JP2006013635A - Image forming apparatus and image forming method thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus and an image forming method thereof for outputting a result of applying image processing to received image data in place of ordinary image data or outputting the result to a removable external I/F and replacing internal information with image data to simplify adjustment of setting parameters thereby obtaining an excellent image output. <P>SOLUTION: The image forming apparatus is provided with: the removable image output I/F in addition to an image output I/F ordinarily provided to the image forming apparatus; and a means capable of selectively outputting image data on the way of image processing arithmetic operations or at the completion of the arithmetic operations for generating desired image output data and an image reference signal denoting an arithmetic execution position of an image data signal comprising the image data to an optional output destination. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an image forming apparatus having a color digital multi-function peripheral test function having a plurality of image processing functions and an image forming method thereof.

In a copying machine or the like equipped with a conventional image processing apparatus, when an abnormal image is randomly generated with a low degree of completion of the product, as a method of verifying this, try flowing image data many times, It was necessary to measure image data sequentially from the upstream of the image processing unit with a measuring instrument such as an oscilloscope, and to recognize abnormal images in the form of oscilloscope waveforms. This work required many measurements with an oscilloscope, and was a time-consuming work. In addition, oscilloscope waveforms are sometimes difficult to understand and require skill in operation. Furthermore, the oscilloscope itself is not suitable for carrying around, and it is not possible for anyone to use the oscilloscope. In contrast to such a conventional method, Patent Document 1 discloses a technique relating to an image forming apparatus that can easily confirm which image processing means an abnormality has occurred among a plurality of image processing means included in the image processing apparatus. It is disclosed.
JP-A-9-321949

  However, in the case of processing that simply outputs an interrupt to the CPU based on the calculation result of the image processing, especially when there are a plurality of image processing calculations in the ASIC, it is difficult to understand the internal detailed output result corresponding to each setting parameter. Cases arise. In other words, when internal information such as parameter setting is required to correct an image abnormality, finer image information is required. However, an image as disclosed in Patent Document 1 described above is required. In the forming apparatus, it has been a problem that only an image processing unit can be matched to an image abnormality.

  In view of the above problems, the present invention outputs the result of performing image processing on input image data, instead of normal image data, or outputs it to a removable external I / F, as well as internal information. An object of the present invention is to provide an image forming apparatus and an image forming method thereof that can simplify setting parameter adjustment for obtaining a good image output by replacing the image data with image data.

  According to the first aspect of the present invention, a removable image output I / F that is separate from the image output I / F that is normally provided in the image forming apparatus and an image processing operation for generating desired image output data or An image forming apparatus comprising: image data that has been subjected to computation; and an image reference signal that indicates a computation execution position of an image data signal composed of the image data. And

  According to a second aspect of the present invention, when the calculation result of the calculation circuit that executes the image processing calculation for generating the desired image output data matches a specific condition, the fixed data consisting of the calculation result is arbitrarily set The image forming apparatus according to claim 1, wherein an output mode for outputting to the output destination is provided.

  According to a third aspect of the present invention, when a calculation result of an arithmetic circuit that executes an image processing calculation for generating the desired image output data matches a specific condition, the calculation result is classified according to the specific condition. 3. The image forming apparatus according to claim 1, wherein the output value is changed as a basis.

  According to a fourth aspect of the present invention, there is provided an image for generating desired image output data by using a detachable image output I / F provided separately from an image output I / F normally provided in an image forming apparatus. An image forming method comprising a step of allowing image data in the middle of processing calculation to be completed and image reference signals indicating calculation execution positions of image data signals composed of the image data to be selected and output to an arbitrary output destination It is characterized by that.

  According to a fifth aspect of the present invention, there is provided fixed data provided in the image forming apparatus when a calculation result of a calculation circuit that executes an image processing calculation for generating the desired image output data matches a specific condition. 5. The image forming method according to claim 4, further comprising a step of outputting the fixed data comprising the calculation result to an arbitrary output destination according to the output mode.

