JP4532611B2 - Wall material image printing system, wall surface decoration method, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention prints an image that appears to be switched when viewed through a lenticular lens.WallThe present invention relates to an image printing system for a wall material, a wall surface decoration method, and a recording medium that can create a material.
[0002]
[Prior art]
It is used as a building wall material in which tiles are stretched on walls or floors. Colors or images are generally formed on the surface of the tile.
[0003]
As a method of creating a tile with colored drawing, there is a method in which a liquid pigment is jetted and drawn on the surface of a tile material and then fired, and then the surface of the formed tile is polished and finished.
As a method for forming a clear and precise image on the surface of a tile, there are methods described in JP-A-7-125500 or JP-A-7-330473.
[0004]
[Problems to be solved by the invention]
However, the conventional method for creating a tile only has a problem that a flat still image can be formed on the surface of the tile and is not interesting.
[0005]
In addition, if a moving image can be expressed on a tile, a more fun and hobby tile wall can be obtained. However, conventionally, in order to display a moving image, it is necessary to incorporate a complicated and expensive display device in addition to tiles into the wall surface, which increases the price of the entire wall and necessitates a space for installing the display device.
[0006]
In addition, conventionally, when some tiles on a tile wall or the like are damaged, there is a problem that much labor and cost are required to accurately reproduce only the damaged tile.
[0007]
The present invention has been made in view of the above-described circumstances, and is an image printing system for wall materials, a wall surface decoration method, and a wall surface decoration method capable of creating building wall materials (including floor materials, ceiling materials, etc.) such as interesting tiles. An object is to provide a recording medium.
[0008]
  Moreover, this invention is an image for wall materials which can easily reproduce a part of building wall material when some building wall materials (tile etc.) in building walls, such as a tile wall, are damaged. To provide a printing system, a wall decoration method, and a recording medium.
[0009]
[Means for Solving the Problems]
  In order to achieve the above object, an image printing system for a wall material according to a first aspect of the present invention includes:
  Original picture storage means for storing a plurality of original pictures for wall decoration;
  Image processing means for processing the original image stored in the original image storage means into an image that is viewed by switching each of the images of the plurality of original images when viewed through a lenticular lens;
  Printing means for printing an image processed by the image processing means on a building wall;
  Be equippede,
The image processing means includes
Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural,
The division position of the image is calculated based on the shape and size of the building wall material input by the wall material information input means, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image. Division position calculation means;
Image dividing means for dividing an image at the position calculated by the division position calculating means;
A printing position input means for inputting the divided position for printing;
With
The printing means includes means for including a code indicating the position of each image divided by the image dividing means in an image to be printed.
[0010]
The printing unit enlarges or reduces the image by a technique such as an error diffusion method according to the size of the wall material so that the divided image is printed on the entire surface of each wall material.
[0011]
  According to such a configuration, it is possible to provide an image printing system for a wall material that can create a building wall material on which an image that appears to be switched or moved from a plurality of positions through the lenticular lens is formed. .Also, with this configuration, it is possible to easily divide an image and print only an arbitrary divided image. Also, an image viewed through a lenticular lens cannot usually be recognized as it is. For this reason, it is impossible to immediately recognize where the building wall material on which the image is printed should be placed. Thus, when a code indicating the position of each image is added, the position can be easily recognized. This code may be a normal letter / number, barcode, two-dimensional code, or the like, or may be an image that can be recognized only when viewed from a specific angle through a lenticular lens. With such a configuration, when a building wall material such as a tile is damaged, it is possible to immediately cope with the reproduction of the damaged wall material.
  The original image may be stored in advance or may be input as necessary.
[0014]
Moreover, the image printing system for wall materials according to the second aspect of the present invention includes:
Original picture storage means for storing a plurality of original pictures for wall decoration;
Image processing means for processing the original image stored in the original image storage means into an image that is viewed by switching each of the images of the plurality of original images when viewed through a lenticular lens;
Printing means for printing an image processed by the image processing means on a building wall;
With
The image processing means includes
Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural,
The division position of the image is calculated based on the shape and size of the building wall material input by the wall material information input means, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image. Division position calculation means;
Image dividing means for dividing an image at the position calculated by the division position calculating means;
A printing position input means for inputting the divided position for printing;
With
Print information recording means for recording the print information by attaching an identification code to the print information comprising the identification information of the plurality of original images to be printed, the size of the wall material, the number of wall materials or the size of the wall image When,
  Means for including the identification code in an image to be printedWhen,
Is further provided.
