JP2006088375A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To collectively and concurrently do test printing of a plurality of different images after image processing only by reading a manuscript at a time. <P>SOLUTION: This image forming apparatus comprises: an image processing part 102 which applies image quality processing to manuscript image data input from a scanner 201; an image accumulation part 104 wherein input image data are accumulated; and a control part 106 which outputs the image data, accumulated in the image accumulation part 104, via the image processing part 102. The image accumulation part 104 is equipped with a first image accumulation device 208 for accumulating a plurality of manuscript image data before the image processing are applied to the manuscript image data by the image processing part 102, and a second image accumulation device 209 for accumulating the plurality of manuscript image data to which the image processing are applied by the image processing part 102. The control part 106 performs control for concurrently outputting the plurality of manuscript image data accumulated in the second image accumulation device. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus such as a digital copying machine, a scanner device, a printer device, a facsimile device, and a digital multi-functional peripheral having the functions of these devices, and more particularly to these image forming devices having image data storage means. Relates to the device.

A trial to check the output contents of an image forming apparatus such as a digital copying machine, a scanner device, a printer device, a facsimile device, or a digital multifunction device having these functions before formal printing or transmission. An apparatus having a printing function is proposed in Patent Document 1, for example. Patent Document 2 accurately conveys image density and the like by extracting only the head portion of an image at the time of trial printing, and outputs each portion of a plurality of document images to a single recording sheet. It has been proposed to save toner and recording paper. On the other hand, when a plurality of different types of image processing are performed on image data obtained by reading a document, the document must be read a plurality of times. In addition, printing a plurality of different types of image processing results at the same time cannot be realized by simply reading the document a plurality of times. In addition, as a function of the digital copying machine, there is a function to adjust the density of the output image, and it is possible to select and adjust the density in multiple stages, but what density each copy output result will have? Hard to image. In order to check the copy density, it is necessary to perform test printing a plurality of times while actually changing the density adjustment value. Furthermore, as a function of the digital copying machine, there is also a function of selecting the type of image processing according to the type of document. In other words, there are document mode selection functions such as a “character mode” for performing processing suitable for a text document and a “photo mode” for performing processing suitable for a photo / picture document. However, it is difficult to imagine what image quality the copy output result of each mode will have, and in order to confirm the image quality, it is necessary to make a plurality of trial copies while actually changing the document mode.
JP-A-7-199743 JP 2001-166635 A

  As described above, in the conventional technique, when the density and type of the document are different, there is a problem that the test printing must be performed a plurality of times while actually changing the density and the print mode.

  The present invention has been made in view of such a state of the art, and an object of the present invention is to simultaneously test-print a plurality of images after different image processing by reading a document once. To do.

  In order to achieve the object, the first means includes image processing means for performing predetermined image processing on the input image data, image storage means for storing the input image data, and the image storage means. And a control unit that outputs the image data stored in the image processing unit via the image processing unit. The image storage unit includes a plurality of document image data before image processing by the image processing unit. And a second image storage unit for storing a plurality of document image data image-processed by the image processing unit, and the control unit is stored in the second image storage unit. A plurality of document image data is output simultaneously.

  The second means is characterized in that, in the first means, the image processing means sets the density of the image.

  A third means is characterized in that, in the first means, the image processing means sets a mode corresponding to the type of the image data.

  A fourth means is characterized in that, in the second means, the density is set to a plurality of different densities.

  A fifth means is characterized in that, in the third means, the mode is set to a character, a photo, and a combination of a character and a photo.

  A sixth means is characterized in that, in the first to third means, the control means outputs only a preset part of a plurality of documents to the same recording material.

  A seventh means is characterized in that, in the first to sixth means, the inputted image data is document image data.

  The eighth means is characterized in that, in the seventh means, the image processing means changes processing for each type of the original.

  In an embodiment described later, the image processing means is in the image processing section 102, the image area normalizing means is in the image storage section 104, the control means is in the control section 106, the first image storage section is in the first image storage apparatus 208, The second image storage unit corresponds to the second image storage device 209, respectively.

  According to the present invention, it is possible to simultaneously print a plurality of images after different image processing by reading a document once.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. In this embodiment, a digital copying machine is taken as an example of the image forming apparatus. FIG. 1 is a block diagram showing the overall configuration of a digital copying machine according to an embodiment of the present invention, and FIG. 2 is a block diagram showing the overall configuration of FIG. 1 in detail.

