JP2009033437A - Image processing device and its method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable multicolored features to print without using a multiple version RIP and a high-level application (even in a system such as a CL architecture). <P>SOLUTION: Using image data registered in advance, positional information is produced which is intended to practice printing using clear toner and transparent toner. In a design desired by a user, clear toner printing is allowed to be possible with a carried amount of the toner being controlled. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an image processing apparatus that digitally generates and controls image data for forming an image on a sheet by an image forming apparatus, and a method for executing image processing.

  In recent years, digital printing technology has been steadily increasing its utility value in the on-demand printing market and the small number of document printing market. In particular, full-color printing using electrophotographic technology has an advantage over other printing technologies in terms of productivity, printing cost, and ease of maintenance, and is rapidly expanding its market.

  Among them, not only full-color printing by electrophotographic printing using conventional C, M, Y, K, and four color toners but also multicolor printing methods using special toners are attracting attention. On the other hand, the special printing market with high on-demand and immediacy is also in the horizon.

  Examples of the special toner include a transparent toner that absorbs unevenness on the surface of the printed material and realizes high gloss, and a light toner that can suppress roughness of the highlight portion.

  By using special toners, new added value different from normal digital printing can be obtained, and the world of digital printing can be further expanded.

  Among the special toners, a transparent toner is used by printing on the entire surface and using it as a coating. In addition, it prints on a white background spot-likely, and embeds information that does not want to stand out, or prints on a portion with color to enhance the visual effect.

  As a case of spot printing, in Patent Document 1, since the machine information was conventionally printed using color toner, it was conspicuous, but the proposal to make it inconspicuous by using transparent toner There is.

As an example of the above, Patent Document 1 below can be cited.
JP-A-6-262821

  However, in Patent Document 1, a predetermined pattern such as machine information can be printed, but a user cannot print a desired pattern with transparent toner. In addition, there is a problem that the memory for the transparent toner must always be held before the registered pattern is printed.

In order to solve the above problems, the present invention
In the image processing apparatus capable of performing print output using special toners other than C, M, Y, and K, the first aspect of the present invention when spot printing is performed using special toner for a pattern registered by a user. One gist is
Creates position information from the registered pattern, embeds the position information in one bit of attribute information of the print job, performs image processing according to the attribute information, and generates special toner data at the same time for print output It is characterized by doing.

The second gist is
When using special toner, if the special toner is a transparent toner on the preview screen, the area where the transparent toner is to be printed is displayed with a border, and if the special toner is a special color, It is characterized by displaying in that color.

The third gist is
When using a plurality of special toners, if the printing positions of the special toners overlap, the special toners to be printed are selected according to the priority order of the special toners set in advance.

  As described above, according to the present invention, it is possible to print out the pattern registered by the user using the special toner desired by the user. In addition, it is possible to avoid mixing colors by providing priorities for pixels where the use of special toners overlaps.

  Next, details of the present invention will be described in accordance with the description of the embodiments.

  A first embodiment of the present invention will be described with reference to the drawings.

  In the first embodiment, a printing method when the user selects transparent toner as the special toner and performs watermark printing will be described.

  The “user interface” in the text refers to both the monitor of the local PC 102 and the display unit 303 of the MFP 101.

[Image processing system]
FIG. 1 is a block diagram showing an image processing system according to the present invention.

  A LAN 104 constructed in the office 10 is connected to multifunction multifunction peripherals (hereinafter referred to as MFPs) 101 and 103 as recording devices and a local PC 102 used by a user. The MFPs 101 and 103 perform image processing on the input image read from the original, and print out the result from the printer of the MFP that read the original. It is also possible to perform image processing on an input image read from a document by the MFP 101 and then print out from an MPF 103 printer. Furthermore, it is possible to interpret the Page Description Language (hereinafter referred to as PDL) language transmitted from the local PC 102 and print it out from the printer of the MFP 101 or 103.

[MFP]
2 and 3 are diagrams relating to the MFP. In FIG. 2, reference numeral 201 denotes an image scanner unit which reads a document and performs digital signal processing. Reference numeral 202 denotes a printer unit that prints out an image corresponding to the original image read by the image scanner 201 on a sheet in full color.