[0015]
The print information and the identification code are associated with each other and recorded in a print information recording means such as a database, and the identification code is printed on the building wall material. By searching for printing information, it is possible to discriminate original images and printing conditions and to easily reproduce the building wall material. The identification code may be a normal letter / number, bar code, two-dimensional code, or the like, or may be an image that can be recognized only when viewed from a specific angle through a lenticular lens.
[0016]
Moreover, the image printing system for wall materials according to the third aspect of the present invention includes:
Original picture storage means for storing a plurality of original pictures for wall decoration;
Image processing means for processing the original image stored in the original image storage means into an image that is viewed by switching each of the images of the plurality of original images when viewed through a lenticular lens;
Printing means for printing an image processed by the image processing means on a building wall;
With
The image processing means includes
Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural,
The division position of the image is calculated based on the shape and size of the building wall material input by the wall material information input means, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image. Division position calculation means;
Image dividing means for dividing an image at the position calculated by the division position calculating means;
A printing position input means for inputting the divided position for printing;
With
  The wall material information input meansIsInput the shape and size of the building wall material forming the wall surface on which the image processed by the image processing means is printed, and the number of the building wall material in one of the horizontal direction and the vertical direction, and the division position The calculation means calculates the number of the other building wall material in the horizontal direction or the vertical direction of the wall surface to be printed and the division position of the image based on the information input by the wall material information input means. WithIt is characterized by that.
  According to this configuration, an image can be easily divided.
[0017]
In addition, after synthesizing the entire mural, a portion corresponding to each wall material may be cut out and printed on each building wall material, or a portion corresponding to the target wall material may be selected from a plurality of original images. It may be cut out, synthesized for a lenticular lens, and printed. That is, the procedure for synthesizing images to be printed on the wall materials is arbitrary.
[0018]
  The wall surface decorating method according to the fourth aspect of the present invention is:
  A method of decorating a wall surface formed by combining a plurality of wall materials on which an image is printed and a lenticular lens is arranged thereon,
  Multiple original images are stored in the original image storage means,
  When the original image stored in the original image storage means is viewed through the lenticular lens, an image of a part of each of the plurality of original images can be switched,
  Enter the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of the mural,
  Based on the input shape and size of the building wall material, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image, the division position of the image is calculated,
  The image is divided at the position calculated by the division position calculation means,
  Each divided image includes a code indicating the position of each image,
  For each wall material,SaidPartial images that form one significant image by combining images displayed on a plurality of wall materials are arranged.
  According to this method, it is possible to create a building wall material on which images that appear to move when viewed through the lenticular lens from a plurality of positions are formed. Also, with this configuration, it is possible to easily divide an image and print only an arbitrary divided image. Also, an image viewed through a lenticular lens cannot usually be recognized as it is. For this reason, it is impossible to immediately recognize where the building wall material on which the image is printed should be placed. Thus, when a code indicating the position of each image is added, the position can be easily recognized. This code may be a normal letter / number, barcode, two-dimensional code, or the like, or may be an image that can be recognized only when viewed from a specific angle through a lenticular lens. With such a configuration, when a building wall material such as a tile is damaged, it is possible to immediately cope with the reproduction of the damaged wall material.
  Moreover, the wall surface decoration method according to the fifth aspect of the present invention is:
  A method of decorating a wall surface formed by combining a plurality of wall materials on which an image is printed and a lenticular lens is arranged thereon,
  Multiple original images are stored in the original image storage means,
  When the original image stored in the original image storage means is viewed through the lenticular lens, an image of a part of each of the plurality of original images can be switched,
  Enter the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of the mural,
  Based on the input shape and size of the building wall material, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image, the division position of the image is calculated,
  The image is divided at the position calculated by the division position calculation means,
  The print information is recorded with an identification code attached to the print information including the identification information of the plurality of original images to be printed, the size of the wall material, the number of wall materials or the size of the mural image,
Including the identification code in the image to be printed;
  A partial image that forms one significant image by combining images displayed on the plurality of wall members is arranged on each wall member.
  The print information and the identification code are associated with each other and recorded in a print information recording means such as a database, and the identification code is printed on the building wall material. By searching for printing information, it is possible to discriminate original images and printing conditions and to easily reproduce the building wall material. The identification code may be a normal letter / number, bar code, two-dimensional code, or the like, or may be an image that can be recognized only when viewed from a specific angle through a lenticular lens.