  As shown in FIG. 1, the digital copying machine includes an image input unit 101, an image processing unit 102, an image output unit 103, an image storage unit 104, a control unit 105, and an operation unit 106. The image input unit 101 corresponds to a digital copy or digital facsimile scanner, reads a document, and sends it to the image processing unit 102 as input image data. The image processing unit 102 performs various image processing such as MTF filter processing, γ correction processing, and gradation processing on the input image data, and sends the processed image data to the image output unit 103. The image output unit 103 corresponds to a printer of a digital copying machine, and prints out image data after image processing onto a recording medium such as paper. The image storage unit 104 stores image data and image data after image processing at the time of reading a document, and reads out image data stored at the time of image processing and printing.

  The control unit 105 performs overall control of the apparatus. The image input unit 101 performs scanner operation control. The image processing unit 102 performs MTF filter processing, γ conversion processing, and gradation processing. The parameters used for various image processing processes are set, the printer output control is performed for the image output unit 103, and the storage, reading, and erasing control is performed for the image storage unit 104. For the operation unit 106, display control of various information and input control of the operation mode are performed. The operation unit 106 is used to select an operation mode set by the user and to input a copy start instruction. The operation unit 106 displays switches and buttons for giving an instruction such as operation mode selection, start and stop, and a setting state. , A display unit 107 (see FIGS. 6 to 8) composed of a liquid crystal panel or the like that also functions as a touch panel for setting.

  As shown in the detailed view of FIG. 2, a scanner 201 that reads a document image constitutes the image input unit 101 of FIG. 1, and includes a selector 202, an MTF filter processing circuit 203, a γ conversion processing circuit 204, a gradation processing circuit 205, The selector 206 constitutes the image processing unit 102. A printer 207 that outputs an image as a copy image constitutes the image output unit 103, and includes a first image storage device (shown as image storage 1 in the figure) 208, a second image storage device (shown as image storage 2 in the figure). Reference numeral 209 denotes the image storage unit 104. In addition, the control unit 105 includes a CPU 211 that controls the entire device, a ROM 212 that stores a control program, a RAM 213 that is temporarily used by the control program, and an internal system bus 210 that exchanges data between the devices. ing.

  The image processing operation of this digital copying machine will be described with reference to FIGS. FIG. 3 is a block diagram showing a flow of image data in image processing in which a document is read by a scanner, FIG. 4 is a block diagram showing a flow of image data in image processing when the document is not read, and FIG. 3 is a block diagram showing a flow of image data when image data is printed by a printer 207. FIG. FIG. 6 is a diagram showing a display display at the time of reading a document, FIG. 7 is a diagram showing the display contents of the display unit when “trial setting” for density adjustment is selected, and FIG. 8 is a display unit in FIG. It is a figure which shows the display content of a display part when "trial selection" of original mode is selected.

  In a normal document reading operation, image data read by the scanner 201 is sent to the image processing unit 102 as shown in FIG. Read image data before image processing in the image processing unit 102 is sent to and stored in the first image storage device 208, and image data to be subjected to image processing is sent from the selector 202 to the MTF filter processing circuit 203, γ conversion processing circuit. 204, sent to the gradation processing circuit 205 to perform image processing. The image data after the image processing is sent to the second image storage device 209 and stored. The image data stored in the second image storage device 209 is sent from the selector 206 to the printer 207 and printed as shown in FIG.

  In this embodiment, the image processing is performed by selecting a plurality of setting values from density adjustment values that can be selected in multiple stages by reading the document once, and the processed images are simultaneously printed. The processing results of a plurality of density adjustment values can be confirmed with one trial copy. That is, when reading a document, a display as shown in FIG. 6 is performed on the display unit 107 of the operation unit 106. In the display of FIG. 6, by selecting “trial setting” for density adjustment, a trial copy output of the density adjustment value is performed. When the “trial setting” key 301 in the density adjustment column is touched, a “density adjustment trial copy setting” screen as shown in FIG. 7 is displayed on the display unit 107. The screen of FIG. 7 shows that images processed with four different density adjustment values from density adjustment value 2 to density adjustment value 5 are output in one copy. Since the size of the output image is smaller than the size of the read original image, a part of the read image data is output by the same processing as in Patent Document 2 described above. Further, the CPU 211 controls the printer 207 so that four types of images having different densities are output on one recording sheet. A density adjustment key 303 in FIG. 7 selects a plurality of output densities. Four types of image processing are performed with a plurality of density setting values including the density setting value selected by the density adjustment key.