  In the image scanner 201, reference numeral 200 denotes a specular pressure plate. A document 204 on a platen glass (hereinafter referred to as a platen) 203 is irradiated by a lamp 205, guided to mirrors 206, 207, and 208, and an individual of three lines by a lens 209. An image is formed on an image sensor (hereinafter referred to as CCD) 210, and three image signals of red (R), green (G), and blue (B) as full color information are sent to the signal processing unit 211. 205 and 206 are speeds v, and 207 and 208 are speeds 1 / 2v and mechanically move in the direction perpendicular to the electrical scanning (main scanning) direction of the line sensor, thereby scanning the entire surface of the document (sub scanning). ) Here, the document 204 is read at a resolution of 600 dpi (dots / inch) for both main scanning and sub-scanning. The read image signal is stored in the data storage unit 211 in units of one page of the document.

  In the signal processing unit 211, the image signal stored therein is electrically processed in units of pixels, and decomposed into magenta (M), cyan (C), yellow (Y), and black (Bk) components, The data is sent to the printer unit 202. In addition, inside the 211, transparent image data (CL) is generated in units of pixels and sent to the same 202.

  The sent M, C, Y, BK, and CL image signals are sent to the laser driver 212. The laser driver 212 modulates and drives the semiconductor laser 213 according to the transmitted image signal. The laser beam scans on the photosensitive drum 217 via the polygon mirror 214, the f-θ lens 215, and the mirror 216. Here, as with reading, both main scanning and sub-scanning are written at a resolution of 600 dpi (dots / inch).

  Reference numeral 218 denotes a rotary developer, which includes a magenta developing unit 219, a cyan developing unit 220, a yellow developing unit 221, a black developing unit 222, and a clear (transparent) developing unit 223, and five developing units are alternately arranged on the photosensitive drum 217. The electrostatic development formed on the photosensitive drum is developed with toner of each color.

  Reference numeral 224 denotes a transfer drum, on which a sheet supplied from the sheet cassette 225 or 226 is wound around the transfer drum 224, and an image developed on the photosensitive drum is transferred to the sheet.

  In this way, after the five colors M, C, Y, Bk and clear (transparent) are sequentially transferred, the sheet passes through the fixing unit 227 and is discharged after the toner is fixed on the sheet. .

  In FIG. 3, the MFP 101 has a network I / F 302 for connection to the LAN 104, and a recording device 307 outputs a PDL language that is output from the local PC 102 or another general-purpose PC (not shown) using a driver. Can be recorded. The PDL data output from the local PC 102 via the driver is converted into a recordable recording signal by interpreting and processing the language from the LAN 104 via the network I / F 302 and then processed by the data processing apparatus 211. A recorded image is recorded on the recording paper.

  The storage device (hereinafter referred to as BOX) 301 has a function of storing data from the image scanner 201 and data obtained by rendering PDL data output from the local PC 102 via a driver.

  The MFP 101 is operated through a key operation unit (input device 304) provided in the MFP 101. For these operations, the data processing device 211 executes predetermined control by an internal control unit (not shown).

  The MFP 101 includes a display device 303, and the display device 303 can display an operation input state and image data to be processed.

  The same applies to the MFP 103.

[Image processing including transparency generation]
FIG. 5 is a flowchart regarding image processing inside the signal processing unit 211.

  Image data 505 and associated attribute information 506 from the local PC 102 and MFPs 101 and 103 are input. The attribute information 506 is used in each image processing module to perform optimum image processing.

  R, G, and B signals from the local PC 102 and MFPs 101 and 103 are converted into C, M, Y, and K signals in the color processing in step 501. The conversion method uses matrix operation or the like.

  Next, in step 502, the transparent toner component is derived from the C, M, Y, and K signals based on the position information written in 1 bit in the attribute information 506. First, a total toner amount of C, M, Y, and K is obtained for each pixel. The total toner amount is to determine the amount of toner transferred to the paper for each pixel based on the total signal amount of the four colors C, M, Y, and K. Usually, it is expressed as a percentage value where the maximum value of a single color is 100%. When the image signal is represented by an 8-bit integer, the maximum value of a single color is 255, so the added value of C, M, Y, and K is multiplied by 100/255 to obtain the total toner amount.

For example, when an 8-bit image signal is obtained for a certain pixel, C = 80, M = 95, Y = 140, K = 110.
Total toner amount = (C + M + Y + K) × 100/255 = 167% (1)
It becomes.

  Usually, the general upper limit of the total toner amount is about 200 to 280%, and is determined by the configuration of the image forming process. However, in the configuration of the present invention, the total amount after further forming the transparent toner layer is further increased. The amount is required to be below the upper limit.