  Moreover, the wall surface decoration method according to the sixth aspect of the present invention is:
  A method of decorating a wall surface formed by combining a plurality of wall materials on which an image is printed and a lenticular lens is arranged thereon,
  Multiple original images are stored in the original image storage means,
  When the original image stored in the original image storage means is viewed through the lenticular lens, an image of a part of each of the plurality of original images can be switched,
  Enter the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of the mural,
  Based on the input shape and size of the building wall material, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image, the division position of the image is calculated,
  The image is divided at the position calculated by the division position calculation means,
  Input the shape and size of the building wall material forming the wall surface on which the image processed by the image processing means is printed, and the number of the building wall material in one of the horizontal direction and the vertical direction,
  Based on the input information, calculate the number of the other building wall material in the horizontal direction or the vertical direction of the wall surface to be printed and the division position of the image,
  A partial image that forms one significant image by combining images displayed on the plurality of wall members is arranged on each wall member.
  According to this configuration, an image can be easily divided.
[0022]
  MaThe first of the present invention7The recording medium according to the viewpoint is
  Computer
  Original picture storage means for storing a plurality of original pictures for wall decoration,
  Print information recording means for recording the print information by attaching an identification code to the print information comprising the identification information of the plurality of original images to be printed, the size of the wall material, the number of wall materials or the size of the wall image And the means for including the identification code in the image to be printed. When the original image stored in the original image storage means is viewed through a lenticular lens, the images of each of the plurality of original images appear to be switched. Image processing means for processing images;
  Output means for processing the image processing means to output an image including the identification code on a building wall material;
  It can be read by a computer that records a program for functioning as a computer.
  The print information and the identification code are associated with each other and recorded in a print information recording means such as a database, and the identification code is printed on the building wall material. By searching for printing information, it is possible to discriminate original images and printing conditions and to easily reproduce the building wall material. The identification code may be a normal letter / number, bar code, two-dimensional code, or the like, or may be an image that can be recognized only when viewed from a specific angle through a lenticular lens.
  In addition, the first of the present invention8The recording medium according to the viewpoint is
  Computer
  Original picture storage means for storing a plurality of original pictures for wall decoration,
  Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural, and the shape and size of the building wall material input by the wall material information input means And a division position calculation means for calculating the division position of the image based on the number of the building wall materials or the size of the mural and the resolution and aspect ratio of the original picture, and the image is divided at the position calculated by the division position calculation means. An original image stored in the original image storage means when viewed through a lenticular lens, and includes a part of each of the plurality of original images. Image processing means for processing images into images that appear to be switched,
  The shape and size of the building wall material forming the wall surface on which the image processed by the image processing means is printed, the number of the building wall materials in one of the horizontal direction and the vertical direction, and the wall material information input means Means for calculating the number of the other building wall material in the horizontal direction or the vertical direction of the wall surface to be printed and the division position of the image based on the information input by
  Output means for outputting the image processed by the image processing means for printing on a building wall material;
  It can be read by a computer that records a program for functioning as a computer.
  According to this configuration, an image can be easily divided.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
An image printing system for wall material according to an embodiment of the present invention will be described below with reference to the drawings.
[0024]
As shown in FIG. 1, the image printing system for wall material of the present invention includes an input unit 1, an image input unit 2, an image memory 4, a control circuit 5, a display unit 6, a frame memory 7, and tiles. And a printer 8.
[0025]
The input unit 1 inputs various instructions and data.
[0026]
The image input unit 2 inputs image data for printing on a building wall material such as a tile and supplies the image data to the control circuit 5.
[0027]
The image memory 4 stores the image data input from the image input unit 2 separately for each of Y, M, and C color components and functions as a work area for the control circuit 5.
[0028]
The control circuit 5 includes an MPU (microprocessor unit), a DSP (digital signal processor), and the like, and operates according to a predetermined program, and executes image input processing, image composition processing, print control, and the like, which will be described later.
The contents of the control operation executed by the control circuit 5 will be described later.
[0029]
The display unit 6 includes a CRT, a liquid crystal display element, and the like, and displays a menu screen, an image input by the image input unit 2 and the like under the control of the control circuit 5.
[0030]
The frame memory 7 stores image data of each color of Y, M, and C of one image printed on the surface of the plurality of tiles 11 shown in FIG. In FIG. 2, one image is printed on the surface of the tile 11 of 5 horizontal sheets × 5 vertical sheets = 25 sheets.
[0031]
The tile printer 8 prints the image developed in the frame memory 7 under the control of the control circuit 5.
[0032]
The tile printer 8 includes, for example, means for electrically neutralizing the surface of the unfired tile and means for ejecting a liquid pigment made of an aqueous metal ion solution onto the surface of the neutralized tile by an inkjet nozzle. . After the liquid pigment ejected from the tile printer 8 permeates the tile 11, when the tile 11 is baked, the pigment develops color and an image appears.