  According to a sixth aspect of the present invention, when a calculation result of an arithmetic circuit that executes an image processing calculation for generating the desired image output data matches a specific condition, the calculation result is classified according to the specific condition. 6. The image forming method according to claim 4, further comprising a step of changing an output value as a base.

  According to the present invention, the result of performing image processing on input image data is output instead of normal image data, or is output to a removable external I / F, and internal information is replaced with image data. Therefore, setting parameter adjustment for obtaining a good image output can be simplified.

  In the best mode for carrying out the present invention, a removable image output I / F is provided separately from an image output I / F normally provided in an image forming apparatus, and desired image output data is generated. There is provided means for enabling selective output of image data during or after the image processing calculation and an image reference signal indicating the calculation execution position of the image data signal composed of the image data to an arbitrary output destination.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the examples described below are preferred specific examples of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. Unless otherwise described, the present invention is not limited to these examples.

  First, a schematic circuit configuration of an image forming apparatus to which the present invention is applied will be described below with reference to FIG. FIG. 1 is a block diagram illustrating a schematic circuit configuration of the image forming apparatus according to the present exemplary embodiment. The circuit configuration of the image forming apparatus of the present embodiment is a configuration in which a controller 110 that controls the system and an engine unit 120 are connected. Then, the controller 110 controls the entire multifunction peripheral, drawing, communication, and input from the operation unit 130. In addition, the server 100 and the PC terminal 101 are connected via a LAN through the network I / F unit 118.

  Also provided is a PSU 170 that feeds DC power from each AC power source to each unit. The engine unit 120 includes a scanner 140 and a plotter 150, and includes an ASIC 122 including an image processing unit 121 that performs image processing such as ACS, filter, error diffusion, and γ conversion, a CPU 123, and a ROM 124. The controller 110 includes a system memory 111, various data storage memories 112, a control ASIC 113, a CPU 114, an NVRAM 116 for storing control data including an ID, and a power supply control unit 117.

  Further, in the circuit configuration of the image forming apparatus according to the present embodiment, the FAX control unit 180 can be selected by PCI connection. The FAX control unit 180 includes a CPU 181 that performs FAX control, a ROM 182, an ASIC 183, a memory 184 that stores FAX image data, and a network-controlled NCU 185. The connection between the units is a PCI connection, but it may be a local bus that can be controlled.

  Next, detailed contents of the present embodiment will be described below with reference to the accompanying drawings. Here, as an image process equipped with a color function, when an RGB signal is input into the image processing unit 121 shown in FIG. 1, the image processing operation A211 (color determination block: An example of obtaining an internal signal output in the color original document automatic determination unit) will be described below.

  First, the case where RGB signals are input into the image processing unit 121 shown in FIG. 1 will be described as image processing with a color function using FIG. The normal output flow of the image output from the image processing unit 121 shown in FIG. 1 is from image input and control signal input shown in FIG. 4 to image processing operation A (color determination block) 211, image processing operation B212, selector. It is output by the route in the order of A213. The feature of the present embodiment is that, as shown in FIG. 4, there is provided a configuration for obtaining an internal signal output (test I / F output: see FIG. 4) in the image processing operation A (color determination block) 211. There is. The internal signal output in the image processing operation A (color determination block) 211 can be obtained from the selector B 215 shown in FIG.

Hereinafter, this embodiment will be described more specifically with reference to FIG. As shown in FIG. 4, first, R _in G _in B _in signals (8 bits of data for each color) and its control signals, which are input signals from the scanner, are input to the image processing operation A211. Normally, each image signal R ₁ G ₁ B ₁ output through the image processing operation A211 shown in FIG. 4 is input to the image processing operation B212 together with the control signal, and the image signal R ₂ G ₂ subjected to the image processing. B ₂ is output. Here, the selector A is a normal image output (R ₀₁ G ₀₁ B ₀₁ ) path, and the normal image output is accumulated in the nonvolatile memory 112 on the controller side through the PCI unit (see FIG. 1).