  In this image processing, first, the γ conversion data having the density characteristic of the density adjustment value 2 is read from the ROM 212 of the control unit 105 by the CPU 211 and set in the γ conversion processing circuit 204 through the system bus 210. Processing contents corresponding to the selected document mode are set in the MTF filter processing circuit 203 and the gradation processing circuit 205. The selector 202 sets so that the image data from the scanner 201 is sent to the MTF filter processing circuit 203.

  Then, image processing for reading an original is performed in the flow of image data shown in FIG. That is, the image data read by the scanner 201 before image processing is sent to the first image storage device 208 and stored. At the same time, image processing is performed by the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205 through the selector 202. In the γ conversion processing circuit 204, γ conversion processing is performed using γ correction data having the density characteristic of the density adjustment value 2. The image data that has been subjected to image processing is sent to and stored in the second image storage device 209.

  Next, the CPU 211 reads γ conversion data having the density characteristic of the density adjustment value 3 from the ROM 212 and sets it in the γ conversion processing circuit 204 through the system bus 210. The selector 202 sets so that the image data from the first image storage device 208 is sent to the MTF filter processing circuit 203 as shown in FIG. In this way, image processing is performed in which the original is not read in the flow of image data shown in FIG. The image data read from the first image storage device 208 passes through the selector 202 and is subjected to image processing by the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205. In the γ conversion processing circuit 204, γ conversion processing is performed using γ correction data having the density characteristic of the density adjustment value 3. The image data that has been subjected to image processing is sent to and stored in the second image storage device 209.

  Next, the CPU 211 reads γ conversion data having the density characteristic of the density adjustment value 4 from the ROM 212 and sets it to the γ conversion processing circuit 204 through the system bus 210 to perform image processing without reading the original in FIG. In the γ conversion processing circuit 204, γ conversion processing is performed using γ correction data having the density characteristic of the density adjustment value 4, and the image data after image processing is sent to the second image storage device 209 and stored.

  Finally, the CPU 211 reads out the γ conversion data having the density characteristic of the density adjustment value 5 from the ROM 212 and sets it in the γ conversion processing circuit 204 through the system bus 210 to perform the image processing without reading the original in FIG. In the γ conversion processing circuit 204, γ conversion processing is performed using γ correction data having density characteristics of the density adjustment value 5, and the image data after image processing is sent to the second image storage device 209 and stored.

  In this way, the image data processed by the density characteristics 2, 3, 4, 5 stored in the second image storage device 209 is output by the printer 207 as shown in FIG. The selector 206 selects the image data from the second image storage device 209 and sets it to be sent to the printer 207, and the image data after image processing is printed by the printer 207 in the image data flow shown in FIG. 5.

  The digital copying machine according to this embodiment performs image processing corresponding to a plurality of document modes such as image processing for “character mode” and image processing for “photo mode” by reading the document once. Subsequent images can be printed at the same time and the results of processing in multiple document modes can be confirmed with a single trial copy. That is, the display as shown in FIG. 6 is performed on the display device of the operation unit 106 when the document is read. In the display of FIG. 6, the trial copy output of the original mode is performed by selecting the “trial setting” display 302 of the original mode. When “trial setting” in the original mode is selected, the “original mode trial copy setting” screen shown in FIG. The screen of FIG. 8 shows that images processed by three different image processes of “character mode”, “character / photo mode”, and “photo mode” are output in one copy. Yes. Even in the trial setting of the original mode, since the size of the output image is smaller than the size of the read original image, a part of the read image data is output and a plurality of modes are recorded on one recording sheet. The

  In the case of performing processing in the contents of the original mode, first, the CPU 211 sets parameters for performing “character mode” image processing for each processing. That is, the CPU 211 sets emphasis processing for character processing in the MTF filter processing circuit 203, sets γ conversion data having density characteristics for enhancing contrast in the γ conversion processing circuit 204, and sets the gradation processing circuit 205. Is set with error diffusion processing giving priority to resolution. The selector 202 sets so that the image data from the scanner 201 is sent to the MTF filter circuit 203.