[0033]
Next, the operation of the image printing system for wall material having the above configuration will be described with reference to FIGS.
[0034]
The wall creator operates the input unit 1 to instruct an original image selection process for selecting an original image to be printed on the surface of the tile 11. In response to this instruction, the control circuit 5 displays a list of a plurality of image data stored in the image memory 4. The wall creator selects a plurality of image data (original images) to be printed from the displayed list (step S1). The resolution and aspect ratio of the original picture are arbitrary.
[0035]
Next, the input unit 1 is operated to input the shape and size of the tile 11 to be printed (step S2). Further, in order to divide the image (original image) of the image data selected by the original image selection button as shown in FIG. 2 and display it on each tile 11, the number of tiles 11 to be printed is designated (see FIG. 2). Step S3).
The control circuit 5 saves the input shape and size of the tile 11 and the number of tiles 11.
[0036]
The control circuit 5 may calculate the number of tiles 11 in the vertical direction (or the number of horizontal directions) from the number of tiles 11 in the horizontal direction (or the number of vertical directions) using, for example, Equation 1. .
[0037]
[Expression 1]
Tn_h= H1 / ((w1 / Tn_w) * (T_h/ T_w))
Here, w1 is the number of pixels in the horizontal direction of the original image, h1 is the number of pixels in the vertical direction of the original image, and T_wIs the horizontal length of the tile 11, T_hIs the vertical length of the tile 11, Tn_wIs the number of tiles 11 in the horizontal direction used to represent the original image, Tn_hIs the number of tiles 11 in the vertical direction used for showing the original image.
[0038]
For example, if the number of pixels in the horizontal direction of the original image is 640, the number of vertical pixels is 480, the size of the tile 11 is 20 cm wide × 15 cm long, and the number of tiles in the horizontal direction is 5, the number of tiles in the vertical direction ( Tn_h) Is Tnh = 480 / ((640/5) * (15/20)) = (4/3) * 5 * (3/4) = 5.
[0039]
Further, instead of inputting the number of tiles 11, the size of a mural composed of a plurality of tiles 11 as shown in FIG. 2 may be input. In this case, the required number of tiles 11 can be calculated by dividing the size of the mural by the size of the tiles 11.
[0040]
As shown in FIG. 2, the control circuit 5 combines the tile image with the original image displayed on the display unit 6 and displays it.
[0041]
Thereafter, a range to be printed is designated from the input unit 1 (step S4). For example, as shown in FIG. 2, if the entire image data of an original image is printed on the surface of 25 tiles 11 with tile codes (X1, Y1) to tile codes (X5, Y5), for example, the original image When printing the whole, tile codes (X1, Y1) to tile codes (X5, Y5) are designated as the print range. Further, when printing only the range of tile codes (X2, Y2), (X3, Y2), (X4, Y2) in the image data of the original image, those tile codes are designated.
[0042]
Thereafter, the control circuit 5 sends the image data to be printed on each tile 11 to be printed to the frame memory 7 for each of the plurality of original images based on the processing from step S1 to step S4, and prints the image for printing. The images are combined (step S5) and printed on the tile 11 (step S6).
[0043]
The composition and printing operation of this print target image will be described.
[0044]
For example, as shown in FIG. 4, when the coordinate (x, y) of the origin (upper left corner) of the original image is (0, 0), the tile 11 with the tile code (r, c) is
Coordinates ((c-1) * w1 / Tnw, (r-1) * h1 / Tnh),
With coordinates ((c * w1 / Tnw-1, r * h1 / Tnh-1)
A pixel in the defined rectangular area is a print target image of one tile 11.
Here, w1 is the number of pixels in the horizontal direction of the original image, h1 is the number of pixels in the vertical direction of the original image, Tnw is the number of tiles 11 in the horizontal direction used to display the original image (entire), and Tnh is the original image (entire). This is the number of tiles 11 in the vertical direction used for display.
[0045]
For example, if the tile 11 to be printed is a tile code (2, 2), w1 is 640, h1 is 480, and Tnw and Tnh are 5, coordinates ((2-1) * 640/5, (2- 1) * 480/5) = (128,96) and coordinates ((2 * 640/5, 2 * 480/5) = (256, 192), and within the rectangular area indicated by the diagonal lines in FIG. Pixels are to be printed.