On the other hand, the selector B 215 is a test output (R ₀₂ G ₀₂ B ₀₂ ) path, and the image data (test output) is transferred to another removable storage device (FIG. 1: large capacity) through the test output unit shown in FIG. Stored in the storage device 202). Further, each R _T G _T B _T image signal output for testing in the image processing calculation A211 shown in FIG. 4 is input to the image processing calculation internal data selector A214 together with a control signal to which the delay information for the test output is added. Is done. Since the image processing calculation internal data selector A214 does not pass through the image processing calculation B212, the data before and after the processing of the image processing calculation B212 can be output to the respective paths by switching the selector A213 and the selector B215, respectively. It is possible to easily obtain the output results before and after without setting parameters or the like necessary for the processing operation B212. The selector A 213, the selector B 215, and the image processing calculation internal data selector A 214 can be set by the CPU 123 shown in FIG. 1 so that the required image output path can be set by switching them according to the internal register setting of the ASIC 122 (see FIG. 1). Become.

  According to the present embodiment, as shown in FIG. 4, first, in the image processing operation A (color determination block) 211, RGB signals that are input signals from the scanner are respectively added as a block of 16 pixels in the main scanning direction. When the maximum value and the minimum value are calculated and the difference exceeds a threshold value determined by the parameter, the I / F (image processing calculation internal data shown in FIG. 4) is different from the image path for obtaining the normal output. The color component image data can be output to the selector A 214). Here, the color component image data is temporarily updated for each block as 256 gradations per pixel, and RGB is also 0xFF, and is output.

In addition, OR processing or AND processing may be added in order to provide continuity of several lines in the sub-scanning direction, and output may be performed once on a specific line without outputting each line.
The output signal is stored on the large-capacity storage device 202 that can be attached to and detached from the test output unit shown in FIG. 1, and the data can be referred to by the PC 201 so that the output result can be referred to in parallel with the normal copying operation. Become.

  Alternatively, the selector A 203 shown in FIG. 4 may be switched so as to pass through an image path and printed on recording paper as image data. Actually, since both RGB are 0xFF data, the portion becomes black data as shown in FIG. The area is an area having an element for determining a color document, and a threshold value for preventing erroneous detection may be set.

  It is also conceivable that the change of the threshold value is accumulated for various documents using the network I / F 118 shown in FIG. 1 through the image path, and used as reference data for determining the threshold value. The calculation start position and end position can be set by parameters, and a reference signal indicating the calculated image position can be added to the image signal. As shown in FIG. 3, the RGB data may be set to 0xFF so as to be a black pixel with respect to the portion indicating the area in the main scanning direction and the sub-scanning direction. In that case, in order to distinguish the area from the threshold, only the R data can be output as 0xFF when the threshold is exceeded.

  Furthermore, by giving a width to the threshold value, the threshold value may not be exceeded, but if it is close to the threshold value, only G data may be set to 0xFF, and if the threshold value is far exceeded, only B data may be set to 0xFF. Further, when the threshold value of the parameter for detecting continuity in the sub-scanning direction satisfies a certain condition (= determined that the corresponding page is a color document), the RGB values are all changed to 0xFF from that point. You may control. Although the color document determination unit is described as a reference example, it can be similarly applied to image processing in which a parameter threshold value such as filter processing is compared with a calculation result.

As described above, according to the present embodiment, when an image is generated by combining a plurality of image processing calculation results, the image reference position signal corresponding to each internal data is transmitted to the memory and the image output means together with the image signal. Therefore, it is possible to easily determine the position information and the determination result of each image processing execution result.
In addition, it is possible to easily determine whether the image processing calculation is a desired output for the input image and whether an erroneous determination is made for each area.
Further, when the calculation result of the calculation circuit that executes image processing calculation for generating desired image output data matches a specific condition, a threshold value is set for the image data by changing the output value for each condition. It is possible to easily determine whether is correctly set.