Assuming that the upper limit value is 240%, the difference between the numerical value of (1) and the upper limit value can be considered as the density ratio allowed for the transparent toner layer.
Allowable amount = 240−167 = 73% (2)
It becomes. If there is no 1-bit position information in the attribute information 506, C, M, Y, and K data as they are input are output without generating a transparent toner component.

  When the amounts of C, M, Y, K, and CL (transparent toner) are determined, the gamma processing optimum for this printer is performed on each color in the gamma processing in step 503.

  In the image formation in step 504, image formation processing is performed for each color. Image forming processing includes screen processing and error diffusion processing.

[Attribute information]
The attribute information in the present invention is information having several bits for each pixel of image data. Specifically, information such as 1 bit indicating color / monochrome, 1 bit indicating whether or not a character, and 1 bit indicating PDL / Scan are embedded in the number of bits. Each bit has a meaning such that 1 stands for color, 1 stands for character, 1 stands for PDL, and so on.

[Transparent toner print output]
FIG. 14 shows an example of a screen displayed on the user interface. FIG. 4 shows a flowchart regarding transparent toner print output.

  In step 401, a print output method is instructed using the screen of FIG. In step 402, a transparent toner printing method is determined. When the button 1401 is pressed, transparent toner is placed on the entire surface. When the button 1402 is pressed, the transparent toner is placed with a watermark. Then, in step 403, the pattern used for the watermark is selected. In step 404, the pattern data of the position information for printing the transparent toner on both the entire surface and the watermark is binarized and created. In step 405, 1-bit of attribute information added to the job is selected, position information is embedded, image processing is performed in step 406 according to the attribute information, and print output is performed in step 407.

[Register pattern]
FIG. 6 shows a flowchart regarding pattern registration.

  A pattern to be printed with a watermark can be registered by the image reading unit 201 of the local PC 102 or MFP 101 or 103. First, in step 601, a registration instruction is issued. In step 602, image processing corresponding to the local PC 102 and the MFPs 101 and 103 is performed. Image processing refers to color processing and filter processing, for example. In step 603, the image-processed pattern and the attribute information associated therewith are compressed. The compression is performed by a general method such as JPEG compression. In step 604, the compressed pattern and attribute information are stored in the BOX 301.

[Pattern selection]
FIG. 11 shows an example of a screen displayed on the user interface.

  When the button 1402 is pressed and the button 1404 is pressed, the screen in FIG. 11 is displayed. The user selects a registered pattern from the area 1101 in order to perform clear toner printing using a watermark registered by the user. When the selection is completed, a button 1102 is pressed. When the selection of the special toner print is to be stopped, the button 1403 is pressed to cancel.

[Create location information]
7 and 8 are flowcharts relating to position information for printing the transparent toner.

  In step 701, the user selects a pattern to be used for the watermark from the area 1101 described above. The selected pattern is compressed in step 603 and stored in the BOX 301 in step 604. In step 702, the image data is decompressed and the image data is expanded on the memory. In step 703, the image data is binarized.

  Next, embedding in attribute information accompanying image data will be described.

  In step 801, job attribute information is checked. In step 802, a bit in which position information can be embedded is searched for in the bit, and in step 803, it is determined to embed position information in the found bit. In step 804, the binary data created in step 703 is merged.

  A second embodiment of the present invention will be described with reference to FIGS.

  10, 11 and 12 show examples of screens displayed on the user interface.

  In the second embodiment, a printing method when the user selects a special toner other than transparent toner and performs watermark printing will be described.

  In step 403, a watermark pattern is selected from area 1101 on the screen of FIG. By pressing a button 1102, special toner can be selected. The user selects a desired special toner from the area 1001. A button 1002 is pressed to display a preview, and a button 1003 is pressed to determine. When the button 1002 is pressed, the screen in FIG. 12 is displayed. A preview is displayed at 1201. At that time, when the transparent toner is used, the periphery of the used pixel is trimmed and displayed. In the case of other special toners, they are displayed according to their designated colors. If there is no problem, the button 1202 is pressed.

  The print output is the same as that described in the first embodiment.

  A third embodiment of the present invention will be described with reference to FIGS.

  FIG. 9 shows an example of a screen displayed on the user interface. FIG. 13 shows a flowchart regarding the third embodiment.

  In the third embodiment, a print output method when a plurality of watermark patterns are designated and a plurality of special toners is designated will be described.