[0046]
The control circuit 5 calculates the area to be printed in the original image as described above, and appropriately enlarges or reduces the image in the area according to the actual size of the tile 11. Then, as shown in FIG. 5, the control circuit 5 slits the enlarged or reduced image in accordance with the characteristics of the lenticular lens 12 attached to the surface of each tile 11 and prints the image on the surface of the tile 11. 13 is drawn.
[0047]
Here, the moving image using the lenticular lens 12 is an image of each frame constituting the moving image, for example, the original image shown in FIGS. 6A to 6C, as shown in FIGS. 6D to 6F. It is formed by cutting out into stripes and arranging them regularly as shown in FIG.
[0048]
Details of the moving image creation processing will be described with reference to FIGS. 7, 8, and 9. FIG.
As shown in FIG. 7, the image memory 4 includes a set of Y, M, and C component image data Y1, M1, and C1 of the print target portion of the first original image, and a Y, M, and C component of the second original image. It is assumed that a set of image data Y2, M2, and C2, and a set of Y, M, and C component image data Y3, M3, and C3 of the third original image are respectively stored.
[0049]
First, the control circuit 5 sets an initial value 1 to a pointer i representing the number of a stripe cut out from the original images Y1 to Y3 in order to create a moving image of the Y color component. Further, an image creation area for the Y component moving image Ya is secured on the image memory 4 (FIG. 8, step S21).
[0050]
The control circuit 5 cuts out the i-th striped image Y1i from the image data Y1 stored in the image memory 4 (step S22).
As shown in FIG. 9A, the stripe Y1i includes pixels in the region where the X-axis coordinates of the image data Y1 are (i · n−b) to (i · n) and the Y-axis coordinates are 0 to K. It is an image composed of
[0051]
Here, n is the number of pixels corresponding to the diameter of the cylindrical lens of the lenticular lens, and is represented by D · d, where the diameter of the lenticular lens is D inches and the resolution of the image is d dots / inch. Further, b is a value that satisfies b ≦ n / 3, and corresponds to the width of the striped image. K represents the size (number of dots) in the Y-axis direction of the image.
[0052]
As shown in FIG. 9B, the control circuit 5 converts the extracted striped image in the X-axis direction ((i−1) · n + (n−3) in the image Ya formation region on the image memory 4. B) / 6) to ((i-1) .n + (n-3.b) / 6 + b), ie, from ((n-3b) / 6) to ((n + 3b) / 6), the Y axis Write (expand) in the area from 0 to K in the direction (step S23).
[0053]
Next, the control circuit 5 cuts out the i-th striped image Y2i from the image data Y2 stored in the image memory 4 (step S24). The cutout position is relatively the same as the cutout position of the i-th stripe of the image Y1, and as shown in FIG. 9A, the X-axis coordinate of the image data Y2 is (i · n−b) to ( i · n), the Y-axis coordinates are positions from 0 to K.
[0054]
The control circuit 5 extracts the striped image Y2i from the X-axis coordinate ((i−1) · n + (n−3 · b) / 6 + b + (n−3 · b) / 3) in the image Ya formation region. ((I-1) · n + (n−3 · b) / 6 + b + (n−3 · b) / 3 + b), that is, from ((n−b) / 2) to ((n + b) / 2), Write in the area where the Y-axis coordinates are from 0 to K (step S25).
[0055]
Next, the control circuit 5 cuts out the i-th striped image Y3i of the image data Y3 stored in the image memory 4 (step S26). The cutout position is relatively the same as the cutout position of the i-th striped image of the images Y1 and Y2, and the X-axis coordinate of the image data Y3 is (i · n−) as shown in FIG. From b) to (i · n), the Y-axis coordinates are positions from 0 to K.
[0056]
The control circuit 5 converts the data of the cut-out striped image from ((i · n− (n−3 · b) / 6−b) to ((i · n− (n− 3 (b) / 6), that is, from ((5n-3b) / 6) to ((5n + 3b) / 6), the Y-axis coordinates are written in the region from 0 to K (step S27).
[0057]
Next, the control circuit 5 determines whether or not the value of the pointer i has reached a predetermined number N of striped image cutouts for each image (step S28). If it is determined that it has not been reached, 1 is added to the pointer i (step S29), the process returns to step S22, and the operation of cutting out the next stripe image from the images Y1, Y2, and Y3 and writing it in the image creation area is repeated. (Steps S22 to S28).
[0058]
When the striping and writing operations of the stripe image are repeated N times, and an image in which the stripe images of the images Y1 to Y3 are sequentially arranged as shown in FIG. , It is determined that the value of the pointer i has reached the reference value N, and the flow proceeds to step S30.