  Next, the configuration and function of the image forming apparatus to which this embodiment is applied will be described below with reference to FIG. As shown in FIG. 5, this image forming apparatus is supplied from an external device via, for example, a copying function for copying an original image, a facsimile function for transmitting / receiving image data via a communication line, and an external I / F. An image forming apparatus having a printer function for printing based on image data, that is, a composite digital image forming apparatus (hereinafter abbreviated as an image forming apparatus) is configured.

  FIG. 5 is a cross-sectional view schematically showing the internal structure of the image forming apparatus. As shown in FIG. 5, an image forming apparatus to which the present embodiment is applied, for example, an electrophotographic digital image forming apparatus 50, includes an image reading unit that functions as a reading unit that reads a document image and generates image data. That is, it has a scanner unit 50a and an image forming unit that functions as an image forming unit that forms an image based on image data, that is, a printer unit 50b. Further, the image forming apparatus 50 includes an automatic document feeder 51 as a conveying unit above the scanner unit 50a. The image forming apparatus 50 is formed so as to be openable and closable with respect to a later-described document table or document table of the scanner unit 50a. The document D as an object is fed one by one toward the document table, and functions as a document pressing unit for bringing the document D placed on the document table into close contact with the document table.

  The scanner unit 50 a is disposed at the top of the document table 52 made of transparent glass, facing the automatic document feeder 51 in a closed state and on which the document D is set, and one end of the document table 52. A document scale 53 indicating the position where the document D should be set on the document table 52 is also provided.

  Below the document table 52, an exposure lamp 54 that illuminates the document D placed on the document table 52, an auxiliary reflector 58 for condensing the light beam from the exposure lamp 54 on the document D, and the document D A first mirror 56 that bends the reflected beam from the left side in the figure is arranged. The exposure lamp 54, the auxiliary reflecting plate 58, and the first mirror 56 are fixed to the first carriage 57, and are arranged to be movable in parallel with the document table 52 as the first carriage 57 moves. The first carriage 57 is moved in parallel along the document table 52 by receiving a driving force of a pulse motor (not shown) via a toothed belt (not shown).

  A second carriage 59 is disposed on the left side of the document table 52 in the drawing, that is, in the direction in which the reflected beam reflected by the first mirror 56 is guided. In the second carriage 59, a second mirror 60 for bending the reflected beam from the document D guided by the first mirror 56 downward and a third mirror 61 for bending rightward in the drawing are arranged at right angles to each other. The second carriage 59 is driven by the first carriage 57 by a toothed belt (not shown) that drives the first carriage 57 and parallel to the first carriage 57 along the document table 52 at a speed of 1/2. Moved to.

  An imaging lens that forms an image of the reflected beam from the second carriage 59 at a predetermined magnification in a plane below the first carriage 57 and including the optical axis of the beam folded back through the second carriage 59. 62, and a line sensor 63 including a plurality of CCD image sensors for converting the reflected beam, which is focused by the imaging lens 62, into an electrical signal, that is, image data.

  Here, the direction in which the plurality of CCD image sensors in the line sensor 63 are arranged is the main scanning direction, and the direction in which the first carriage 57 and the second carriage 59 move is the sub-scanning direction. In the present embodiment, the reading device portion is a sheet-through type image reading system in which the scanner unit 50a is fixed and the automatic document feeder 51 reads an image while conveying the document.

  Next, the printer unit 50b will be described. The printer unit 50 b includes a photosensitive drum 12, a charging charger 13, developing units 14 and 15, a static elimination lamp (PTL) 17, a transfer charger 18, a separation charger 19, an eraser 20, a cleaning unit 21, It has a polygon mirror (laser light generator) 22 and an optical system (lens) 23, and performs image formation and output of image data stored in an image memory.