  The user selects a plurality of watermark patterns on the screen of FIG. 11, and selects each special toner for each pattern on the screen of FIG.

  When printing is instructed, it is confirmed in step 1301 whether or not special toner is used. If there is, in step 1302, it is confirmed whether or not the special toner is overlapped in the pixel using the special toner. If there is an overlap, in step 1303, control is performed so that the higher priority of the special toner determined in accordance with the screen of FIG.

[Select priority]
In the screen of FIG. 9, the user selects special toner from area 901. In the area 902 below the selected special toner, a number indicating the priority order is described. The user can change this priority. When the desired priority order is determined, the button 903 is pressed to determine.

[Location information creation when the user selects multiple patterns]
7 and 8 are flowcharts relating to position information for printing the transparent toner.

  In step 701, the user selects a plurality of patterns to be used for the watermark from the area 1101. In step 702, the image data is decompressed and the image data is developed on the memory. In step 703, the image data is binarized.

  Next, embedding in attribute information accompanying image data will be described.

  In step 801, job attribute information is checked. In step 802, a bit in which the position information can be embedded is searched for in the bit, and in step 803, it is determined to embed each position information in the searched plural bits. In step 804, each binary data created in step 703 is merged into a plurality of free bits.

1 is a block diagram showing an image processing system according to the present invention. The figure regarding MFP. The figure regarding the system of MFP. The flowchart regarding this invention. The flowchart regarding image processing. The flowchart regarding watermark pattern registration. The flowchart regarding use of a watermark pattern. The flowchart regarding attribute information creation. An example of a screen displayed on a local PC screen or an MFP display device. An example of a screen displayed on a local PC screen or an MFP display device. An example of a screen displayed on a local PC screen or an MFP display device. An example of a screen displayed on a local PC screen or an MFP display device. 6 is a flowchart for avoiding the overlap of special toners. An example of a screen displayed on a local PC screen or an MFP display device.

Claims (12)

In an image processing apparatus in an image forming apparatus that can print out using special toner in addition to the four colors of cyan, magenta, yellow, and black,
Registration means for registering a pattern that the user wants to print using special toner in a storage device inside the MFP, selection means for the user to select a pattern registered by the registration means at the time of print output, and binarizing the pattern Position information generating means for generating position information, an inserting means for inserting the position information into attribute information associated with a print job, and printing of special toner according to the attribute information newly generated by the inserting means. An image processing apparatus characterized by determining.   The image processing apparatus according to claim 1, wherein the special toner is a transparent toner.   The image processing apparatus according to claim 1, wherein the selection unit can select a color of the special toner.   When a plurality of patterns are selected by the selection unit and each special toner color is designated for each pattern, when the printing positions of the special toners overlap, control is performed so as not to overlap according to the priority order of the special toners. The image processing apparatus according to claim 1.   2. The image processing apparatus according to claim 1, further comprising priority order determining means for determining the priority order of the special toner.   In the preview unit that can preview how the pattern selected by the selection unit is printed in the print job, in the preview unit, if the special toner is a transparent toner, it is expressed as a border, otherwise The image processing apparatus according to claim 1, wherein the image processing unit is expressed by a color of special toner. In an image processing method in an image forming apparatus that can print out using special toner in addition to the four colors of cyan, magenta, yellow, and black,
A registration step in which a user registers a pattern to be printed using special toner in a storage device inside the MFP, a selection step in which the user selects a pattern registered by the registration method at the time of print output, and binarization of the pattern A position information generating step for generating position information, a search step for searching for one free bit of attribute information associated with the print job, and an insertion step for inserting the position information into 1 bit of free attribute information by the search step; An image processing method comprising a step of determining printing of special toner according to attribute information newly generated by the insertion method.   The image processing method according to claim 7, wherein the special toner is a transparent toner.   The image processing method according to claim 7, wherein a color of the special toner can be selected in the selection step.   When a plurality of patterns are selected by the selection step and each special toner color is designated for each pattern, when the printing positions of the special toners overlap, control is performed so as not to overlap according to the priority order of the special toners. The image processing method according to claim 7.   The image processing method according to claim 7, further comprising a priority order determining step for determining a priority order of the special toner.   In the preview process in which the pattern selected by the selection method is printed on the print job, and in the preview process, if the special toner is a transparent toner, it is expressed as a border, otherwise The image processing method according to claim 7, further comprising a step of expressing with a color of special toner.

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