[0059]
In step S30, similar image processing is performed on the M color component images M1 to M3 to create a moving image Ma of the M color component. The image cut-out position from the images M1 to M3 and the write position to the image Ma are the same as the processes for Y1 to Y3 and Ya.
[0060]
When the moving image Ma of the M color component is completed, the control circuit 5 performs the same image processing on the images C1 to C3 of the C color component, and creates a moving image Ca of the C color component (step S31).
When the C color component moving image Ca is completed, the moving image creating process for one tile ends.
[0061]
The Ya, Ma, and Ca images created by the moving image creation process are sent to the frame memory 7 by the control circuit 5.
[0062]
The control circuit 5 sequentially supplies image data Ya to be printed stored in the frame memory 7 to the tile printer 8. The tile printer 8 prints the image data Ya supplied from the frame memory 7 on the surface of the tile 11 using the Y liquid pigment.
[0063]
When the printing of the image Ya is completed, the control circuit 5 supplies a print color switching control signal to the tile printer 8 and sequentially supplies the image data Ma to be printed stored in the frame memory 7 to the tile printer 8. The tile printer 8 switches the liquid pigment used for printing to M in accordance with the print color switching control signal, and uses the M liquid pigment as the image data Ma supplied from the control circuit 5 on the surface of the tile 11 that has already been printed. The image is printed on the Ya image.
[0064]
When the printing of the image Ma is completed, the control circuit 5 supplies a print color switching control signal to the tile printer 8 and sequentially supplies image data Ca to be printed stored in the frame memory 7 to the tile printer 8. The tile printer 8 switches the liquid pigment used for printing to C in accordance with the print color switching control signal, and uses the C liquid pigment as the image data Ca supplied from the control circuit 5 on the tile 11 that has already been printed. Overprinting is performed on the images of Ya and Ma to complete the printing process.
[0065]
Accordingly, as shown in FIG. 6, the image printing system for wall material can regularly print stripe images cut out from a plurality of original images and print them on the surface of the tile 11.
[0066]
By attaching a lenticular lens 12 on the surface of the tile 11 as shown in FIG. 5, when the tile 11 is viewed from a plurality of positions, the image 13 on the surface of the tile 11 can be viewed as a moving image. .
[0067]
Further, a mural as shown in FIG. 2 can be constructed using a plurality of tiles 11 on which an image 13 is printed as shown in FIG. 5, and the mural can be viewed as a moving image. Therefore, this wall material image printing system can create building wall materials such as interesting tiles.
[0068]
The wall material image printing system can designate only an arbitrary area of the entire original image and print only the designated area on the tile surface. Therefore, when a part of tiles is damaged in a mural using a plurality of tiles, only the damaged tiles can be easily reproduced.
[0069]
Moreover, since this wall image printing system can print an arbitrary original image taken in by the image input unit 2 on a tile 11 of an arbitrary size, it is suitable for a high-mix low-volume production of building wall materials.
[0070]
In the above embodiment, a portion to be printed on one tile 11 is cut out from each original image, and the cut out partial images are cut out and combined in a stripe shape. The entire image may be cut out in a stripe shape and combined, and then a portion to be printed on the tile 11 to be printed may be extracted and printed.
[0071]
In this case, the control circuit 5 targets the plurality of original images (entire) as a target and stripes the original image with a width corresponding to the diameter of the lenticular lens 12 as described with reference to FIGS. By cutting out and arranging, an entire print target (composite) image is created and developed in the frame memory 7 by Y, M, and C.
Next, the tile size and number in the vertical direction and the horizontal direction (or the vertical and horizontal sizes of the entire wall surface) are input from the input unit 1. The control circuit 5 enlarges or reduces the synthesized image so that the synthesized image is printed on the entire tile 11 (that is, the entire wall surface).
Next, an image range (tile position) to be printed is designated, pixel data of a pixel corresponding to this position is read out, supplied to the tile printer 8, and printed on the tile 11.
[0072]
That is, according to the present invention, the original image may be divided into tile 11 unit sizes, and the corresponding ones of the divided images may be combined and printed for the lenticular lens 12, or the original image ( May be synthesized for the lenticular lens 12, and then a portion corresponding to each tile 11 may be extracted and printed.
[0073]
Moreover, in the above-mentioned embodiment, although the tile is used as the building wall material of a printing target object, this invention is not limited to this, For example, the panel for wall materials etc. are good also as a printing target object. .
[0074]
In addition, a ceramic wall material such as a tile or a panel to be printed according to the present invention is excellent in weather resistance, but a resinous tile or panel may be used as a printing object for indoor use.