  That is, at the same time as the photosensitive drum 12 is rotated in the direction of the arrow, the residual toner and non-uniform potential adhering to the photosensitive drum 12 do not reach the charging charger 13 and the developing units 14 and 15, so QL) 16, a pre-transfer static elimination lamp (PTL) 17, a transfer charger 18, a separation charger 19, an eraser 20, and a cleaning unit 21, and the surface potential of the photosensitive drum 12 after passing through the static elimination lamp 16 is substantially equal. Try to be zero.

  Thereafter, the surface of the photosensitive drum 12 is uniformly charged by the charging charger 13, the image data stored in the image memory is read, and a laser beam is emitted from a semiconductor laser (not shown) accordingly. Laser light emitted from the semiconductor laser is incident on a polygon mirror (laser light generator) 22 that is condensed and rotated by a cylinder lens (not shown), and reflected light passes through an optical system (lens) 23 and a mirror 24. The surface of the photosensitive drum 12 is irradiated to form an electrostatic latent image.

  Next, the latent image formed on the photoconductive drum 12 is subjected to black developing unit 14 or a color developing unit that develops the black toner after removing the charges of the non-image part (unnecessary part protruding from the image forming area) by the eraser 20. The color developing unit 15 that performs development with toner attaches toner to form a visible image. At this time, the density of the image can be adjusted by changing the developing bias potential.

  On the other hand, one of the calling roller 25 and the three paper supply rollers 26 is driven by turning on a paper supply clutch that can selectively take out the drive of a main motor (not shown) to a preselected paper supply stage (described later). The set recording paper is fed toward the stopped registration roller pair 27. A registration sensor 28 is disposed in front of the registration roller pair 27. The registration sensor 28 is, for example, a reflection type photosensor, and is turned on when the leading edge of the recording paper reaches the opposite position. Then, after a predetermined time has elapsed, the paper feeding clutch is returned to the OFF state, and the recording paper being conveyed is stopped.

  The timing for turning off the paper feed clutch is set longer than the time during which the recording paper is conveyed between the registration sensor 28 and the registration roller pair 27. Accordingly, the leading edge of the recording paper is abutted against the pair of registration rollers 27, and the recording paper stands by in a state where the leading edge is bent to prevent skew and the like. Thereafter, the registration clutch is turned ON at a timing in accordance with the leading edge of the image on the photosensitive drum 12, and the registration roller pair 27 is driven to rotate, whereby the standby recording paper is conveyed again toward the transfer unit. .

  When the recording paper reaches the transfer portion, the toner image on the photosensitive drum 12 is transferred onto the paper surface by the action of the transfer charger 18, and then on the paper surface by the action of the separation charger 19 held integrally with the transfer charger 18. Then, the recording paper is separated from the surface of the photosensitive member by the separation claw 29.

  Next, the recording paper is fed to the fixing unit by the conveying belt 30 stretched by two rollers, and the toner image is thermally fixed by the fixing roller 31. After that, if the single-side mode is selected as the copy mode, the switching claw 32 By switching, the sheet is fed into the lower sheet refeeding conveyance path 33.

  The residual toner on the photosensitive drum 12 after the image transfer is removed by the cleaning brush 21a and the cleaning blade 21b constituting the cleaning unit 21 and recovered in the toner recovery tank 21c. The surface is exposed to the front by the charge eliminating lamp 16.

  By the way, this copying machine is detachably equipped with three paper feed cassettes 34 to 36 in which recording papers of different sizes are set as ordinary paper feed cassettes capable of storing only recording papers of a specific size. Also provided is a manual feed table (manual feed tray) 37 on which recording paper that is not stored in any paper feed cassette, that is, recording paper of an unspecified size can be set.

  When copying using recording paper stored in any of the paper cassettes 34 to 36, the cassette size is selected by a size selection key on an operation panel (not shown), and then the copy start key is pressed. Thus, the recording paper is fed from the paper feed cassette.