  Also in this case, first, image processing is performed for reading an original in the flow of image data shown in FIG. That is, the image data before image processing read by the scanner 201 is sent to and accumulated in the first image storage device 208, and simultaneously passes through the selector 202, and passes through the MTF filter processing circuit 203, γ conversion processing circuit 204, and gradation processing circuit. In step 205, image processing is performed. The MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205 perform image processing for “character mode”. The image data after the image processing is sent to and stored in the second image storage device 209.

  Next, the CPU 211 sets parameters for performing image processing for the “character / photo mode” in the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205. The MTF filter processing circuit 203 is set with weak enhancement processing for character / photo processing, the γ conversion processing circuit 204 is set with γ conversion data having a linear density characteristic, and the gradation processing circuit 205 has a resolution. Set priority error diffusion processing. The selector 202 sets so that the image data from the first image storage device 208 is sent to the MTF filter processing circuit 203.

  The image processing for “character / photo mode” is performed along the flow of image data shown in FIG. That is, the image data read from the first image storage device 208 passes through the selector 202 and is subjected to image processing by the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205. In the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205, image processing for “character / photo mode” is performed. The image data that has been subjected to image processing is sent to and stored in the second image storage device 209.

  Finally, the CPU 211 sets parameters for performing “photographic mode” image processing in the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205. A smoothing process for photographic processing is set in the MTF filter processing circuit 203, γ conversion data having a characteristic with a wide gradation reproduction range is set in the γ conversion processing circuit 204, and the gradation processing circuit 205 is set in Set the dither processing that prioritizes gradation.

  The image processing for “photo mode” also performs image processing in which the original is not read in the flow of image data shown in FIG. That is, the image data read from the first image storage device 208 is read, and the image data is processed by the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205 through the selector 202. In the MTF filter processing circuit 203, the γ conversion processing circuit 204, and the gradation processing circuit 205, image processing for “photo mode” is performed. The image data that has been subjected to image processing is sent to and stored in the second image storage device 209.

  In this manner, the image data processed in the “character mode”, “character / photo mode”, and “photo mode” stored in the second image storage device 209 is output by the printer 207. The selector 206 selects the image data from the second image storage device 209 and sets it to be sent to the printer 207, and the printer 207 prints the image data after image processing in the image data flow shown in FIG. I do.

1 is a block diagram showing an overall configuration of an embodiment of an image forming apparatus according to the present invention. It is a block diagram which shows the whole structure of FIG. 1 in detail. It is a block diagram showing a flow of image data in image processing for reading a document. FIG. 5 is a block diagram illustrating a flow of image data in image processing when document reading is not performed. FIG. 4 is a block diagram illustrating a flow of image data when image data after image processing is printed by a printer unit. It is a figure which shows the display content of the display part at the time of reading of a document. FIG. 7 is a diagram illustrating display contents of the display unit when “trial setting” for density adjustment is selected on the display unit of FIG. 6. FIG. 7 is a diagram showing display contents on the display unit when “trial selection” in the document mode is selected on the display unit of FIG. 6.

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 Image input part 102 Image processing part 103 Image output part 104 Image storage part 105 Control part 106 Operation part 201 Scanner 202,206 Selector 203 MTF filter processing circuit 204 γ conversion processing circuit 205 Tone processing circuit 207 Printer 208 First image storage Device 209 Second image storage device 211 CPU
212 ROM
213 RAM
301, 302 Trial setting display section

Claims (8)

Image processing means for performing predetermined image processing on the input image data, image storage means for storing the input image data, and the image processing means for storing the image data stored in the image storage means And an image forming apparatus provided with a control means for outputting via
The image storage means stores a first image storage section that stores a plurality of document image data before image processing by the image processing means, and a first image storage section that stores a plurality of document image data processed by the image processing means. Two image storage units,
The image forming apparatus characterized in that the control means simultaneously outputs a plurality of document image data stored in the second image storage unit.   The image forming apparatus according to claim 1, wherein the image processing unit sets a density of the image.   The image forming apparatus according to claim 1, wherein the image processing unit sets a mode corresponding to a type of the image data.   The image forming apparatus according to claim 2, wherein the density is set to a plurality of densities having different density values.   The image forming apparatus according to claim 3, wherein the mode is set to a character, a photograph, and a combination of a character and a photograph.   4. The image forming apparatus according to claim 1, wherein the control unit outputs only a preset part of a plurality of documents to the same recording material. 5.   The image forming apparatus according to claim 1, wherein the input image data is original image data.   8. The image forming apparatus according to claim 7, wherein the image processing unit changes processing for each type of document.

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