[0075]
As shown in FIG. 2, when dividing the original image into a plurality of images and printing each divided image on the surface of the tile 11 to form a mural, a code indicating the division position of each divided image is usually Can be included in each divided image and printed on the surface of each tile 11 as an image whose sign is visible only when viewed through the lenticular lens 12 from an angle that is not observed (for example, an angle close to the horizontal to the tile). Good.
[0076]
Similarly, the identification information of the original image used for composition, the size and shape of each tile, the number of wall materials, or the overall size of the mural image is attached with an identification code, and the printing information is recorded in a database or the like. The identification code (an image showing it) may be printed on each tile 11.
[0077]
According to this configuration, when one mural is configured using a plurality of tiles 11, if a part of the plurality of tiles 11 configuring the mural is scratched or damaged, the tiles are damaged. The identification code is read from 11, the database is searched from the identification code, the printing information is read, the printed original picture and printing conditions are determined, and the tile 11 can be easily reproduced. Maintenance can be facilitated.
[0078]
Each code or identification code may be a number, a character, a symbol, or the like, a bar code, a two-dimensional code, or the like.
[0079]
The input unit 1 may include a digital still camera, for example, and may capture an image. Further, a communication connector or the like may be provided so that image data on a network can be taken in via communication, or an image acquired by a digital still camera can be read.
[0080]
  As described above, according to the present invention, when viewed through a lenticular lens, the image appears to move.BuildingIt is possible to provide a wall material image printing system, a wall surface decoration method, and a recording medium for creating a wall material.
[Brief description of the drawings]
FIG. 1 is a diagram showing an image printing system for wall material according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of an image printed on a surface of a plurality of tiles.
FIG. 3 is a flowchart showing an operation of the wall image printing system shown in FIG. 1;
FIG. 4 is a diagram illustrating an area to be printed in an original image.
FIG. 5 is a diagram showing a state in which a lenticular lens is superimposed on a tile on which an image is printed by the wall material image printing system shown in FIG. 1;
6 is a diagram for explaining image processing performed in the wall image printing system shown in FIG. 1; FIG.
FIG. 7 is a diagram illustrating an image stored in an image memory.
FIG. 8 is a flowchart for explaining processing performed in the wall image printing system shown in FIG. 1;
FIG. 9A is a diagram for explaining an original image cutout method for printing an image to be a moving image;
(B) is a figure for demonstrating the attachment method of the cut-out striped image.
[Explanation of symbols]
1 Input section
2 Image input section
4 Image memory
5 Control circuit
6 Display section
7 frame memory
8 Tile printer
11 tiles
12 Lenticular lens
13 images

Claims (8)

Original picture storage means for storing a plurality of original pictures for wall decoration;
Image processing means for processing the original image stored in the original image storage means into an image that is viewed by switching each of the images of the plurality of original images when viewed through a lenticular lens;
Printing means for printing an image processed by the image processing means on a building wall;
With
The image processing means includes
Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural,
The division position of the image is calculated based on the shape and size of the building wall material input by the wall material information input means, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image. Division position calculation means;
Image dividing means for dividing an image at the position calculated by the division position calculating means;
A printing position input means for inputting the divided position for printing;
With
The image printing system for wall material, wherein the printing means includes means for including a code indicating the position of each image divided by the image dividing means in an image to be printed. Original picture storage means for storing a plurality of original pictures for wall decoration;
Image processing means for processing the original image stored in the original image storage means into an image that is viewed by switching each of the images of the plurality of original images when viewed through a lenticular lens;
Printing means for printing an image processed by the image processing means on a building wall;
With
The image processing means includes
Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural,
The division position of the image is calculated based on the shape and size of the building wall material input by the wall material information input means, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image. Division position calculation means;
Image dividing means for dividing an image at the position calculated by the division position calculating means;
A printing position input means for inputting the divided position for printing;
With
Print information recording means for recording the print information by attaching an identification code to the print information comprising the identification information of the plurality of original images to be printed, the size of the wall material, the number of wall materials or the size of the wall image When,
Means for including the identification code in an image to be printed;
An image printing system for wall material, further comprising: Original picture storage means for storing a plurality of original pictures for wall decoration;
Image processing means for processing the original image stored in the original image storage means into an image that is viewed by switching each of the images of the plurality of original images when viewed through a lenticular lens;
Printing means for printing an image processed by the image processing means on a building wall;
With
The image processing means includes
Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural,
The division position of the image is calculated based on the shape and size of the building wall material input by the wall material information input means, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image. Division position calculation means;
Image dividing means for dividing an image at the position calculated by the division position calculating means;
A printing position input means for inputting the divided position for printing;
With