  Reference numerals 38a to 38c denote size detection sensors for detecting the size of each storage sheet in each of the paper feed cassettes 34 to 36. For example, five photo interrupters are used. In addition, a light-shielding plate for size identification (not shown) is attached to the front end of each of the paper feed cassettes 34 to 36. The light shielding plate has a notch that varies depending on the size of the recording paper to be stored in the cassette.

  When the paper feed cassettes 34 to 36 are mounted, the size detection sensors 38a to 38c are configured so that only the photo interrupter sandwiching the light shielding portion of the light shielding plate blocks the optical path. Can be output. The control unit is a CPU or the like. On the other hand, when copying using recording paper of an unspecified size, the manual feed table 37 is opened from the closed state indicated by the phantom line in the direction indicated by arrow A to the use state indicated by the solid line, and then the desired surface is displayed on the upper surface. By setting the recording paper and pressing the copy start key, the recording paper is fed from the manual feed table 37.

  When the manual feed table 37 is rotated in the opening direction, the bottom plate raising arm 39 that has lifted the recording paper placement bottom plate provided in the first paper feed cassette 34 is lowered in conjunction therewith. An open / close detection sensor (not shown) for detecting opening / closing of the manual feed table 37 is installed at a position facing the manual feed table 37 of the copying machine.

1 is a block diagram illustrating a schematic circuit configuration of an image forming apparatus according to an embodiment. It is a figure which shows the 1st test output result in a present Example. It is a figure which shows the 2nd test output result in a present Example. FIG. 3 is a block diagram illustrating a circuit configuration for obtaining an internal signal output of an image processing calculation (color determination block) in an automatic color document determination unit of the image forming apparatus according to the present exemplary embodiment. 1 is a configuration cross-sectional view of an image processing apparatus to which the present embodiment is applied.

Explanation of symbols

100 Server 101 PC terminal 102 Mass storage device 110 Controller 111 ROM
112 Memory for storing various data 113 Control ASIC
114 CPU
116 NVRAM
117 Power supply control means 118 Network I / F
120 Engine part 121 Image processing part 122 ASIC
123 CPU
124 ROM
130 Operation unit 140 Scanner 150 Plotter 160 ADF
170 PSU
180 FAX control unit 181 CPU
182 ROM
183 ASIC
184 Volatile memory 185 NCU
201 PC
202 Mass storage device 211 Image processing operation A (color judgment block)
212 Image processing operation B
213 Selector A
214 Image processing arithmetic internal data selector A
215 Selector B

Claims (6)

A removable image output I / F separate from the image output I / F normally provided in the image forming apparatus,
Select and output image data in the middle of or after completion of image processing to generate desired image output data, and an image reference signal indicating the calculation execution position of an image data signal composed of the image data to an arbitrary output destination Means to enable;
An image forming apparatus comprising:   An output mode for outputting fixed data composed of the operation result to an arbitrary output destination when an operation result of an operation circuit that executes an image processing operation for generating the desired image output data matches a specific condition The image forming apparatus according to claim 1, further comprising:   When an operation result of an operation circuit that executes an image processing operation for generating the desired image output data matches a specific condition, an output value is changed based on the operation result for each specific condition. The image forming apparatus according to claim 1, wherein:   Using or detachable image output I / F provided separately from the image output I / F normally provided in the image forming apparatus, the image processing calculation for generating desired image output data is completed or completed. An image forming method comprising: a step of selecting and outputting image data and an image reference signal indicating a calculation execution position of an image data signal composed of the image data to an arbitrary output destination.   When the calculation result of the calculation circuit that executes the image processing calculation for generating the desired image output data matches a specific condition, the calculation result is determined by the fixed data output mode provided in the image forming apparatus. 5. The image forming method according to claim 4, further comprising a step of outputting the fixed data to an arbitrary output destination.   A step of changing an output value based on the calculation result for each specific condition when a calculation result of an arithmetic circuit for executing the image processing calculation for generating the desired image output data matches the specific condition. The image forming method according to claim 4 or 5, further comprising:

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