheet 3 (in the case of direct printing, no adhesive layer is required). The coating layer 5 is an image that is compressed and synthesized in combination with the focal length of the optical convex lens sheet 3, that is, the stereoscopic printed material 7 and the compressed image 6 correspond to each other, so that the convex lens sheet 1 and the image sheet are respectively matched. (3) to be assembled integrally.

The present invention can produce a result of a new effect having a three-dimensional effect using a general image such as zoom, animation, transformation, color conversion, stereoscopic, while having a three-dimensional effect irrespective of the direction of the production by the position of the observer. In addition to providing special effects such as new stereoscopic and transformation, by expressing the merits of various effects simultaneously by mixing the advantages of stereoscopic using moiré that convex lens can have in convex lens and image compression technology of frame unit without additional cost You can create new types of effects.

Because of this, it is possible to widen and activate the area of advertisement and product by using the radial array convex lens sheet that has no limitation in horizontal and vertical size and effect, away from the existing simple pattern-oriented effects.

Using only such a convex lens sheet can realize a three-dimensional image, it is possible to produce an image work that has the maximum effect at a low cost.

Claims (5)

In the three-dimensional image sheet structure that can easily implement a three-dimensional image, Optical convex lens sheets arranged radially in various forms such as cubic, vertical, horizontal and circular; Part of the three-dimensional print using the moiré pattern, and the remaining part of the three-dimensional print, the stereoscopic effect photo using binocular disparity, the animation composed of multiple composite images, the shooting angle when the camera is taken, An image sheet for simultaneously arranging a compressed image which is a compressed image of several images in units of frames obtained by moving images, perspective images, conversion of photographing colors, etc .; An adhesive layer for bonding the optical convex lens sheet to the image sheet; 3. A three-dimensional image sheet structure comprising a coating layer in which a convex lens sheet and an image sheet are integrally assembled by matching an image that is compressed and synthesized in combination with a focal length of an optical convex lens sheet. The method of claim 1, Three-dimensional image sheet structure characterized in that the compressed image of the unit of multiple frame is printed in the primary color 4 degrees (C, M, Y, K) process or spot color and then printed in spot color or multiple spot colors for printing to form a three-dimensional moire pattern. . The method of claim 1, Each circular and square lens formed on the convex lens sheet is repeatedly formed up, down, left and right, and has a three-dimensional image sheet structure. The method of claim 1, The three-dimensional image sheet structure, characterized in that formed on the upper portion of the convex lens sheet printing (13) and the embossed portion. In the manufacturing method of the three-dimensional image sheet structure, Preparing optically convex lens sheets which are radially arranged in various forms such as cubic, vertical, horizontal and circular; A part of the three-dimensional print is produced using a moire pattern, and the remaining part of the three-dimensional print is a three-dimensional effect photo using binocular disparity, an animation composed of multiple composite images, and a shooting angle is converted when using the camera and zooming is used. Producing an image sheet in which a compressed image consisting of a compressed image, which is a compressed image consisting of a plurality of images in units of frames obtained by moving images, perspective images, conversion of photographing colors, etc .; An adhesive layer is placed between the optical convex lens sheet and the image sheet; A method of manufacturing a three-dimensional image sheet structure, characterized in that the coating layer is made to match the image of the compression and synthesis complex to the focal length of the optical convex lens sheet in a step of assembling the convex lens sheet and the image sheet integrally.

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