The wall material information input means includes the shape and size of the building wall material forming a wall surface on which an image processed by the image processing means is printed, and the number of the building wall materials in one of the horizontal direction and the vertical direction. Enter, and
The division position calculation means calculates the number of the other building wall material in the horizontal direction or the vertical direction of the wall surface to be printed and the division position of the image based on the information input by the wall material information input means. Comprising means for calculating,
An image printing system for a wall material. A method of decorating a wall surface formed by combining a plurality of wall materials on which an image is printed and a lenticular lens is arranged thereon,
Multiple original images are stored in the original image storage means,
When the original image stored in the original image storage means is viewed through the lenticular lens, an image of a part of each of the plurality of original images can be switched,
Enter the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of the mural,
Based on the input shape and size of the building wall material, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image, the division position of the image is calculated,
The image is divided at the position calculated by the division position calculation means,
Each divided image includes a code indicating the position of each image,
A wall surface decorating method, wherein a partial image that forms one significant image by combining images displayed on the plurality of wall members is arranged on each wall member. A method of decorating a wall surface formed by combining a plurality of wall materials on which an image is printed and a lenticular lens is arranged thereon,
Multiple original images are stored in the original image storage means,
When the original image stored in the original image storage means is viewed through the lenticular lens, an image of a part of each of the plurality of original images can be switched,
Enter the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of the mural,
Based on the input shape and size of the building wall material, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image, the division position of the image is calculated,
The image is divided at the position calculated by the division position calculation means,
The print information is recorded with an identification code attached to the print information including the identification information of the plurality of original images to be printed, the size of the wall material, the number of wall materials or the size of the mural image,
Including the identification code in the image to be printed;
A wall surface decorating method, wherein a partial image that forms one significant image by combining images displayed on the plurality of wall members is arranged on each wall member. A method of decorating a wall surface formed by combining a plurality of wall materials on which an image is printed and a lenticular lens is arranged thereon,
Multiple original images are stored in the original image storage means,
When the original image stored in the original image storage means is viewed through the lenticular lens, an image of a part of each of the plurality of original images can be switched,
Enter the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of the mural,
Based on the input shape and size of the building wall material, the number of the building wall materials or the size of the mural, and the resolution and aspect ratio of the original image, the division position of the image is calculated,
The image is divided at the position calculated by the division position calculation means,
Input the shape and size of the building wall material forming the wall surface on which the image processed by the image processing means is printed, and the number of the building wall material in one of the horizontal direction and the vertical direction,
Based on the input information, calculate the number of the other building wall material in the horizontal direction or the vertical direction of the wall surface to be printed and the division position of the image,
A wall surface decorating method, wherein a partial image that forms one significant image by combining images displayed on the plurality of wall members is arranged on each wall member. Computer
Original picture storage means for storing a plurality of original pictures for wall decoration,
Print information recording means for recording the print information by attaching an identification code to the print information comprising the identification information of the plurality of original images to be printed, the size of the wall material, the number of wall materials or the size of the wall image And a means for including the identification code in the image to be printed. When the original image stored in the original image storage means is viewed through a lenticular lens, the images of each of the plurality of original images appear to be switched. Image processing means for processing images;
Output means for processing the image processing means to output an image including the identification code on a building wall material;
A computer-readable recording medium on which a program for functioning as a computer is recorded. Computer
Original picture storage means for storing a plurality of original pictures for wall decoration,
Wall material information input means for inputting the size and / or shape of the building wall material and the number of building wall materials to be printed or the size of a mural, and the shape and size of the building wall material input by the wall material information input means And a division position calculation means for calculating the division position of the image based on the number of the building wall materials or the size of the mural and the resolution and aspect ratio of the original picture, and the image is divided at the position calculated by the division position calculation means. An original image stored in the original image storage means when viewed through a lenticular lens, and includes a part of each of the plurality of original images. Image processing means for processing images into images that appear to be switched,
The shape and size of the building wall material forming the wall surface on which the image processed by the image processing means is printed, the number of the building wall materials in one of the horizontal direction and the vertical direction, and the wall material information input means Means for calculating the number of the other building wall material in the horizontal direction or the vertical direction of the wall surface to be printed and the division position of the image based on the information input by
Output means for outputting the image processed by the image processing means for printing on a building wall material;
A computer-readable recording medium on which a program for functioning as a computer is recorded.

Images